/* CallWeaver -- An open source telephony toolkit. * vim:tabstop=8:softtabstop=4:shiftwidth=4 * * Copyright (C) 1999 - 2005, Digium, Inc. * * Mark Spencer * * See http://www.callweaver.org for more information about * the CallWeaver project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ /*! * \file * \brief Implementation of Session Initiation Protocol * * Implementation of RFC 3261 - without S/MIME support * Configuration file \link Config_sip sip.conf \endlink * * \todo Better support of forking */ #ifdef HAVE_CONFIG_H #include "confdefs.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "callweaver.h" CALLWEAVER_FILE_VERSION("$HeadURL$", "$Revision$") #include "callweaver/lock.h" #include "callweaver/channel.h" #include "callweaver/config.h" #include "callweaver/logger.h" #include "callweaver/module.h" #include "callweaver/pbx.h" #include "callweaver/options.h" #include "callweaver/lock.h" #include "callweaver/sched.h" #include "callweaver/io.h" #include "callweaver/udp.h" #include "callweaver/rtp.h" #include "callweaver/udptl.h" //#include "callweaver/tpkt.h" #include "callweaver/acl.h" #include "callweaver/manager.h" #include "callweaver/phone_no_utils.h" #include "callweaver/cli.h" #include "callweaver/app.h" #include "callweaver/musiconhold.h" #include "callweaver/dsp.h" #include "callweaver/features.h" #include "callweaver/acl.h" #include "callweaver/srv.h" #include "callweaver/callweaver_db.h" #include "callweaver/causes.h" #include "callweaver/utils.h" #include "callweaver/file.h" #include "callweaver/cwobj.h" #include "callweaver/dnsmgr.h" #include "callweaver/devicestate.h" #include "callweaver/linkedlists.h" #include "callweaver/localtime.h" #include "callweaver/udpfromto.h" #include "callweaver/stun.h" #ifdef ENABLE_SIP_CALL_LIMIT # warning "Broken SIP call limit enabled" #endif #ifndef DEFAULT_USERAGENT #define DEFAULT_USERAGENT "CallWeaver" #endif #define VIDEO_CODEC_MASK 0x1fc0000 /* Video codecs from H.261 thru CW_FORMAT_MAX_VIDEO */ #ifndef IPTOS_MINCOST #define IPTOS_MINCOST 0x02 #endif #ifdef SIP_TCP_SUPPORT #define OPENSSL_NO_KRB5 /* to prevent compile error */ #include #include #include #include #include #endif /* #define VOCAL_DATA_HACK */ #define SIPDUMPER #define DEFAULT_DEFAULT_EXPIRY 120 #define DEFAULT_MAX_EXPIRY 3600 #define DEFAULT_REGISTRATION_TIMEOUT 20 #define DEFAULT_MAX_FORWARDS "70" #ifdef ENABLE_SRTP #define SRTP_MASTER_LEN 30 #define SRTP_MASTERKEY_LEN 16 #define SRTP_MASTERSALT_LEN (SRTP_MASTER_LEN - SRTP_MASTERKEY_LEN) #define SRTP_MASTER_LEN64 ((SRTP_MASTER_LEN * 8 + 5) / 6 + 1) struct sip_srtp { char *a_crypto; unsigned char local_key[SRTP_MASTER_LEN]; char local_key64[SRTP_MASTER_LEN64]; }; #endif /* guard limit must be larger than guard secs */ /* guard min must be < 1000, and should be >= 250 */ #define EXPIRY_GUARD_SECS 15 /* How long before expiry do we reregister */ #define EXPIRY_GUARD_LIMIT 30 /* Below here, we use EXPIRY_GUARD_PCT instead of EXPIRY_GUARD_SECS */ #define EXPIRY_GUARD_MIN 500 /* This is the minimum guard time applied. If GUARD_PCT turns out to be lower than this, it will use this time instead. This is in milliseconds. */ #define EXPIRY_GUARD_PCT 0.20 /* Percentage of expires timeout to use when below EXPIRY_GUARD_LIMIT */ #define SIP_LEN_CONTACT 256 static int max_expiry = DEFAULT_MAX_EXPIRY; static int default_expiry = DEFAULT_DEFAULT_EXPIRY; #ifndef MAX #define MAX(a,b) ((a) > (b) ? (a) : (b)) #endif #define CALLERID_UNKNOWN "Unknown" #define DEFAULT_MAXMS 2000 /* Must be faster than 2 seconds by default */ #define DEFAULT_FREQ_OK 60 * 1000 /* How often to check for the host to be up */ #define DEFAULT_FREQ_NOTOK 10 * 1000 /* How often to check, if the host is down... */ #define DEFAULT_RFC_TIMER_T1 500 /* Default RTT estimate in ms (RFC3261 requires 500ms) */ #define DEFAULT_RFC_TIMER_T2 4000 /* Default Maximum retransmit interval for non-INVITEs in ms (RFC3261 requires 4s) */ #define DEFAULT_RFC_TIMER_B 64 /* INVITE transaction timeout, in units of T1. Default gives 7 attempts (RFC3261 requires termination after 64*T1 ms) */ static int rfc_timer_b = DEFAULT_RFC_TIMER_B; static int rfc_timer_t1 = DEFAULT_RFC_TIMER_T1; static int rfc_timer_t2 = DEFAULT_RFC_TIMER_T2; #define RFC_TIMER_F 64 /* non-INVITE transaction timeout, in units of T1 (RFC3261 requires termination after 64*T1 ms) */ #define MAX_AUTHTRIES 3 /* Try authentication three times, then fail */ #define DEBUG_READ 0 /* Recieved data */ #define DEBUG_SEND 1 /* Transmit data */ #include "callweaver/generic_jb.h" static struct cw_jb_conf global_jbconf; static const char desc[] = "Session Initiation Protocol (SIP)"; static const char channeltype[] = "SIP"; static const char config[] = "sip.conf"; static const char notify_config[] = "sip_notify.conf"; static void *sipheader_function; static const char *sipheader_func_name = "SIP_HEADER"; static const char *sipheader_func_synopsis = "Gets or sets the specified SIP header"; static const char *sipheader_func_syntax = "SIP_HEADER()"; static const char *sipheader_func_desc = ""; static void *sippeer_function; static const char *sippeer_func_name = "SIPPEER"; static const char *sippeer_func_synopsis = "Gets SIP peer information"; static const char *sippeer_func_syntax = "SIPPEER(peername[, item])"; static const char *sippeer_func_desc = "Valid items are:\n" "- ip (default) The IP address.\n" "- mailbox The configured mailbox.\n" "- context The configured context.\n" "- expire The epoch time of the next expire.\n" "- dynamic Is it dynamic? (yes/no).\n" "- callerid_name The configured Caller ID name.\n" "- callerid_num The configured Caller ID number.\n" "- codecs The configured codecs.\n" "- status Status (if qualify=yes).\n" "- regexten Registration extension\n" #ifdef ENABLE_SIP_CALL_LIMIT "- limit Call limit (call-limit)\n" "- curcalls Current amount of calls \n" " Only available if call-limit is set\n" #endif "- language Default language for peer\n" "- useragent Current user agent id for peer\n" "- codec[x] Preferred codec index number 'x' (beginning with zero).\n" "\n"; static void *sippeervar_function; static const char *sippeervar_func_name = "SIPPEERVAR"; static const char *sippeervar_func_synopsis = "Gets SIP peer variable"; static const char *sippeervar_func_syntax = "SIPPEERVAR(peername, varname)"; static const char *sippeervar_func_desc = "Returns the value of varname as specified for the peer in its configuration.\n" "\n"; static void *sipchaninfo_function; static const char *sipchaninfo_func_name = "SIPCHANINFO"; static const char *sipchaninfo_func_synopsis = "Gets the specified SIP parameter from the current channel"; static const char *sipchaninfo_func_syntax = "SIPCHANINFO(item)"; static const char *sipchaninfo_func_desc = "Valid items are:\n" "- peerip The IP address of the peer.\n" "- recvip The source IP address of the peer.\n" "- from The URI from the From: header.\n" "- uri The URI from the Contact: header.\n" "- useragent The useragent.\n" "- peername The name of the peer.\n"; static void *sipbuilddial_function; static const char *sipbuilddial_func_name = "SIP_BUILD_DIAL"; static const char *sipbuilddial_func_synopsis = "Build SIP Dial String using "; static const char *sipbuilddial_func_syntax = "SIP_BUILD_DIAL()"; static const char *sipbuilddial_func_desc = ""; static void *checksipdomain_function; static const char *checksipdomain_func_name = "CHECKSIPDOMAIN"; static const char *checksipdomain_func_synopsis = "Checks if domain is a local domain"; static const char *checksipdomain_func_syntax = "CHECKSIPDOMAIN()"; static const char *checksipdomain_func_desc = "This function checks if the domain in the argument is configured\n" "as a local SIP domain that this CallWeaver server is configured to handle.\n" "Returns the domain name if it is locally handled, otherwise an empty string.\n" "Check the domain= configuration in sip.conf\n"; #define RTP 1 #define NO_RTP 0 /* Do _NOT_ make any changes to this enum, or the array following it; if you think you are doing the right thing, you are probably not doing the right thing. If you think there are changes needed, get someone else to review them first _before_ submitting a patch. If these two lists do not match properly bad things will happen. */ enum subscriptiontype { NONE = 0, TIMEOUT, XPIDF_XML, DIALOG_INFO_XML, CPIM_PIDF_XML, PIDF_XML, MWI_NOTIFICATION }; static const struct cfsubscription_types { enum subscriptiontype type; const char * const event; const char * const mediatype; const char * const text; } subscription_types[] = { { NONE, "-", "unknown", "unknown" }, /* IETF draft: draft-ietf-sipping-dialog-package-05.txt */ { DIALOG_INFO_XML, "dialog", "application/dialog-info+xml", "dialog-info+xml" }, { CPIM_PIDF_XML, "presence", "application/cpim-pidf+xml", "cpim-pidf+xml" }, /* RFC 3863 */ { PIDF_XML, "presence", "application/pidf+xml", "pidf+xml" }, /* RFC 3863 */ { XPIDF_XML, "presence", "application/xpidf+xml", "xpidf+xml" }, /* Pre-RFC 3863 with MS additions */ { MWI_NOTIFICATION,"message-summary", "application/simple-message-summary", "mwi" } /* RFC 3842: Mailbox notification */ }; enum sipmethod { SIP_UNKNOWN, SIP_RESPONSE, SIP_REGISTER, SIP_OPTIONS, SIP_NOTIFY, SIP_INVITE, SIP_ACK, SIP_PRACK, SIP_BYE, SIP_REFER, SIP_SUBSCRIBE, SIP_MESSAGE, SIP_UPDATE, SIP_INFO, SIP_CANCEL, SIP_PUBLISH, } sip_method_list; enum sip_auth_type { PROXY_AUTH, WWW_AUTH, }; static const struct cfsip_methods { enum sipmethod id; int need_rtp; /*!< when this is the 'primary' use for a pvt structure, does it need RTP? */ char * const text; int can_create; } sip_methods[] = { { SIP_UNKNOWN, RTP, "-UNKNOWN-", 2 }, { SIP_RESPONSE, NO_RTP, "SIP/2.0", 0 }, { SIP_REGISTER, NO_RTP, "REGISTER", 1 }, { SIP_OPTIONS, NO_RTP, "OPTIONS", 1 }, { SIP_NOTIFY, NO_RTP, "NOTIFY", 2 }, { SIP_INVITE, RTP, "INVITE", 1 }, { SIP_ACK, NO_RTP, "ACK", 0 }, { SIP_PRACK, NO_RTP, "PRACK", 2 }, { SIP_BYE, NO_RTP, "BYE", 0 }, { SIP_REFER, NO_RTP, "REFER", 2 }, { SIP_SUBSCRIBE, NO_RTP, "SUBSCRIBE", 1 }, { SIP_MESSAGE, NO_RTP, "MESSAGE", 1 }, { SIP_UPDATE, NO_RTP, "UPDATE", 0 }, { SIP_INFO, NO_RTP, "INFO", 0 }, { SIP_CANCEL, NO_RTP, "CANCEL", 0 }, { SIP_PUBLISH, NO_RTP, "PUBLISH", 1 } }; /*! \brief Structure for conversion between compressed SIP and "normal" SIP */ static const struct cfalias { char * const fullname; char * const shortname; } aliases[] = { { "Content-Type", "c" }, { "Content-Encoding", "e" }, { "From", "f" }, { "Call-ID", "i" }, { "Contact", "m" }, { "Content-Length", "l" }, { "Subject", "s" }, { "To", "t" }, { "Supported", "k" }, { "Refer-To", "r" }, { "Referred-By", "b" }, { "Allow-Events", "u" }, { "Event", "o" }, { "Via", "v" }, { "Accept-Contact", "a" }, { "Reject-Contact", "j" }, { "Request-Disposition", "d" }, { "Session-Expires", "x" }, }; /*! Define SIP option tags, used in Require: and Supported: headers We need to be aware of these properties in the phones to use the replace: header. We should not do that without knowing that the other end supports it... This is nothing we can configure, we learn by the dialog Supported: header on the REGISTER (peer) or the INVITE (other devices) We are not using many of these today, but will in the future. This is documented in RFC 3261 */ #define SUPPORTED 1 #define NOT_SUPPORTED 0 #define SIP_OPT_REPLACES (1 << 0) #define SIP_OPT_100REL (1 << 1) #define SIP_OPT_TIMER (1 << 2) #define SIP_OPT_EARLY_SESSION (1 << 3) #define SIP_OPT_JOIN (1 << 4) #define SIP_OPT_PATH (1 << 5) #define SIP_OPT_PREF (1 << 6) #define SIP_OPT_PRECONDITION (1 << 7) #define SIP_OPT_PRIVACY (1 << 8) #define SIP_OPT_SDP_ANAT (1 << 9) #define SIP_OPT_SEC_AGREE (1 << 10) #define SIP_OPT_EVENTLIST (1 << 11) #define SIP_OPT_GRUU (1 << 12) #define SIP_OPT_TARGET_DIALOG (1 << 13) /*! \brief List of well-known SIP options. If we get this in a require, we should check the list and answer accordingly. */ static const struct cfsip_options { int id; /*!< Bitmap ID */ int supported; /*!< Supported by CallWeaver ? */ char * const text; /*!< Text id, as in standard */ } sip_options[] = { /* Replaces: header for transfer */ { SIP_OPT_REPLACES, SUPPORTED, "replaces" }, /* RFC3262: PRACK 100% reliability */ { SIP_OPT_100REL, NOT_SUPPORTED, "100rel" }, /* SIP Session Timers */ { SIP_OPT_TIMER, NOT_SUPPORTED, "timer" }, /* RFC3959: SIP Early session support */ { SIP_OPT_EARLY_SESSION, NOT_SUPPORTED, "early-session" }, /* SIP Join header support */ { SIP_OPT_JOIN, NOT_SUPPORTED, "join" }, /* RFC3327: Path support */ { SIP_OPT_PATH, NOT_SUPPORTED, "path" }, /* RFC3840: Callee preferences */ { SIP_OPT_PREF, NOT_SUPPORTED, "pref" }, /* RFC3312: Precondition support */ { SIP_OPT_PRECONDITION, NOT_SUPPORTED, "precondition" }, /* RFC3323: Privacy with proxies*/ { SIP_OPT_PRIVACY, NOT_SUPPORTED, "privacy" }, /* RFC4092: Usage of the SDP ANAT Semantics in the SIP */ { SIP_OPT_SDP_ANAT, NOT_SUPPORTED, "sdp-anat" }, /* RFC3329: Security agreement mechanism */ { SIP_OPT_SEC_AGREE, NOT_SUPPORTED, "sec_agree" }, /* SIMPLE events: draft-ietf-simple-event-list-07.txt */ { SIP_OPT_EVENTLIST, NOT_SUPPORTED, "eventlist" }, /* GRUU: Globally Routable User Agent URI's */ { SIP_OPT_GRUU, NOT_SUPPORTED, "gruu" }, /* Target-dialog: draft-ietf-sip-target-dialog-00.txt */ { SIP_OPT_TARGET_DIALOG,NOT_SUPPORTED, "target-dialog" }, }; /*! \brief SIP Methods we support */ #define ALLOWED_METHODS "INVITE, ACK, CANCEL, OPTIONS, BYE, REFER, SUBSCRIBE, NOTIFY" /*! \brief SIP Extensions we support */ #define SUPPORTED_EXTENSIONS "replaces" #define DEFAULT_SIP_PORT 5060 /*!< From RFC 3261 (former 2543) */ #define SIP_MAX_PACKET 4096 /*!< Also from RFC 3261 (2543), should sub headers tho */ #ifdef SIP_TCP_SUPPORT #define DEFAULT_TRANSPORT "UDP" #endif static char default_useragent[CW_MAX_EXTENSION] = DEFAULT_USERAGENT; #define DEFAULT_CONTEXT "default" static char default_context[CW_MAX_CONTEXT] = DEFAULT_CONTEXT; static char default_subscribecontext[CW_MAX_CONTEXT]; #define DEFAULT_VMEXTEN "callweaver" static char global_vmexten[CW_MAX_EXTENSION] = DEFAULT_VMEXTEN; static char default_language[MAX_LANGUAGE] = ""; #define DEFAULT_CALLERID "callweaver" static char default_callerid[CW_MAX_EXTENSION] = DEFAULT_CALLERID; static char default_fromdomain[CW_MAX_EXTENSION] = ""; #define DEFAULT_NOTIFYMIME "application/simple-message-summary" static char default_notifymime[CW_MAX_EXTENSION] = DEFAULT_NOTIFYMIME; static int global_notifyringing = 1; /*!< Send notifications on ringing */ static int global_alwaysauthreject = 0; /*!< Send 401 Unauthorized for all failing requests */ static int default_qualify = 0; /*!< Default Qualify= setting */ static struct cw_flags global_flags = {0}; /*!< global SIP_ flags */ static struct cw_flags global_flags_page2 = {0}; /*!< more global SIP_ flags */ static int srvlookup = 0; /*!< SRV Lookup on or off. Default is off, RFC behavior is on */ static int pedanticsipchecking = 0; /*!< Extra checking ? Default off */ static int autocreatepeer = 0; /*!< Auto creation of peers at registration? Default off. */ static int relaxdtmf = 0; static int global_rtptimeout = 0; static int global_rtpholdtimeout = 0; static int global_rtpkeepalive = 0; static int global_reg_timeout = DEFAULT_REGISTRATION_TIMEOUT; static int global_regattempts_max = 0; /* Object counters */ static int suserobjs = 0; static int ruserobjs = 0; static int speerobjs = 0; static int rpeerobjs = 0; static int apeerobjs = 0; static int regobjs = 0; static int global_allowguest = 1; /*!< allow unauthenticated users/peers to connect? */ #define DEFAULT_MWITIME 10 static int global_mwitime = DEFAULT_MWITIME; /*!< Time between MWI checks for peers */ #ifdef SIP_TCP_SUPPORT #define MAX_PATH_LEN 100 #define DEFAULT_SIP_TLS_PORT 5061 /* From RFC 3261 */ #define DEFAULT_PASSWORD "callweaver" #define DEFAULT_ENTROPY "/dev/urandom" #define CIPHER_LIST "ALL" static char trustcerts_file[MAX_PATH_LEN]; static char servercert_file[MAX_PATH_LEN]; static char serverkey_file[MAX_PATH_LEN]; static char serverkey_password[MAX_PATH_LEN] = DEFAULT_PASSWORD; static char dh512param_file[MAX_PATH_LEN]; static char dh1024param_file[MAX_PATH_LEN]; #endif static int usecnt =0; CW_MUTEX_DEFINE_STATIC(usecnt_lock); CW_MUTEX_DEFINE_STATIC(rand_lock); /*! \brief Protect the interface list (of sip_pvt's) */ CW_MUTEX_DEFINE_STATIC(iflock); /*! \brief Protect the monitoring thread, so only one process can kill or start it, and not when it's doing something critical. */ CW_MUTEX_DEFINE_STATIC(netlock); CW_MUTEX_DEFINE_STATIC(monlock); /*! \brief This is the thread for the monitor which checks for input on the channels which are not currently in use. */ static pthread_t monitor_thread = CW_PTHREADT_NULL; static int restart_monitor(void); /* T.38 channel status */ typedef enum { SIP_T38_OFFER_REJECTED = -1, SIP_T38_STATUS_UNKNOWN = 0, SIP_T38_OFFER_SENT_DIRECT = 1, SIP_T38_OFFER_SENT_REINVITE = 2, SIP_T38_OFFER_RECEIVED_DIRECT = 3, SIP_T38_OFFER_RECEIVED_REINVITE = 4, SIP_T38_NEGOTIATED = 5 } sip_t38_status_t; /* T.38 set of flags */ #define T38FAX_FILL_BIT_REMOVAL (1 << 0) /*!< Default: 0 (unset)*/ #define T38FAX_TRANSCODING_MMR (1 << 1) /*!< Default: 0 (unset)*/ #define T38FAX_TRANSCODING_JBIG (1 << 2) /*!< Default: 0 (unset)*/ /* Rate management */ #define T38FAX_RATE_MANAGEMENT_TRANSFERED_TCF (0 << 3) #define T38FAX_RATE_MANAGEMENT_LOCAL_TCF (1 << 3) /*!< Unset for transferedTCF (UDPTL), set for localTCF (TPKT) */ /* UDP Error correction */ #define T38FAX_UDP_EC_FEC (1 << 4) /*!< Set for t38UDPFEC */ #define T38FAX_UDP_EC_REDUNDANCY (2 << 4) /*!< Set for t38UDPRedundancy */ /* T38 Spec version */ #define T38FAX_VERSION (3 << 6) /*!< two bits, 2 values so far, up to 4 values max */ #define T38FAX_VERSION_0 (0 << 6) /*!< Version 0 */ #define T38FAX_VERSION_1 (1 << 6) /*!< Version 1 */ /* Maximum Fax Rate */ #define T38FAX_RATE_2400 (1 << 8) /*!< 2400 bps t38FaxRate */ #define T38FAX_RATE_4800 (1 << 9) /*!< 4800 bps t38FaxRate */ #define T38FAX_RATE_7200 (1 << 10) /*!< 7200 bps t38FaxRate */ #define T38FAX_RATE_9600 (1 << 11) /*!< 9600 bps t38FaxRate */ #define T38FAX_RATE_12000 (1 << 12) /*!< 12000 bps t38FaxRate */ #define T38FAX_RATE_14400 (1 << 13) /*!< 14400 bps t38FaxRate */ #define T38FAX_RATE_33600 (1 << 14) /*!< 33600 bps t38FaxRate */ /*! \brief Codecs that we support by default: */ static int global_capability = CW_FORMAT_ULAW | CW_FORMAT_ALAW | CW_FORMAT_GSM | CW_FORMAT_H263; static int noncodeccapability = CW_RTP_DTMF; static int global_t38_capability = T38FAX_VERSION_0 | T38FAX_RATE_2400 | T38FAX_RATE_4800 | T38FAX_RATE_7200 | T38FAX_RATE_9600 | T38FAX_RATE_14400; /* This is default: NO MMR and JBIG trancoding, NO fill bit removal, transfered TCF, UDP FEC, Version 0 and 9600 max fax rate */ static struct in_addr __ourip; static struct sockaddr_in outboundproxyip; static int ourport; #define SIP_DEBUG_CONFIG 1 << 0 #define SIP_DEBUG_CONSOLE 1 << 1 static int sipdebug = 0; static struct sockaddr_in debugaddr; static int tos = 0; static int videosupport = 0; static int t38udptlsupport = 0; static int t38rtpsupport = 0; static int t38tcpsupport = 0; static int compactheaders = 0; /*!< send compact sip headers */ static int recordhistory = 0; /*!< Record SIP history. Off by default */ static int dumphistory = 0; /*!< Dump history to verbose before destroying SIP dialog */ static char global_musicclass[MAX_MUSICCLASS] = ""; /*!< Global music on hold class */ #define DEFAULT_REALM "callweaver.org" static char global_realm[MAXHOSTNAMELEN] = DEFAULT_REALM; /*!< Default realm */ static char regcontext[CW_MAX_CONTEXT] = ""; /*!< Context for auto-extensions */ #define DEFAULT_EXPIRY 900 /*!< Expire slowly */ static int expiry = DEFAULT_EXPIRY; static struct sched_context *sched; static struct io_context *io; static int *sipsock_read_id; #ifdef SIP_TCP_SUPPORT static int *siptcpsock_read_id; static int *siptlssock_read_id; #endif #define SIP_MAX_HEADERS 64 /*!< Max amount of SIP headers to read */ #define SIP_MAX_LINES 64 /*!< Max amount of lines in SIP attachment (like SDP) */ #define SIP_MAX_LINE_LEN 1024 #define DEC_CALL_LIMIT 0 #define INC_CALL_LIMIT 1 static struct cw_codec_pref prefs; #define STUN_DEV_DEBUG 1 #define SIP_DL_DONTCARE 0 #define SIP_DL_HEAD_CONTENTLENGHT 1 #define SIP_DL_HEAD_CONTACT 2 #define SIP_DL_HEAD_VIA 3 #define SIP_DL_HEAD_CALLID 4 #define SIP_DL_HEAD_FROM 5 #define SIP_DL_HEAD_TO 6 #define SIP_DL_SDP_O 20 #define SIP_DL_SDP_C 21 #define SIP_DL_SDP_M_AUDIO 22 #define SIP_DL_SDP_M_VIDEO 23 #define SIP_DL_SDP_M_T38 24 struct sip_data_line { char content[SIP_MAX_LINE_LEN]; short int type; struct sip_data_line * next; }; /*! \brief sip_request: The data grabbed from the UDP socket */ struct sip_request { char *rlPart1; /*!< SIP Method Name or "SIP/2.0" protocol version */ char *rlPart2; /*!< The Request URI or Response Status */ int len; /*!< Length */ int headers; /*!< # of SIP Headers */ int method; /*!< Method of this request */ char *header[SIP_MAX_HEADERS]; int lines; /*!< Body Content */ char *line[SIP_MAX_LINES]; char data[SIP_MAX_PACKET]; int debug; /*!< Debug flag for this packet */ unsigned int flags; /*!< SIP_PKT Flags for this packet */ unsigned int sdp_start; /*!< the line number where the SDP begins */ unsigned int sdp_end; /*!< the line number where the SDP ends */ /* ******* stun rework of request ******** */ struct sip_data_line *head_lines; struct sip_data_line *sdp_lines; }; struct sip_pkt; /*! \brief Parameters to the transmit_invite function */ struct sip_invite_param { char *distinctive_ring; /*!< Distinctive ring header */ char *osptoken; /*!< OSP token for this call */ int addsipheaders; /*!< Add extra SIP headers */ char *uri_options; /*!< URI options to add to the URI */ char *vxml_url; /*!< VXML url for Cisco phones */ char *auth; /*!< Authentication */ char *authheader; /*!< Auth header */ enum sip_auth_type auth_type; /*!< Authentication type */ int t38txdetection; /*!< Detect outgoing fax CNG */ }; struct sip_route { struct sip_route *next; char hop[0]; }; enum domain_mode { SIP_DOMAIN_AUTO, /*!< This domain is auto-configured */ SIP_DOMAIN_CONFIG, /*!< This domain is from configuration */ }; struct domain { char domain[MAXHOSTNAMELEN]; /*!< SIP domain we are responsible for */ char context[CW_MAX_EXTENSION]; /*!< Incoming context for this domain */ enum domain_mode mode; /*!< How did we find this domain? */ CW_LIST_ENTRY(domain) list; /*!< List mechanics */ }; static CW_LIST_HEAD_STATIC(domain_list, domain); /*!< The SIP domain list */ int allow_external_domains; /*!< Accept calls to external SIP domains? */ /*! \brief sip_history: Structure for saving transactions within a SIP dialog */ struct sip_history { char event[80]; struct sip_history *next; }; /*! \brief sip_auth: Creadentials for authentication to other SIP services */ struct sip_auth { char realm[CW_MAX_EXTENSION]; /*!< Realm in which these credentials are valid */ char username[256]; /*!< Username */ char secret[256]; /*!< Secret */ char md5secret[256]; /*!< MD5Secret */ struct sip_auth *next; /*!< Next auth structure in list */ }; #define SIP_ALREADYGONE (1 << 0) /*!< Whether or not we've already been destroyed by our peer */ #define SIP_NEEDDESTROY (1 << 1) /*!< if we need to be destroyed */ #define SIP_NOVIDEO (1 << 2) /*!< Didn't get video in invite, don't offer */ #define SIP_RINGING (1 << 3) /*!< Have sent 180 ringing */ #define SIP_PROGRESS_SENT (1 << 4) /*!< Have sent 183 message progress */ #define SIP_NEEDREINVITE (1 << 5) /*!< Do we need to send another reinvite? */ #define SIP_PENDINGBYE (1 << 6) /*!< Need to send bye after we ack? */ #define SIP_GOTREFER (1 << 7) /*!< Got a refer? */ #define SIP_PROMISCREDIR (1 << 8) /*!< Promiscuous redirection */ #define SIP_TRUSTRPID (1 << 9) /*!< Trust RPID headers? */ #define SIP_USEREQPHONE (1 << 10) /*!< Add user=phone to numeric URI. Default off */ #define SIP_REALTIME (1 << 11) /*!< Flag for realtime users */ #define SIP_USECLIENTCODE (1 << 12) /*!< Trust X-ClientCode info message */ #define SIP_OUTGOING (1 << 13) /*!< Is this an outgoing call? */ #define SIP_SELFDESTRUCT (1 << 14) #define SIP_CAN_BYE (1 << 15) /*!< Can we send BYE for this dialog? */ /* --- Choices for DTMF support in SIP channel */ #define SIP_DTMF (3 << 16) /*!< three settings, uses two bits */ #define SIP_DTMF_RFC2833 (0 << 16) /*!< RTP DTMF */ #define SIP_DTMF_INBAND (1 << 16) /*!< Inband audio, only for ULAW/ALAW */ #define SIP_DTMF_INFO (2 << 16) /*!< SIP Info messages */ #define SIP_DTMF_AUTO (3 << 16) /*!< AUTO switch between rfc2833 and in-band DTMF */ /* NAT settings */ #define SIP_NAT (3 << 18) /*!< four settings, uses two bits */ #define SIP_NAT_NEVER (0 << 18) /*!< No nat support */ #define SIP_NAT_RFC3581 (1 << 18) #define SIP_NAT_ROUTE (2 << 18) #define SIP_NAT_ALWAYS (3 << 18) /* re-INVITE related settings */ #define SIP_REINVITE (3 << 20) /*!< two bits used */ #define SIP_CAN_REINVITE (1 << 20) /*!< allow peers to be reinvited to send media directly p2p */ #define SIP_REINVITE_UPDATE (2 << 20) /*!< use UPDATE (RFC3311) when reinviting this peer */ /* "insecure" settings */ #define SIP_INSECURE_PORT (1 << 22) /*!< don't require matching port for incoming requests */ #define SIP_INSECURE_INVITE (1 << 23) /*!< don't require authentication for incoming INVITEs */ /* Sending PROGRESS in-band settings */ #define SIP_PROG_INBAND (3 << 24) /*!< three settings, uses two bits */ #define SIP_PROG_INBAND_NEVER (0 << 24) #define SIP_PROG_INBAND_NO (1 << 24) #define SIP_PROG_INBAND_YES (2 << 24) /* Open Settlement Protocol authentication */ #define SIP_OSPAUTH (3 << 26) /*!< four settings, uses two bits */ #define SIP_OSPAUTH_NO (0 << 26) #define SIP_OSPAUTH_GATEWAY (1 << 26) #define SIP_OSPAUTH_PROXY (2 << 26) #define SIP_OSPAUTH_EXCLUSIVE (3 << 26) /* Call states */ #define SIP_CALL_ONHOLD (1 << 28) #define SIP_CALL_LIMIT (1 << 29) /* Remote Party-ID Support */ #define SIP_SENDRPID (1 << 30) /* Did this connection increment the counter of in-use calls? */ #define SIP_INC_COUNT (1 << 31) #define SIP_FLAGS_TO_COPY \ (SIP_PROMISCREDIR | SIP_TRUSTRPID | SIP_SENDRPID | SIP_DTMF | SIP_REINVITE | \ SIP_PROG_INBAND | SIP_OSPAUTH | SIP_USECLIENTCODE | SIP_NAT | \ SIP_INSECURE_PORT | SIP_INSECURE_INVITE) /* a new page of flags for peer */ #define SIP_PAGE2_RTCACHEFRIENDS (1 << 0) #define SIP_PAGE2_RTUPDATE (1 << 1) #define SIP_PAGE2_RTAUTOCLEAR (1 << 2) #define SIP_PAGE2_IGNOREREGEXPIRE (1 << 3) #define SIP_PAGE2_RT_FROMCONTACT (1 << 4) #define SIP_PAGE2_DYNAMIC (1 << 5) /*!< Is this a dynamic peer? */ #define SIP_PAGE2_SUBSCRIBEMWIONLY (1 << 6) /*!< Only issue MWI notification if subscribed */ /* SIP packet flags */ #define SIP_PKT_DEBUG (1 << 0) /*!< Debug this packet */ #define SIP_PKT_WITH_TOTAG (1 << 1) /*!< This packet has a to-tag */ static int global_rtautoclear = 120; /*! \brief sip_pvt: PVT structures are used for each SIP conversation, ie. a call */ static struct sip_pvt { cw_mutex_t lock; /*!< Channel private lock */ int method; /*!< SIP method of this packet */ char callid[80]; /*!< Global CallID */ char randdata[80]; /*!< Random data */ struct cw_codec_pref prefs; /*!< codec prefs */ unsigned int ocseq; /*!< Current outgoing seqno */ unsigned int icseq; /*!< Current incoming seqno */ cw_group_t callgroup; /*!< Call group */ cw_group_t pickupgroup; /*!< Pickup group */ int lastinvite; /*!< Last Cseq of invite */ unsigned int flags; /*!< SIP_ flags */ int timer_t1; /*!< SIP timer T1, ms rtt */ unsigned int sipoptions; /*!< Supported SIP sipoptions on the other end */ int capability; /*!< Special capability (codec) */ int jointcapability; /*!< Supported capability at both ends (codecs ) */ int peercapability; /*!< Supported peer capability */ int prefcodec; /*!< Preferred codec (outbound only) */ int noncodeccapability; int callingpres; /*!< Calling presentation */ int authtries; /*!< Times we've tried to authenticate */ int expiry; /*!< How long we take to expire */ int branch; /*!< One random number */ char tag[11]; /*!< Another random number */ int sessionid; /*!< SDP Session ID */ int sessionversion; /*!< SDP Session Version */ struct sockaddr_in sa; /*!< Our peer */ struct sockaddr_in redirip; /*!< Where our RTP should be going if not to us */ struct sockaddr_in vredirip; /*!< Where our Video RTP should be going if not to us */ int redircodecs; /*!< Redirect codecs */ struct sockaddr_in recv; /*!< Received as */ struct in_addr ourip; /*!< Our IP */ #ifdef SIP_TCP_SUPPORT SSL *ssl; /* SSL object for TLS connection */ int sockfd; /* socket fd used by this SIP channel*/ char transport[4]; /* transport protocol: UDP, TCP or TLS */ #endif struct cw_channel *owner; /*!< Who owns us */ char exten[CW_MAX_EXTENSION]; /*!< Extension where to start */ char refer_to[CW_MAX_EXTENSION]; /*!< Place to store REFER-TO extension */ char referred_by[CW_MAX_EXTENSION]; /*!< Place to store REFERRED-BY extension */ char refer_contact[CW_MAX_EXTENSION]; /*!< Place to store Contact info from a REFER extension */ struct sip_pvt *refer_call; /*!< Call we are referring */ struct sip_route *route; /*!< Head of linked list of routing steps (fm Record-Route) */ int route_persistant; /*!< Is this the "real" route? */ char from[256]; /*!< The From: header */ char useragent[256]; /*!< User agent in SIP request */ char context[CW_MAX_CONTEXT]; /*!< Context for this call */ char subscribecontext[CW_MAX_CONTEXT]; /*!< Subscribecontext */ char fromdomain[MAXHOSTNAMELEN]; /*!< Domain to show in the from field */ char fromuser[CW_MAX_EXTENSION]; /*!< User to show in the user field */ char fromname[CW_MAX_EXTENSION]; /*!< Name to show in the user field */ char tohost[MAXHOSTNAMELEN]; /*!< Host we should put in the "to" field */ char language[MAX_LANGUAGE]; /*!< Default language for this call */ char musicclass[MAX_MUSICCLASS]; /*!< Music on Hold class */ char rdnis[256]; /*!< Referring DNIS */ char theirtag[256]; /*!< Their tag */ char username[256]; /*!< [user] name */ char peername[256]; /*!< [peer] name, not set if [user] */ char authname[256]; /*!< Who we use for authentication */ char uri[256]; /*!< Original requested URI */ char okcontacturi[256]; /*!< URI from the 200 OK on INVITE */ char peersecret[256]; /*!< Password */ char peermd5secret[256]; struct sip_auth *peerauth; /*!< Realm authentication */ char cid_num[256]; /*!< Caller*ID */ char cid_name[256]; /*!< Caller*ID */ char via[256]; /*!< Via: header */ char fullcontact[128]; /*!< The Contact: that the UA registers with us */ char accountcode[CW_MAX_ACCOUNT_CODE]; /*!< Account code */ char our_contact[256]; /*!< Our contact header */ char *rpid; /*!< Our RPID header */ char *rpid_from; /*!< Our RPID From header */ char realm[MAXHOSTNAMELEN]; /*!< Authorization realm */ char nonce[256]; /*!< Authorization nonce */ int noncecount; /*!< Nonce-count */ char opaque[256]; /*!< Opaque nonsense */ char qop[80]; /*!< Quality of Protection, since SIP wasn't complicated enough yet. */ char domain[MAXHOSTNAMELEN]; /*!< Authorization domain */ char lastmsg[256]; /*!< Last Message sent/received */ int amaflags; /*!< AMA Flags */ int pendinginvite; /*!< Any pending invite */ struct sip_request initreq; /*!< Initial request */ int maxtime; /*!< Max time for first response */ int initid; /*!< Auto-congest ID if appropriate */ int autokillid; /*!< Auto-kill ID */ time_t lastrtprx; /*!< Last RTP received */ time_t lastrtptx; /*!< Last RTP sent */ int rtptimeout; /*!< RTP timeout time */ int rtpholdtimeout; /*!< RTP timeout when on hold */ int rtpkeepalive; /*!< Send RTP packets for keepalive */ enum subscriptiontype subscribed; /*!< Is this call a subscription? */ int stateid; int laststate; /*!< Last known extension state */ int dialogver; struct cw_dsp *vad; /*!< Voice Activation Detection dsp */ struct sip_peer *peerpoke; /*!< If this calls is to poke a peer, which one */ struct sip_peer *mwipeer; /*!< If we have a MWI subscription, which peer */ struct sip_registry *registry; /*!< If this is a REGISTER call, to which registry */ struct cw_rtp *rtp; /*!< RTP Session */ struct cw_rtp *vrtp; /*!< Video RTP session */ struct sip_pkt *packets; /*!< Packets scheduled for re-transmission */ struct sip_history *history; /*!< History of this SIP dialog */ size_t history_entries; /*!< Number of entires in the history */ struct cw_variable *chanvars; /*!< Channel variables to set for call */ struct sip_pvt *next; /*!< Next call in chain */ struct sip_invite_param *options; /*!< Options for INVITE */ #ifdef ENABLE_SRTP struct sip_srtp *srtp; #endif struct cw_jb_conf jbconf; char ruri[256]; /*!< REAL Original requested URI */ //struct cw_tpkt *tpkt; /*!< T.38 TPKT session */ struct cw_udptl *udptl; /*!< T.38 UDPTL session */ int t38capability; /*!< Our T38 capability */ int t38peercapability; /*!< Peers T38 capability */ int t38jointcapability; /*!< Supported T38 capability at both ends */ sip_t38_status_t t38state; /*!< T.38 state : 0 - not enabled, 1 - offered from local - direct, 2 - offered from local - reinvite, 3 - offered from peer - direct, 4 - offered from peer - reinvite, 5 - negotiated (enabled) */ struct sockaddr_in udptlredirip; /*!< Where our T.38 UDPTL should be going if not to us */ struct cw_dsp *vadtx; /*!< Voice Activation Detection dsp on TX */ int udptl_active; /*!< */ int stun_needed; /*!< Did we request STUN for this call ? */ int ourport; /*!< Our port seen from stun*/ int stun_resreq_id; int stun_retrans_no; stun_trans_id stun_transid; } *iflist = NULL; #define STUN_WAIT_RETRY_TIME 100 /*!< ms to wait between every sip packet check for transmission*/ #define STUN_MAX_RETRANSMIT 4*1000/STUN_WAIT_RETRY_TIME /*!< max retrans for a packet before giving up. RFC says 9.5 secs, we use 4 secs */ /* This structure saves all data we need to retransmit a request after we have received stun response */ struct sip_reqresp { int type; struct sip_pvt *p; char callid[80]; struct sip_request req; int reliable; int seqno; struct stun_request *streq; }; /*! Max entires in the history list for a sip_pvt */ #define MAX_HISTORY_ENTRIES 50 #define FLAG_RESPONSE (1 << 0) #define FLAG_FATAL (1 << 1) /*! \brief sip packet - read in sipsock_read, transmitted in send_request */ struct sip_pkt { struct sip_pkt *next; /*!< Next packet */ int method; /*!< SIP method for this packet */ int seqno; /*!< Sequence number */ unsigned int flags; /*!< non-zero if this is a response packet (e.g. 200 OK) */ struct sip_pvt *owner; /*!< Owner call */ int retransid; /*!< Retransmission ID */ int timer_a; /*!< SIP timer A, retransmission timer */ int packetlen; /*!< Length of packet */ char data[0]; }; /*! \brief Structure for SIP user data. User's place calls to us */ struct sip_user { /* Users who can access various contexts */ CWOBJ_COMPONENTS(struct sip_user); char secret[80]; /*!< Password */ char md5secret[80]; /*!< Password in md5 */ char context[CW_MAX_CONTEXT]; /*!< Default context for incoming calls */ char subscribecontext[CW_MAX_CONTEXT]; /* Default context for subscriptions */ char cid_num[80]; /*!< Caller ID num */ char cid_name[80]; /*!< Caller ID name */ char accountcode[CW_MAX_ACCOUNT_CODE]; /* Account code */ char language[MAX_LANGUAGE]; /*!< Default language for this user */ char musicclass[MAX_MUSICCLASS];/*!< Music on Hold class */ char useragent[256]; /*!< User agent in SIP request */ struct cw_codec_pref prefs; /*!< codec prefs */ cw_group_t callgroup; /*!< Call group */ cw_group_t pickupgroup; /*!< Pickup Group */ unsigned int flags; /*!< SIP flags */ unsigned int sipoptions; /*!< Supported SIP options */ struct cw_flags flags_page2; /*!< SIP_PAGE2 flags */ int amaflags; /*!< AMA flags for billing */ int callingpres; /*!< Calling id presentation */ int capability; /*!< Codec capability */ int inUse; /*!< Number of calls in use */ //#ifdef ENABLE_SIP_CALL_LIMIT int call_limit; /*!< Limit of concurrent calls */ //#endif struct cw_ha *ha; /*!< ACL setting */ struct cw_variable *chanvars; /*!< Variables to set for channel created by user */ }; /* Structure for SIP peer data, we place calls to peers if registered or fixed IP address (host) */ struct sip_peer { CWOBJ_COMPONENTS(struct sip_peer); /*!< name, refcount, objflags, object pointers */ /*!< peer->name is the unique name of this object */ char secret[80]; /*!< Password */ char md5secret[80]; /*!< Password in MD5 */ struct sip_auth *auth; /*!< Realm authentication list */ char context[CW_MAX_CONTEXT]; /*!< Default context for incoming calls */ char subscribecontext[CW_MAX_CONTEXT]; /*!< Default context for subscriptions */ char username[80]; /*!< Temporary username until registration */ char accountcode[CW_MAX_ACCOUNT_CODE]; /*!< Account code */ int amaflags; /*!< AMA Flags (for billing) */ char tohost[MAXHOSTNAMELEN]; /*!< If not dynamic, IP address */ char regexten[CW_MAX_EXTENSION]; /*!< Extension to register (if regcontext is used) */ char fromuser[80]; /*!< From: user when calling this peer */ char fromdomain[MAXHOSTNAMELEN]; /*!< From: domain when calling this peer */ char fullcontact[256]; /*!< Contact registered with us (not in sip.conf) */ char cid_num[80]; /*!< Caller ID num */ char cid_name[80]; /*!< Caller ID name */ int callingpres; /*!< Calling id presentation */ int inUse; /*!< Number of calls in use */ //#ifdef ENABLE_SIP_CALL_LIMIT int call_limit; /*!< Limit of concurrent calls */ //#endif char vmexten[CW_MAX_EXTENSION]; /*!< Dialplan extension for MWI notify message*/ char mailbox[CW_MAX_EXTENSION]; /*!< Mailbox setting for MWI checks */ char language[MAX_LANGUAGE]; /*!< Default language for prompts */ char musicclass[MAX_MUSICCLASS];/*!< Music on Hold class */ char useragent[256]; /*!< User agent in SIP request (saved from registration) */ struct cw_codec_pref prefs; /*!< codec prefs */ int lastmsgssent; time_t lastmsgcheck; /*!< Last time we checked for MWI */ unsigned int flags; /*!< SIP flags */ unsigned int sipoptions; /*!< Supported SIP options */ struct cw_flags flags_page2; /*!< SIP_PAGE2 flags */ int expire; /*!< When to expire this peer registration */ int capability; /*!< Codec capability */ int rtptimeout; /*!< RTP timeout */ int rtpholdtimeout; /*!< RTP Hold Timeout */ int rtpkeepalive; /*!< Send RTP packets for keepalive */ cw_group_t callgroup; /*!< Call group */ cw_group_t pickupgroup; /*!< Pickup group */ struct cw_dnsmgr_entry *dnsmgr;/*!< DNS refresh manager for peer */ struct sockaddr_in addr; /*!< IP address of peer */ #ifdef SIP_TCP_SUPPORT SSL *ssl; /* SSL object for TLS connection */ int sockfd; /* Connection socket is saved to here */ char transport[4]; /* transport protocol: UDP, TCP or TLS */ #endif /* Qualification */ struct sip_pvt *call; /*!< Call pointer */ int pokeexpire; /*!< When to expire poke (qualify= checking) */ int lastms; /*!< How long last response took (in ms), or -1 for no response */ int maxms; /*!< Max ms we will accept for the host to be up, 0 to not monitor */ int noanswer; /*!< How many noanswers we have had in a row */ struct timeval ps; /*!< Ping send time */ struct sockaddr_in defaddr; /*!< Default IP address, used until registration */ struct cw_ha *ha; /*!< Access control list */ struct cw_variable *chanvars; /*!< Variables to set for channel created by user */ struct sip_pvt *mwipvt; /*!< Subscription for MWI */ int lastmsg; }; CW_MUTEX_DEFINE_STATIC(sip_reload_lock); static int sip_reloading = 0; /* States for outbound registrations (with register= lines in sip.conf */ #define REG_STATE_UNREGISTERED 0 #define REG_STATE_REGSENT 1 #define REG_STATE_AUTHSENT 2 #define REG_STATE_REGISTERED 3 #define REG_STATE_REJECTED 4 #define REG_STATE_TIMEOUT 5 #define REG_STATE_NOAUTH 6 #define REG_STATE_FAILED 7 /*! \brief sip_registry: Registrations with other SIP proxies */ struct sip_registry { CWOBJ_COMPONENTS_FULL(struct sip_registry,1,1); int portno; /*!< Optional port override */ char username[80]; /*!< Who we are registering as */ char authuser[80]; /*!< Who we *authenticate* as */ char hostname[MAXHOSTNAMELEN]; /*!< Domain or host we register to */ char secret[80]; /*!< Password in clear text */ char md5secret[80]; /*!< Password in md5 */ char contact[256]; /*!< Contact extension */ char random[80]; int expire; /*!< Sched ID of expiration */ int regattempts; /*!< Number of attempts (since the last success) */ int timeout; /*!< sched id of sip_reg_timeout */ int refresh; /*!< How often to refresh */ struct sip_pvt *call; /*!< create a sip_pvt structure for each outbound "registration call" in progress */ int regstate; /*!< Registration state (see above) */ int callid_valid; /*!< 0 means we haven't chosen callid for this registry yet. */ char callid[80]; /*!< Global CallID for this registry */ unsigned int ocseq; /*!< Sequence number we got to for REGISTERs for this registry */ struct sockaddr_in us; /*!< Who the server thinks we are */ /* Saved headers */ char realm[MAXHOSTNAMELEN]; /*!< Authorization realm */ char nonce[256]; /*!< Authorization nonce */ char domain[MAXHOSTNAMELEN]; /*!< Authorization domain */ char opaque[256]; /*!< Opaque nonsense */ char qop[80]; /*!< Quality of Protection. */ int noncecount; /*!< Nonce-count */ char lastmsg[256]; /*!< Last Message sent/received */ }; /*! \brief The user list: Users and friends */ static struct cw_user_list { CWOBJ_CONTAINER_COMPONENTS(struct sip_user); } userl; /*! \brief The peer list: Peers and Friends */ static struct cw_peer_list { CWOBJ_CONTAINER_COMPONENTS(struct sip_peer); } peerl; /*! \brief The register list: Other SIP proxys we register with and call */ static struct cw_register_list { CWOBJ_CONTAINER_COMPONENTS(struct sip_registry); int recheck; } regl; static int __sip_do_register(struct sip_registry *r); static int sipsock = -1; #ifdef SIP_TCP_SUPPORT static int siptcpsock = -1; /* TCP listening socket */ static int siptlssock = -1; /* TLS listening socket */ static SSL_CTX *tlsctx = NULL; /* SSL Context for TLS */ static struct sockaddr_in tlsbindaddr; #endif static struct sockaddr_in bindaddr = { 0, }; static struct sockaddr_in externip; static char externhost[MAXHOSTNAMELEN] = ""; static time_t externexpire = 0; static int externrefresh = 10; static struct cw_ha *localaddr; /* The list of manual NOTIFY types we know how to send */ struct cw_config *notify_types; static struct sip_auth *authl; /*!< Authentication list */ static int transmit_response_using_temp(char *callid, struct sockaddr_in *sin, int useglobal_nat, const int intended_method, struct sip_request *req, char *msg); static int transmit_response(struct sip_pvt *p, char *msg, struct sip_request *req); static int transmit_response_with_sdp(struct sip_pvt *p, char *msg, struct sip_request *req, int retrans); static int transmit_response_with_unsupported(struct sip_pvt *p, char *msg, struct sip_request *req, char *unsupported); static int transmit_response_with_auth(struct sip_pvt *p, char *msg, struct sip_request *req, char *rand, int reliable, char *header, int stale); static int transmit_request(struct sip_pvt *p, int sipmethod, int inc, int reliable, int newbranch); static int transmit_request_with_auth(struct sip_pvt *p, int sipmethod, int inc, int reliable, int newbranch); static int transmit_invite(struct sip_pvt *p, int sipmethod, int sendsdp, int init); static int transmit_reinvite_with_sdp(struct sip_pvt *p); static int transmit_info_with_digit(struct sip_pvt *p, char digit, unsigned int duration); static int transmit_info_with_vidupdate(struct sip_pvt *p); static int transmit_message_with_text(struct sip_pvt *p, const char *text); static int transmit_refer(struct sip_pvt *p, const char *dest); static int sip_sipredirect(struct sip_pvt *p, const char *dest); static struct sip_peer *temp_peer(const char *name); static int do_proxy_auth(struct sip_pvt *p, struct sip_request *req, char *header, char *respheader, int sipmethod, int init); static void free_old_route(struct sip_route *route); static int build_reply_digest(struct sip_pvt *p, int method, char *digest, int digest_len); //#ifdef ENABLE_SIP_CALL_LIMIT static int update_call_counter(struct sip_pvt *fup, int event); //#endif static struct sip_peer *build_peer(const char *name, struct cw_variable *v, int realtime, struct cw_config *cfg); static struct sip_user *build_user(const char *name, struct cw_variable *v, int realtime, struct cw_config *cfg); static int sip_do_reload(void); static int expire_register(void *data); static int callevents = 0; #ifdef SIP_TCP_SUPPORT static int sipsock_read(int *id, int fd, short events, void *ignore); static struct sip_peer *find_peer(const char *peer, struct sockaddr_in *sin, int realtime); #endif static struct cw_channel *sip_request_call(const char *type, int format, void *data, int *cause); static int sip_devicestate(void *data); static int sip_sendtext(struct cw_channel *chan, const char *text); static int sip_call(struct cw_channel *chan, char *dest, int timeout); static int sip_hangup(struct cw_channel *chan); static int sip_answer(struct cw_channel *chan); static struct cw_frame *sip_read(struct cw_channel *chan); static int sip_write(struct cw_channel *chan, struct cw_frame *frame); static int sip_indicate(struct cw_channel *chan, int condition); static int sip_transfer(struct cw_channel *chan, const char *dest); static int sip_fixup(struct cw_channel *oldchan, struct cw_channel *newchan); static int sip_senddigit(struct cw_channel *chan, char digit); static int clear_realm_authentication(struct sip_auth *authlist); /* Clear realm authentication list (at reload) */ static struct sip_auth *add_realm_authentication(struct sip_auth *authlist, char *configuration, int lineno); /* Add realm authentication in list */ static struct sip_auth *find_realm_authentication(struct sip_auth *authlist, char *realm); /* Find authentication for a specific realm */ static int check_sip_domain(const char *domain, char *context, size_t len); /* Check if domain is one of our local domains */ static void append_date(struct sip_request *req); /* Append date to SIP packet */ static int determine_firstline_parts(struct sip_request *req); static void sip_dump_history(struct sip_pvt *dialog); /* Dump history to LOG_DEBUG at end of dialog, before destroying data */ static const struct cfsubscription_types *find_subscription_type(enum subscriptiontype subtype); static int transmit_state_notify(struct sip_pvt *p, int state, int full, int substate, int timeout); static char *gettag(struct sip_request *req, char *header, char *tagbuf, int tagbufsize); static int transmit_response_with_t38_sdp(struct sip_pvt *p, char *msg, struct sip_request *req, int retrans); static int transmit_reinvite_with_t38_sdp(struct sip_pvt *p); static int sip_handle_t38_reinvite(struct cw_channel *chan, struct sip_pvt *pvt, int reinvite); /* T38 negotiation helper function */ static enum cw_bridge_result sip_bridge(struct cw_channel *c0, struct cw_channel *c1, int flag, struct cw_frame **fo,struct cw_channel **rc, int timeoutms); /* Function to bridge to SIP channels if T38 support enabled */ static char *nat2str(int nat); static int cw_sip_ouraddrfor(struct in_addr *them, struct in_addr *us, struct sip_pvt *p); static int sip_send_mwi_to_peer(struct sip_peer *peer); /*! \brief Definition of this channel for PBX channel registration */ static const struct cw_channel_tech sip_tech = { .type = channeltype, .description = "Session Initiation Protocol (SIP)", .capabilities = ((CW_FORMAT_MAX_AUDIO << 1) - 1), .properties = CW_CHAN_TP_WANTSJITTER | CW_CHAN_TP_CREATESJITTER, .requester = sip_request_call, .devicestate = sip_devicestate, .call = sip_call, .hangup = sip_hangup, .answer = sip_answer, .read = sip_read, .write = sip_write, .write_video = sip_write, .indicate = sip_indicate, .transfer = sip_transfer, .fixup = sip_fixup, .send_digit = sip_senddigit, // .bridge = sip_bridge, .bridge = cw_rtp_bridge, .send_text = sip_sendtext, }; static void sip_debug_ports(struct sip_pvt *p) { struct sockaddr_in sin; struct sockaddr_in udptlsin; char iabuf[255]; if ( option_debug > 8 ) { if ( p->owner ) cw_log(LOG_DEBUG,"DEBUG PORTS CHANNEL %s\n", p->owner->name); if (p->udptl) { cw_udptl_get_us(p->udptl, &udptlsin); cw_log(LOG_DEBUG,"DEBUG PORTS T.38 UDPTL is at port %s:%d...\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), ntohs(udptlsin.sin_port)); } if (p->rtp) { cw_rtp_get_us(p->rtp, &sin); cw_log(LOG_DEBUG,"DEBUG PORTS rtp is at port %s:%d...\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), ntohs(sin.sin_port)); } } } /*! \brief Thread-safe random number generator \return a random number This function uses a mutex lock to guarantee that no two threads will receive the same random number. */ static int thread_safe_cw_random(void) { int val; cw_mutex_lock(&rand_lock); val = rand(); cw_mutex_unlock(&rand_lock); return val; } /*! \brief find_sip_method: Find SIP method from header * Strictly speaking, SIP methods are case SENSITIVE, but we don't check * following Jon Postel's rule: Be gentle in what you accept, strict with what you send */ static int find_sip_method(char *msg) { int i; int res = 0; if (cw_strlen_zero(msg)) return 0; for (i = 1; (i < (sizeof(sip_methods) / sizeof(sip_methods[0]))) && !res; i++) { if (!strcasecmp(sip_methods[i].text, msg)) res = sip_methods[i].id; } return res; } /*! \brief parse_sip_options: Parse supported header in incoming packet */ static unsigned int parse_sip_options(struct sip_pvt *pvt, char *supported) { char *next = NULL; char *sep = NULL; char *temp = cw_strdupa(supported); int i; unsigned int profile = 0; if (cw_strlen_zero(supported)) return 0; if (option_debug > 2 && sipdebug) cw_log(LOG_DEBUG, "Begin: parsing SIP \"Supported: %s\"\n", supported); next = temp; while (next) { char res = 0; if ((sep = strchr(next, ',')) != NULL) { *sep = '\0'; sep++; } while (*next == ' ') /* Skip spaces */ next++; if (option_debug > 2 && sipdebug) cw_log(LOG_DEBUG, "Found SIP option: -%s-\n", next); for (i = 0; (i < (sizeof(sip_options) / sizeof(sip_options[0]))) && !res; i++) { if (!strcasecmp(next, sip_options[i].text)) { profile |= sip_options[i].id; res = 1; if (option_debug > 2 && sipdebug) cw_log(LOG_DEBUG, "Matched SIP option: %s\n", next); } } if (!res) if (option_debug > 2 && sipdebug) cw_log(LOG_DEBUG, "Found no match for SIP option: %s (Please file bug report!)\n", next); next = sep; } if (pvt) { pvt->sipoptions = profile; if (option_debug) cw_log(LOG_DEBUG, "* SIP extension value: %d for call %s\n", profile, pvt->callid); } return profile; } /*! \brief sip_debug_test_addr: See if we pass debug IP filter */ static inline int sip_debug_test_addr(struct sockaddr_in *addr) { if (sipdebug == 0) return 0; if (debugaddr.sin_addr.s_addr) { if (((ntohs(debugaddr.sin_port) != 0) && (debugaddr.sin_port != addr->sin_port)) || (debugaddr.sin_addr.s_addr != addr->sin_addr.s_addr)) { return 0; } } return 1; } /*! \brief sip_is_nat_needed: Check if we need NAT or STUN */ static inline int sip_is_nat_needed(struct sip_pvt *p) { int local; local = !cw_sip_ouraddrfor(&p->sa.sin_addr,&p->ourip,p); cw_log(LOG_DEBUG,"Check nat (client is%s on local net/peer nat=%s/global nat=%s/Channel:%s)\n", (local) ? "" : " not", nat2str(cw_test_flag(p, SIP_NAT)), nat2str(cw_test_flag(&global_flags, SIP_NAT)), ( p->owner && p->owner->name) ? p->owner->name : "--" ); if ( (cw_test_flag(p, SIP_NAT) & SIP_NAT_ROUTE) && !(cw_test_flag(p, SIP_NAT) & SIP_NAT_RFC3581) && local ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is not needed (condition 1)\n"); return 0; } if ( (cw_test_flag(p, SIP_NAT) & SIP_NAT_ROUTE) && !(cw_test_flag(p, SIP_NAT) & SIP_NAT_RFC3581) && !local ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is needed (condition 2)\n"); return 1; } // SIP_NAT_ALWAYS if ( (cw_test_flag(p, SIP_NAT) & SIP_NAT_ROUTE) && (cw_test_flag(p, SIP_NAT) & SIP_NAT_RFC3581) ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is needed (condition 3)\n"); return 1; } // SIP_NAT_NEVER if ( !(cw_test_flag(p, SIP_NAT) & SIP_NAT_ROUTE) && !(cw_test_flag(p, SIP_NAT) & SIP_NAT_RFC3581) ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is not needed (condition 4)\n"); return 0; } /* */ if ( (cw_test_flag(&global_flags, SIP_NAT) & SIP_NAT_ROUTE) && !(cw_test_flag(&global_flags, SIP_NAT) & SIP_NAT_RFC3581) && local ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is not needed (condition 5)\n"); return 0; } if ( (cw_test_flag(&global_flags, SIP_NAT) & SIP_NAT_ROUTE) && !(cw_test_flag(&global_flags, SIP_NAT) & SIP_NAT_RFC3581) && !local ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is needed (condition 6)\n"); return 1; } // SIP_NAT_ALWAYS if ( (cw_test_flag(&global_flags, SIP_NAT) & SIP_NAT_ROUTE) && (cw_test_flag(&global_flags, SIP_NAT) & SIP_NAT_RFC3581) ) { if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is needed (condition 7)\n"); return 1; } if ( option_debug > 5 ) cw_log(LOG_DEBUG,"Nat is not needed (default)\n"); return 0; } /*! \brief sip_debug_test_pvt: Test PVT for debugging output */ static inline int sip_debug_test_pvt(struct sip_pvt *p) { if (sipdebug == 0) return 0; return sip_debug_test_addr(( sip_is_nat_needed(p) ? &p->recv : &p->sa )); } /*! \brief __sip_xmit: Transmit SIP message */ static int __sip_xmit(struct sip_pvt *p, char *data, int len) { int res; char iabuf[INET_ADDRSTRLEN]; #ifdef SIP_TCP_SUPPORT if ((p->sockfd > 0) && (p->sockfd != sipsock)) { /* This is TCP */ if (p->ssl) { /* TLS write */ if( sipdebug ) cw_verbose("TLS write: fd %d\n", p->sockfd); struct sip_peer *peer = NULL; res = 0; while (len > res) { res += SSL_write(p->ssl, data + res, len - res); switch (SSL_get_error(p->ssl, res)) { case SSL_ERROR_NONE: break; default: cw_log(LOG_ERROR, "SSL write error\n"); SSL_clear(p->ssl); SSL_free(p->ssl); p->ssl = NULL; p->sockfd = -1; peer = find_peer(p->peername, NULL, 1); if (peer && peer->ssl) { peer->ssl = NULL; peer->sockfd = -1; } break; } } } else { /* TCP write */ if( sipdebug ) cw_verbose("TCP write: fd %d\n", p->sockfd); res = write(p->sockfd, data, len); } } else { if( sipdebug ) cw_verbose("UDP write: fd %d\n", p->sockfd); #endif if (p->peerpoke && p->stun_needed) gettimeofday(&p->peerpoke->ps, NULL); // We set ping time here to make pokepeer calculations correct. Stun introduces lag. if ( sip_is_nat_needed(p) ) res = cw_sendfromto(sipsock, data, len, 0, NULL, 0, (struct sockaddr *)&p->recv, sizeof(struct sockaddr_in)); else { struct sockaddr_in from; from.sin_family = AF_INET; memcpy(&from.sin_addr, &p->ourip, sizeof(from.sin_addr)); res=cw_sendfromto(sipsock, data, len, 0, (struct sockaddr *)&from, sizeof(struct sockaddr_in), (struct sockaddr *)&p->sa, sizeof(struct sockaddr_in)); } #ifdef SIP_TCP_SUPPORT } #endif if (res != len) cw_log(LOG_WARNING, "sip_xmit of %p (len %d) to %s:%d returned %d: %s\n", data, len, cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), res, ntohs(p->sa.sin_port), strerror(errno)); return res; } static void sip_destroy(struct sip_pvt *p); /*! \brief build_via: Build a Via header for a request */ static void build_via(struct sip_pvt *p, char *buf, int len) { char iabuf[INET_ADDRSTRLEN]; /* z9hG4bK is a magic cookie. See RFC 3261 section 8.1.1.7 */ if (cw_test_flag(p, SIP_NAT) & SIP_NAT_RFC3581) #ifdef SIP_TCP_SUPPORT snprintf(buf, len, "SIP/2.0/%s %s:%d;branch=z9hG4bK%08x;rport", p->transport, cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport, p->branch); #else snprintf(buf, len, "SIP/2.0/UDP %s:%d;branch=z9hG4bK%08x;rport", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport, p->branch); #endif else /* Work around buggy UNIDEN UIP200 firmware */ #ifdef SIP_TCP_SUPPORT snprintf(buf, len, "SIP/2.0/%s %s:%d;branch=z9hG4bK%08x", p->transport, cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport, p->branch); #else snprintf(buf, len, "SIP/2.0/UDP %s:%d;branch=z9hG4bK%08x", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport, p->branch); #endif } /*! \brief cw_sip_ouraddrfor: NAT fix - decide which IP address to use for CallWeaver.org server? */ /* Only used for outbound registrations */ static int cw_sip_ouraddrfor(struct in_addr *them, struct in_addr *us, struct sip_pvt *p) { /* * Using the localaddr structure built up with localnet statements * apply it to their address to see if we need to substitute our * externip or can get away with our internal bindaddr */ int res = 0; struct sockaddr_in theirs; theirs.sin_addr = *them; if ((localaddr && cw_apply_ha(localaddr, &theirs)) && (stun_active || externip.sin_addr.s_addr)) { char iabuf[INET_ADDRSTRLEN]; if (externexpire && (time(NULL) >= externexpire)) { struct cw_hostent ahp; struct hostent *hp; time(&externexpire); externexpire += externrefresh; if ((hp = cw_gethostbyname(externhost, &ahp))) memcpy(&externip.sin_addr, hp->h_addr, sizeof(externip.sin_addr)); else cw_log(LOG_NOTICE, "Warning: Re-lookup of '%s' failed!\n", externhost); } memcpy(us, &externip.sin_addr, sizeof(struct in_addr)); cw_inet_ntoa(iabuf, sizeof(iabuf), *(struct in_addr *)&them->s_addr); if (!stun_active) { cw_log(LOG_DEBUG, "Target address %s is not local, substituting externip\n", iabuf); p->stun_needed = 0; } else { cw_log(LOG_DEBUG, "Target address %s is not local, substituting externip and enabling stun\n", iabuf); p->stun_needed = 1; } } else if (bindaddr.sin_addr.s_addr) { memcpy(us, &bindaddr.sin_addr, sizeof(struct in_addr)); } else { res=cw_ouraddrfor(them, us); if (option_debug > 5 ) cw_log(LOG_DEBUG, "cw_sip_ouraddrfor debug (no stun) %d\n",res); } if (option_debug > 5 ) cw_log(LOG_DEBUG, "cw_sip_ouraddrfor returning %d\n",res); return res; } /*! \brief append_history: Append to SIP dialog history */ /* Always returns 0 */ static int append_history(struct sip_pvt *p, const char *event, const char *data) { struct sip_history *hist; struct sip_history *prev; char *c; if (!recordhistory || !p) return 0; if(!(hist = malloc(sizeof(struct sip_history)))) { cw_log(LOG_WARNING, "Can't allocate memory for history\n"); return 0; } memset(hist, 0, sizeof(struct sip_history)); snprintf(hist->event, sizeof(hist->event), "%-15s %s", event, data); /* Trim up nicely */ c = hist->event; while (*c) { if ((*c == '\r') || (*c == '\n')) { *c = '\0'; break; } c++; } /* Enqueue into history */ prev = p->history; if (prev) { while (prev->next) prev = prev->next; prev->next = hist; } else { p->history = hist; } return 0; } /*! \brief retrans_pkt: Retransmit SIP message if no answer */ static int retrans_pkt(void *data) { struct sip_pkt *pkt = data, *prev, *cur; /* Lock channel */ cw_mutex_lock(&pkt->owner->lock); if ((pkt->method == SIP_INVITE && pkt->timer_a < rfc_timer_b) || (pkt->method != SIP_INVITE && pkt->timer_a < RFC_TIMER_F)) { char buf[(INET_ADDRSTRLEN > 80 ? INET_ADDRSTRLEN : 80)]; int reschedule; /* Re-schedule using timer_a and timer_t1 */ if (!pkt->timer_a) pkt->timer_a = 2 ; else pkt->timer_a = 2 * pkt->timer_a; /* Double each time */ reschedule = pkt->timer_a * pkt->owner->timer_t1; /* For non-invites, a maximum of T2 (normally 4 secs as per RFC3261) */ if (pkt->method != SIP_INVITE && reschedule > rfc_timer_t2) reschedule = rfc_timer_t2; if (pkt->owner && sip_debug_test_pvt(pkt->owner)) { if ( sip_is_nat_needed(pkt->owner) ) cw_verbose("SIP TIMER: #%d: Retransmitting (NAT) to %s:%d:\n%s\n---\n", pkt->retransid, cw_inet_ntoa(buf, sizeof(buf), pkt->owner->recv.sin_addr), ntohs(pkt->owner->recv.sin_port), pkt->data); else cw_verbose("SIP TIMER: #%d: Retransmitting (no NAT) to %s:%d:\n%s\n---\n", pkt->retransid, cw_inet_ntoa(buf, sizeof(buf), pkt->owner->sa.sin_addr), ntohs(pkt->owner->sa.sin_port), pkt->data); } if (sipdebug && option_debug > 3) cw_log(LOG_DEBUG, "SIP TIMER: #%d: scheduling retransmission of %s for %d ms (t1 %d ms) \n", pkt->retransid, sip_methods[pkt->method].text, reschedule, pkt->owner->timer_t1); snprintf(buf, sizeof(buf), "ReTx %d", reschedule); append_history(pkt->owner, buf, pkt->data); __sip_xmit(pkt->owner, pkt->data, pkt->packetlen); cw_mutex_unlock(&pkt->owner->lock); return reschedule; } /* Too many retries */ if (pkt->owner && pkt->method != SIP_OPTIONS) { if (cw_test_flag(pkt, FLAG_FATAL) || sipdebug) /* Tell us if it's critical or if we're debugging */ cw_log(LOG_WARNING, "Maximum retries exceeded on transmission %s for seqno %d (%s %s) SIP Timer T1 : %d\n", pkt->owner->callid, pkt->seqno, (cw_test_flag(pkt, FLAG_FATAL)) ? "Critical" : "Non-critical", (cw_test_flag(pkt, FLAG_RESPONSE)) ? "Response" : "Request", pkt->owner->timer_t1); } else { if (pkt->method == SIP_OPTIONS && sipdebug) cw_log(LOG_WARNING, "Cancelling retransmit of OPTIONs (call id %s) \n", pkt->owner->callid); } append_history(pkt->owner, "MaxRetries", (cw_test_flag(pkt, FLAG_FATAL)) ? "(Critical)" : "(Non-critical)"); pkt->retransid = -1; if (cw_test_flag(pkt, FLAG_FATAL)) { while (pkt->owner->owner && cw_mutex_trylock(&pkt->owner->owner->lock)) { cw_mutex_unlock(&pkt->owner->lock); usleep(1); cw_mutex_lock(&pkt->owner->lock); } if (pkt->owner->owner) { cw_set_flag(pkt->owner, SIP_ALREADYGONE); cw_log(LOG_WARNING, "Hanging up call %s - no reply to our critical packet.\n", pkt->owner->callid); cw_queue_hangup(pkt->owner->owner); cw_mutex_unlock(&pkt->owner->owner->lock); } else { /* If no channel owner, destroy now */ /* Let the peerpoke system expire packets when the timer expires for poke_noanswer */ if (pkt->method != SIP_OPTIONS) cw_set_flag(pkt->owner, SIP_NEEDDESTROY); } } /* In any case, go ahead and remove the packet */ prev = NULL; cur = pkt->owner->packets; while (cur) { if (cur == pkt) break; prev = cur; cur = cur->next; } if (cur) { if (prev) prev->next = cur->next; else pkt->owner->packets = cur->next; cw_mutex_unlock(&pkt->owner->lock); free(cur); pkt = NULL; } else cw_log(LOG_WARNING, "Weird, couldn't find packet owner!\n"); if (pkt && pkt->owner) cw_mutex_unlock(&pkt->owner->lock); return 0; } /*! \brief __sip_reliable_xmit: transmit packet with retransmits */ static int __sip_reliable_xmit(struct sip_pvt *p, int seqno, int resp, char *data, int len, int fatal, int sipmethod) { struct sip_pkt *pkt; if ((pkt = malloc(sizeof(struct sip_pkt) + len + 1)) == NULL) return -1; memset(pkt, 0, sizeof(struct sip_pkt)); memcpy(pkt->data, data, len); pkt->method = sipmethod; pkt->packetlen = len; pkt->next = p->packets; pkt->owner = p; pkt->seqno = seqno; if (resp) cw_set_flag(pkt, FLAG_RESPONSE); pkt->data[len] = '\0'; if (fatal) cw_set_flag(pkt, FLAG_FATAL); /* Schedule retransmission */ /* Note: The first retransmission is at last RTT plus a bit to allow for (some) jitter * and to avoid sending a retransmit at the exact moment we expect the reply to arrive */ pkt->retransid = cw_sched_add_variable(sched, (p->timer_t1 != rfc_timer_t1 ? p->timer_t1 + (p->timer_t1 >> 4) + 1 : rfc_timer_t1), retrans_pkt, pkt, 1); if (option_debug > 3 && sipdebug) cw_log(LOG_DEBUG, "*** SIP TIMER: Initalizing retransmit timer on packet: Id #%d\n", pkt->retransid); pkt->next = p->packets; p->packets = pkt; __sip_xmit(pkt->owner, pkt->data, pkt->packetlen); /* Send packet */ if (sipmethod == SIP_INVITE) { /* Note this is a pending invite */ p->pendinginvite = seqno; } return 0; } /*! \brief __sip_autodestruct: Kill a call (called by scheduler) */ static int __sip_autodestruct(void *data) { struct sip_pvt *p = data; /* If this is a subscription, tell the phone that we got a timeout */ if (p->subscribed) { transmit_state_notify(p, CW_EXTENSION_DEACTIVATED, 1, 1, 1); /* Send first notification */ p->subscribed = NONE; append_history(p, "Subscribestatus", "timeout"); return 10000; /* Reschedule this destruction so that we know that it's gone */ } /* This scheduled event is now considered done. */ p->autokillid = -1; cw_log(LOG_DEBUG, "Auto destroying call '%s'\n", p->callid); append_history(p, "AutoDestroy", ""); if (p->owner) { cw_log(LOG_WARNING, "Autodestruct on call '%s' with owner in place\n", p->callid); cw_queue_hangup(p->owner); } else { sip_destroy(p); } return 0; } /*! \brief sip_scheddestroy: Schedule destruction of SIP call */ static int sip_scheddestroy(struct sip_pvt *p, int ms) { char tmp[80]; if (sip_debug_test_pvt(p)) cw_verbose("Scheduling destruction of call '%s' in %d ms\n", p->callid, ms); if (recordhistory) { snprintf(tmp, sizeof(tmp), "%d ms", ms); append_history(p, "SchedDestroy", tmp); } if (p->autokillid > -1) cw_sched_del(sched, p->autokillid); p->autokillid = cw_sched_add(sched, ms, __sip_autodestruct, p); return 0; } /*! \brief sip_cancel_destroy: Cancel destruction of SIP call */ static int sip_cancel_destroy(struct sip_pvt *p) { if (p->autokillid > -1) cw_sched_del(sched, p->autokillid); append_history(p, "CancelDestroy", ""); p->autokillid = -1; return 0; } /*! \brief __sip_ack: Acknowledges receipt of a packet and stops retransmission */ static int __sip_ack(struct sip_pvt *p, int seqno, int resp, int sipmethod) { struct sip_pkt *cur, *prev = NULL; int res = -1; int resetinvite = 0; /* Just in case... */ char *msg; msg = (sipmethod >= 0 ? sip_methods[sipmethod].text : ""); cw_mutex_lock(&p->lock); cur = p->packets; while (cur) { if ((cur->seqno == seqno) && ((cw_test_flag(cur, FLAG_RESPONSE)) == resp) && ((cw_test_flag(cur, FLAG_RESPONSE)) || (!strncasecmp(msg, cur->data, strlen(msg)) && (!cur->data[strlen(msg)] || isspace(cur->data[strlen(msg)]))))) { if (!resp && (seqno == p->pendinginvite)) { cw_log(LOG_DEBUG, "Acked pending invite %d\n", p->pendinginvite); p->pendinginvite = 0; resetinvite = 1; } /* this is our baby */ if (prev) prev->next = cur->next; else p->packets = cur->next; if (cur->retransid > -1) { if (sipdebug && option_debug > 3) cw_log(LOG_DEBUG, "** SIP TIMER: Cancelling retransmit of packet (reply received) Retransid #%d\n", cur->retransid); cw_sched_del(sched, cur->retransid); cur->retransid = -1; } free(cur); res = 0; break; } prev = cur; cur = cur->next; } cw_mutex_unlock(&p->lock); cw_log(LOG_DEBUG, "Stopping retransmission on '%s' of %s %d: Match %s\n", p->callid, resp ? "Response" : "Request", seqno, res ? "Not Found" : "Found"); return res; } /* Pretend to ack all packets */ static int __sip_pretend_ack(struct sip_pvt *p) { struct sip_pkt *cur=NULL; while (p->packets) { if (cur == p->packets) { cw_log(LOG_WARNING, "Have a packet that doesn't want to give up! %s\n", sip_methods[cur->method].text); return -1; } cur = p->packets; if (cur->method) __sip_ack(p, p->packets->seqno, (cw_test_flag(p->packets, FLAG_RESPONSE)), cur->method); else { /* Unknown packet type */ char *c; char method[128]; cw_copy_string(method, p->packets->data, sizeof(method)); c = cw_skip_blanks(method); /* XXX what ? */ *c = '\0'; __sip_ack(p, p->packets->seqno, (cw_test_flag(p->packets, FLAG_RESPONSE)), find_sip_method(method)); } } return 0; } /*! \brief __sip_semi_ack: Acks receipt of packet, keep it around (used for provisional responses) */ static int __sip_semi_ack(struct sip_pvt *p, int seqno, int resp, int sipmethod) { struct sip_pkt *cur; int res = -1; char *msg = sip_methods[sipmethod].text; cur = p->packets; while (cur) { if ((cur->seqno == seqno) && ((cw_test_flag(cur, FLAG_RESPONSE)) == resp) && ((cw_test_flag(cur, FLAG_RESPONSE)) || (!strncasecmp(msg, cur->data, strlen(msg)) && (!cur->data[strlen(msg)] || isspace(cur->data[strlen(msg)]))))) { /* this is our baby */ if (cur->retransid > -1) { if (option_debug > 3 && sipdebug) cw_log(LOG_DEBUG, "*** SIP TIMER: Cancelling retransmission #%d - %s (got response)\n", cur->retransid, msg); cw_sched_del(sched, cur->retransid); cur->retransid = -1; } res = 0; break; } cur = cur->next; } cw_log(LOG_DEBUG, "(Provisional) Stopping retransmission (but retaining packet) on '%s' %s %d: %s\n", p->callid, resp ? "Response" : "Request", seqno, res ? "Not Found" : "Found"); return res; } static void parse_request(struct sip_request *req); static char *get_header(struct sip_request *req, char *name); static void copy_request(struct sip_request *dst,struct sip_request *src); /*! \brief parse_copy: Copy SIP request, parse it */ static void parse_copy(struct sip_request *dst, struct sip_request *src) { memset(dst, 0, sizeof(struct sip_request)); memcpy(dst->data, src->data, sizeof(dst->data)); dst->len = src->len; parse_request(dst); } static void build_callid(char *callid, int len, struct in_addr ourip, char *fromdomain); static int sip_resend_reqresp(void *data); static void sip_dealloc_headsdp_lines(struct sip_request *req) { struct sip_data_line *tmpsdl,*tmprem; if (req == NULL) return; tmpsdl = req->head_lines; while (tmpsdl != NULL) { tmprem=tmpsdl; tmpsdl=tmpsdl->next; //cw_verbose("(-) removing header[%d]: %s\n",tmprem->type, tmprem->content); free(tmprem); } req->head_lines = NULL; tmpsdl = req->sdp_lines; while (tmpsdl != NULL) { tmprem = tmpsdl; tmpsdl = tmpsdl->next; //cw_verbose("(-) removing line[%d]: %s\n",tmprem->type, tmprem->content); free(tmprem); } req->sdp_lines = NULL; return; } static void sip_rebuild_payload(struct sip_pvt *p, struct sip_request *req,int have_stun) { char iabuf[INET_ADDRSTRLEN]; char buf[SIP_MAX_LINE_LEN]; struct sip_data_line *tmpsdl, *tmpsdlcl; char *s; /* First of all, we rebuild the sip message. If SDP il present, it's probably wrong. */ memset(req->data, 0, SIP_MAX_HEADERS); tmpsdl = req->head_lines; while (tmpsdl != NULL) { if (tmpsdl->type == SIP_DL_HEAD_CONTENTLENGHT) { // Must recalculate content length int sdplen = 0; tmpsdlcl = req->sdp_lines; while (tmpsdlcl) { sdplen += strlen(tmpsdlcl->content) + 2; tmpsdlcl = tmpsdlcl->next; } sprintf(tmpsdl->content, "Content-Length: %d", sdplen); } if (p->stun_needed && have_stun) { if (tmpsdl->type == SIP_DL_HEAD_CONTACT) { snprintf(p->our_contact, sizeof(p->our_contact), "", p->exten, cw_strlen_zero(p->exten) ? "" : "@", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport); sprintf(tmpsdl->content, "Contact: %s", p->our_contact); } else if (tmpsdl->type == SIP_DL_HEAD_VIA) { snprintf(p->via, SIP_MAX_LINE_LEN, "SIP/2.0/UDP %s:%d;branch=z9hG4bK%08x;rport", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport, p->branch); sprintf(tmpsdl->content, "Via: %s", p->via); } else if (tmpsdl->type==SIP_DL_HEAD_CALLID) { //NOT Managed yet. Not a problem } else if (tmpsdl->type==SIP_DL_HEAD_FROM) { //NOT Managed yet. Not a problem } } #if STUN_DEV_DEBUG if (stundebug) cw_log(LOG_DEBUG,"(*) joining header[%d]: %s\n",tmpsdl->type, tmpsdl->content); #endif strcat(req->data, tmpsdl->content); strcat(req->data, "\r\n"); tmpsdl = tmpsdl->next; } // Separator between headers and sdp strcat(req->data, "\r\n"); tmpsdl = req->sdp_lines; #if STUN_DEV_DEBUG if (stundebug) cw_log(LOG_DEBUG,"STUN_NEEDED: %d - HAVE_STUN: %d\n",p->stun_needed, have_stun); #endif while (tmpsdl) { if (p->stun_needed && have_stun) { if (tmpsdl->type == SIP_DL_SDP_O) { } else if (tmpsdl->type == SIP_DL_SDP_C) { } else if (tmpsdl->type==SIP_DL_SDP_M_AUDIO) { struct sockaddr_in port; cw_rtp_get_us(p->rtp,&port); snprintf(buf, SIP_MAX_LINE_LEN, "m=audio %d RTP/AVP %s", ntohs(port.sin_port), ((s = strstr(tmpsdl->content, "RTP/AVP ")) ? s + 8 : "") ); #if STUN_DEV_DEBUG if (stundebug) { cw_log(LOG_DEBUG,"M_AUDIO was: %s\n",tmpsdl->content); cw_log(LOG_DEBUG,"M_AUDIO is : %s\n",buf); } #endif strncpy(tmpsdl->content,buf,SIP_MAX_LINE_LEN-1); } else if (tmpsdl->type == SIP_DL_SDP_M_VIDEO) { struct sockaddr_in port; cw_rtp_get_us(p->vrtp,&port); snprintf(buf, SIP_MAX_LINE_LEN, "m=video %d RTP/AVP %s", ntohs(port.sin_port), ((s = strstr(tmpsdl->content,"RTP/AVP ")) ? s + 8 : "") ); strncpy(tmpsdl->content,buf,SIP_MAX_LINE_LEN-1); } else if (tmpsdl->type == SIP_DL_SDP_M_T38) { struct sockaddr_in port; if (t38udptlsupport) { cw_udptl_get_us(p->udptl, &port); snprintf(tmpsdl->content, SIP_MAX_LINE_LEN, "m=image %d udptl t38", ntohs(port.sin_port)); } } } #if STUN_DEV_DEBUG if (stundebug) cw_log(LOG_DEBUG,"(*) joining sdp[%d]: %s\n",tmpsdl->type, tmpsdl->content); #endif strcat(req->data, tmpsdl->content); strcat(req->data, "\r\n"); tmpsdl = tmpsdl->next; } req->len = strlen(req->data); } static int if_callid_exists(char *callid) { struct sip_pvt *cur; cur = iflist; while (cur) { if (!strcmp(cur->callid, callid)) return 1; cur = cur->next; } return 0; } #ifdef SIP_TCP_SUPPORT static int cleanup_tcp_connection(int fd, SSL *ssl) { int found = 0; struct sip_pvt *p = NULL; if (fd == -1) { cw_log(LOG_ERROR, "Tried to free up sockfd -1\n"); return -1; } // CWOBJ_CONTAINER_RDLOCK(&peerl); CWOBJ_CONTAINER_TRAVERSE(&peerl, !found, { if (iterator->sockfd == fd) { found = 1; if (iterator->ssl) { SSL_clear(iterator->ssl); SSL_free(iterator->ssl); } else close(iterator->sockfd); iterator->ssl = NULL; iterator->sockfd = -1; /* cw_copy_string(iterator->transport, "UDP", sizeof(iterator->transport)); */ } } ); // CWOBJ_CONTAINER_UNLOCK(&peerl); /* close tcp fd and free ssl in sip_pvt */ cw_mutex_lock(&iflock); p = iflist; while (p) { if (p->sockfd == fd) { /* Found the call */ cw_mutex_lock(&p->lock); if (!found && p->ssl) { SSL_clear(p->ssl); SSL_free(p->ssl); } else if (!found) close(p->sockfd); p->ssl = NULL; p->sockfd = -1; /* cw_copy_string(p->transport, "UDP", sizeof(p->transport)); */ cw_mutex_unlock(&p->lock); break; } p = p->next; } cw_mutex_unlock(&iflock); cw_log(LOG_DEBUG, "Cleaned up tcp connection for fd %d, ssl %p\n", fd, ssl); return 0; } static int tcptls_connect(struct sip_pvt *p) { int fd = -1; struct sockaddr_in myaddr; char iabuf[INET_ADDRSTRLEN]; BIO *bio = NULL; SSL *ssl = NULL; if (!strncasecmp(p->transport, "UDP", 3)) { return sipsock; } if ( (fd = socket(AF_INET, SOCK_STREAM, 0)) < 0) { cw_log(LOG_WARNING, "TCP can't create socket : %s\n", strerror(errno)); return -1; } /* bind local protocol address to socket */ bzero(&myaddr, sizeof(struct sockaddr_in)); myaddr.sin_family = AF_INET; memcpy(&myaddr.sin_addr, &p->ourip, sizeof(p->ourip)); myaddr.sin_port = htons(0); /* any port is OK? */ if (bind(fd, (struct sockaddr *)&myaddr, sizeof(struct sockaddr_in)) < 0) { cw_log(LOG_WARNING, "TCP failed to bind : %s\n", strerror(errno)); return -1; } /* start 3-way hand shake with the peer */ if (connect(fd, (struct sockaddr *) &p->sa, sizeof(struct sockaddr_in)) < 0) { cw_log(LOG_WARNING, "TCP can't connect to %s:%d, error %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), strerror(errno)); return -1; } if (sip_debug_test_pvt(p)) cw_verbose(VERBOSE_PREFIX_2 "Successfuly TCP connected fd %d to %s:%d\n", fd, cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port)); p->sockfd = fd; /* If TLS, do TLS handshake */ if ((fd > -1) && !strncasecmp(p->transport, "TLS", sizeof("TLS"))) { /* Initiate TLS handshake */ bio = BIO_new_socket(fd, BIO_CLOSE); ssl = SSL_new(tlsctx); SSL_set_bio(ssl, bio, bio); if(SSL_connect(ssl) <= 0) { cw_log(LOG_ERROR, "SSL_connect error"); SSL_clear(ssl); SSL_free(ssl); close(fd); p->ssl = NULL; p->sockfd = -1; return -1; } cw_log(LOG_DEBUG, "New TLS connection is opened\n"); p->ssl = ssl; } return fd; } #endif /*! \brief send_response: Transmit response on SIP request*/ static int send_response(struct sip_pvt *p, struct sip_request *req, int reliable, int seqno) { int res = 0; char iabuf[INET_ADDRSTRLEN]; struct sip_request tmp; char tmpmsg[80]; if (stun_active && p->stun_needed == 1) { cw_log(LOG_DEBUG,"This call response %s seqno %d really needs STUN - sched %d\n",p->callid,seqno,p->stun_resreq_id); struct sip_reqresp *rr; rr = malloc(sizeof(struct sip_reqresp)); memset(rr, 0, sizeof(struct sip_reqresp)); rr->type = 1; rr->reliable = reliable; rr->seqno = seqno; memcpy(&rr->req, req, sizeof(struct sip_request)); memcpy(&rr->callid, p->callid, sizeof(p->callid)); rr->p = p; rr->p->stun_retrans_no = 0; rr->streq = cw_udp_stun_bindrequest(sipsock, &stunserver_ip, NULL, NULL); if (rr->streq) memcpy(&rr->p->stun_transid, &rr->streq->req_head.id, sizeof(stun_trans_id)); if (p->rtp && !cw_rtp_get_stunstate(p->rtp)) { cw_log(LOG_DEBUG, "Setting NAT on RTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->rtp, sip_is_nat_needed(p) ); } if (p->vrtp && !cw_rtp_get_stunstate(p->vrtp)) { cw_log(LOG_DEBUG, "Setting NAT on VRTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->vrtp, sip_is_nat_needed(p) ); } if (p->udptl && !cw_udptl_get_stunstate(p->udptl)) { cw_log(LOG_DEBUG, "Setting NAT on UDPTL to %d\n", sip_is_nat_needed(p) ); cw_udptl_setnat(p->udptl, sip_is_nat_needed(p) ); } if (rr->streq) { if (stundebug) cw_log(LOG_DEBUG,"** Sent STUN packet for response %d\n",rr->streq->req_head.id.id[0]); rr->p->stun_resreq_id = cw_sched_add(sched, STUN_WAIT_RETRY_TIME, sip_resend_reqresp, rr); return 0; } else { cw_log(LOG_WARNING, "STUN: couldn't send packet. Trying to revert to old externip mode.\n"); } } else if (p->stun_needed == 2) { if (stundebug) cw_log(LOG_DEBUG,"This transmit response has already a stun %d\n",p->stun_needed); sip_rebuild_payload(p, req, 1); } else { if (stundebug) cw_log(LOG_DEBUG,"This transmit response has stun at %d\n",p->stun_needed); sip_rebuild_payload(p, req, 0); } if (sip_debug_test_pvt(p)) { if ( sip_is_nat_needed(p) ) #ifdef SIP_TCP_SUPPORT cw_verbose("%sTransmitting (NAT) to %s:%d:%s\n with fd %d\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port), p->transport, p->sockfd, req->data); #else cw_verbose("%sTransmitting (NAT) to %s:%d:\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port), req->data); #endif else #ifdef SIP_TCP_SUPPORT cw_verbose("%sTransmitting (no NAT) to %s:%d:%s\n with fd %d\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), p->transport, p->sockfd, req->data); #else cw_verbose("%sTransmitting (no NAT) to %s:%d:\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), req->data); #endif } #ifdef SIP_TCP_SUPPORT /* if transport is TCP and not opened connection, connect now */ if (!strncasecmp(p->transport, "TCP", 3) || !strncasecmp(p->transport, "TLS", 3) ) { /* make TCP connection only when not connected and no NAT/firewall */ if ((p->sockfd < 0) && !(cw_test_flag(p, SIP_NAT) & SIP_NAT_ROUTE)) { p->sockfd = tcptls_connect(p); if (p->sockfd < 0) { cw_log(LOG_WARNING, "Failed to make TCP connection to %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port)); return -1; } cw_io_add(io, p->sockfd, sipsock_read, CW_IO_IN, p->ssl); } else if (p->sockfd < 0) { if (sip_debug_test_pvt(p)) cw_log(LOG_WARNING, "peer is NATed, but TCP socket is closed\n"); return -1; } } if (reliable && !strncasecmp(p->transport, "UDP", 3) /*(p->sockfd == sipsock)*/ ) { /* only UDP needs reliable transmit */ #else if (reliable) { #endif if (recordhistory) { parse_copy(&tmp, req); snprintf(tmpmsg, sizeof(tmpmsg), "%s / %s", tmp.data, get_header(&tmp, "CSeq")); append_history(p, "TxRespRel", tmpmsg); } res = __sip_reliable_xmit(p, seqno, 1, req->data, req->len, (reliable > 1), req->method); } else { if (recordhistory) { parse_copy(&tmp, req); snprintf(tmpmsg, sizeof(tmpmsg), "%s / %s", tmp.data, get_header(&tmp, "CSeq")); append_history(p, "TxResp", tmpmsg); } res = __sip_xmit(p, req->data, req->len); } p->stun_needed = 0; sip_dealloc_headsdp_lines(req); if (res > 0) return 0; return res; } /*! \brief send_request: Send SIP Request to the other part of the dialogue */ static int send_request(struct sip_pvt *p, struct sip_request *req, int reliable, int seqno) { int res=0; char iabuf[INET_ADDRSTRLEN]; struct sip_request tmp; char tmpmsg[80]; if (stun_active && p->stun_needed == 1) { cw_log(LOG_DEBUG,"This call request %s seqno %d really needs STUN - sched %d\n",p->callid,seqno,p->stun_resreq_id); struct sip_reqresp *rr; rr = malloc(sizeof(struct sip_reqresp)); memset(rr, 0, sizeof(struct sip_reqresp)); rr->type = 2; rr->reliable = reliable; rr->seqno = seqno; memcpy(&rr->req, req, sizeof(struct sip_request)); memcpy(&rr->callid, p->callid, sizeof(p->callid)); rr->p = p; rr->p->stun_retrans_no = 0; rr->streq = cw_udp_stun_bindrequest(sipsock,&stunserver_ip,NULL,NULL); if (rr->streq) memcpy(&rr->p->stun_transid,&rr->streq->req_head.id,sizeof(stun_trans_id) ); if (p->rtp && cw_rtp_get_stunstate(p->rtp) == 0) { cw_log(LOG_DEBUG, "Setting NAT on RTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->rtp, sip_is_nat_needed(p) ); } if (p->vrtp && cw_rtp_get_stunstate(p->vrtp) == 0) { cw_log(LOG_DEBUG, "Setting NAT on VRTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->vrtp, sip_is_nat_needed(p) ); } if (p->udptl && cw_udptl_get_stunstate(p->udptl) == 0) { cw_log(LOG_DEBUG, "Setting NAT on UDPTL to %d\n", sip_is_nat_needed(p) ); cw_udptl_setnat(p->udptl, sip_is_nat_needed(p) ); } if (rr->streq) { if (stundebug) cw_log(LOG_DEBUG,"** Sent STUN packet for request %d\n",rr->streq->req_head.id.id[0]); rr->p->stun_resreq_id=cw_sched_add(sched, STUN_WAIT_RETRY_TIME, sip_resend_reqresp, rr); return 0; } else { cw_log(LOG_WARNING, "STUN: couldn't send packet. Trying to revert to old externip mode.\n"); } } else if (p->stun_needed == 2) { if (stundebug) cw_log(LOG_DEBUG,"This transmit request has already a stun %d\n",p->stun_needed); sip_rebuild_payload(p,req,1); } else { if (stundebug) cw_log(LOG_DEBUG,"This transmit request has stun at %d\n",p->stun_needed); sip_rebuild_payload(p,req,0); } if (sip_debug_test_pvt(p)) { if ( sip_is_nat_needed(p) ) #ifdef SIP_TCP_SUPPORT cw_verbose("%sTransmitting (NAT) to %s:%d:%s\n with fd %d\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port), p->transport, p->sockfd, req->data); #else cw_verbose("%sTransmitting (NAT) to %s:%d:\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port), req->data); #endif else #ifdef SIP_TCP_SUPPORT cw_verbose("%sTransmitting (no NAT) to %s:%d:%s\n with fd %d\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), p->transport, p->sockfd, req->data); #else cw_verbose("%sTransmitting (no NAT) to %s:%d:\n%s\n---\n", reliable ? "Reliably " : "", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), req->data); #endif } #ifdef SIP_TCP_SUPPORT /* if transport is TCP and not opened connection, connect now */ if (!strncasecmp(p->transport, "TCP", 3) || !strncasecmp(p->transport, "TLS", 3) ) { /* make TCP connection only when not connected and no NAT/firewall */ if ((p->sockfd < 0) && !(cw_test_flag(p, SIP_NAT) & SIP_NAT_ROUTE)) { p->sockfd = tcptls_connect(p); if (p->sockfd < 0) { cw_log(LOG_WARNING, "Failed to make TCP connection to %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port)); return -1; } cw_io_add(io, p->sockfd, sipsock_read, CW_IO_IN, p->ssl); } else if (p->sockfd < 0) { if (sip_debug_test_pvt(p)) cw_log(LOG_WARNING, "peer is NATed, but TCP socket is closed\n"); return -1; } } if (reliable && !p->peerpoke && !strncasecmp(p->transport, "UDP", 3) /*(p->sockfd == sipsock)*/ ) { /* only UDP needs reliable transmit */ #else if (reliable && !p->peerpoke) { #endif if (recordhistory) { parse_copy(&tmp, req); snprintf(tmpmsg, sizeof(tmpmsg), "%s / %s", tmp.data, get_header(&tmp, "CSeq")); append_history(p, "TxReqRel", tmpmsg); } res = __sip_reliable_xmit(p, seqno, 0, req->data, req->len, (reliable > 1), req->method); } else { if (recordhistory) { parse_copy(&tmp, req); snprintf(tmpmsg, sizeof(tmpmsg), "%s / %s", tmp.data, get_header(&tmp, "CSeq")); append_history(p, "TxReq", tmpmsg); } res = __sip_xmit(p, req->data, req->len); } p->stun_needed=0; sip_dealloc_headsdp_lines(req); return res; } static int sip_resend_reqresp(void *data) { int res = 0; struct sip_reqresp *rr=data; struct stun_addr *map=NULL; struct sip_pvt *p=rr->p; struct sip_request tmp; struct sockaddr_in msin; if (!rr) return 0; if (!if_callid_exists(rr->callid)) { cw_log(LOG_DEBUG, "REQRESP: callid %s has been destroyed in the meanwhile. \n",rr->callid); sip_dealloc_headsdp_lines(&rr->req); free(data); return 0; } if (rr->streq) { if (stundebug) cw_log(LOG_DEBUG,"** expected stun reqid %d\n",rr->streq->req_head.id.id[0]); } else { if (stundebug) cw_log(LOG_DEBUG,"** deleting transmission retrial 'cause stun request is not set\n"); rr->p->stun_needed=0; sip_dealloc_headsdp_lines(&rr->req); free(data); return 0; } rr->p->stun_retrans_no++; if (rr->p->stun_retrans_no > STUN_MAX_RETRANSMIT) { if (stundebug) cw_log(LOG_DEBUG,"Deleting this request of reqresp (too many time has passed to wait for stun responses (sip %d)\n",rr->p->stun_resreq_id); p->stun_needed = 0; sip_dealloc_headsdp_lines(&rr->req); free(data); return 0; }; if (stundebug) cw_log(LOG_DEBUG,"** Trying to resend a packet after stun request. " "Type %d, seqno %d sched %d, callid %s\n",rr->type,rr->seqno,rr->p->stun_resreq_id, rr->callid); if (p->rtp && cw_rtp_get_stunstate(p->rtp) == 1) cw_rtp_read(p->rtp); /* RTP Stun search */ if (p->vrtp && cw_rtp_get_stunstate(p->vrtp) == 1) cw_rtp_read(p->vrtp); /* VRTP Stun search */ if (p->udptl && cw_udptl_get_stunstate(p->udptl) == 1) cw_udptl_read(p->udptl); /* UDPTL Stun search */ map = cw_stun_find_request(&rr->streq->req_head.id); if (stundebug) { cw_log(LOG_DEBUG,"** STUN: state - sip: %d - sdp ports: rtp:%d vrtp:%d udptl:%d \n", (!map) ? 1 : 2, cw_rtp_get_stunstate(p->rtp), cw_rtp_get_stunstate(p->vrtp), cw_udptl_get_stunstate(p->udptl)); } if (map && cw_rtp_get_stunstate(p->rtp) != 1 && cw_rtp_get_stunstate(p->vrtp) != 1 && cw_udptl_get_stunstate(p->udptl) != 1) { char iabuf[INET_ADDRSTRLEN]; stun_addr2sockaddr(&msin,map); memcpy(&p->stun_transid,&rr->streq->req_head.id, sizeof(stun_trans_id) ); if (stundebug) cw_log(LOG_DEBUG,"** STUN: Mapped address is %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), msin.sin_addr), ntohs(map->port)); } else { if (stundebug) cw_log(LOG_DEBUG,"** SIP port stun mapped address not found. STUN state on sdp ports is: rtp:%d vrtp:%d udptl:%d \n", cw_rtp_get_stunstate(p->rtp), cw_rtp_get_stunstate(p->vrtp), cw_udptl_get_stunstate(p->udptl)); rr->p->stun_resreq_id=cw_sched_add(sched, STUN_WAIT_RETRY_TIME, sip_resend_reqresp, rr); return res; } p->ourip = msin.sin_addr; p->ourport = ntohs(map->port); #if STUN_DEV_DEBUG if (stundebug) cw_log(LOG_DEBUG,"** STUN rebuilding payload before sending reqresp\n"); #endif sip_rebuild_payload(rr->p, &rr->req, 1); parse_copy(&tmp,&rr->req); if (rr->type == 1) { if (stundebug) cw_log(LOG_DEBUG,"** STUN Sending response after acquiring STUN\n"); /* This is a send_response*/ rr->p->stun_needed = 2; send_response(rr->p, &rr->req, rr->reliable, rr->seqno); // SIP OPTIONS SHOULD BE DESTROYED WHEN USING STUN switch (rr->p->method) { case SIP_OPTIONS: if (!rr->p->lastinvite) cw_set_flag(rr->p, SIP_NEEDDESTROY); break; } } else if (rr->type == 2) { if (stundebug) cw_log(LOG_DEBUG,"** STUN Sending request after acquiring STUN\n"); /* This is a send_request*/ rr->p->stun_needed = 2; send_request(rr->p, &rr->req, rr->reliable, rr->seqno); } else { if (stundebug) cw_log(LOG_DEBUG, "deleting this request of reqresp %d\n",rr->p->stun_resreq_id); } sip_dealloc_headsdp_lines(&rr->req); stun_remove_request(&rr->streq->req_head.id); free(data); return res; } /* ************************************************************************ */ /*! \brief get_in_brackets: Pick out text in brackets from character string */ /* returns pointer to terminated stripped string. modifies input string. */ static char *get_in_brackets(char *tmp) { char *parse; char *first_quote; char *first_bracket; char *second_bracket; char last_char; parse = tmp; while (1) { first_quote = strchr(parse, '"'); first_bracket = strchr(parse, '<'); if (first_quote && first_bracket && (first_quote < first_bracket)) { last_char = '\0'; for (parse = first_quote + 1; *parse; parse++) { if ((*parse == '"') && (last_char != '\\')) break; last_char = *parse; } if (!*parse) { cw_log(LOG_WARNING, "No closing quote found in '%s'\n", tmp); return tmp; } parse++; continue; } if (first_bracket) { second_bracket = strchr(first_bracket + 1, '>'); if (second_bracket) { *second_bracket = '\0'; return first_bracket + 1; } else { cw_log(LOG_WARNING, "No closing bracket found in '%s'\n", tmp); return tmp; } } return tmp; } } /*! \brief sip_sendtext: Send SIP MESSAGE text within a call */ /* Called from PBX core text message functions */ static int sip_sendtext(struct cw_channel *chan, const char *text) { struct sip_pvt *p = chan->tech_pvt; int debug=sip_debug_test_pvt(p); if (debug) cw_verbose("Sending text %s on %s\n", text, chan->name); if (!p) return -1; if (cw_strlen_zero(text)) return 0; if (debug) cw_verbose("Really sending text %s on %s\n", text, chan->name); transmit_message_with_text(p, text); return 0; } /*! \brief realtime_update_peer: Update peer object in realtime storage */ /*! \brief Update peer object in realtime storage If the CallWeaver system name is set in callweaver.conf, we will use that name and store that in the "regserver" field in the sippeers table to facilitate multi-server setups. */ static void realtime_update_peer(const char *peername, struct sockaddr_in *sin, const char *username, const char *fullcontact, int expiry, const char *useragent) { char port[10]; char ipaddr[20]; char regseconds[20] = "0"; char *sysname = cw_config_CW_SYSTEM_NAME; char *syslabel = NULL; time_t nowtime; time(&nowtime); nowtime += expiry; snprintf(regseconds, sizeof(regseconds), "%ld", nowtime); /* Expiration time */ cw_inet_ntoa(ipaddr, sizeof(ipaddr), sin->sin_addr); snprintf(port, sizeof(port), "%d", ntohs(sin->sin_port)); if (cw_strlen_zero(sysname)) /* No system name, disable this */ sysname = NULL; else syslabel = "regserver"; if (fullcontact) cw_update_realtime( "sippeers", "name", peername, "ipaddr", ipaddr, "port", port, "regseconds", regseconds, "username", username, "useragent", useragent, "fullcontact", fullcontact, syslabel, sysname, NULL); else cw_update_realtime( "sippeers", "name", peername, "ipaddr", ipaddr, "port", port, "regseconds", regseconds, "username", username, "useragent", useragent, syslabel, sysname, NULL); } /*! \brief register_peer_exten: Automatically add peer extension to dial plan */ static void register_peer_exten(struct sip_peer *peer, int onoff) { char multi[256]; char *stringp, *ext; if (!cw_strlen_zero(regcontext)) { cw_copy_string(multi, cw_strlen_zero(peer->regexten) ? peer->name : peer->regexten, sizeof(multi)); stringp = multi; while ((ext = strsep(&stringp, "&"))) { if (onoff) cw_add_extension(regcontext, 1, ext, 1, NULL, NULL, "NoOp", strdup(peer->name), free, channeltype); else cw_context_remove_extension(regcontext, ext, 1, NULL); } } } /*! \brief sip_destroy_peer: Destroy peer object from memory */ static void sip_destroy_peer(struct sip_peer *peer) { /* Delete it, it needs to disappear */ if (peer->call) sip_destroy(peer->call); if (peer->mwipvt) /* MWI subscription */ sip_destroy(peer->mwipvt); if (peer->chanvars) { cw_variables_destroy(peer->chanvars); peer->chanvars = NULL; } if (peer->expire > -1) cw_sched_del(sched, peer->expire); if (peer->pokeexpire > -1) cw_sched_del(sched, peer->pokeexpire); register_peer_exten(peer, 0); cw_free_ha(peer->ha); if (cw_test_flag(peer, SIP_SELFDESTRUCT)) apeerobjs--; else if (cw_test_flag(peer, SIP_REALTIME)) rpeerobjs--; else speerobjs--; clear_realm_authentication(peer->auth); peer->auth = (struct sip_auth *) NULL; if (peer->dnsmgr) cw_dnsmgr_release(peer->dnsmgr); free(peer); } /*! \brief update_peer: Update peer data in database (if used) */ static void update_peer(struct sip_peer *p, int expiry) { int rtcachefriends = cw_test_flag(&(p->flags_page2), SIP_PAGE2_RTCACHEFRIENDS); if (cw_test_flag((&global_flags_page2), SIP_PAGE2_RTUPDATE) && (cw_test_flag(p, SIP_REALTIME) || rtcachefriends)) { realtime_update_peer(p->name, &p->addr, p->username, rtcachefriends ? p->fullcontact : NULL, expiry, p->useragent); } } /*! \brief realtime_peer: Get peer from realtime storage * Checks the "sippeers" realtime family from extconfig.conf */ static struct sip_peer *realtime_peer(const char *peername, struct sockaddr_in *sin) { struct sip_peer *peer=NULL; struct cw_variable *var; struct cw_variable *tmp; char *newpeername = (char *) peername; char iabuf[80]; char iabuf2[10]; int port = 0; if (option_debug > 5) cw_log(LOG_DEBUG, "Attempting to fetch peer \"%s\" from realtime db\n", peername); /* First check on peer name */ if (newpeername) { var = cw_load_realtime("sippeers", "name", peername, NULL); } else if (sin) { /* Then check on IP address */ cw_inet_ntoa(iabuf, sizeof(iabuf), sin->sin_addr); port = ntohs(sin->sin_port); snprintf(iabuf2,sizeof(iabuf2),"%d",port); if (option_debug > 5) cw_log(LOG_DEBUG, "No peer name given - looking for %s\n", iabuf); var = cw_load_realtime("sippeers", "host", iabuf, NULL); if (!var) { if (option_debug > 5) cw_log(LOG_DEBUG, "No peer found for %s - looking for %s:%s.\nBut WHY ON EARTH aren't we checking with the port before we just look for the IP???\n", iabuf, iabuf, iabuf2); var = cw_load_realtime("sippeers", "ipaddr", iabuf, "port", iabuf2, NULL); /* Then check for registred hosts */ } } else return NULL; if (!var) return NULL; tmp = var; /* If this is type=user, then skip this object. */ while (tmp) { if (!strcasecmp(tmp->name, "type") && !strcasecmp(tmp->value, "user")) { cw_variables_destroy(var); return NULL; } else if (!newpeername && !strcasecmp(tmp->name, "name")) { newpeername = tmp->value; } tmp = tmp->next; } if (!newpeername) { /* Did not find peer in realtime */ cw_log(LOG_WARNING, "Cannot Determine peer name ip=%s\n", iabuf); cw_variables_destroy(var); return (struct sip_peer *) NULL; } /* We've got the peer - make debug noise */ if (option_debug > 5) cw_log(LOG_DEBUG, "Found peer \"%s\" - calling build_peer with realtime = %d\n", newpeername, !cw_test_flag((&global_flags_page2), SIP_PAGE2_RTCACHEFRIENDS)); /* Peer found in realtime, now build it in memory */ peer = build_peer(newpeername, var, !cw_test_flag((&global_flags_page2), SIP_PAGE2_RTCACHEFRIENDS), NULL); if (!peer) { cw_variables_destroy(var); return (struct sip_peer *) NULL; } if (cw_test_flag((&global_flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) { /* Cache peer */ cw_copy_flags((&peer->flags_page2),(&global_flags_page2), SIP_PAGE2_RTAUTOCLEAR|SIP_PAGE2_RTCACHEFRIENDS); if (cw_test_flag((&global_flags_page2), SIP_PAGE2_RTAUTOCLEAR)) { if (peer->expire > -1) cw_sched_del(sched, peer->expire); peer->expire = cw_sched_add(sched, (global_rtautoclear) * 1000, expire_register, (void *)peer); } CWOBJ_CONTAINER_LINK(&peerl,peer); } else { cw_set_flag(peer, SIP_REALTIME); } cw_variables_destroy(var); return peer; } /*! \brief sip_addrcmp: Support routine for find_peer */ static int sip_addrcmp(char *name, struct sockaddr_in *sin) { /* We know name is the first field, so we can cast */ struct sip_peer *p = (struct sip_peer *)name; return !(!inaddrcmp(&p->addr, sin) || (cw_test_flag(p, SIP_INSECURE_PORT) && (p->addr.sin_addr.s_addr == sin->sin_addr.s_addr))); } /*! \brief find_peer: Locate peer by name or ip address * This is used on incoming SIP message to find matching peer on ip or outgoing message to find matching peer on name */ static struct sip_peer *find_peer(const char *peer, struct sockaddr_in *sin, int realtime) { struct sip_peer *p = NULL; if (peer) p = CWOBJ_CONTAINER_FIND(&peerl,peer); else p = CWOBJ_CONTAINER_FIND_FULL(&peerl,sin,name,sip_addr_hashfunc,1,sip_addrcmp); if (!p && realtime) p = realtime_peer(peer, sin); return p; } /*! \brief sip_destroy_user: Remove user object from in-memory storage */ static void sip_destroy_user(struct sip_user *user) { cw_free_ha(user->ha); if (user->chanvars) { cw_variables_destroy(user->chanvars); user->chanvars = NULL; } if (cw_test_flag(user, SIP_REALTIME)) ruserobjs--; else suserobjs--; free(user); } /*! \brief realtime_user: Load user from realtime storage * Loads user from "sipusers" category in realtime (extconfig.conf) * Users are matched on From: user name (the domain in skipped) */ static struct sip_user *realtime_user(const char *username) { struct cw_variable *var; struct cw_variable *tmp; struct sip_user *user = NULL; var = cw_load_realtime("sipusers", "name", username, NULL); if (!var) return NULL; tmp = var; while (tmp) { if (!strcasecmp(tmp->name, "type") && !strcasecmp(tmp->value, "peer")) { cw_variables_destroy(var); return NULL; } tmp = tmp->next; } user = build_user(username, var, !cw_test_flag((&global_flags_page2), SIP_PAGE2_RTCACHEFRIENDS), NULL); if (!user) { /* No user found */ cw_variables_destroy(var); return NULL; } if (cw_test_flag((&global_flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) { cw_set_flag((&user->flags_page2), SIP_PAGE2_RTCACHEFRIENDS); suserobjs++; CWOBJ_CONTAINER_LINK(&userl,user); } else { /* Move counter from s to r... */ suserobjs--; ruserobjs++; cw_set_flag(user, SIP_REALTIME); } cw_variables_destroy(var); return user; } /*! \brief find_user: Locate user by name * Locates user by name (From: sip uri user name part) first * from in-memory list (static configuration) then from * realtime storage (defined in extconfig.conf) */ static struct sip_user *find_user(const char *name, int realtime) { struct sip_user *u = NULL; u = CWOBJ_CONTAINER_FIND(&userl,name); if (!u && realtime) u = realtime_user(name); return u; } /*! \brief create_addr_from_peer: create address structure from peer reference */ static int create_addr_from_peer(struct sip_pvt *r, struct sip_peer *peer) { char *callhost; if ((peer->addr.sin_addr.s_addr || peer->defaddr.sin_addr.s_addr) && (!peer->maxms || ((peer->lastms >= 0) && (peer->lastms <= peer->maxms)))) { if (peer->addr.sin_addr.s_addr) { r->sa.sin_family = peer->addr.sin_family; r->sa.sin_addr = peer->addr.sin_addr; r->sa.sin_port = peer->addr.sin_port; } else { r->sa.sin_family = peer->defaddr.sin_family; r->sa.sin_addr = peer->defaddr.sin_addr; r->sa.sin_port = peer->defaddr.sin_port; } memcpy(&r->recv, &r->sa, sizeof(r->recv)); } else { return -1; } cw_copy_flags(r, peer, SIP_FLAGS_TO_COPY); r->capability = peer->capability; r->prefs = peer->prefs; r->t38capability = global_t38_capability; if (r->udptl) { if (cw_udptl_get_preferred_error_correction_scheme(r->udptl) == UDPTL_ERROR_CORRECTION_FEC) r->t38capability |= T38FAX_UDP_EC_FEC; else if (cw_udptl_get_preferred_error_correction_scheme(r->udptl) == UDPTL_ERROR_CORRECTION_REDUNDANCY) r->t38capability |= T38FAX_UDP_EC_REDUNDANCY; r->t38capability |= T38FAX_RATE_MANAGEMENT_TRANSFERED_TCF; cw_log(LOG_DEBUG,"Our T38 capability (%d)\n", r->t38capability); } r->t38jointcapability = r->t38capability; if (r->rtp) { cw_log(LOG_DEBUG, "Setting NAT on RTP to %d\n", sip_is_nat_needed(r) ); cw_rtp_setnat(r->rtp, sip_is_nat_needed(r) ); } if (r->vrtp) { cw_log(LOG_DEBUG, "Setting NAT on VRTP to %d\n", sip_is_nat_needed(r) ); cw_rtp_setnat(r->vrtp, sip_is_nat_needed(r) ); } if (r->udptl) { cw_log(LOG_DEBUG, "Setting NAT on UDPTL to %d\n", sip_is_nat_needed(r) ); cw_udptl_setnat(r->udptl, sip_is_nat_needed(r) ); } cw_copy_string(r->peername, peer->username, sizeof(r->peername)); cw_copy_string(r->authname, peer->username, sizeof(r->authname)); cw_copy_string(r->username, peer->username, sizeof(r->username)); cw_copy_string(r->peersecret, peer->secret, sizeof(r->peersecret)); cw_copy_string(r->peermd5secret, peer->md5secret, sizeof(r->peermd5secret)); cw_copy_string(r->tohost, peer->tohost, sizeof(r->tohost)); cw_copy_string(r->fullcontact, peer->fullcontact, sizeof(r->fullcontact)); #ifdef SIP_TCP_SUPPORT r->sockfd = peer->sockfd; r->ssl = peer->ssl; cw_copy_string(r->transport, peer->transport, sizeof(r->transport)); #endif if (!r->initreq.headers && !cw_strlen_zero(peer->fromdomain)) { if ((callhost = strchr(r->callid, '@'))) strncpy(callhost + 1, peer->fromdomain, sizeof(r->callid) - (callhost - r->callid) - 2); } if (cw_strlen_zero(r->tohost)) { if (peer->addr.sin_addr.s_addr) cw_inet_ntoa(r->tohost, sizeof(r->tohost), peer->addr.sin_addr); else cw_inet_ntoa(r->tohost, sizeof(r->tohost), peer->defaddr.sin_addr); } if (!cw_strlen_zero(peer->fromdomain)) cw_copy_string(r->fromdomain, peer->fromdomain, sizeof(r->fromdomain)); if (!cw_strlen_zero(peer->fromuser)) cw_copy_string(r->fromuser, peer->fromuser, sizeof(r->fromuser)); if (!cw_strlen_zero(peer->language)) cw_copy_string(r->language, peer->language, sizeof(r->language)); r->maxtime = peer->maxms; r->callgroup = peer->callgroup; r->pickupgroup = peer->pickupgroup; /* Set timer T1 to RTT for this peer (if known by qualify=) */ if (peer->maxms && peer->lastms) r->timer_t1 = peer->lastms; if ((cw_test_flag(r, SIP_DTMF) == SIP_DTMF_RFC2833) || (cw_test_flag(r, SIP_DTMF) == SIP_DTMF_AUTO)) r->noncodeccapability |= CW_RTP_DTMF; else r->noncodeccapability &= ~CW_RTP_DTMF; cw_copy_string(r->context, peer->context,sizeof(r->context)); r->rtptimeout = peer->rtptimeout; r->rtpholdtimeout = peer->rtpholdtimeout; r->rtpkeepalive = peer->rtpkeepalive; #ifdef ENABLE_SIP_CALL_LIMIT if (peer->call_limit) { cw_set_flag(r, SIP_CALL_LIMIT); cw_log(LOG_DEBUG,"cw_set_flag() called for user %s\n", r->peername); } #endif return 0; } /*! \brief create_addr: create address structure from peer name * Or, if peer not found, find it in the global DNS * returns TRUE (-1) on failure, FALSE on success */ static int create_addr(struct sip_pvt *dialog, char *opeer) { struct hostent *hp; struct cw_hostent ahp; struct sip_peer *p; char *port; int portno; char host[MAXHOSTNAMELEN], *hostn; char peer[256]; #ifdef SIP_TCP_SUPPORT char transport[256]; #endif /* SIP_TCP_SUPPORT */ cw_copy_string(peer, opeer, sizeof(peer)); port = strchr(peer, ':'); if (port) { *port = '\0'; port++; } dialog->sa.sin_family = AF_INET; p = find_peer(peer, NULL, 1); if (p) { int ret = create_addr_from_peer(dialog, p); CWOBJ_UNREF(p, sip_destroy_peer); return ret; } else { hostn = peer; if (port) portno = atoi(port); else portno = DEFAULT_SIP_PORT; #ifdef SIP_TCP_SUPPORT cw_copy_string(transport, DEFAULT_TRANSPORT, sizeof(DEFAULT_TRANSPORT)); #endif /* SIP_TCP_SUPPORT */ if (srvlookup) { char service[MAXHOSTNAMELEN]; int tportno; int ret; char srvTransport[256]; snprintf(service, sizeof(service), "_sip._udp.%s", peer); ret = cw_get_srv(NULL, host, sizeof(host), &tportno, service); #ifdef SIP_TCP_SUPPORT cw_copy_string(srvTransport, "UDP", sizeof(srvTransport)); if( ret <= 0 ){ snprintf(service, sizeof(service), "_sip._tcp.%s", peer); ret = cw_get_srv(NULL, host, sizeof(host), &tportno, service); cw_copy_string(srvTransport, "TCP", sizeof(srvTransport)); } if( ret <= 0 ){ snprintf(service, sizeof(service), "_sip._tls.%s", peer); ret = cw_get_srv(NULL, host, sizeof(host), &tportno, service); cw_copy_string(srvTransport, "TLS", sizeof(srvTransport)); } if( ret <= 0 ){ snprintf(service, sizeof(service), "_sipinternal._udp.%s", peer); ret = cw_get_srv(NULL, host, sizeof(host), &tportno, service); cw_copy_string(srvTransport, "UDP", sizeof(srvTransport)); } if( ret <= 0 ){ snprintf(service, sizeof(service), "_sipinternal._tcp.%s", peer); ret = cw_get_srv(NULL, host, sizeof(host), &tportno, service); cw_copy_string(srvTransport, "TCP", sizeof(srvTransport)); } if( ret <= 0 ){ snprintf(service, sizeof(service), "_sipinternal._tls.%s", peer); ret = cw_get_srv(NULL, host, sizeof(host), &tportno, service); cw_copy_string(srvTransport, "TLS", sizeof(srvTransport)); } #endif /* SIP_TCP_SUPPORT */ if (ret > 0) { hostn = host; portno = tportno; #ifdef SIP_TCP_SUPPORT cw_copy_string(transport, srvTransport, sizeof(transport)); if( sipdebug ) cw_verbose( "Found information about services _sip._xxx.%s (%s:%d; transport=%s)\n", peer, hostn, portno, transport ); #endif /* SIP_TCP_SUPPORT */ }else{ cw_log( LOG_WARNING, "Can not get information about services _sip._xxx.%s\n", peer ); } } if ((hp = cw_gethostbyname(hostn, &ahp))) { cw_copy_string(dialog->tohost, peer, sizeof(dialog->tohost)); memcpy(&dialog->sa.sin_addr, hp->h_addr, sizeof(dialog->sa.sin_addr)); dialog->sa.sin_port = htons(portno); memcpy(&dialog->recv, &dialog->sa, sizeof(dialog->recv)); #ifdef SIP_TCP_SUPPORT cw_copy_string(dialog->transport, transport, sizeof(dialog->transport)); #endif /* SIP_TCP_SUPPORT */ return 0; } else { cw_log(LOG_WARNING, "No such host: %s\n", peer); return -1; } } } /*! \brief auto_congest: Scheduled congestion on a call */ static int auto_congest(void *nothing) { struct sip_pvt *p = nothing; cw_mutex_lock(&p->lock); p->initid = -1; if (p->owner) { if (!cw_mutex_trylock(&p->owner->lock)) { cw_log(LOG_NOTICE, "Auto-congesting %s\n", p->owner->name); cw_queue_control(p->owner, CW_CONTROL_CONGESTION); cw_mutex_unlock(&p->owner->lock); } } cw_mutex_unlock(&p->lock); return 0; } #ifdef ENABLE_SRTP /* * SRTP sdescriptions * Specified in: draft-ietf-mmusic-sdescriptions-12.txt */ static struct sip_srtp *sip_srtp_alloc(void) { struct sip_srtp *srtp = malloc(sizeof(*srtp)); memset(srtp, 0, sizeof(*srtp)); return srtp; } static void sip_srtp_destroy(struct sip_srtp *srtp) { free(srtp->a_crypto); srtp->a_crypto = NULL; } static int setup_crypto(struct sip_pvt *p) { if (!cw_srtp_is_registered()) return -1; p->srtp = sip_srtp_alloc(); if (!p->srtp) return -1; if (cw_srtp_get_random(p->srtp->local_key, sizeof(p->srtp->local_key)) < 0) { sip_srtp_destroy(p->srtp); p->srtp = NULL; return -1; } cw_base64encode(p->srtp->local_key64, p->srtp->local_key, SRTP_MASTER_LEN, sizeof(p->srtp->local_key64)); return 0; } static int set_crypto_policy(struct cw_srtp_policy *policy, int suite_val, const unsigned char *master_key, unsigned long ssrc, int inbound) { const unsigned char *master_salt = NULL; master_salt = master_key + SRTP_MASTERKEY_LEN; if (cw_srtp_policy_set_master_key(policy, master_key, SRTP_MASTERKEY_LEN, master_salt, SRTP_MASTERSALT_LEN) < 0) return -1; if (cw_srtp_policy_set_suite(policy, suite_val)) { cw_log(LOG_WARNING, "Could not set remote SRTP suite\n"); return -1; } cw_srtp_policy_set_ssrc(policy, ssrc, inbound); return 0; } static int activate_crypto(struct sip_pvt *p, int suite_val, unsigned char *remote_key) { struct cw_srtp_policy *local_policy = NULL; struct cw_srtp_policy *remote_policy = NULL; int res = -1; struct sip_srtp *srtp = p->srtp; if (!srtp) return -1; local_policy = cw_srtp_policy_alloc(); if (!local_policy) goto err; remote_policy = cw_srtp_policy_alloc(); if (!remote_policy) { goto err; } if (set_crypto_policy(local_policy, suite_val, srtp->local_key, cw_rtp_get_ssrc(p->rtp), 0) < 0) goto err; if (set_crypto_policy(remote_policy, suite_val, remote_key, 0, 1) < 0) goto err; if (cw_rtp_add_srtp_policy(p->rtp, local_policy)) { cw_log(LOG_WARNING, "Could not set local SRTP policy\n"); goto err; } if (cw_rtp_add_srtp_policy(p->rtp, remote_policy)) { cw_log(LOG_WARNING, "Could not set remote SRTP policy\n"); goto err; } cw_log(LOG_DEBUG, "SRTP policy activated\n"); res = 0; err: if (local_policy) cw_srtp_policy_destroy(local_policy); if (remote_policy) cw_srtp_policy_destroy(remote_policy); return res; } static int process_crypto(struct sip_pvt *p, const char *attr) { char *str = NULL; char *name = NULL; char *tag = NULL; char *suite = NULL; char *key_params = NULL; char *key_param = NULL; char *session_params = NULL; char *key_salt = NULL; char *lifetime = NULL; int found = 0; int attr_len = strlen(attr); int key_len = 0; unsigned char remote_key[SRTP_MASTER_LEN]; int suite_val = 0; struct sip_srtp *srtp = p->srtp; if (!cw_srtp_is_registered()) return -1; /* Crypto already accepted */ if (srtp && srtp->a_crypto) return -1; str = strdupa(attr); name = strsep(&str, ":"); tag = strsep(&str, " "); suite = strsep(&str, " "); key_params = strsep(&str, " "); session_params = strsep(&str, " "); if (!tag || !suite) { cw_log(LOG_WARNING, "Unrecognized a=%s", attr); return -1; } if (session_params) { cw_log(LOG_WARNING, "Unsupported crypto parameters: %s", session_params); return -1; } if (!strcmp(suite, "AES_CM_128_HMAC_SHA1_80")) { suite_val = CW_AES_CM_128_HMAC_SHA1_80; } else if (!strcmp(suite, "AES_CM_128_HMAC_SHA1_32")) { suite_val = CW_AES_CM_128_HMAC_SHA1_32; } else { cw_log(LOG_WARNING, "Unsupported crypto suite: %s", suite); return -1; } while ((key_param = strsep(&key_params, ";"))) { char *method = NULL; char *info = NULL; method = strsep(&key_param, ":"); info = strsep(&key_param, ";"); if (!strcmp(method, "inline")) { key_salt = strsep(&info, "|"); lifetime = strsep(&info, "|"); if (lifetime) { cw_log(LOG_NOTICE, "Crypto life time unsupported: %s\n", attr); continue; } /* if (info || strncmp(lifetime, "2^", 2)) { */ /* cw_log(LOG_NOTICE, "MKI unsupported: %s\n", */ /* attr); */ /* continue; */ /* } */ found = 1; break; } } if (!found) { cw_log(LOG_NOTICE, "SRTP crypto offer not acceptable\n"); return -1; } if (!srtp) { setup_crypto(p); srtp = p->srtp; } key_len = cw_base64decode(remote_key, key_salt, sizeof(remote_key)); if (key_len != SRTP_MASTER_LEN) { cw_log(LOG_WARNING, "SRTP sdescriptions key %d != %d\n", key_len, SRTP_MASTER_LEN); return -1; } if (activate_crypto(p, suite_val, remote_key) < 0) return -1; srtp->a_crypto = malloc(attr_len+11); snprintf(srtp->a_crypto, attr_len+10, // "a=crypto:%s %s inline:%s\r\n", "a=crypto:%s %s inline:%s", tag, suite, srtp->local_key64); return 0; } #endif /*! \brief sip_call: Initiate SIP call from PBX * used from the dial() application */ static int sip_call(struct cw_channel *chan, char *dest, int timeout) { int res; struct sip_pvt *p; struct varshead *headp; struct cw_var_t *current; p = chan->tech_pvt; if ((chan->_state != CW_STATE_DOWN) && (chan->_state != CW_STATE_RESERVED)) { cw_log(LOG_WARNING, "sip_call called on %s, neither down nor reserved\n", chan->name); return -1; } /* Check whether there is vxml_url, distinctive ring variables */ headp=&chan->varshead; CW_LIST_TRAVERSE(headp,current,entries) { /* Check whether there is a VXML_URL variable */ if (!p->options->vxml_url && !strcasecmp(cw_var_name(current), "VXML_URL")) { p->options->vxml_url = cw_var_value(current); } else if (!p->options->uri_options && !strcasecmp(cw_var_name(current), "SIP_URI_OPTIONS")) { p->options->uri_options = cw_var_value(current); } else if (!p->options->distinctive_ring && !strcasecmp(cw_var_name(current), "ALERT_INFO")) { /* Check whether there is a ALERT_INFO variable */ p->options->distinctive_ring = cw_var_value(current); } else if (!p->options->addsipheaders && !strncasecmp(cw_var_name(current), "SIPADDHEADER", strlen("SIPADDHEADER"))) { /* Check whether there is a variable with a name starting with SIPADDHEADER */ p->options->addsipheaders = 1; #ifdef ENABLE_SRTP } else if (!strncasecmp(cw_var_name(current), "SIP_SRTP_SDES", strlen("SIP_SRTP_SDES"))) { if (!cw_srtp_is_registered()) { cw_log(LOG_WARNING, "SIP_SRTP_SDES set but SRTP is not available\n"); return -1; } if (!p->srtp) { if (setup_crypto(p) < 0) { cw_log(LOG_WARNING, "SIP SRTP sdes setup failed\n"); return -1; } } #endif } else if (!p->options->t38txdetection && !strncasecmp(cw_var_name(current), "T38TXDETECT", strlen("T38TXDETECT"))) { /* Check whether there is a variable with a name starting with SIPADDHEADER */ p->options->t38txdetection = 1; } else if (!strncasecmp(cw_var_name(current), "T38CALL", strlen("T38CALL"))) { /* Check whether there is a variable with a name starting with T38CALL */ p->t38state = SIP_T38_OFFER_SENT_DIRECT; cw_log(LOG_DEBUG,"T38State change to %d on channel %s\n",p->t38state, chan->name); } } res = 0; cw_set_flag(p, SIP_OUTGOING); cw_log(LOG_DEBUG, "Outgoing Call for %s\n", p->username); //#ifdef ENABLE_SIP_CALL_LIMIT res = update_call_counter(p, INC_CALL_LIMIT); //#endif if (res != -1) { p->callingpres = chan->cid.cid_pres; p->jointcapability = p->capability; p->t38jointcapability = p->t38capability; cw_log(LOG_DEBUG,"Our T38 capability (%d), joint T38 capability (%d)\n", p->t38capability, p->t38jointcapability); transmit_invite(p, SIP_INVITE, 1, 2); if (p->maxtime) { /* Initialize auto-congest time */ p->initid = cw_sched_add(sched, p->maxtime * 4, auto_congest, p); } } return res; } /*! \brief sip_registry_destroy: Destroy registry object */ /* Objects created with the register= statement in static configuration */ static void sip_registry_destroy(struct sip_registry *reg) { /* Really delete */ if (reg->call) { /* Clear registry before destroying to ensure we don't get reentered trying to grab the registry lock */ reg->call->registry = NULL; sip_destroy(reg->call); } if (reg->expire > -1) cw_sched_del(sched, reg->expire); if (reg->timeout > -1) cw_sched_del(sched, reg->timeout); regobjs--; free(reg); } /*! \brief __sip_destroy: Execute destrucion of call structure, release memory*/ static void __sip_destroy(struct sip_pvt *p, int lockowner) { struct sip_pvt *cur, *prev = NULL; struct sip_pkt *cp; struct sip_history *hist; if (sip_debug_test_pvt(p)) cw_verbose("Destroying call '%s'\n", p->callid); if (dumphistory) sip_dump_history(p); if (p->options) free(p->options); if (p->stateid > -1) cw_extension_state_del(p->stateid, NULL); if (p->initid > -1) cw_sched_del(sched, p->initid); if (p->autokillid > -1) cw_sched_del(sched, p->autokillid); if (p->rtp) cw_rtp_destroy(p->rtp); if (p->vrtp) cw_rtp_destroy(p->vrtp); if (p->udptl) cw_udptl_destroy(p->udptl); #if 0 if (p->tpkt) cw_tpkt_destroy(p->tpkt); #endif if (p->route) { free_old_route(p->route); p->route = NULL; } if (p->registry) { if (p->registry->call == p) p->registry->call = NULL; CWOBJ_UNREF(p->registry,sip_registry_destroy); } if (p->rpid) free(p->rpid); if (p->rpid_from) free(p->rpid_from); /*#ifdef SIP_TCP_SUPPORT if ((p->sockfd > 0) && (p->sockfd != sipsock)) close(p->sockfd); if (p->ssl) SSL_free(p->ssl); #endif*/ /* Unlink us from the owner if we have one */ if (p->owner) { if (lockowner) cw_mutex_lock(&p->owner->lock); cw_log(LOG_DEBUG, "Detaching from %s\n", p->owner->name); p->owner->tech_pvt = NULL; if (lockowner) cw_mutex_unlock(&p->owner->lock); } /* Clear history */ while (p->history) { hist = p->history; p->history = p->history->next; free(hist); } cur = iflist; while (cur) { if (cur == p) { if (prev) prev->next = cur->next; else iflist = cur->next; break; } prev = cur; cur = cur->next; } if (!cur) { cw_log(LOG_WARNING, "Trying to destroy \"%s\", not found in dialog list?!?! \n", p->callid); return; } while ((cp = p->packets)) { p->packets = p->packets->next; if (cp->retransid > -1) cw_sched_del(sched, cp->retransid); free(cp); } if (p->chanvars) { cw_variables_destroy(p->chanvars); p->chanvars = NULL; } #ifdef ENABLE_SRTP if (p->srtp) { sip_srtp_destroy(p->srtp); p->srtp = NULL; } #endif cw_mutex_destroy(&p->lock); free(p); } //#ifdef ENABLE_SIP_CALL_LIMIT /*! \brief update_call_counter: Handle call_limit for SIP users * Note: This is going to be replaced by app_groupcount * Thought: For realtime, we should propably update storage with inuse counter... */ static int update_call_counter(struct sip_pvt *fup, int event) { char name[256]; int *inuse, *call_limit; int outgoing = cw_test_flag(fup, SIP_OUTGOING); struct sip_user *u = NULL; struct sip_peer *p = NULL; if (option_debug > 2) cw_log(LOG_DEBUG, "update_call_counter(%s, %d): Updating call counter for %s call\n", fup->username, event, outgoing ? "outgoing" : "incoming"); /* Test if we need to check call limits, in order to avoid realtime lookups if we do not need it */ if (!cw_test_flag(fup, SIP_CALL_LIMIT)) return 0; cw_copy_string(name, fup->username, sizeof(name)); /* Check the list of users */ u = find_user(name, 1); if (!outgoing && u) { inuse = &u->inUse; call_limit = &u->call_limit; p = NULL; } else { /* Try to find peer */ if (!p) p = find_peer(fup->peername, NULL, 1); if (p) { inuse = &p->inUse; call_limit = &p->call_limit; cw_copy_string(name, fup->peername, sizeof(name)); } else { if (option_debug > 1) cw_log(LOG_DEBUG, "update_call_counter(%s, %d): %s is not a local user, no call limit\n", fup->username, event, name); return 0; } } switch (event) { /* incoming and outgoing affects the inUse counter */ case DEC_CALL_LIMIT: if ( *inuse > 0 ) { if (cw_test_flag(fup,SIP_INC_COUNT)) { (*inuse)--; cw_clear_flag(fup, SIP_INC_COUNT); } } else *inuse = 0; if (option_debug > 1 || sipdebug) cw_log(LOG_DEBUG, "update_call_counter(%s, %d): Call %s %s '%s' removed from call limit %d\n", fup->username, event, outgoing ? "to" : "from", u ? "user":"peer", name, *call_limit); break; case INC_CALL_LIMIT: if (*call_limit > 0 ) { if (*inuse >= *call_limit) { cw_log(LOG_ERROR, "update_call_counter(%s, %d): Call %s %s '%s' rejected due to usage limit of %d\n", fup->username, event, outgoing ? "to" : "from", u ? "user":"peer", name, *call_limit); if (u) CWOBJ_UNREF(u,sip_destroy_user); else CWOBJ_UNREF(p,sip_destroy_peer); return -1; } } (*inuse)++; cw_set_flag(fup,SIP_INC_COUNT); if (option_debug > 1 || sipdebug) cw_log(LOG_DEBUG, "update_call_counter(%s, %d): Call %s %s '%s' is %d out of %d\n", fup->username, event, outgoing ? "to" : "from", u ? "user":"peer", name, *inuse, *call_limit); break; default: cw_log(LOG_ERROR, "update_call_counter(%s, %d): called with no event!\n", fup->username, event); } if (u) CWOBJ_UNREF(u,sip_destroy_user); else CWOBJ_UNREF(p,sip_destroy_peer); return 0; } //#endif /*! \brief sip_destroy: Destroy SIP call structure */ static void sip_destroy(struct sip_pvt *p) { cw_mutex_lock(&iflock); __sip_destroy(p, 1); cw_mutex_unlock(&iflock); } static int transmit_response_reliable(struct sip_pvt *p, char *msg, struct sip_request *req, int fatal); /*! \brief hangup_sip2cause: Convert SIP hangup causes to CallWeaver hangup causes */ static int hangup_sip2cause(int cause) { /* Possible values taken from causes.h */ switch (cause) { case 603: /* Declined */ case 403: /* Not found */ case 487: /* Call cancelled */ return CW_CAUSE_CALL_REJECTED; case 404: /* Not found */ return CW_CAUSE_UNALLOCATED; case 408: /* No reaction */ return CW_CAUSE_NO_USER_RESPONSE; case 480: /* No answer */ return CW_CAUSE_NO_ANSWER; case 483: /* Too many hops */ return CW_CAUSE_NO_ANSWER; case 486: /* Busy everywhere */ return CW_CAUSE_BUSY; case 488: /* No codecs approved */ return CW_CAUSE_BEARERCAPABILITY_NOTAVAIL; case 500: /* Server internal failure */ return CW_CAUSE_FAILURE; case 501: /* Call rejected */ return CW_CAUSE_FACILITY_REJECTED; case 502: return CW_CAUSE_DESTINATION_OUT_OF_ORDER; case 503: /* Service unavailable */ return CW_CAUSE_CONGESTION; default: return CW_CAUSE_NORMAL; } /* Never reached */ return 0; } /*! \brief hangup_cause2sip: Convert CallWeaver hangup causes to SIP codes \verbatim Possible values from causes.h CW_CAUSE_NOTDEFINED CW_CAUSE_NORMAL CW_CAUSE_BUSY CW_CAUSE_FAILURE CW_CAUSE_CONGESTION CW_CAUSE_UNALLOCATED In addition to these, a lot of PRI codes is defined in causes.h ...should we take care of them too ? Quote RFC 3398 ISUP Cause value SIP response ---------------- ------------ 1 unallocated number 404 Not Found 2 no route to network 404 Not found 3 no route to destination 404 Not found 16 normal call clearing --- (*) 17 user busy 486 Busy here 18 no user responding 408 Request Timeout 19 no answer from the user 480 Temporarily unavailable 20 subscriber absent 480 Temporarily unavailable 21 call rejected 403 Forbidden (+) 22 number changed (w/o diagnostic) 410 Gone 22 number changed (w/ diagnostic) 301 Moved Permanently 23 redirection to new destination 410 Gone 26 non-selected user clearing 404 Not Found (=) 27 destination out of order 502 Bad Gateway 28 address incomplete 484 Address incomplete 29 facility rejected 501 Not implemented 31 normal unspecified 480 Temporarily unavailable \endverbatim */ static char *hangup_cause2sip(int cause) { switch(cause) { case CW_CAUSE_UNALLOCATED: /* 1 */ case CW_CAUSE_NO_ROUTE_DESTINATION: /* 3 IAX2: Can't find extension in context */ case CW_CAUSE_NO_ROUTE_TRANSIT_NET: /* 2 */ return "404 Not Found"; case CW_CAUSE_CONGESTION: /* 34 */ case CW_CAUSE_SWITCH_CONGESTION: /* 42 */ return "503 Service Unavailable"; case CW_CAUSE_NO_USER_RESPONSE: /* 18 */ return "408 Request Timeout"; case CW_CAUSE_NO_ANSWER: /* 19 */ return "480 Temporarily unavailable"; case CW_CAUSE_CALL_REJECTED: /* 21 */ return "403 Forbidden"; case CW_CAUSE_NUMBER_CHANGED: /* 22 */ return "410 Gone"; case CW_CAUSE_NORMAL_UNSPECIFIED: /* 31 */ return "480 Temporarily unavailable"; case CW_CAUSE_INVALID_NUMBER_FORMAT: return "484 Address incomplete"; case CW_CAUSE_USER_BUSY: return "486 Busy here"; case CW_CAUSE_FAILURE: return "500 Server internal failure"; case CW_CAUSE_FACILITY_REJECTED: /* 29 */ return "501 Not Implemented"; case CW_CAUSE_CHAN_NOT_IMPLEMENTED: return "503 Service Unavailable"; /* Used in chan_iax2 */ case CW_CAUSE_DESTINATION_OUT_OF_ORDER: return "502 Bad Gateway"; case CW_CAUSE_BEARERCAPABILITY_NOTAVAIL: /* Can't find codec to connect to host */ return "488 Not Acceptable Here"; case CW_CAUSE_NOTDEFINED: default: cw_log(LOG_DEBUG, "CW hangup cause %d (no match found in SIP)\n", cause); return NULL; } /* Never reached */ return 0; } /*! \brief sip_hangup: Hangup SIP call * Part of PBX interface, called from cw_hangup */ static int sip_hangup(struct cw_channel *chan) { struct sip_pvt *p = chan->tech_pvt; int needcancel = 0; int needdestroy = 0; //struct cw_flags locflags = {0}; if (!p) { cw_log(LOG_DEBUG, "Asked to hangup channel not connected\n"); return 0; } if (option_debug) cw_log(LOG_DEBUG, "Hangup call %s, SIP callid %s)\n", chan->name, p->callid); cw_mutex_lock(&p->lock); //#ifdef ENABLE_SIP_CALL_LIMIT cw_log(LOG_DEBUG, "update_call_counter(%s) - decrement call limit counter\n", p->username); update_call_counter(p, DEC_CALL_LIMIT); //#endif /* Determine how to disconnect */ if (p->owner != chan) { cw_log(LOG_WARNING, "Huh? We aren't the owner? Can't hangup call.\n"); cw_mutex_unlock(&p->lock); return 0; } /* If the call is not UP, we need to send CANCEL instead of BYE */ if (chan->_state != CW_STATE_UP) needcancel = 1; /* Disconnect */ if (p->vad) cw_dsp_free(p->vad); if (p->vadtx) cw_dsp_free(p->vadtx); p->owner = NULL; chan->tech_pvt = NULL; cw_mutex_lock(&usecnt_lock); usecnt--; cw_mutex_unlock(&usecnt_lock); cw_update_use_count(); /* Do not destroy this pvt until we have timeout or get an answer to the BYE or INVITE/CANCEL If we get no answer during retransmit period, drop the call anyway. (Sorry, mother-in-law, you can't deny a hangup by sending 603 declined to BYE...) */ if (cw_test_flag(p, SIP_ALREADYGONE)) { needdestroy = 1; /* Set destroy flag at end of this function */ } else { sip_scheddestroy(p, 32000); } /* Start the process if it's not already started */ if (!cw_test_flag(p, SIP_ALREADYGONE) && !cw_strlen_zero(p->initreq.data)) { if (needcancel) { /* Outgoing call, not up */ if (cw_test_flag(p, SIP_OUTGOING)) { /* stop retransmitting an INVITE that has not received a response */ __sip_pretend_ack(p); /* are we allowed to send CANCEL yet? if not, mark it pending */ if (!cw_test_flag(p, SIP_CAN_BYE)) { cw_set_flag(p, SIP_PENDINGBYE); /* Do we need a timer here if we don't hear from them at all? */ } else { /* Send a new request: CANCEL */ transmit_request_with_auth(p, SIP_CANCEL, p->ocseq, 1, 0); /* Actually don't destroy us yet, wait for the 487 on our original INVITE, but do set an autodestruct just in case we never get it. */ } if (p->initid != -1) { /* channel still up - reverse dec of inUse counter only if the channel is not auto-congested */ //#ifdef ENABLE_SIP_CALL_LIMIT update_call_counter(p, INC_CALL_LIMIT); //#endif } //cw_clear_flag(&locflags, SIP_NEEDDESTROY); //sip_scheddestroy(p, 15000); } else { /* Incoming call, not up */ char *res; if (chan->hangupcause && ((res = hangup_cause2sip(chan->hangupcause)))) transmit_response_reliable(p, res, &p->initreq, 1); else transmit_response_reliable(p, "603 Declined", &p->initreq, 1); } } else { /* Call is in UP state, send BYE */ if (!p->pendinginvite) { /* Send a hangup */ transmit_request_with_auth(p, SIP_BYE, 0, 1, 1); } else { /* Note we will need a BYE when this all settles out but we can't send one while we have "INVITE" outstanding. */ cw_set_flag(p, SIP_PENDINGBYE); cw_clear_flag(p, SIP_NEEDREINVITE); } } } if (needdestroy) cw_set_flag(p, SIP_NEEDDESTROY); cw_mutex_unlock(&p->lock); return 0; } /*! \brief Try setting codec suggested by the SIP_CODEC channel variable */ static void try_suggested_sip_codec(struct sip_pvt *p) { int fmt; char *codec; codec = pbx_builtin_getvar_helper(p->owner, "SIP_CODEC"); if (!codec) return; fmt = cw_getformatbyname(codec); if (fmt) { cw_log(LOG_NOTICE, "Changing codec to '%s' for this call because of ${SIP_CODEC) variable\n",codec); if (p->jointcapability & fmt) { p->jointcapability &= fmt; p->capability &= fmt; } else cw_log(LOG_NOTICE, "Ignoring ${SIP_CODEC} variable because it is not shared by both ends.\n"); } else cw_log(LOG_NOTICE, "Ignoring ${SIP_CODEC} variable because of unrecognized/not configured codec (check allow/disallow in sip.conf): %s\n",codec); return; } /*! \brief sip_answer: Answer SIP call , send 200 OK on Invite * Part of PBX interface */ static int sip_answer(struct cw_channel *chan) { int res = 0; struct sip_pvt *p = chan->tech_pvt; cw_mutex_lock(&p->lock); if (chan->_state != CW_STATE_UP) { try_suggested_sip_codec(p); cw_setstate(chan, CW_STATE_UP); if (option_debug) cw_log(LOG_DEBUG, "sip_answer(%s)\n", chan->name); if (p->t38state == SIP_T38_OFFER_RECEIVED_DIRECT) { p->t38state = SIP_T38_NEGOTIATED; cw_log(LOG_DEBUG,"T38State change to %d on channel %s\n",p->t38state, chan->name); cw_log(LOG_DEBUG,"T38mode enabled for channel %s\n", chan->name); res = transmit_response_with_t38_sdp(p, "200 OK", &p->initreq, 2); cw_channel_set_t38_status(chan, T38_NEGOTIATED); } else { res = transmit_response_with_sdp(p, "200 OK", &p->initreq, 2); } } cw_mutex_unlock(&p->lock); return res; } /*! \brief sip_write: Send frame to media channel (rtp) */ static int sip_rtp_write(struct cw_channel *chan, struct cw_frame *frame, int *faxdetect) { struct sip_pvt *p = chan->tech_pvt; int res = 0; switch (frame->frametype) { case CW_FRAME_VOICE: if (!(frame->subclass & chan->nativeformats)) { cw_log(LOG_WARNING, "Asked to transmit frame type %d, while native formats is %d (read/write = %d/%d)\n", frame->subclass, chan->nativeformats, chan->readformat, chan->writeformat); return 0; } if (p) { cw_mutex_lock(&p->lock); if (p->rtp) { /* If channel is not up, activate early media session */ if ((chan->_state != CW_STATE_UP) && !cw_test_flag(p, SIP_PROGRESS_SENT) && !cw_test_flag(p, SIP_OUTGOING)) { transmit_response_with_sdp(p, "183 Session Progress", &p->initreq, 0); cw_set_flag(p, SIP_PROGRESS_SENT); } time(&p->lastrtptx); res = cw_rtp_write(p->rtp, frame); } cw_mutex_unlock(&p->lock); } break; case CW_FRAME_VIDEO: if (p) { cw_mutex_lock(&p->lock); if (p->vrtp) { /* Activate video early media */ if ((chan->_state != CW_STATE_UP) && !cw_test_flag(p, SIP_PROGRESS_SENT) && !cw_test_flag(p, SIP_OUTGOING)) { transmit_response_with_sdp(p, "183 Session Progress", &p->initreq, 0); cw_set_flag(p, SIP_PROGRESS_SENT); } time(&p->lastrtptx); res = cw_rtp_write(p->vrtp, frame); } cw_mutex_unlock(&p->lock); } break; case CW_FRAME_IMAGE: return 0; break; case CW_FRAME_MODEM: if (p) { cw_mutex_lock(&p->lock); if (p->udptl) { if ((chan->_state != CW_STATE_UP) && !cw_test_flag(p, SIP_PROGRESS_SENT) && !cw_test_flag(p, SIP_OUTGOING)) { transmit_response_with_t38_sdp(p, "183 Session Progress", &p->initreq, 0); cw_set_flag(p, SIP_PROGRESS_SENT); } res = cw_udptl_write(p->udptl, frame); } cw_mutex_unlock(&p->lock); } break; default: cw_log(LOG_DEBUG, "Can't send %d type frames with SIP write\n", frame->frametype); return 0; } return res; } /*! \brief sip_write: Send frame to media channel (rtp) */ static int sip_write(struct cw_channel *chan, struct cw_frame *frame) { int res=0; int faxdetected = 0; res = sip_rtp_write(chan, frame, &faxdetected); return res; } /*! \brief sip_fixup: Fix up a channel: If a channel is consumed, this is called. Basically update any ->owner links -*/ static int sip_fixup(struct cw_channel *oldchan, struct cw_channel *newchan) { struct sip_pvt *p = newchan->tech_pvt; if (!p) { cw_log(LOG_WARNING, "No pvt after masquerade. Strange things may happen\n"); return -1; } cw_mutex_lock(&p->lock); if (p->owner != oldchan) { cw_log(LOG_WARNING, "old channel wasn't %p but was %p\n", oldchan, p->owner); cw_mutex_unlock(&p->lock); return -1; } p->owner = newchan; cw_mutex_unlock(&p->lock); return 0; } /*! \brief sip_senddigit: Send DTMF character on SIP channel */ /* within one call, we're able to transmit in many methods simultaneously */ static int sip_senddigit(struct cw_channel *chan, char digit) { struct sip_pvt *p = chan->tech_pvt; int res = 0; cw_mutex_lock(&p->lock); switch (cw_test_flag(p, SIP_DTMF)) { case SIP_DTMF_INFO: transmit_info_with_digit(p, digit, 100); break; case SIP_DTMF_RFC2833: if (p->rtp) { cw_rtp_sendevent(p->rtp, digit, 100); res = -2; } break; case SIP_DTMF_INBAND: res = -1; break; } cw_mutex_unlock(&p->lock); return res; } static int is_sdp_content(const char *hdr) { while (*hdr == ' ') hdr++; /* Now we expect something like application/sdp or application/sdp; charset=utf-8 Let's just check it starts with "application/sdp" and that if anything follows, it begins with a ";' */ return (strncasecmp(hdr, "application/sdp", 15) == 0 && (hdr[15] == '\0' || hdr[15] == ';')); } /*! \brief sip_transfer: Transfer SIP call */ static int sip_transfer(struct cw_channel *chan, const char *dest) { struct sip_pvt *p = chan->tech_pvt; int res; cw_mutex_lock(&p->lock); if (chan->_state == CW_STATE_RING) res = sip_sipredirect(p, dest); else res = transmit_refer(p, dest); cw_mutex_unlock(&p->lock); return res; } /*! \brief sip_indicate: Play indication to user * With SIP a lot of indications is sent as messages, letting the device play the indication - busy signal, congestion etc */ static int sip_indicate(struct cw_channel *chan, int condition) { struct sip_pvt *p = chan->tech_pvt; int res = 0; cw_mutex_lock(&p->lock); switch (condition) { case CW_CONTROL_RINGING: if (chan->_state == CW_STATE_RING) { if (!cw_test_flag(p, SIP_PROGRESS_SENT) || (cw_test_flag(p, SIP_PROG_INBAND) == SIP_PROG_INBAND_NEVER)) { /* Send 180 ringing if out-of-band seems reasonable */ transmit_response(p, "180 Ringing", &p->initreq); cw_set_flag(p, SIP_RINGING); if (cw_test_flag(p, SIP_PROG_INBAND) != SIP_PROG_INBAND_YES) break; } else { /* Well, if it's not reasonable, just send in-band */ } } res = -1; break; case CW_CONTROL_BUSY: if (chan->_state != CW_STATE_UP) { transmit_response(p, "486 Busy Here", &p->initreq); cw_set_flag(p, SIP_ALREADYGONE); cw_softhangup_nolock(chan, CW_SOFTHANGUP_DEV); break; } res = -1; break; case CW_CONTROL_CONGESTION: if (chan->_state != CW_STATE_UP) { transmit_response(p, "503 Service Unavailable", &p->initreq); cw_set_flag(p, SIP_ALREADYGONE); cw_softhangup_nolock(chan, CW_SOFTHANGUP_DEV); break; } res = -1; break; case CW_CONTROL_PROCEEDING: if ((chan->_state != CW_STATE_UP) && !cw_test_flag(p, SIP_PROGRESS_SENT) && !cw_test_flag(p, SIP_OUTGOING)) { transmit_response(p, "100 Trying", &p->initreq); break; } res = -1; break; case CW_CONTROL_PROGRESS: if ((chan->_state != CW_STATE_UP) && !cw_test_flag(p, SIP_PROGRESS_SENT) && !cw_test_flag(p, SIP_OUTGOING)) { transmit_response_with_sdp(p, "183 Session Progress", &p->initreq, 0); cw_set_flag(p, SIP_PROGRESS_SENT); break; } res = -1; break; case CW_CONTROL_HOLD: /* The other part of the bridge are put on hold */ if (sipdebug) cw_log(LOG_DEBUG, "Bridged channel now on hold%s\n", p->callid); res = -1; break; case CW_CONTROL_UNHOLD: /* The other part of the bridge are back from hold */ if (sipdebug) cw_log(LOG_DEBUG, "Bridged channel is back from hold, let's talk! : %s\n", p->callid); res = -1; break; case CW_CONTROL_VIDUPDATE: /* Request a video frame update */ if (p->vrtp && !cw_test_flag(p, SIP_NOVIDEO)) { transmit_info_with_vidupdate(p); res = 0; } else res = -1; break; case CW_CONTROL_FLASH: /* Send a hook flash */ switch (cw_test_flag(p, SIP_DTMF)) { case SIP_DTMF_INFO: /* There is no standard for sending a hook flash * via SIP INFO... */ res = transmit_info_with_digit(p, '!', 80); break; case SIP_DTMF_RFC2833: if (p->rtp) { /* Hook flashes are sent as RFC2833 events with a fixed * length of 80ms and clocked out by 80ms of silence */ cw_rtp_sendevent(p->rtp, 'X', 80); cw_playtones_start(chan, 0, "!0/80", 0); } break; case SIP_DTMF_INBAND: res = -1; break; } break; case -1: res = -1; break; default: cw_log(LOG_WARNING, "Don't know how to indicate condition %d\n", condition); res = -1; break; } cw_mutex_unlock(&p->lock); return res; } static enum cw_bridge_result sip_bridge(struct cw_channel *c0, struct cw_channel *c1, int flag, struct cw_frame **fo,struct cw_channel **rc, int timeoutms) { int res1 = 0; int res2 = 0; int bridge_res; cw_mutex_lock(&c0->lock); if (c0->tech->bridge == sip_bridge) { res1 = cw_channel_get_t38_status(c0); cw_log(LOG_DEBUG, "T38 on channel %s is: %s", c0->name, ( res1 == T38_NEGOTIATED ) ? "enabled\n" : "not enabled\n"); } cw_mutex_unlock(&c0->lock); cw_mutex_lock(&c1->lock); if (c1->tech->bridge == sip_bridge) { res2 = cw_channel_get_t38_status(c1); cw_log(LOG_DEBUG, "T38 on channel %s is: %s", c1->name, ( res2 == T38_NEGOTIATED ) ? "enabled\n" : "not enabled\n"); } cw_mutex_unlock(&c1->lock); /* We start trying rtp bridge. */ if ( ( res1==res2) && ((res1 == T38_STATUS_UNKNOWN) || (res1 == T38_OFFER_REJECTED)) ) { bridge_res=cw_rtp_bridge(c0, c1, flag, fo, rc, 0); if ( bridge_res == CW_BRIDGE_FAILED_NOWARN ) return CW_BRIDGE_RETRY_NATIVE; else return bridge_res; } /* If they are both in T.38 mode try a native UDPTL bridge */ if ( (res1 == T38_NEGOTIATED) && (res2 == T38_NEGOTIATED) ) { return cw_udptl_bridge(c0, c1, flag, fo, rc); } /* If they are in mixed modes, don't try any bridging */ if ( res1 != res2 ) { return CW_BRIDGE_RETRY; } return CW_BRIDGE_FAILED_NOWARN; } /*! \brief sip_new: Initiate a call in the SIP channel */ /* called from sip_request_call (calls from the pbx ) */ static struct cw_channel *sip_new(struct sip_pvt *i, int state, char *title) { struct cw_channel *tmp; struct cw_variable *v = NULL; int fmt; cw_mutex_unlock(&i->lock); /* Don't hold a sip pvt lock while we allocate a channel */ tmp = cw_channel_alloc(1); cw_mutex_lock(&i->lock); if (tmp == NULL) { cw_log(LOG_WARNING, "Unable to allocate SIP channel structure\n"); return NULL; } tmp->tech = &sip_tech; /* Select our native format based on codec preference until we receive something from another device to the contrary. */ // cw_mutex_lock(&i->lock); if (i->jointcapability) tmp->nativeformats = cw_codec_choose(&i->prefs, i->jointcapability, 1); else if (i->capability) tmp->nativeformats = cw_codec_choose(&i->prefs, i->capability, 1); else tmp->nativeformats = cw_codec_choose(&i->prefs, global_capability, 1); // cw_mutex_unlock(&i->lock); fmt = cw_best_codec(tmp->nativeformats); if (title) snprintf(tmp->name, sizeof(tmp->name), "SIP/%s-%04x", title, thread_safe_cw_random() & 0xffff); else if (strchr(i->fromdomain, ':')) snprintf(tmp->name, sizeof(tmp->name), "SIP/%s-%08x", strchr(i->fromdomain, ':') + 1, (int)(long)(i)); else snprintf(tmp->name, sizeof(tmp->name), "SIP/%s-%08x", i->fromdomain, (int)(long)(i)); tmp->type = channeltype; if (cw_test_flag(i, SIP_DTMF) == SIP_DTMF_INBAND) { i->vad = cw_dsp_new(); cw_dsp_set_features(i->vad, DSP_FEATURE_DTMF_DETECT | DSP_FEATURE_FAX_CNG_DETECT); i->vadtx = cw_dsp_new(); cw_dsp_set_features(i->vadtx, DSP_FEATURE_DTMF_DETECT | DSP_FEATURE_FAX_CNG_DETECT); if (relaxdtmf) { cw_dsp_digitmode(i->vad , DSP_DIGITMODE_DTMF | DSP_DIGITMODE_RELAXDTMF); cw_dsp_digitmode(i->vadtx, DSP_DIGITMODE_DTMF | DSP_DIGITMODE_RELAXDTMF); } } if (i->rtp) { tmp->fds[0] = cw_rtp_fd(i->rtp); tmp->fds[1] = cw_rtcp_fd(i->rtp); } if (i->vrtp) { tmp->fds[2] = cw_rtp_fd(i->vrtp); tmp->fds[3] = cw_rtcp_fd(i->vrtp); } if (state == CW_STATE_RING) tmp->rings = 1; tmp->adsicpe = CW_ADSI_UNAVAILABLE; tmp->writeformat = fmt; tmp->rawwriteformat = fmt; tmp->readformat = fmt; tmp->rawreadformat = fmt; tmp->tech_pvt = i; tmp->callgroup = i->callgroup; tmp->pickupgroup = i->pickupgroup; tmp->cid.cid_pres = i->callingpres; if (!cw_strlen_zero(i->accountcode)) cw_copy_string(tmp->accountcode, i->accountcode, sizeof(tmp->accountcode)); if (i->amaflags) tmp->amaflags = i->amaflags; if (!cw_strlen_zero(i->language)) cw_copy_string(tmp->language, i->language, sizeof(tmp->language)); if (!cw_strlen_zero(i->musicclass)) cw_copy_string(tmp->musicclass, i->musicclass, sizeof(tmp->musicclass)); i->owner = tmp; // cw_mutex_lock(&usecnt_lock); cw_copy_string(tmp->context, i->context, sizeof(tmp->context)); cw_copy_string(tmp->exten, i->exten, sizeof(tmp->exten)); if (!cw_strlen_zero(i->cid_num)) tmp->cid.cid_num = strdup(i->cid_num); if (!cw_strlen_zero(i->cid_name)) tmp->cid.cid_name = strdup(i->cid_name); if (!cw_strlen_zero(i->rdnis)) tmp->cid.cid_rdnis = strdup(i->rdnis); if (!cw_strlen_zero(i->exten) && strcmp(i->exten, "s")) tmp->cid.cid_dnid = strdup(i->exten); tmp->priority = 1; if (!cw_strlen_zero(i->uri)) pbx_builtin_setvar_helper(tmp, "SIPURI", i->uri); if (!cw_strlen_zero(i->uri)) pbx_builtin_setvar_helper(tmp, "SIPRURI", i->ruri); if (!cw_strlen_zero(i->domain)) pbx_builtin_setvar_helper(tmp, "SIPDOMAIN", i->domain); if (!cw_strlen_zero(i->useragent)) pbx_builtin_setvar_helper(tmp, "SIPUSERAGENT", i->useragent); if (!cw_strlen_zero(i->callid)) pbx_builtin_setvar_helper(tmp, "SIPCALLID", i->callid); /* Set channel variables for this call from configuration */ for (v = i->chanvars; v; v = v->next) pbx_builtin_setvar_helper(tmp, v->name, v->value); /* Configure the new channel jb */ if (tmp != NULL && i != NULL && i->rtp != NULL) cw_jb_configure(tmp, &i->jbconf); cw_setstate(tmp, state); if (state != CW_STATE_DOWN && cw_pbx_start(tmp)) { cw_log(LOG_WARNING, "Unable to start PBX on %s\n", tmp->name); cw_hangup(tmp); tmp = NULL; } cw_mutex_lock(&usecnt_lock); usecnt++; cw_mutex_unlock(&usecnt_lock); cw_update_use_count(); return tmp; } /*! \brief get_sdp_by_line: Reads one line of SIP message body */ static char* get_sdp_by_line(char* line, char *name, int nameLen) { if (strncasecmp(line, name, nameLen) == 0 && line[nameLen] == '=') return cw_skip_blanks(line + nameLen + 1); return ""; } /*! \brief get_body_by_line: Reads one line of message body */ static char *get_body_by_line(char *line, char *name, int nameLen) { if (strncasecmp(line, name, nameLen) == 0 && line[nameLen] == '=') { return cw_skip_blanks(line + nameLen + 1); } return ""; } /*! \brief get_sdp: Gets all kind of SIP message bodies, including SDP, but the name wrongly applies _only_ sdp */ static char *get_sdp(struct sip_request *req, char *name) { int x; int len = strlen(name); char *r; for (x = 0; x < req->lines; x++) { r = get_sdp_by_line(req->line[x], name, len); if (r[0] != '\0') return r; } return ""; } static void sdpLineNum_iterator_init(int *iterator, struct sip_request *req) { *iterator = req->sdp_start; } static char* get_sdp_iterate(int* iterator, struct sip_request *req, char *name) { int len = strlen(name); char *r; while (*iterator < req->lines) { r = get_body_by_line(req->line[(*iterator)++], name, len); if (r[0] != '\0') return r; } return ""; } /*! \brief get_body: get a specific line from the message body */ static char *get_body(struct sip_request *req, char *name) { int x; int len = strlen(name); char *r; for (x = 0; x < req->lines; x++) { r = get_body_by_line(req->line[x], name, len); if (r[0] != '\0') return r; } return ""; } static char *find_alias(const char *name, char *_default) { int x; for (x = 0; x < sizeof(aliases)/sizeof(aliases[0]); x++) { if (!strcasecmp(aliases[x].fullname, name)) return aliases[x].shortname; } return _default; } static char *__get_header(struct sip_request *req, char *name, int *start) { int pass; /* * Technically you can place arbitrary whitespace both before and after the ':' in * a header, although RFC3261 clearly says you shouldn't before, and place just * one afterwards. If you shouldn't do it, what absolute idiot decided it was * a good idea to say you can do it, and if you can do it, why in the hell would. * you say you shouldn't. * Anyways, pedanticsipchecking controls whether we allow spaces before ':', * and we always allow spaces after that for compatibility. */ for (pass = 0; name && pass < 2; pass++) { int x, len = strlen(name); for (x = *start; x < req->headers; x++) { if (!strncasecmp(req->header[x], name, len)) { char *r = req->header[x] + len; /* skip name */ if (pedanticsipchecking) r = cw_skip_blanks(r); if (*r == ':') { *start = x+1; return cw_skip_blanks(r+1); } } } if (pass == 0) /* Try aliases */ name = find_alias(name, NULL); } /* Don't return NULL, so get_header is always a valid pointer */ return ""; } /*! \brief get_header: Get header from SIP request */ static char *get_header(struct sip_request *req, char *name) { int start = 0; return __get_header(req, name, &start); } /*! \brief sip_rtp_read: Read RTP from network */ static struct cw_frame *sip_rtp_read(struct cw_channel *chan, struct sip_pvt *p, int *faxdetect) { /* Retrieve audio/etc from channel. Assumes p->lock is already held. */ struct cw_frame *f; static struct cw_frame null_frame = { CW_FRAME_NULL, }; if (!p->rtp) { /* We have no RTP allocated for this channel */ return &null_frame; } /* // Debug stuff to enable in case of problems cw_log(LOG_DEBUG,"sip_read - fdno %d - udptl is active: %d - udptl %d \n", chan->fdno, p->udptl_active, ( p->udptl ) ? 1 : 0 ); */ switch (chan->fdno) { case 0: if (p->udptl_active && p->udptl) f = cw_udptl_read(p->udptl); /* UDPTL for T.38 */ else f = cw_rtp_read(p->rtp); /* RTP Audio */ break; case 1: f = cw_rtcp_read(p->rtp); /* RTCP Control Channel */ break; case 2: f = cw_rtp_read(p->vrtp); /* RTP Video */ break; case 3: f = cw_rtcp_read(p->vrtp); /* RTCP Control Channel for video */ break; default: f = &null_frame; } /* Don't forward RFC2833 if we're not supposed to */ if (f && (f->frametype == CW_FRAME_DTMF) && (cw_test_flag(p, SIP_DTMF) != SIP_DTMF_RFC2833)) return &null_frame; if (p->owner) { /* We already hold the channel lock */ if (f->frametype == CW_FRAME_VOICE) { if (f->subclass != p->owner->nativeformats) { if (!(f->subclass & p->jointcapability)) { cw_log(LOG_DEBUG, "Bogus frame of format '%s' received from '%s'!\n", cw_getformatname(f->subclass), p->owner->name); return &null_frame; } cw_log(LOG_DEBUG, "Oooh, format changed to %d\n", f->subclass); p->owner->nativeformats = f->subclass; cw_set_read_format(p->owner, p->owner->readformat); cw_set_write_format(p->owner, p->owner->writeformat); } } } return f; } /*! \brief sip_read: Read SIP RTP from channel */ static struct cw_frame *sip_read(struct cw_channel *chan) { struct cw_frame *fr; struct sip_pvt *p = chan->tech_pvt; int faxdetected = 0; cw_mutex_lock(&p->lock); fr = sip_rtp_read(chan, p, &faxdetected); time(&p->lastrtprx); cw_mutex_unlock(&p->lock); return fr; } /*! \brief build_callid: Build SIP CALLID header */ static void build_callid(char *callid, int len, struct in_addr ourip, char *fromdomain) { int res; int val; int x; char iabuf[INET_ADDRSTRLEN]; for (x = 0; x < 4; x++) { val = thread_safe_cw_random(); res = snprintf(callid, len, "%08x", val); len -= res; callid += res; } if (!cw_strlen_zero(fromdomain)) snprintf(callid, len, "@%s", fromdomain); else /* It's not important that we really use our right IP here... */ snprintf(callid, len, "@%s", cw_inet_ntoa(iabuf, sizeof(iabuf), ourip)); } static void make_our_tag(char *tagbuf, size_t len) { snprintf(tagbuf, len, "as%08x", thread_safe_cw_random()); } /*! \brief sip_alloc: Allocate SIP_PVT structure and set defaults */ static struct sip_pvt *sip_alloc(char *callid, struct sockaddr_in *sin, int useglobal_nat, const int intended_method) { struct sip_pvt *p; if (!(p = calloc(1, sizeof(struct sip_pvt)))) return NULL; cw_mutex_init(&p->lock); p->method = intended_method; p->initid = -1; p->autokillid = -1; p->subscribed = NONE; p->stateid = -1; p->prefs = prefs; p->ourport=ourport; p->stun_needed=0; p->stun_resreq_id=0; memset(&p->stun_transid,0,sizeof(stun_trans_id)); p->timer_t1 = rfc_timer_t1; if (sin) { memcpy(&p->sa, sin, sizeof(p->sa)); if (cw_sip_ouraddrfor(&p->sa.sin_addr,&p->ourip,p)) { memcpy(&p->ourip, &__ourip, sizeof(p->ourip)); } } else { memcpy(&p->ourip, &__ourip, sizeof(p->ourip)); } p->branch = thread_safe_cw_random(); make_our_tag(p->tag, sizeof(p->tag)); /* Start with 101 instead of 1 */ p->ocseq = 101; #ifdef SIP_TCP_SUPPORT p->ssl = NULL; p->sockfd = -1; cw_copy_string(p->transport, DEFAULT_TRANSPORT, sizeof(p->transport)); /* default transport protocol */ #endif if (sip_methods[intended_method].need_rtp) { p->rtp = cw_rtp_new_with_bindaddr(sched, io, 1, 0, bindaddr.sin_addr); if (videosupport) p->vrtp = cw_rtp_new_with_bindaddr(sched, io, 1, 0, bindaddr.sin_addr); if (!p->rtp || (videosupport && !p->vrtp)) { cw_log(LOG_WARNING, "Unable to create RTP audio %s session: %s\n", videosupport ? "and video" : "", strerror(errno)); cw_mutex_destroy(&p->lock); if (p->chanvars) { cw_variables_destroy(p->chanvars); p->chanvars = NULL; } free(p); return NULL; } if (t38udptlsupport) p->udptl = cw_udptl_new_with_sock_info(sched, io, 0, cw_rtp_udp_socket(p->rtp, NULL)); cw_rtp_set_active(p->rtp, 1); if (t38udptlsupport && p->udptl) cw_udptl_set_active(p->udptl, 0); p->udptl_active = 0; cw_rtp_settos(p->rtp, tos); if (p->vrtp) cw_rtp_settos(p->vrtp, tos); if (p->udptl) cw_udptl_settos(p->udptl, tos); p->rtptimeout = global_rtptimeout; p->rtpholdtimeout = global_rtpholdtimeout; p->rtpkeepalive = global_rtpkeepalive; } sip_debug_ports(p); if (useglobal_nat && sin) { /* Setup NAT structure according to global settings if we have an address */ cw_copy_flags(p, &global_flags, SIP_NAT); int natflags=0; natflags=sip_is_nat_needed(p); memcpy(&p->recv, sin, sizeof(p->recv)); if (p->rtp) cw_rtp_setnat(p->rtp, natflags); if (p->vrtp) cw_rtp_setnat(p->vrtp, natflags); if (p->udptl) cw_udptl_setnat(p->udptl, natflags); } if (p->method != SIP_REGISTER) cw_copy_string(p->fromdomain, default_fromdomain, sizeof(p->fromdomain)); build_via(p, p->via, sizeof(p->via)); if (!callid) build_callid(p->callid, sizeof(p->callid), p->ourip, p->fromdomain); else cw_copy_string(p->callid, callid, sizeof(p->callid)); cw_copy_flags(p, &global_flags, SIP_FLAGS_TO_COPY); /* Assign default music on hold class */ strcpy(p->musicclass, global_musicclass); p->capability = global_capability; if ((cw_test_flag(p, SIP_DTMF) == SIP_DTMF_RFC2833) || (cw_test_flag(p, SIP_DTMF) == SIP_DTMF_AUTO)) p->noncodeccapability |= CW_RTP_DTMF; if (p->udptl) { p->t38capability = global_t38_capability; if (cw_udptl_get_preferred_error_correction_scheme(p->udptl) == UDPTL_ERROR_CORRECTION_FEC) p->t38capability |= T38FAX_UDP_EC_FEC; else if (cw_udptl_get_preferred_error_correction_scheme(p->udptl) == UDPTL_ERROR_CORRECTION_REDUNDANCY) p->t38capability |= T38FAX_UDP_EC_REDUNDANCY; p->t38capability |= T38FAX_RATE_MANAGEMENT_TRANSFERED_TCF; p->t38jointcapability = p->t38capability; } strcpy(p->context, default_context); /* Assign default jb conf to the new sip_pvt */ memcpy(&p->jbconf, &global_jbconf, sizeof(struct cw_jb_conf)); /* Add to active dialog list */ cw_mutex_lock(&iflock); p->next = iflist; iflist = p; cw_mutex_unlock(&iflock); if (option_debug) cw_log(LOG_DEBUG, "Allocating new SIP dialog for %s - %s (%s)\n", callid ? callid : "(No Call-ID)", sip_methods[intended_method].text, p->rtp ? "With RTP" : "No RTP"); return p; } /*! \brief find_call: Connect incoming SIP message to current dialog or create new dialog structure */ /* Called by handle_request, sipsock_read */ static struct sip_pvt *find_call(struct sip_request *req, struct sockaddr_in *sin, struct sockaddr_in *sout, const int intended_method) { struct sip_pvt *p=NULL; char *callid; char *tag = ""; char totag[128]; char fromtag[128]; callid = get_header(req, "Call-ID"); if (pedanticsipchecking) { /* In principle Call-ID's uniquely identify a call, but with a forking SIP proxy we need more to identify a branch - so we have to check branch, from and to tags to identify a call leg. For CallWeaver to behave correctly, you need to turn on pedanticsipchecking in sip.conf */ if (gettag(req, "To", totag, sizeof(totag))) cw_set_flag(req, SIP_PKT_WITH_TOTAG); /* Used in handle_request/response */ gettag(req, "From", fromtag, sizeof(fromtag)); if (req->method == SIP_RESPONSE) tag = totag; else tag = fromtag; if (option_debug > 4) cw_log(LOG_DEBUG, "= Looking for Call ID: %s (Checking %s) --From tag %s --To-tag %s \n", callid, req->method==SIP_RESPONSE ? "To" : "From", fromtag, totag); } cw_mutex_lock(&iflock); p = iflist; while (p) { /* In pedantic, we do not want packets with bad syntax to be connected to a PVT */ int found = 0; if (req->method == SIP_REGISTER) found = (!strcmp(p->callid, callid)); else found = (!strcmp(p->callid, callid) && (!pedanticsipchecking || !tag || cw_strlen_zero(p->theirtag) || !strcmp(p->theirtag, tag))); if (option_debug > 4) cw_log(LOG_DEBUG, "= %s Their Call ID: %s Their Tag %s Our tag: %s\n", found ? "Found" : "No match", p->callid, p->theirtag, p->tag); /* If we get a new request within an existing to-tag - check the to tag as well */ if (pedanticsipchecking && found && req->method != SIP_RESPONSE) { /* SIP Request */ if (p->tag[0] == '\0' && totag[0]) { /* We have no to tag, but they have. Wrong dialog */ found = 0; } else if (totag[0]) { /* Both have tags, compare them */ if (strcmp(totag, p->tag)) found = 0; /* This is not our packet */ } if (!found && option_debug > 4) cw_log(LOG_DEBUG, "= Being pedantic: This is not our match on request: Call ID: %s Ourtag Totag %s Method %s\n", p->callid, totag, sip_methods[req->method].text); } if (found) { /* Found the call */ cw_mutex_lock(&p->lock); cw_mutex_unlock(&iflock); return p; } p = p->next; } cw_mutex_unlock(&iflock); /* If this is a response and we have ignoring of out of dialog responses turned on, then drop it */ if (!sip_methods[intended_method].can_create) { /* Can't create dialog */ if (intended_method != SIP_RESPONSE && intended_method != SIP_ACK) transmit_response_using_temp(callid, sin, 1, intended_method, req, "481 Call leg/transaction does not exist"); } else if (sip_methods[intended_method].can_create == 2) { char *response = "481 Call leg/transaction does not exist"; /* In theory, can create dialog. We don't support it */ if (intended_method == SIP_PRACK || intended_method == SIP_UNKNOWN) response = "501 Method not implemented"; else if(intended_method == SIP_REFER) response = "603 Declined (no dialog)"; else if(intended_method == SIP_NOTIFY) response = "489 Bad event"; transmit_response_using_temp(callid, sin, 1, intended_method, req, "603 Declined (no dialog)"); } else { p = sip_alloc(callid, sin, 1, intended_method); if (p) cw_mutex_lock(&p->lock); else { /* We have a memory or file/socket error (can't allocate RTP sockets or something) so we're not getting a dialog from sip_alloc. Without a dialog we can't retransmit and handle ACKs and all that, but at least send an error message. Sorry, we apologize for the inconvienience */ transmit_response_using_temp(callid, sin, 1, intended_method, req, "500 Server internal error"); if (option_debug > 3) cw_log(LOG_DEBUG, "Failed allocating SIP dialog, sending 500 Server internal error and giving up\n"); } } return p; } /*! \brief sip_register: Parse register=> line in sip.conf and add to registry */ static int sip_register(char *value, int lineno) { struct sip_registry *reg; char copy[256]; char *username = NULL; char *hostname = NULL; char *secret = NULL; char *authuser = NULL; char *porta = NULL; char *contact = NULL; char *stringp = NULL; if (!value) return -1; cw_copy_string(copy, value, sizeof(copy)); stringp=copy; username = stringp; hostname = strrchr(stringp, '@'); if (hostname) { *hostname = '\0'; hostname++; } if (cw_strlen_zero(username) || cw_strlen_zero(hostname)) { cw_log(LOG_WARNING, "Format for registration is user[:secret[:authuser]]@host[:port][/contact] at line %d\n", lineno); return -1; } stringp=username; username = strsep(&stringp, ":"); if (username) { secret = strsep(&stringp, ":"); if (secret) authuser = strsep(&stringp, ":"); } stringp = hostname; hostname = strsep(&stringp, "/"); if (hostname) contact = strsep(&stringp, "/"); if (cw_strlen_zero(contact)) contact = "s"; stringp=hostname; hostname = strsep(&stringp, ":"); porta = strsep(&stringp, ":"); if (porta && !atoi(porta)) { cw_log(LOG_WARNING, "%s is not a valid port number at line %d\n", porta, lineno); return -1; } reg = malloc(sizeof(struct sip_registry)); if (!reg) { cw_log(LOG_ERROR, "Out of memory. Can't allocate SIP registry entry\n"); return -1; } memset(reg, 0, sizeof(struct sip_registry)); regobjs++; CWOBJ_INIT(reg); cw_copy_string(reg->contact, contact, sizeof(reg->contact)); if (username) cw_copy_string(reg->username, username, sizeof(reg->username)); if (hostname) cw_copy_string(reg->hostname, hostname, sizeof(reg->hostname)); if (authuser) cw_copy_string(reg->authuser, authuser, sizeof(reg->authuser)); if (secret) cw_copy_string(reg->secret, secret, sizeof(reg->secret)); reg->expire = -1; reg->timeout = -1; reg->refresh = default_expiry; reg->portno = porta ? atoi(porta) : 0; reg->callid_valid = 0; reg->ocseq = 101; CWOBJ_CONTAINER_LINK(®l, reg); CWOBJ_UNREF(reg,sip_registry_destroy); return 0; } /*! \brief lws2sws: Parse multiline SIP headers into one header */ /* This is enabled if pedanticsipchecking is enabled */ static int lws2sws(char *msgbuf, int len) { int h = 0, t = 0; int lws = 0; for ( ; h < len; ) { /* Eliminate all CRs */ if (msgbuf[h] == '\r') { h++; continue; } /* Check for end-of-line */ if (msgbuf[h] == '\n') { /* Check for end-of-message */ if (h + 1 == len) break; /* Check for a continuation line */ if (msgbuf[h + 1] == ' ' || msgbuf[h + 1] == '\t') { /* Merge continuation line */ h++; continue; } /* Propagate LF and start new line */ msgbuf[t++] = msgbuf[h++]; lws = 0; continue; } if (msgbuf[h] == ' ' || msgbuf[h] == '\t') { if (lws) { h++; continue; } msgbuf[t++] = msgbuf[h++]; lws = 1; continue; } msgbuf[t++] = msgbuf[h++]; if (lws) lws = 0; } msgbuf[t] = '\0'; return t; } /*! \brief parse_request: Parse a SIP message */ static void parse_request(struct sip_request *req) { /* Divide fields by NULL's */ char *c; int f = 0; c = req->data; /* First header starts immediately */ req->header[f] = c; while (*c) { if (*c == '\n') { /* We've got a new header */ *c = 0; if (sipdebug && option_debug > 3) cw_log(LOG_DEBUG, "Header %d: %s (%d)\n", f, req->header[f], (int) strlen(req->header[f])); if (cw_strlen_zero(req->header[f])) { /* Line by itself means we're now in content */ c++; break; } if (f >= SIP_MAX_HEADERS - 1) { cw_log(LOG_WARNING, "Too many SIP headers. Ignoring.\n"); } else { f++; } req->header[f] = c + 1; } else if (*c == '\r') { /* Ignore but eliminate \r's */ *c = 0; } c++; } /* Check for last header */ if (!cw_strlen_zero(req->header[f])) { if (sipdebug && option_debug > 3) cw_log(LOG_DEBUG, "Header %d: %s (%d)\n", f, req->header[f], (int) strlen(req->header[f])); f++; } req->headers = f; /* Now we process any mime content */ f = 0; req->line[f] = c; while (*c) { if (*c == '\n') { /* We've got a new line */ *c = 0; if (sipdebug && option_debug > 3) cw_log(LOG_DEBUG, "Line: %s (%d)\n", req->line[f], (int) strlen(req->line[f])); if (f >= SIP_MAX_LINES - 1) { cw_log(LOG_WARNING, "Too many SDP lines. Ignoring.\n"); } else { f++; } req->line[f] = c + 1; } else if (*c == '\r') { /* Ignore and eliminate \r's */ *c = 0; } c++; } /* Check for last line */ if (!cw_strlen_zero(req->line[f])) f++; req->lines = f; if (*c) cw_log(LOG_WARNING, "Odd content, extra stuff left over ('%s')\n", c); /* Split up the first line parts */ determine_firstline_parts(req); } static int find_sdp(struct sip_request *req) { char *content_type; char *search; char *boundary; unsigned int x; content_type = get_header(req, "Content-Type"); /* if the body contains only SDP, this is easy */ if (is_sdp_content(content_type)) { req->sdp_start = 0; req->sdp_end = req->lines; return 1; } /* if it's not multipart/mixed, there cannot be an SDP */ if (strncasecmp(content_type, "multipart/mixed", 15)) return 0; /* if there is no boundary marker, it's invalid */ if (!(search = strcasestr(content_type, ";boundary="))) return 0; search += 10; if (cw_strlen_zero(search)) return 0; /* make a duplicate of the string, with two extra characters at the beginning */ boundary = cw_strdupa(search - 2); boundary[0] = boundary[1] = '-'; /* search for the boundary marker, but stop when there are not enough lines left for it, the Content-Type header and at least one line of body */ for (x = 0; x < (req->lines - 2); x++) { if (!strncasecmp(req->line[x], boundary, strlen(boundary)) && !strncasecmp(req->line[x + 1], "Content-Type:", 13) && is_sdp_content(&req->line[x + 1][13])) { x += 2; req->sdp_start = x; /* search for the end of the body part */ for ( ; x < req->lines; x++) { if (!strncasecmp(req->line[x], boundary, strlen(boundary))) break; } req->sdp_end = x; return 1; } } return 0; } /*! \brief process_sdp: Process SIP SDP and activate RTP channels */ static int process_sdp(struct sip_pvt *p, struct sip_request *req) { char *m; char *c; char *a; char host[258]; char iabuf[INET_ADDRSTRLEN]; int len = -1; int portno = -1; int vportno = -1; int peercapability, peernoncodeccapability; int vpeercapability=0, vpeernoncodeccapability=0; struct sockaddr_in sin; char *codecs; struct hostent *hp; struct cw_hostent ahp; int codec; int destiterator = 0; int iterator; int sendonly = 0; int x,y; int debug=sip_debug_test_pvt(p); struct cw_channel *bridgepeer = NULL; #ifdef ENABLE_SRTP int secure_audio = 0; #endif int ec_found; int udptlportno = -1; int peert38capability = 0; char s[256]; int old = 0; if (!p->rtp) { cw_log(LOG_ERROR, "Got SDP but have no RTP session allocated.\n"); return -1; } /* Update our last rtprx when we receive an SDP, too */ time(&p->lastrtprx); time(&p->lastrtptx); m = get_sdp(req, "m"); sdpLineNum_iterator_init(&destiterator, req); c = get_sdp_iterate(&destiterator, req, "c"); if (cw_strlen_zero(m) || cw_strlen_zero(c)) { cw_log(LOG_WARNING, "Insufficient information for SDP (m = '%s', c = '%s')\n", m, c); return -1; } if (sscanf(c, "IN IP4 %255s", host) != 1) { cw_log(LOG_WARNING, "Invalid host in c= line, '%s'\n", c); return -1; } /* XXX This could block for a long time, and block the main thread! XXX */ if ((hp = cw_gethostbyname(host, &ahp)) == NULL) { cw_log(LOG_WARNING, "Unable to lookup host in c= line, '%s'\n", c); return -1; } sdpLineNum_iterator_init(&iterator, req); cw_set_flag(p, SIP_NOVIDEO); while ((m = get_sdp_iterate(&iterator, req, "m"))[0] != '\0') { #ifdef ENABLE_SRTP char protocol[5] = ""; int found = 0; len = -1; if ((sscanf(m, "audio %d/%d RTP/%4s %n", &x, &y, protocol, &len) == 3) || (sscanf(m, "audio %d RTP/%4s %n", &x, protocol, &len) == 2)) { if (!strcmp(protocol, "SAVP")) secure_audio = 1; else if (strcmp(protocol, "AVP")) { cw_log(LOG_WARNING, "Unknown SDP media protocol in offer: %s\n", protocol); continue; } if (len < 0) { cw_log(LOG_WARNING, "Unknown SDP media type in offer: %s\n", m); continue; } #else int found = 0; if ((sscanf(m, "audio %d/%d RTP/AVP %n", &x, &y, &len) == 2) || (sscanf(m, "audio %d RTP/AVP %n", &x, &len) == 1)) { #endif found = 1; portno = x; /* Scan through the RTP payload types specified in a "m=" line: */ cw_rtp_pt_clear(p->rtp); codecs = m + len; while (!cw_strlen_zero(codecs)) { if (sscanf(codecs, "%d%n", &codec, &len) != 1) { cw_log(LOG_WARNING, "Error in codec string '%s'\n", codecs); return -1; } if (debug) cw_verbose("Found RTP audio format %d\n", codec); cw_rtp_set_m_type(p->rtp, codec); codecs = cw_skip_blanks(codecs + len); } } char *t38_disabled = pbx_builtin_getvar_helper(p->owner, "T38_DISABLE"); if (p->udptl && t38udptlsupport && (t38_disabled == NULL) && ((sscanf(m, "image %d udptl t38 %n", &x, &len) == 1) || (sscanf(m, "image %d UDPTL t38 %n", &x, &len) == 1))) { if (debug) { cw_verbose("Got T.38 offer in SDP\n"); sip_debug_ports(p); } found = 1; udptlportno = x; cw_log(LOG_DEBUG, "Activating UDPTL on response %s (1)\n", p->callid); cw_rtp_set_active(p->rtp, 0); if (t38udptlsupport && p->udptl && (t38_disabled == NULL) ) { cw_udptl_set_active(p->udptl, 1); p->udptl_active = 1; cw_channel_set_t38_status(p->owner,T38_NEGOTIATED); /* int a; a=cw_channel_get_t38_status(p->owner); cw_log(LOG_DEBUG,"Now t38_status is %d for %s \n",a, p->owner->name); sip_debug_ports(p); */ } if (p->owner && p->lastinvite) { p->t38state = SIP_T38_OFFER_RECEIVED_REINVITE; /* T38 Offered in re-invite from remote party */ cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",p->t38state,p->owner ? p->owner->name : "" ); } else { p->t38state = SIP_T38_OFFER_RECEIVED_DIRECT; /* T38 Offered directly from peer in first invite */ cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",p->t38state,p->owner ? p->owner->name : ""); } } else if ( udptlportno == -1 ) /* If we have not yet activated udptl */ { cw_log(LOG_DEBUG, "Activating RTP on response %s (1)\n", p->callid); cw_rtp_set_active(p->rtp, 1); if (t38udptlsupport && p->udptl ) cw_udptl_set_active(p->udptl, 0); p->udptl_active = 0; } if (p->vrtp) cw_rtp_pt_clear(p->vrtp); /* Must be cleared in case no m=video line exists */ #ifdef ENABLE_SRTP len= -1; #endif if (p->vrtp && (sscanf(m, "video %d RTP/AVP %n", &x, &len) == 1)) { #ifdef ENABLE_SRTP if (len < 0) { cw_log(LOG_WARNING, "Unknown SDP media type in offer: %s\n", m); continue; } #endif found = 1; cw_clear_flag(p, SIP_NOVIDEO); vportno = x; /* Scan through the RTP payload types specified in a "m=" line: */ codecs = m + len; while (!cw_strlen_zero(codecs)) { if (sscanf(codecs, "%d%n", &codec, &len) != 1) { cw_log(LOG_WARNING, "Error in codec string '%s'\n", codecs); return -1; } if (debug) cw_verbose("Found RTP video format %d\n", codec); cw_rtp_set_m_type(p->vrtp, codec); codecs = cw_skip_blanks(codecs + len); } } if (!found ) cw_log(LOG_WARNING, "Unknown or ignored SDP media type in offer: %s\n", m); } if (portno == -1 && vportno == -1 && udptlportno == -1) { /* No acceptable offer found in SDP */ return -2; } /* Check for Media-description-level-address for audio */ if (pedanticsipchecking) { c = get_sdp_iterate(&destiterator, req, "c"); if (!cw_strlen_zero(c)) { if (sscanf(c, "IN IP4 %255s", host) != 1) { cw_log(LOG_WARNING, "Invalid secondary host in c= line, '%s'\n", c); } else { /* XXX This could block for a long time, and block the main thread! XXX */ if ((hp = cw_gethostbyname(host, &ahp)) == NULL){ cw_log(LOG_WARNING, "Unable to lookup host in secondary c= line, '%s'\n", c); return -1; } } } } /* RTP addresses and ports for audio and video */ sin.sin_family = AF_INET; memcpy(&sin.sin_addr, hp->h_addr, sizeof(sin.sin_addr)); /* Setup audio port number */ if (portno != -1) { sin.sin_port = htons(portno); if (p->rtp && sin.sin_port) { cw_rtp_set_peer(p->rtp, &sin); if (debug) { cw_verbose("Peer audio RTP is at port %s:%d\n", cw_inet_ntoa(iabuf,sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port)); cw_log(LOG_DEBUG,"Peer audio RTP is at port %s:%d\n",cw_inet_ntoa(iabuf, sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port)); } } } /* Check for Media-description-level-address for video */ if (pedanticsipchecking) { c = get_sdp_iterate(&destiterator, req, "c"); if (!cw_strlen_zero(c)) { if (sscanf(c, "IN IP4 %255s", host) != 1) { cw_log(LOG_WARNING, "Invalid secondary host in c= line, '%s'\n", c); } else { /* XXX This could block for a long time, and block the main thread! XXX */ if ((hp = cw_gethostbyname(host, &ahp)) == NULL) { cw_log(LOG_WARNING, "Unable to lookup host in secondary c= line, '%s'\n", c); return -1; } } } } /* Setup video port number */ if (vportno != -1) { sin.sin_port = htons(vportno); if (p->vrtp && sin.sin_port) { cw_rtp_set_peer(p->vrtp, &sin); if (debug) { cw_verbose("Peer video RTP is at port %s:%d\n", cw_inet_ntoa(iabuf,sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port)); cw_log(LOG_DEBUG,"Peer video RTP is at port %s:%d\n",cw_inet_ntoa(iabuf, sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port)); } } } /* Setup UDPTL port number */ if (udptlportno != -1 ) { sin.sin_port = htons(udptlportno); if (p->udptl && t38udptlsupport && sin.sin_port) { cw_udptl_set_peer(p->udptl, &sin); if (debug) { //cw_verbose("Peer T.38 UDPTL is at port %s:%d\n", cw_inet_ntoa(iabuf,sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port)); cw_log(LOG_DEBUG,"Peer T.38 UDPTL is at port %s:%d.\n",cw_inet_ntoa(iabuf, sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port)); } } } /* Next, scan through each "a=rtpmap:" line, noting each * specified RTP payload type (with corresponding MIME subtype): */ sdpLineNum_iterator_init(&iterator, req); while ((a = get_sdp_iterate(&iterator, req, "a"))[0] != '\0') { char *mimeSubtype = cw_strdupa(a); /* ensures we have enough space */ if (!strcasecmp(a, "sendonly") || !strcasecmp(a, "inactive")) { sendonly = 1; continue; } #ifdef ENABLE_SRTP if (!strncasecmp(a, "crypto:", 7)) { process_crypto(p, a); continue; } #endif if (!strcasecmp(a, "sendrecv")) sendonly = 0; if (sscanf(a, "rtpmap: %u %[^/]/", &codec, mimeSubtype) != 2) continue; if (debug) cw_verbose("Found description format %s\n", mimeSubtype); /* Note: should really look at the 'freq' and '#chans' params too */ cw_rtp_set_rtpmap_type(p->rtp, codec, "audio", mimeSubtype); if (p->vrtp) cw_rtp_set_rtpmap_type(p->vrtp, codec, "video", mimeSubtype); } #ifdef ENABLE_SRTP if (secure_audio && !(p->srtp && p->srtp->a_crypto)) { cw_log(LOG_WARNING, "Can't provide secure audio requested in SDP offer\n"); return -2; } #endif if (udptlportno != -1) { /* Scan through the a= lines for T38 attributes and set appropriate fileds */ sdpLineNum_iterator_init(&iterator, req); old = 0; int found = 0; ec_found = UDPTL_ERROR_CORRECTION_REDUNDANCY; while ((a = get_sdp_iterate(&iterator, req, "a"))[0] != '\0') { if (old && (iterator-old != 1)) break; old = iterator; if (sscanf(a, "T38FaxMaxBuffer:%d", &x) == 1) { found = 1; cw_log(LOG_DEBUG,"MaxBufferSize:%d\n",x); } else if (sscanf(a, "T38MaxBitRate:%d", &x) == 1) { found = 1; cw_log(LOG_DEBUG,"T38MaxBitRate: %d\n", x); switch (x) { case 33600: peert38capability |= T38FAX_RATE_33600 | T38FAX_RATE_14400 | T38FAX_RATE_12000 | T38FAX_RATE_9600 | T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400; break; case 14400: peert38capability |= T38FAX_RATE_14400 | T38FAX_RATE_12000 | T38FAX_RATE_9600 | T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400; break; case 12000: peert38capability |= T38FAX_RATE_12000 | T38FAX_RATE_9600 | T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400; break; case 9600: peert38capability |= T38FAX_RATE_9600 | T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400; break; case 7200: peert38capability |= T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400; break; case 4800: peert38capability |= T38FAX_RATE_4800 | T38FAX_RATE_2400; break; case 2400: peert38capability |= T38FAX_RATE_2400; break; } } else if (sscanf(a, "T38FaxVersion:%d", &x) == 1) { found = 1; cw_log(LOG_DEBUG,"FaxVersion: %d\n",x); if (x == 0) peert38capability |= T38FAX_VERSION_0; else if (x == 1) peert38capability |= T38FAX_VERSION_1; } else if (sscanf(a, "T38FaxMaxDatagram:%d", &x) == 1) { found = 1; cw_log(LOG_DEBUG,"FaxMaxDatagram: %d\n",x); cw_udptl_set_far_max_datagram(p->udptl, x); cw_udptl_set_local_max_datagram(p->udptl, x); } else if ((sscanf(a, "T38FaxFillBitRemoval:%d", &x) == 1 && x == 1) || strcmp(a, "T38FaxFillBitRemoval") == 0) { found = 1; cw_log(LOG_DEBUG,"FillBitRemoval: %d\n",x); peert38capability |= T38FAX_FILL_BIT_REMOVAL; } else if ((sscanf(a, "T38FaxTranscodingMMR:%d", &x) == 1 && x == 1) || strcmp(a, "T38FaxTranscodingMMR") == 0) { found = 1; cw_log(LOG_DEBUG,"Transcoding MMR: %d\n",x); peert38capability |= T38FAX_TRANSCODING_MMR; } else if ((sscanf(a, "T38FaxTranscodingJBIG:%d", &x) == 1 && x == 1) || strcmp(a, "T38FaxTranscodingJBIG") == 0) { found = 1; cw_log(LOG_DEBUG,"Transcoding JBIG: %d\n",x); peert38capability |= T38FAX_TRANSCODING_JBIG; } else if (sscanf(a, "T38FaxRateManagement:%255s", s) == 1) { found = 1; cw_log(LOG_DEBUG,"RateMangement: %s\n", s); if (!strcasecmp(s, "localTCF")) peert38capability |= T38FAX_RATE_MANAGEMENT_LOCAL_TCF; else if (!strcasecmp(s, "transferredTCF")) peert38capability |= T38FAX_RATE_MANAGEMENT_TRANSFERED_TCF; } else if (sscanf(a, "T38FaxUdpEC:%255s", s) == 1) { found = 1; cw_log(LOG_DEBUG,"UDP EC: %s\n", s); if (strcasecmp(s, "t38UDPFEC") == 0) { peert38capability |= T38FAX_UDP_EC_FEC; ec_found = UDPTL_ERROR_CORRECTION_FEC; } else if (strcasecmp(s, "t38UDPRedundancy") == 0) { peert38capability |= T38FAX_UDP_EC_REDUNDANCY; ec_found = UDPTL_ERROR_CORRECTION_REDUNDANCY; } else { ec_found = UDPTL_ERROR_CORRECTION_NONE; } } else if (sscanf(a, "T38VendorInfo:%d %d %d", &x, &x, &x) == 3) { found = 1; } } cw_udptl_set_error_correction_scheme(p->udptl, ec_found); if (found) { /* Some cisco equipment returns nothing beside c= and m= lines in 200 OK T38 SDP */ p->t38peercapability = peert38capability; p->t38jointcapability = (peert38capability & 0xFF); /* Put everything beside supported speeds settings */ peert38capability &= (T38FAX_RATE_14400 | T38FAX_RATE_12000 | T38FAX_RATE_9600 | T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400); /* Mask speeds only */ p->t38jointcapability |= (peert38capability & p->t38capability); /* Put the lower of our's and peer's speed */ } if (debug) { cw_log(LOG_DEBUG,"Our T38 capability = (%d), peer T38 capability (%d), joint T38 capability (%d)\n", p->t38capability, p->t38peercapability, p->t38jointcapability); } } else { p->t38state = SIP_T38_STATUS_UNKNOWN; cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",p->t38state,p->owner ? p->owner->name : ""); } /* Now gather all of the codecs that were asked for: */ cw_rtp_get_current_formats(p->rtp, &peercapability, &peernoncodeccapability); if (p->vrtp) cw_rtp_get_current_formats(p->vrtp, &vpeercapability, &vpeernoncodeccapability); p->jointcapability = p->capability & (peercapability | vpeercapability); p->peercapability = (peercapability | vpeercapability); p->noncodeccapability = noncodeccapability & peernoncodeccapability; if (cw_test_flag(p, SIP_DTMF) == SIP_DTMF_AUTO) { cw_clear_flag(p, SIP_DTMF); if (p->noncodeccapability & CW_RTP_DTMF) { /* XXX Would it be reasonable to drop the DSP at this point? XXX */ cw_set_flag(p, SIP_DTMF_RFC2833); } else { cw_set_flag(p, SIP_DTMF_INBAND); } } if (debug) { /* shame on whoever coded this.... */ const unsigned slen=512; char s1[slen], s2[slen], s3[slen], s4[slen]; cw_verbose("Capabilities: us - %s, peer - audio=%s/video=%s, combined - %s\n", cw_getformatname_multiple(s1, slen, p->capability), cw_getformatname_multiple(s2, slen, peercapability), cw_getformatname_multiple(s3, slen, vpeercapability), cw_getformatname_multiple(s4, slen, p->jointcapability)); cw_verbose("Non-codec capabilities: us - %s, peer - %s, combined - %s\n", cw_rtp_lookup_mime_multiple(s1, slen, noncodeccapability, 0), cw_rtp_lookup_mime_multiple(s2, slen, peernoncodeccapability, 0), cw_rtp_lookup_mime_multiple(s3, slen, p->noncodeccapability, 0)); } if (!p->jointcapability) { cw_log(LOG_NOTICE, "No compatible codecs!\n"); return -1; } if (!p->owner) /* There's no open channel owning us */ return 0; if (!(p->owner->nativeformats & p->jointcapability)) { const unsigned slen = 512; char s1[slen]; char s2[slen]; cw_log(LOG_DEBUG, "Oooh, we need to change our formats since our peer supports only %s and not %s\n", cw_getformatname_multiple(s1, slen, p->jointcapability), cw_getformatname_multiple(s2, slen, p->owner->nativeformats)); p->owner->nativeformats = cw_codec_choose(&p->prefs, p->jointcapability, 1); cw_set_read_format(p->owner, p->owner->readformat); cw_set_write_format(p->owner, p->owner->writeformat); } if ((bridgepeer=cw_bridged_channel(p->owner))) { /* We have a bridge */ /* Turn on/off music on hold if we are holding/unholding */ struct cw_frame af = { CW_FRAME_NULL, }; if (sin.sin_addr.s_addr && !sendonly) { cw_moh_stop(bridgepeer); /* Activate a re-invite */ cw_queue_frame(p->owner, &af); } else { /* No address for RTP, we're on hold */ cw_moh_start(bridgepeer, NULL); if (sendonly) cw_rtp_stop(p->rtp); /* Activate a re-invite */ cw_queue_frame(p->owner, &af); } } /* Manager Hold and Unhold events must be generated, if necessary */ if (sin.sin_addr.s_addr && !sendonly) { append_history(p, "Unhold", req->data); if (callevents && cw_test_flag(p, SIP_CALL_ONHOLD)) { manager_event(EVENT_FLAG_CALL, "Unhold", "Channel: %s\r\n" "Uniqueid: %s\r\n", p->owner->name, p->owner->uniqueid); } cw_clear_flag(p, SIP_CALL_ONHOLD); } else { /* No address for RTP, we're on hold */ append_history(p, "Hold", req->data); if (callevents && !cw_test_flag(p, SIP_CALL_ONHOLD)) { manager_event(EVENT_FLAG_CALL, "Hold", "Channel: %s\r\n" "Uniqueid: %s\r\n", p->owner->name, p->owner->uniqueid); } cw_set_flag(p, SIP_CALL_ONHOLD); } return 0; } /*! \brief add_header: Add header to SIP message */ static int add_header(struct sip_request *req, const char *var, const char *value, short int type) { int x = 0; if (req->headers == SIP_MAX_HEADERS) { cw_log(LOG_WARNING, "Out of SIP header space\n"); return -1; } if (req->lines) { cw_log(LOG_WARNING, "Can't add more headers when lines have been added\n"); return -1; } if (req->len >= sizeof(req->data) - 4) { cw_log(LOG_WARNING, "Out of space, can't add anymore (%s:%s)\n", var, value); return -1; } req->header[req->headers] = req->data + req->len; if (compactheaders) { for (x = 0; x < (sizeof(aliases)/sizeof(aliases[0])); x++) { if (!strcasecmp(aliases[x].fullname, var)) var = aliases[x].shortname; } } if (strlen(var) == 0) snprintf(req->header[req->headers], sizeof(req->data) - req->len - 4, "%s\r\n", value); else if (strlen(value) == 0) snprintf(req->header[req->headers], sizeof(req->data) - req->len - 4, "%s\r\n", var); else snprintf(req->header[req->headers], sizeof(req->data) - req->len - 4, "%s: %s\r\n", var, value); req->len += strlen(req->header[req->headers]); req->headers++; struct sip_data_line *line, *pointer; char content[sizeof(struct sip_data_line)+1]; if (strlen(var) == 0) snprintf(content, sizeof(struct sip_data_line), "%s", value); else if (strlen(value) == 0) snprintf(content, sizeof(struct sip_data_line), "%s", var); else snprintf(content, sizeof(struct sip_data_line), "%s: %s", var, value); //cw_verbose("]*[adding head: %s %s\n",var,value); if ((line = malloc(sizeof(struct sip_data_line))) == NULL) return -1; memset(line, 0, sizeof(struct sip_data_line)); memcpy(line, &content, strlen(content)); line->next = NULL; line->type = type; pointer = req->head_lines; if (req->head_lines == NULL) { req->head_lines = line; } else { while (pointer->next) pointer = pointer->next; pointer->next = line; //req->headers++; } return 0; } /*! \brief add_header_contentLen: Add 'Content-Length' header to SIP message */ static int add_header_contentLength(struct sip_request *req, int len) { char clen[10]; snprintf(clen, sizeof(clen), "%d", len); return add_header(req, "Content-Length", clen, SIP_DL_HEAD_CONTENTLENGHT); } /*! \brief add_blank_header: Add blank header to SIP message */ static int add_blank_header(struct sip_request *req) { if (req->headers == SIP_MAX_HEADERS) { cw_log(LOG_WARNING, "Out of SIP header space\n"); return -1; } if (req->lines) { cw_log(LOG_WARNING, "Can't add more headers when lines have been added\n"); return -1; } if (req->len >= sizeof(req->data) - 4) { cw_log(LOG_WARNING, "Out of space, can't add anymore\n"); return -1; } req->header[req->headers] = req->data + req->len; snprintf(req->header[req->headers], sizeof(req->data) - req->len, "\r\n"); req->len += strlen(req->header[req->headers]); req->headers++; return 0; } /*! \brief add_line: Add content (not header) to SIP message */ static int add_line(struct sip_request *req, const char *dline, short int type) { if (req->lines == SIP_MAX_LINES) { cw_log(LOG_WARNING, "Out of SIP line space\n"); return -1; } if (!req->lines) { /* Add extra empty return */ snprintf(req->data + req->len, sizeof(req->data) - req->len, "\r\n"); req->len += strlen(req->data + req->len); } if (req->len >= sizeof(req->data) - 4) { cw_log(LOG_WARNING, "Out of space, can't add anymore\n"); return -1; } req->line[req->lines] = req->data + req->len; snprintf(req->line[req->lines], sizeof(req->data) - req->len, "%s\r\n", dline); req->len += strlen(req->line[req->lines]); req->lines++; struct sip_data_line *line, *pointer; char content[sizeof(struct sip_data_line)+1]; snprintf(content, sizeof(struct sip_data_line), "%s", dline); if ((line = malloc(sizeof(struct sip_data_line))) == NULL) return -1; memset(line, 0, sizeof(struct sip_data_line)); memcpy(line, &content, sizeof(struct sip_data_line) - 1); line->next = NULL; line->type = type; pointer = req->sdp_lines; if (req->sdp_lines == NULL) { req->sdp_lines = line; } else { while (pointer->next) pointer = pointer->next; pointer->next = line; } return 0; } /*! \brief copy_header: Copy one header field from one request to another */ static int copy_header(struct sip_request *req, struct sip_request *orig, char *field) { char *tmp; tmp = get_header(orig, field); if (!cw_strlen_zero(tmp)) { /* Add what we're responding to */ return add_header(req, field, tmp, SIP_DL_DONTCARE); } cw_log(LOG_NOTICE, "No field '%s' present to copy\n", field); return -1; } /*! \brief copy_all_header: Copy all headers from one request to another */ static int copy_all_header(struct sip_request *req, struct sip_request *orig, char *field) { char *tmp; int start = 0; int copied = 0; for (;;) { tmp = __get_header(orig, field, &start); if (cw_strlen_zero(tmp)) break; /* Add what we're responding to */ add_header(req, field, tmp, SIP_DL_DONTCARE); copied++; } return copied ? 0 : -1; } /*! \brief copy_via_headers: Copy SIP VIA Headers from the request to the response */ /* If the client indicates that it wishes to know the port we received from, it adds ;rport without an argument to the topmost via header. We need to add the port number (from our point of view) to that parameter. We always add ;received= to the topmost via header. Received: RFC 3261, rport RFC 3581 */ static int copy_via_headers(struct sip_pvt *p, struct sip_request *req, struct sip_request *orig, char *field) { char tmp[256], *oh, *end; int start = 0; int copied = 0; char iabuf[INET_ADDRSTRLEN]; for (;;) { oh = __get_header(orig, field, &start); if (!cw_strlen_zero(oh)) { if (!copied) { /* Only check for empty rport in topmost via header */ char *rport; char new[256]; /* Find ;rport; (empty request) */ rport = strstr(oh, ";rport"); if (rport && *(rport+6) == '=') rport = NULL; /* We already have a parameter to rport */ if (rport && (cw_test_flag(p, SIP_NAT) == SIP_NAT_ALWAYS)) { /* We need to add received port - rport */ cw_copy_string(tmp, oh, sizeof(tmp)); rport = strstr(tmp, ";rport"); if (rport) { end = strchr(rport + 1, ';'); if (end) memmove(rport, end, strlen(end) + 1); else *rport = '\0'; } /* Add rport to first VIA header if requested */ /* Whoo hoo! Now we can indicate port address translation too! Just another RFC (RFC3581). I'll leave the original comments in for posterity. */ snprintf(new, sizeof(new), "%s;received=%s;rport=%d", tmp, cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port)); } else { /* We should *always* add a received to the topmost via */ snprintf(new, sizeof(new), "%s;received=%s", oh, cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr)); } add_header(req, field, new, SIP_DL_DONTCARE); } else { /* Add the following via headers untouched */ add_header(req, field, oh, SIP_DL_DONTCARE); } copied++; } else break; } if (!copied) { cw_log(LOG_NOTICE, "No header field '%s' present to copy\n", field); return -1; } return 0; } /*! \brief add_route: Add route header into request per learned route */ static void add_route(struct sip_request *req, struct sip_route *route) { char r[256], *p; int n, rem = sizeof(r); if (!route) return; p = r; while (route) { n = strlen(route->hop); if ((n + 3) > rem) break; if (p != r) { *p++ = ','; --rem; } *p++ = '<'; cw_copy_string(p, route->hop, rem); p += n; *p++ = '>'; rem -= (n+2); route = route->next; } *p = '\0'; add_header(req, "Route", r, SIP_DL_DONTCARE); } /*! \brief set_destination: Set destination from SIP URI */ static void set_destination(struct sip_pvt *p, char *uri) { char *h, *maddr, hostname[256]; char iabuf[INET_ADDRSTRLEN]; int port, hn; struct hostent *hp; struct cw_hostent ahp; int debug=sip_debug_test_pvt(p); #ifdef SIP_TCP_SUPPORT char *t, transport[256]; int tn; #endif /* SIP_TCP_SUPPORT */ #ifdef SIP_TCP_SUPPORT /* Parse uri to h (host) and port - uri is already just the part inside the <> */ /* general form we are expecting is sip[s]:username[:password]@host[:port][;...] */ #else /* Parse uri to h (host), port and transport - uri is already just the part inside the <> */ /* general form we are expecting is sip[s]:username[:password]@host[:port][;...][;transport=UDP|TCP|TLS][;...] */ #endif /* SIP_TCP_SUPPORT */ if (debug) #ifdef SIP_TCP_SUPPORT cw_verbose("set_destination: Parsing <%s> for address/port/transport to send to\n", uri); #else cw_verbose("set_destination: Parsing <%s> for address/port to send to\n", uri); #endif /* Find and parse hostname */ h = strchr(uri, '@'); if (h) ++h; else { h = uri; if (strncmp(h, "sip:", 4) == 0) h += 4; else if (strncmp(h, "sips:", 5) == 0) h += 5; } hn = strcspn(h, ":;>") + 1; if (hn > sizeof(hostname)) hn = sizeof(hostname); cw_copy_string(hostname, h, hn); h += hn - 1; /* Is "port" present? if not default to DEFAULT_SIP_PORT */ if (*h == ':') { /* Parse port */ ++h; port = strtol(h, &h, 10); } else { port = DEFAULT_SIP_PORT; } /* Got the hostname:port - but maybe there's a "maddr=" to override address? */ maddr = strstr(h, "maddr="); if (maddr) { maddr += 6; hn = strspn(maddr, "0123456789.") + 1; if (hn > sizeof(hostname)) hn = sizeof(hostname); cw_copy_string(hostname, maddr, hn); } if ((hp = cw_gethostbyname(hostname, &ahp)) == NULL) { cw_log(LOG_WARNING, "Can't find address for host '%s'\n", hostname); return; } #ifdef SIP_TCP_SUPPORT /* Find and parse transport "transport=" */ t = strstr(uri, "transport="); if( t ) { t += 10; tn = strcspn(t, ";>") + 1; if (tn > sizeof(transport)) tn = sizeof(transport); cw_copy_string(transport, t, tn); } else cw_copy_string(transport, DEFAULT_TRANSPORT, sizeof(DEFAULT_TRANSPORT)); p->sa.sin_family = AF_INET; memcpy(&p->sa.sin_addr, hp->h_addr, sizeof(p->sa.sin_addr)); p->sa.sin_port = htons(port); if(!strncasecmp(transport, "UDP", 3)) { cw_copy_string(p->transport, "UDP", sizeof(p->transport)); }else if(!strncasecmp(transport, "TCP", 3)) { cw_copy_string(p->transport, "TCP", sizeof(p->transport)); }else if(!strncasecmp(transport, "TLS", 3)) { cw_copy_string(p->transport, "TLS", sizeof(p->transport)); }else { cw_log(LOG_WARNING, "Unsupported transport '%s' should be 'UDP', 'TCP', or 'TLS'\n", transport); return; } #else p->sa.sin_family = AF_INET; memcpy(&p->sa.sin_addr, hp->h_addr, sizeof(p->sa.sin_addr)); p->sa.sin_port = htons(port); #endif /* SIP_TCP_SUPPORT */ if (debug) #ifdef SIP_TCP_SUPPORT cw_verbose("set_destination: set destination to %s, port %d, transport %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), port, p->transport); #else cw_verbose("set_destination: set destination to %s, port %d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), port); #endif cw_sip_ouraddrfor(&p->sa.sin_addr,&p->ourip,p); return; } /*! \brief init_resp: Initialize SIP response, based on SIP request */ static int init_resp(struct sip_request *req, char *resp, struct sip_request *orig) { /* Initialize a response */ if (req->headers || req->len) { cw_log(LOG_WARNING, "Request already initialized?!?\n"); return -1; } req->method = SIP_RESPONSE; req->header[req->headers] = req->data + req->len; req->head_lines=NULL; req->sdp_lines=NULL; // snprintf(req->header[req->headers], sizeof(req->data) - req->len, "SIP/2.0 %s\r\n", resp); // req->len += strlen(req->header[req->headers]); // req->headers++; char content[256]; sprintf(content,"SIP/2.0 %s",resp); add_header(req,content,"", SIP_DL_DONTCARE); return 0; } /*! \brief init_req: Initialize SIP request */ static int init_req(struct sip_request *req, int sipmethod, char *recip) { /* Initialize a response */ if (req->headers || req->len) { cw_log(LOG_WARNING, "Request already initialized?!?\n"); return -1; } req->method = sipmethod; req->header[req->headers] = req->data + req->len; req->head_lines=NULL; req->sdp_lines=NULL; // snprintf(req->header[req->headers], sizeof(req->data) - req->len, "%s %s SIP/2.0\r\n", sip_methods[sipmethod].text, recip); // req->len += strlen(req->header[req->headers]); // req->headers++; char content[256]; sprintf(content,"%s %s SIP/2.0", sip_methods[sipmethod].text, recip); add_header(req,content,"", SIP_DL_DONTCARE); return 0; } /*! \brief respprep: Prepare SIP response packet */ static int respprep(struct sip_request *resp, struct sip_pvt *p, char *msg, struct sip_request *req) { char newto[256], *ot; memset(resp, 0, sizeof(struct sip_request)); init_resp(resp, msg, req); copy_via_headers(p, resp, req, "Via"); if (msg[0] == '2') copy_all_header(resp, req, "Record-Route"); copy_header(resp, req, "From"); ot = get_header(req, "To"); if (!strcasestr(ot, "tag=") && strncmp(msg, "100", 3)) { /* Add the proper tag if we don't have it already. If they have specified their tag, use it. Otherwise, use our own tag */ if (!cw_strlen_zero(p->theirtag) && cw_test_flag(p, SIP_OUTGOING)) snprintf(newto, sizeof(newto), "%s;tag=%s", ot, p->theirtag); else if (p->tag && !cw_test_flag(p, SIP_OUTGOING)) snprintf(newto, sizeof(newto), "%s;tag=%s", ot, p->tag); else { cw_copy_string(newto, ot, sizeof(newto)); newto[sizeof(newto) - 1] = '\0'; } ot = newto; } add_header(resp, "To", ot, SIP_DL_DONTCARE); copy_header(resp, req, "Call-ID"); copy_header(resp, req, "CSeq"); add_header(resp, "User-Agent", default_useragent, SIP_DL_DONTCARE); add_header(resp, "Allow", ALLOWED_METHODS, SIP_DL_DONTCARE); add_header(resp, "Max-Forwards", DEFAULT_MAX_FORWARDS, SIP_DL_DONTCARE); if (msg[0] == '2' && (p->method == SIP_SUBSCRIBE || p->method == SIP_REGISTER)) { /* For registration responses, we also need expiry and contact info */ char tmp[256]; snprintf(tmp, sizeof(tmp), "%d", p->expiry); add_header(resp, "Expires", tmp, SIP_DL_DONTCARE); if (p->expiry) { /* Only add contact if we have an expiry time */ char contact[256]; snprintf(contact, sizeof(contact), "%s;expires=%d", p->our_contact, p->expiry); add_header(resp, "Contact", contact, SIP_DL_HEAD_CONTACT); /* Not when we unregister */ } } else if (msg[0] != '4' && p->our_contact[0]) { add_header(resp, "Contact", p->our_contact, SIP_DL_HEAD_CONTACT); } return 0; } /*! \brief reqprep: Initialize a SIP request response packet */ static int reqprep(struct sip_request *req, struct sip_pvt *p, int sipmethod, int seqno, int newbranch) { struct sip_request *orig = &p->initreq; char stripped[80]; char tmp[80]; char newto[256]; char *c, *n; char *ot, *of; int is_strict = 0; /* Strict routing flag */ memset(req, 0, sizeof(struct sip_request)); snprintf(p->lastmsg, sizeof(p->lastmsg), "Tx: %s", sip_methods[sipmethod].text); if (!seqno) { p->ocseq++; seqno = p->ocseq; } if (newbranch) { p->branch ^= thread_safe_cw_random(); build_via(p, p->via, sizeof(p->via)); } /* Check for strict or loose router */ if (p->route && !cw_strlen_zero(p->route->hop) && strstr(p->route->hop,";lr") == NULL) is_strict = 1; if (sipmethod == SIP_CANCEL) { c = p->initreq.rlPart2; /* Use original URI */ } else if (sipmethod == SIP_ACK) { /* Use URI from Contact: in 200 OK (if INVITE) (we only have the contacturi on INVITEs) */ if (!cw_strlen_zero(p->okcontacturi)) c = is_strict ? p->route->hop : p->okcontacturi; else c = p->initreq.rlPart2; } else if (!cw_strlen_zero(p->okcontacturi)) { c = is_strict ? p->route->hop : p->okcontacturi; /* Use for BYE or REINVITE */ } else if (!cw_strlen_zero(p->uri)) { c = p->uri; } else { /* We have no URI, use To: or From: header as URI (depending on direction) */ c = get_header(orig, (cw_test_flag(p, SIP_OUTGOING)) ? "To" : "From"); cw_copy_string(stripped, c, sizeof(stripped)); c = get_in_brackets(stripped); n = strchr(c, ';'); if (n) *n = '\0'; } init_req(req, sipmethod, c); snprintf(tmp, sizeof(tmp), "%d %s", seqno, sip_methods[sipmethod].text); add_header(req, "Via", p->via, SIP_DL_HEAD_VIA); if (p->route) { set_destination(p, p->route->hop); if (is_strict) add_route(req, p->route->next); else add_route(req, p->route); } ot = get_header(orig, "To"); of = get_header(orig, "From"); /* Add tag *unless* this is a CANCEL, in which case we need to send it exactly as our original request, including tag (or presumably lack thereof) */ if (!strcasestr(ot, "tag=") && sipmethod != SIP_CANCEL) { /* Add the proper tag if we don't have it already. If they have specified their tag, use it. Otherwise, use our own tag */ if (cw_test_flag(p, SIP_OUTGOING) && !cw_strlen_zero(p->theirtag)) snprintf(newto, sizeof(newto), "%s;tag=%s", ot, p->theirtag); else if (!cw_test_flag(p, SIP_OUTGOING)) snprintf(newto, sizeof(newto), "%s;tag=%s", ot, p->tag); else snprintf(newto, sizeof(newto), "%s", ot); ot = newto; } if (cw_test_flag(p, SIP_OUTGOING)) { add_header(req, "From", of, SIP_DL_DONTCARE); add_header(req, "To", ot, SIP_DL_DONTCARE); } else { add_header(req, "From", ot, SIP_DL_DONTCARE); add_header(req, "To", of, SIP_DL_DONTCARE); } add_header(req, "Contact", p->our_contact, SIP_DL_HEAD_CONTACT); copy_header(req, orig, "Call-ID"); add_header(req, "CSeq", tmp, SIP_DL_DONTCARE); add_header(req, "User-Agent", default_useragent, SIP_DL_DONTCARE); add_header(req, "Max-Forwards", DEFAULT_MAX_FORWARDS, SIP_DL_DONTCARE); if (p->rpid) add_header(req, "Remote-Party-ID", p->rpid, SIP_DL_DONTCARE); return 0; } /*! \brief __transmit_response: Base transmit response function */ static int __transmit_response(struct sip_pvt *p, char *msg, struct sip_request *req, int reliable) { struct sip_request resp; int seqno = 0; if (reliable && (sscanf(get_header(req, "CSeq"), "%d ", &seqno) != 1)) { cw_log(LOG_WARNING, "Unable to determine sequence number from '%s'\n", get_header(req, "CSeq")); return -1; } respprep(&resp, p, msg, req); add_header_contentLength(&resp, 0); /* If we are cancelling an incoming invite for some reason, add information about the reason why we are doing this in clear text */ if (msg[0] != '1' && p->owner && p->owner->hangupcause) { add_header(&resp, "X-CallWeaver-HangupCause", cw_cause2str(p->owner->hangupcause), SIP_DL_DONTCARE); } add_blank_header(&resp); return send_response(p, &resp, reliable, seqno); } //TODO /*! \brief transmit_response_using_temp: Transmit response, no retransmits, using temporary pvt */ static int transmit_response_using_temp(char *callid, struct sockaddr_in *sin, int useglobal_nat, const int intended_method, struct sip_request *req, char *msg) { struct sip_pvt *p = alloca(sizeof(struct sip_pvt)); struct sip_history *hist = NULL; memset(p, 0, sizeof(struct sip_pvt)); p->method = intended_method; if (sin) { p->sa = *sin; if (cw_sip_ouraddrfor(&p->sa.sin_addr, &p->ourip,p)) p->ourip = __ourip; } else { p->ourip = __ourip; } p->branch = cw_random(); make_our_tag(p->tag, sizeof(p->tag)); p->ocseq = 101; if (useglobal_nat && sin) { cw_copy_flags(p, &global_flags, SIP_NAT); memcpy(&p->recv, sin, sizeof(p->recv)); } cw_copy_string(p->fromdomain, default_fromdomain, sizeof(p->fromdomain)); build_via(p, p->via, sizeof(p->via)); cw_copy_string(p->callid, callid, sizeof(p->callid)); __transmit_response(p, msg, req, 0); while ((hist = p->history)) { p->history = p->history->next; free(hist); } return 0; } /*! \brief transmit_response: Transmit response, no retransmits */ static int transmit_response(struct sip_pvt *p, char *msg, struct sip_request *req) { return __transmit_response(p, msg, req, 0); } /*! \brief transmit_response_with_unsupported: Transmit response, no retransmits */ static int transmit_response_with_unsupported(struct sip_pvt *p, char *msg, struct sip_request *req, char *unsupported) { struct sip_request resp; respprep(&resp, p, msg, req); append_date(&resp); add_header(&resp, "Unsupported", unsupported, SIP_DL_DONTCARE); return send_response(p, &resp, 0, 0); } /*! \brief transmit_response_reliable: Transmit response, Make sure you get a reply */ static int transmit_response_reliable(struct sip_pvt *p, char *msg, struct sip_request *req, int fatal) { return __transmit_response(p, msg, req, fatal ? 2 : 1); } /*! \brief append_date: Append date to SIP message */ static void append_date(struct sip_request *req) { char tmpdat[256]; struct tm tm; time_t t; time(&t); gmtime_r(&t, &tm); strftime(tmpdat, sizeof(tmpdat), "%a, %d %b %Y %T GMT", &tm); add_header(req, "Date", tmpdat, SIP_DL_DONTCARE); } /*! \brief transmit_response_with_date: Append date and content length before transmitting response */ static int transmit_response_with_date(struct sip_pvt *p, char *msg, struct sip_request *req) { struct sip_request resp; respprep(&resp, p, msg, req); append_date(&resp); add_header_contentLength(&resp, 0); add_blank_header(&resp); return send_response(p, &resp, 0, 0); } /*! \brief transmit_response_with_allow: Append Accept header, content length before transmitting response */ static int transmit_response_with_allow(struct sip_pvt *p, char *msg, struct sip_request *req, int reliable) { int res; struct sip_request resp; respprep(&resp, p, msg, req); add_header(&resp, "Accept", "application/sdp", SIP_DL_DONTCARE); add_header_contentLength(&resp, 0); add_blank_header(&resp); res=send_response(p, &resp, reliable, 0); /* if ( sipdebug && option_debug > 5) cw_log(LOG_DEBUG,"transmit_response_with_allow returning %d\n",res); */ return res; } /* transmit_response_with_auth: Respond with authorization request */ static int transmit_response_with_auth(struct sip_pvt *p, char *msg, struct sip_request *req, char *randdata, int reliable, char *header, int stale) { struct sip_request resp; char tmp[512]; int seqno = 0; if (reliable && (sscanf(get_header(req, "CSeq"), "%d ", &seqno) != 1)) { cw_log(LOG_WARNING, "Unable to determine sequence number from '%s'\n", get_header(req, "CSeq")); return -1; } /* Stale means that they sent us correct authentication, but based it on an old challenge (nonce) */ snprintf(tmp, sizeof(tmp), "Digest algorithm=MD5, realm=\"%s\", nonce=\"%s\"%s", global_realm, randdata, stale ? ", stale=true" : ""); respprep(&resp, p, msg, req); add_header(&resp, header, tmp, SIP_DL_DONTCARE); add_header_contentLength(&resp, 0); add_blank_header(&resp); return send_response(p, &resp, reliable, seqno); } /*! \brief add_text: Add text body to SIP message */ static int add_text(struct sip_request *req, const char *text) { /* XXX Convert \n's to \r\n's XXX */ add_header(req, "Content-Type", "text/plain", SIP_DL_DONTCARE); add_header_contentLength(req, strlen(text)); add_line(req, text, SIP_DL_DONTCARE); return 0; } /*! \brief add_digit: add DTMF INFO tone to sip message */ /* Always adds default duration 250 ms, regardless of what came in over the line */ static int add_digit(struct sip_request *req, char digit, unsigned int duration) { char tmp[256]; add_header(req, "Content-Type", "application/dtmf-relay", SIP_DL_DONTCARE); add_header_contentLength(req, 0); snprintf(tmp, sizeof(tmp), "Signal=%c\r\nDuration=%u\r\n", digit, duration); add_line(req, tmp, SIP_DL_DONTCARE); return 0; } /*! \brief add_vidupdate: add XML encoded media control with update */ /* XML: The only way to turn 0 bits of information into a few hundred. */ static int add_vidupdate(struct sip_request *req) { const char *xml_is_a_huge_waste_of_space = "\r\n" " \r\n" " \r\n" " \r\n" " \r\n" " \r\n" " \r\n" " "; add_header(req, "Content-Type", "application/media_control+xml", SIP_DL_DONTCARE); add_header_contentLength(req, strlen(xml_is_a_huge_waste_of_space)); add_line(req, xml_is_a_huge_waste_of_space, SIP_DL_DONTCARE); return 0; } static void add_codec_to_sdp(const struct sip_pvt *p, struct sip_request *resp, int codec, int sample_rate, int debug) { int rtp_code; char line[256]; if (debug) cw_verbose("Adding codec 0x%x (%s) to SDP\n", codec, cw_getformatname(codec)); if ((rtp_code = cw_rtp_lookup_code(p->rtp, 1, codec)) == -1) return; sprintf(line, "a=rtpmap:%d %s/%d", rtp_code, cw_rtp_lookup_mime_subtype(1, codec), sample_rate); add_line(resp,line, SIP_DL_DONTCARE); if (codec == CW_FORMAT_G729A) { /* Indicate that we don't support VAD (G.729 annex B) */ sprintf(line, "a=fmtp:%d annexb=no", rtp_code); add_line(resp,line, SIP_DL_DONTCARE); } } static void add_noncodec_to_sdp(const struct sip_pvt *p, struct sip_request *resp, int format, int sample_rate, int debug) { int rtp_code; char line[256]; if (debug) cw_verbose("Adding non-codec 0x%x (%s) to SDP\n", format, cw_rtp_lookup_mime_subtype(0, format)); if ((rtp_code = cw_rtp_lookup_code(p->rtp, 0, format)) == -1) return; sprintf(line, "a=rtpmap:%d %s/%d", rtp_code, cw_rtp_lookup_mime_subtype(0, format), sample_rate); add_line(resp,line, SIP_DL_DONTCARE); if (format == CW_RTP_DTMF) { /* Indicate we support DTMF and FLASH... */ sprintf(line, "a=fmtp:%d 0-16", rtp_code); add_line(resp,line, SIP_DL_DONTCARE); } } /*! \brief t38_get_rate: Get Max T.38 Transmision rate from T38 capabilities */ static int t38_get_rate(int t38cap) { int maxrate = (t38cap & (T38FAX_RATE_14400 | T38FAX_RATE_12000 | T38FAX_RATE_9600 | T38FAX_RATE_7200 | T38FAX_RATE_4800 | T38FAX_RATE_2400)); if (maxrate & T38FAX_RATE_14400) { cw_log(LOG_DEBUG, "T38MaxFaxRate 14400 found\n"); return 14400; } else if (maxrate & T38FAX_RATE_12000) { cw_log(LOG_DEBUG, "T38MaxFaxRate 12000 found\n"); return 12000; } else if (maxrate & T38FAX_RATE_9600) { cw_log(LOG_DEBUG, "T38MaxFaxRate 9600 found\n"); return 9600; } else if (maxrate & T38FAX_RATE_7200) { cw_log(LOG_DEBUG, "T38MaxFaxRate 7200 found\n"); return 7200; } else if (maxrate & T38FAX_RATE_4800) { cw_log(LOG_DEBUG, "T38MaxFaxRate 4800 found\n"); return 4800; } else if (maxrate & T38FAX_RATE_2400) { cw_log(LOG_DEBUG, "T38MaxFaxRate 2400 found\n"); return 2400; } else { cw_log(LOG_DEBUG, "Strange, T38MaxFaxRate NOT found in peers T38 SDP.\n"); return 0; } } /*! \brief add_t38_sdp: Add T.38 Session Description Protocol message */ static int add_t38_sdp(struct sip_request *resp, struct sip_pvt *p) { int len = 0; int x = 0; struct sockaddr_in udptlsin; char v[256] = ""; char s[256] = ""; char o[256] = ""; char c[256] = ""; char t[256] = ""; char m_modem[256]; char a_modem[1024]; char iabuf[INET_ADDRSTRLEN]; struct sockaddr_in udptldest = { 0, }; int debug; debug = sip_debug_test_pvt(p); len = 0; if (!p->udptl) { cw_log(LOG_WARNING, "No way to add SDP without an UDPTL structure\n"); return -1; } if (!p->sessionid) { p->sessionid = getpid(); p->sessionversion = p->sessionid; } else { p->sessionversion++; } /* Our T.38 end is */ if (p->udptl) cw_udptl_get_us(p->udptl, &udptlsin); /* Determine T.38 UDPTL destination */ if (p->udptl) { if (p->udptlredirip.sin_addr.s_addr) { udptldest.sin_port = p->udptlredirip.sin_port; udptldest.sin_addr = p->udptlredirip.sin_addr; } else { udptldest.sin_addr = p->ourip; udptldest.sin_port = udptlsin.sin_port; } } if (debug) { if (p->udptl) { cw_verbose("T.38 UDPTL is at port %s:%d...\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), ntohs(udptlsin.sin_port)); } } /* We break with the "recommendation" and send our IP, in order that our peer doesn't have to cw_gethostbyname() us */ if (debug) { cw_log(LOG_DEBUG, "Our T38 capability (%d), peer T38 capability (%d), joint capability (%d)\n", p->t38capability, p->t38peercapability, p->t38jointcapability); } add_header(resp, "Content-Type", "application/sdp", SIP_DL_DONTCARE); add_header_contentLength(resp, len); snprintf(v, sizeof(v), "v=0"); add_line(resp, v, SIP_DL_DONTCARE); snprintf(o, sizeof(o), "o=root %d %d IN IP4 %s", p->sessionid, p->sessionversion, cw_inet_ntoa(iabuf, sizeof(iabuf), udptldest.sin_addr)); add_line(resp, o, SIP_DL_SDP_O); snprintf(s, sizeof(s), "s=session"); add_line(resp, s, SIP_DL_DONTCARE); snprintf(c, sizeof(c), "c=IN IP4 %s", cw_inet_ntoa(iabuf, sizeof(iabuf), udptldest.sin_addr)); add_line(resp, c, SIP_DL_SDP_C); snprintf(t, sizeof(t), "t=0 0"); add_line(resp, t, SIP_DL_DONTCARE); snprintf(m_modem, sizeof(m_modem), "m=image %d udptl t38", ntohs(udptldest.sin_port)); add_line(resp, m_modem, SIP_DL_SDP_M_T38); if ((p->t38jointcapability & T38FAX_VERSION) == T38FAX_VERSION_0) { snprintf(a_modem, sizeof(a_modem), "a=T38FaxVersion:0"); add_line(resp, a_modem, SIP_DL_DONTCARE); } if ((p->t38jointcapability & T38FAX_VERSION) == T38FAX_VERSION_1) { snprintf(a_modem, sizeof(a_modem), "a=T38FaxVersion:1"); add_line(resp, a_modem, SIP_DL_DONTCARE); } if ((x = t38_get_rate(p->t38jointcapability))) { snprintf(a_modem, sizeof(a_modem), "a=T38MaxBitRate:%d",x); add_line(resp, a_modem, SIP_DL_DONTCARE); } if (p->t38jointcapability & T38FAX_FILL_BIT_REMOVAL) { snprintf(a_modem, sizeof(a_modem), "a=T38FaxFillBitRemoval"); add_line(resp, a_modem, SIP_DL_DONTCARE); } if (p->t38jointcapability & T38FAX_TRANSCODING_MMR) { snprintf(a_modem, sizeof(a_modem), "a=T38FaxTranscodingMMR"); add_line(resp, a_modem, SIP_DL_DONTCARE); } if (p->t38jointcapability & T38FAX_TRANSCODING_JBIG) { snprintf(a_modem, sizeof(a_modem), "a=T38FaxTranscodingJBIG"); add_line(resp, a_modem, SIP_DL_DONTCARE); } snprintf(a_modem, sizeof(a_modem), "a=T38FaxRateManagement:%s", (p->t38jointcapability & T38FAX_RATE_MANAGEMENT_LOCAL_TCF) ? "localTCF" : "transferredTCF"); add_line(resp, a_modem, SIP_DL_DONTCARE); x = cw_udptl_get_local_max_datagram(p->udptl); snprintf(a_modem, sizeof(a_modem), "a=T38FaxMaxBuffer:%d",x); add_line(resp, a_modem, SIP_DL_DONTCARE); snprintf(a_modem, sizeof(a_modem), "a=T38FaxMaxDatagram:%d",x); add_line(resp, a_modem, SIP_DL_DONTCARE); /* Tell them what we would like for the EC data from them. */ if ((p->t38capability & (T38FAX_UDP_EC_FEC | T38FAX_UDP_EC_REDUNDANCY))) { snprintf(a_modem, sizeof(a_modem), "a=T38FaxUdpEC:%s", (p->t38capability & T38FAX_UDP_EC_FEC) ? "t38UDPFEC" : "t38UDPRedundancy"); add_line(resp, a_modem, SIP_DL_DONTCARE); } #if 0 snprintf(a_modem, sizeof(a_modem), "a=T38VendorInfo:0 0 0"); add_line(resp, a_modem, SIP_DL_DONTCARE); #endif /* Update lastrtprx when we send our SDP */ time(&p->lastrtprx); time(&p->lastrtptx); return 0; } /*! \brief add_sdp: Add Session Description Protocol message */ static int add_sdp(struct sip_request *resp, struct sip_pvt *p) { int len = 0; int pref_codec; int alreadysent = 0; struct sockaddr_in sin; struct sockaddr_in vsin; char v[256]; char s[256]; char o[256]; char c[256]; char t[256]; char tmpstr[256]; char m_audio[256]; char m_video[256]; //char a_audio[1024]; char a_video[1024]; #ifdef ENABLE_SRTP char crypto_buf[128]; const char *a_crypto = NULL; #endif char iabuf[INET_ADDRSTRLEN]; int x; int rtp_code; int capability; struct sockaddr_in dest; struct sockaddr_in vdest = { 0, }; int debug; #ifdef ENABLE_SRTP const char *protocol = NULL; struct sip_srtp *srtp = p->srtp; #endif debug = sip_debug_test_pvt(p); len = 0; if (!p->rtp) { cw_log(LOG_WARNING, "No way to add SDP without an RTP structure\n"); return -1; } capability = p->capability; if (!p->sessionid) { p->sessionid = getpid(); p->sessionversion = p->sessionid; } else p->sessionversion++; cw_rtp_get_us(p->rtp, &sin); if (p->vrtp) cw_rtp_get_us(p->vrtp, &vsin); if (p->redirip.sin_addr.s_addr) { dest.sin_port = p->redirip.sin_port; dest.sin_addr = p->redirip.sin_addr; if (p->redircodecs) capability = p->redircodecs; } else { dest.sin_addr = p->ourip; dest.sin_port = sin.sin_port; } /* Determine video destination */ if (p->vrtp) { if (p->vredirip.sin_addr.s_addr) { vdest.sin_port = p->vredirip.sin_port; vdest.sin_addr = p->vredirip.sin_addr; } else { vdest.sin_addr = p->ourip; vdest.sin_port = vsin.sin_port; } } sip_debug_ports(p); if (debug){ cw_verbose("We're at %s port %d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), ntohs(sin.sin_port)); if (p->vrtp) cw_verbose("Video is at %s port %d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), ntohs(vsin.sin_port)); } #ifdef ENABLE_SRTP if (srtp) { if (srtp->a_crypto) { a_crypto = srtp->a_crypto; } else { const char *crypto_suite = "AES_CM_128_HMAC_SHA1_80"; snprintf(crypto_buf, sizeof(crypto_buf), "a=crypto:1 %s inline:%s", crypto_suite, srtp->local_key64); a_crypto = crypto_buf; } } if (a_crypto) { protocol = "SAVP"; } else { protocol = "AVP"; } #endif /* We break with the "recommendation" and send our IP, in order that our peer doesn't have to cw_gethostbyname() us */ add_header(resp, "Content-Type", "application/sdp", SIP_DL_DONTCARE); add_header_contentLength(resp, len); snprintf(v, sizeof(v), "v=0"); add_line(resp, v, SIP_DL_DONTCARE); snprintf(o, sizeof(o), "o=root %d %d IN IP4 %s", p->sessionid, p->sessionversion, cw_inet_ntoa(iabuf, sizeof(iabuf), dest.sin_addr)); add_line(resp, o, SIP_DL_SDP_O); snprintf(s, sizeof(s), "s=session"); add_line(resp, s, SIP_DL_DONTCARE); snprintf(c, sizeof(c), "c=IN IP4 %s", cw_inet_ntoa(iabuf, sizeof(iabuf), dest.sin_addr)); add_line(resp, c, SIP_DL_SDP_C); snprintf(t, sizeof(t), "t=0 0"); add_line(resp, t, SIP_DL_DONTCARE); #ifdef ENABLE_SRTP snprintf(m_audio, sizeof(m_audio), "m=audio %d RTP/%s", ntohs(dest.sin_port), protocol); #else snprintf(m_audio, sizeof(m_audio), "m=audio %d RTP/AVP", ntohs(dest.sin_port)); #endif snprintf(m_video, sizeof(m_video), "m=video %d RTP/AVP", ntohs(vdest.sin_port)); /* Prefer the codec we were requested to use, first, no matter what */ if (capability & p->prefcodec) { if ((rtp_code = cw_rtp_lookup_code(p->rtp, 1, p->prefcodec)) != -1) { sprintf(tmpstr," %d",rtp_code); if (p->prefcodec <= CW_FORMAT_MAX_AUDIO) strcat(m_audio,tmpstr); else strcat(m_video,tmpstr); } alreadysent |= p->prefcodec; } /* Start by sending our preferred codecs */ for (x = 0; x < 32; x++) { if (!(pref_codec = cw_codec_pref_index(&p->prefs, x))) break; if (!(capability & pref_codec)) continue; if (alreadysent & pref_codec) continue; if ((rtp_code = cw_rtp_lookup_code(p->rtp, 1, pref_codec)) != -1) { sprintf(tmpstr," %d",rtp_code); if (pref_codec <= CW_FORMAT_MAX_AUDIO) strcat(m_audio,tmpstr); else strcat(m_video,tmpstr); } alreadysent |= pref_codec; } if (t38rtpsupport) { sprintf(tmpstr," %d",122); strcat(m_audio,tmpstr); } /* Now send any other common codecs, and non-codec formats: */ for (x = 1; x <= ((videosupport && p->vrtp) ? CW_FORMAT_MAX_VIDEO : CW_FORMAT_MAX_AUDIO); x <<= 1) { if (!(capability & x)) continue; if (alreadysent & x) continue; if ((rtp_code = cw_rtp_lookup_code(p->rtp, 1, x)) != -1) { sprintf(tmpstr," %d",rtp_code); if (x <= CW_FORMAT_MAX_AUDIO) strcat(m_audio,tmpstr); else strcat(m_video,tmpstr); } } for (x = 1; x <= CW_RTP_MAX; x <<= 1) { if (!(p->noncodeccapability & x)) continue; if ((rtp_code = cw_rtp_lookup_code(p->rtp, 0, x)) != -1) { sprintf(tmpstr," %d",rtp_code); strcat(m_audio,tmpstr); } } add_line(resp, m_audio, SIP_DL_SDP_M_AUDIO); alreadysent=0; #ifdef ENABLE_SRTP if (a_crypto) add_line(resp, a_crypto, SIP_DL_DONTCARE); #endif /* **************************************************************************** */ /* Prefer the codec we were requested to use, first, no matter what */ if (capability & p->prefcodec) { if (p->prefcodec <= CW_FORMAT_MAX_AUDIO) add_codec_to_sdp(p, resp, p->prefcodec, 8000, debug); else add_codec_to_sdp(p, resp, p->prefcodec, 90000, debug); alreadysent |= p->prefcodec; } /* Start by sending our preferred codecs */ for (x = 0; x < 32; x++) { if (!(pref_codec = cw_codec_pref_index(&p->prefs, x))) break; if (!(capability & pref_codec)) continue; if (alreadysent & pref_codec) continue; if (pref_codec <= CW_FORMAT_MAX_AUDIO) add_codec_to_sdp(p, resp, pref_codec, 8000, debug); else add_codec_to_sdp(p, resp, pref_codec, 90000, debug); alreadysent |= pref_codec; } if (t38rtpsupport) { /* TODO: Improve this */ sprintf(tmpstr, "a=rtpmap:%d %s/8000", 122, "t38"); add_line(resp, tmpstr, SIP_DL_DONTCARE); } /* Now send any other common codecs, and non-codec formats: */ for (x = 1; x <= ((videosupport && p->vrtp) ? CW_FORMAT_MAX_VIDEO : CW_FORMAT_MAX_AUDIO); x <<= 1) { if (!(capability & x)) continue; if (alreadysent & x) continue; if (x <= CW_FORMAT_MAX_AUDIO) add_codec_to_sdp(p, resp, x, 8000, debug); else add_codec_to_sdp(p, resp, x, 90000, debug); } for (x = 1; x <= CW_RTP_MAX; x <<= 1) { if (!(p->noncodeccapability & x)) continue; add_noncodec_to_sdp(p, resp, x, 8000, debug); } sprintf(tmpstr, "a=silenceSupp:off - - - -"); add_line(resp, tmpstr, SIP_DL_DONTCARE); if ((p->vrtp) && (!cw_test_flag(p, SIP_NOVIDEO)) && (capability & VIDEO_CODEC_MASK)) { /* only if video response is appropriate */ add_line(resp, m_video, SIP_DL_SDP_M_VIDEO); add_line(resp, a_video, SIP_DL_DONTCARE); } /* Update lastrtprx when we send our SDP */ time(&p->lastrtprx); time(&p->lastrtptx); return 0; } /*! \brief copy_request: copy SIP request (mostly used to save request for responses) */ static void copy_request(struct sip_request *dst, struct sip_request *src) { long offset; int x; offset = ((void *)dst) - ((void *)src); /* First copy stuff */ memcpy(dst, src, sizeof(struct sip_request)); /* Now fix pointer arithmetic */ for (x=0; x < src->headers; x++) dst->header[x] += offset; for (x=0; x < src->lines; x++) dst->line[x] += offset; } /*! \brief transmit_response_with_sdp: Used for 200 OK and 183 early media */ static int transmit_response_with_sdp(struct sip_pvt *p, char *msg, struct sip_request *req, int retrans) { struct sip_request resp; int seqno; if (sscanf(get_header(req, "CSeq"), "%d ", &seqno) != 1) { cw_log(LOG_WARNING, "Unable to get seqno from '%s'\n", get_header(req, "CSeq")); return -1; } respprep(&resp, p, msg, req); if (p->rtp) { cw_rtp_offered_from_local(p->rtp, 0); try_suggested_sip_codec(p); add_sdp(&resp, p); } else { cw_log(LOG_ERROR, "Can't add SDP to response, since we have no RTP session allocated. Call-ID %s\n", p->callid); } return send_response(p, &resp, retrans, seqno); } /*! \brief transmit_response_with_t38_sdp: Used for 200 OK and 183 early media */ static int transmit_response_with_t38_sdp(struct sip_pvt *p, char *msg, struct sip_request *req, int retrans) { struct sip_request resp; int seqno; if (sscanf(get_header(req, "CSeq"), "%d ", &seqno) != 1) { cw_log(LOG_WARNING, "Unable to get seqno from '%s'\n", get_header(req, "CSeq")); return -1; } respprep(&resp, p, msg, req); if (p->udptl) { cw_udptl_offered_from_local(p->udptl, 0); add_t38_sdp(&resp, p); } else { cw_log(LOG_ERROR, "Can't add SDP to response, since we have no UDPTL session allocated. Call-ID %s\n", p->callid); } return send_response(p, &resp, retrans, seqno); } /*! \brief determine_firstline_parts: parse first line of incoming SIP request */ static int determine_firstline_parts( struct sip_request *req ) { char *e, *cmd; int len; cmd = cw_skip_blanks(req->header[0]); if (!*cmd) return -1; req->rlPart1 = cmd; e = cw_skip_nonblanks(cmd); /* Get the command */ if (*e) *e++ = '\0'; e = cw_skip_blanks(e); if ( !*e ) return -1; if (!strcasecmp(cmd, "SIP/2.0")) { /* We have a response */ req->rlPart2 = e; len = strlen(req->rlPart2); if (len < 2) return -1; cw_trim_blanks(e); } else { /* We have a request */ if (*e == '<') { e++; if (!*e) { return -1; } } req->rlPart2 = e; /* URI */ if ((e = strrchr(req->rlPart2, 'S')) == NULL) { return -1; } /* XXX maybe trim_blanks() ? */ while (isspace(*(--e))) { } if (*e == '>') *e = '\0'; else *(++e)= '\0'; } return 1; } /*! \brief transmit_reinvite_with_sdp: Transmit reinvite with SDP :-) */ /* A re-invite is basically a new INVITE with the same CALL-ID and TAG as the INVITE that opened the SIP dialogue We reinvite so that the audio stream (RTP) go directly between the SIP UAs. SIP Signalling stays with * in the path. */ static int transmit_reinvite_with_sdp(struct sip_pvt *p) { struct sip_request req; if (cw_test_flag(p, SIP_REINVITE_UPDATE)) reqprep(&req, p, SIP_UPDATE, 0, 1); else reqprep(&req, p, SIP_INVITE, 0, 1); add_header(&req, "Allow", ALLOWED_METHODS, SIP_DL_DONTCARE); if (sipdebug) add_header(&req, "X-callweaver-info", "SIP re-invite (RTP bridge)", SIP_DL_DONTCARE); cw_rtp_offered_from_local(p->rtp, 1); add_sdp(&req, p); /* Use this as the basis */ copy_request(&p->initreq, &req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) cw_verbose("%d headers, %d lines\n", p->initreq.headers, p->initreq.lines); p->lastinvite = p->ocseq; cw_set_flag(p, SIP_OUTGOING); cw_log(LOG_DEBUG, "Activating UDPTL on reinvite %s (b)\n", p->callid); if (t38udptlsupport && p->udptl ) { cw_rtp_set_active(p->rtp, 0); cw_udptl_set_active(p->udptl, 1); p->udptl_active = 1; cw_channel_set_t38_status(p->owner, T38_NEGOTIATED); } return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_reinvite_with_t38_sdp: Transmit reinvite with T38 SDP */ /* A re-invite is basically a new INVITE with the same CALL-ID and TAG as the INVITE that opened the SIP dialogue We reinvite so that the T38 processing can take place. SIP Signalling stays with * in the path. */ static int transmit_reinvite_with_t38_sdp(struct sip_pvt *p) { struct sip_request req; if (cw_test_flag(p, SIP_REINVITE_UPDATE)) reqprep(&req, p, SIP_UPDATE, 0, 1); else reqprep(&req, p, SIP_INVITE, 0, 1); add_header(&req, "Allow", ALLOWED_METHODS, SIP_DL_DONTCARE); if (sipdebug) add_header(&req, "X-callweaver-info", "SIP re-invite (T38 switchover)", SIP_DL_DONTCARE); cw_udptl_offered_from_local(p->udptl, 1); add_t38_sdp(&req, p); /* Use this as the basis */ copy_request(&p->initreq, &req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) cw_verbose("%d headers, %d lines\n", p->initreq.headers, p->initreq.lines); p->lastinvite = p->ocseq; cw_set_flag(p, SIP_OUTGOING); return send_request(p, &req, 1, p->ocseq); } /*! \brief extract_uri: Check Contact: URI of SIP message */ static void extract_uri(struct sip_pvt *p, struct sip_request *req) { char stripped[256]; char *c, *n; cw_copy_string(stripped, get_header(req, "Contact"), sizeof(stripped)); c = get_in_brackets(stripped); n = strchr(c, ';'); if (n) *n = '\0'; if (!cw_strlen_zero(c)) cw_copy_string(p->uri, c, sizeof(p->uri)); } /*! \brief build_contact: Build contact header - the contact header we send out */ static void build_contact(struct sip_pvt *p) { char iabuf[INET_ADDRSTRLEN]; // TCP_ToDo: Hmm, what about stun and TCP? /* Construct Contact: header */ if (p->stun_needed) // If we are using stun, let's preserve the port information. snprintf(p->our_contact, sizeof(p->our_contact), "", p->exten, cw_strlen_zero(p->exten) ? "" : "@", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport); else { if (p->ourport != 5060) // Needs to be 5060, according to the RFC #ifdef SIP_TCP_SUPPORT snprintf(p->our_contact, sizeof(p->our_contact), "", p->exten, cw_strlen_zero(p->exten) ? "" : "@", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport, p->transport); #else snprintf(p->our_contact, sizeof(p->our_contact), "", p->exten, cw_strlen_zero(p->exten) ? "" : "@", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->ourport); #endif else #ifdef SIP_TCP_SUPPORT snprintf(p->our_contact, sizeof(p->our_contact), "", p->exten, cw_strlen_zero(p->exten) ? "" : "@", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip), p->transport); #else snprintf(p->our_contact, sizeof(p->our_contact), "", p->exten, cw_strlen_zero(p->exten) ? "" : "@", cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip)); #endif } } /*! \brief build_rpid: Build the Remote Party-ID & From using callingpres options */ static void build_rpid(struct sip_pvt *p) { int send_pres_tags = 1; const char *privacy=NULL; const char *screen=NULL; char buf[256]; const char *clid = default_callerid; const char *clin = NULL; char iabuf[INET_ADDRSTRLEN]; const char *fromdomain; if (p->rpid || p->rpid_from) return; if (p->owner && p->owner->cid.cid_num) { clid = strdup(p->owner->cid.cid_num); } if (p->owner && p->owner->cid.cid_name) { clin = strdup(p->owner->cid.cid_name); } if (cw_strlen_zero(clin)) clin = clid; switch (p->callingpres) { case CW_PRES_ALLOWED_USER_NUMBER_NOT_SCREENED: privacy = "off"; screen = "no"; break; case CW_PRES_ALLOWED_USER_NUMBER_PASSED_SCREEN: privacy = "off"; screen = "yes"; break; case CW_PRES_ALLOWED_USER_NUMBER_FAILED_SCREEN: privacy = "off"; screen = "no"; break; case CW_PRES_ALLOWED_NETWORK_NUMBER: privacy = "off"; screen = "yes"; break; case CW_PRES_PROHIB_USER_NUMBER_NOT_SCREENED: privacy = "full"; screen = "no"; break; case CW_PRES_PROHIB_USER_NUMBER_PASSED_SCREEN: privacy = "full"; screen = "yes"; break; case CW_PRES_PROHIB_USER_NUMBER_FAILED_SCREEN: privacy = "full"; screen = "no"; break; case CW_PRES_PROHIB_NETWORK_NUMBER: privacy = "full"; screen = "yes"; break; case CW_PRES_NUMBER_NOT_AVAILABLE: send_pres_tags = 0; break; default: cw_log(LOG_WARNING, "Unsupported callingpres (%d)\n", p->callingpres); if ((p->callingpres & CW_PRES_RESTRICTION) != CW_PRES_ALLOWED) privacy = "full"; else privacy = "off"; screen = "no"; break; } fromdomain = cw_strlen_zero(p->fromdomain) ? cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip) : p->fromdomain; snprintf(buf, sizeof(buf), "\"%s\" ", clin, clid, fromdomain); if (send_pres_tags) snprintf(buf + strlen(buf), sizeof(buf) - strlen(buf), ";privacy=%s;screen=%s", privacy, screen); p->rpid = strdup(buf); snprintf(buf, sizeof(buf), "\"%s\" ;tag=%s", clin, cw_strlen_zero(p->fromuser) ? clid : p->fromuser, fromdomain, p->tag); p->rpid_from = strdup(buf); } /*! \brief initreqprep: Initiate new SIP request to peer/user */ static void initreqprep(struct sip_request *req, struct sip_pvt *p, int sipmethod) { char invite_buf[256] = ""; char *invite = invite_buf; size_t invite_max = sizeof(invite_buf); char from[256]; char to[256]; char tmp[BUFSIZ/2]; char tmp2[BUFSIZ/2]; char iabuf[INET_ADDRSTRLEN]; char *l = NULL, *n = NULL; int x; char urioptions[256]=""; if (cw_test_flag(p, SIP_USEREQPHONE)) { char onlydigits = 1; x = 0; /* Test p->username against allowed characters in CW_DIGIT_ANY If it matches the allowed characters list, then sipuser = ";user=phone" If not, then sipuser = "" */ /* + is allowed in first position in a tel: uri */ if (p->username && p->username[0] == '+') x=1; for ( ; x < strlen(p->username); x++) { if (!strchr(CW_DIGIT_ANYNUM, p->username[x])) { onlydigits = 0; break; } } /* If we have only digits, add ;user=phone to the uri */ if (onlydigits) strcpy(urioptions, ";user=phone"); } snprintf(p->lastmsg, sizeof(p->lastmsg), "Init: %s", sip_methods[sipmethod].text); if (p->owner) { l = p->owner->cid.cid_num; n = p->owner->cid.cid_name; } /* if we are not sending RPID and user wants his callerid restricted */ if (!cw_test_flag(p, SIP_SENDRPID) && ((p->callingpres & CW_PRES_RESTRICTION) != CW_PRES_ALLOWED)) { l = CALLERID_UNKNOWN; n = l; } if (cw_strlen_zero(l)) l = default_callerid; if (cw_strlen_zero(n)) n = l; /* Allow user to be overridden */ if (!cw_strlen_zero(p->fromuser)) l = p->fromuser; else /* Save for any further attempts */ cw_copy_string(p->fromuser, l, sizeof(p->fromuser)); /* Allow user to be overridden */ if (!cw_strlen_zero(p->fromname)) n = p->fromname; else /* Save for any further attempts */ cw_copy_string(p->fromname, n, sizeof(p->fromname)); if (pedanticsipchecking) { cw_uri_encode(n, tmp, sizeof(tmp), 0); n = tmp; cw_uri_encode(l, tmp2, sizeof(tmp2), 0); l = tmp2; } if ((p->ourport != 5060) && cw_strlen_zero(p->fromdomain)) /* Needs to be 5060 */ snprintf(from, sizeof(from), "\"%s\" ;tag=%s", n, l, cw_strlen_zero(p->fromdomain) ? cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip) : p->fromdomain, p->ourport, p->tag); else snprintf(from, sizeof(from), "\"%s\" ;tag=%s", n, l, cw_strlen_zero(p->fromdomain) ? cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip) : p->fromdomain, p->tag); /* If we're calling a registered SIP peer, use the fullcontact to dial to the peer */ #ifdef SIP_TCP_SUPPORT if (!cw_strlen_zero(p->fullcontact) && strchr(p->fullcontact, '@') != NULL) #else if (!cw_strlen_zero(p->fullcontact)) #endif { /* If we have full contact, trust it */ cw_build_string(&invite, &invite_max, "%s", p->fullcontact); } else { /* Otherwise, use the username while waiting for registration */ cw_build_string(&invite, &invite_max, "sip:"); if (!cw_strlen_zero(p->username)) { n = p->username; if (pedanticsipchecking) { cw_uri_encode(n, tmp, sizeof(tmp), 0); n = tmp; } cw_build_string(&invite, &invite_max, "%s@", n); } cw_build_string(&invite, &invite_max, "%s", p->tohost); if (ntohs(p->sa.sin_port) != 5060) /* Needs to be 5060 */ cw_build_string(&invite, &invite_max, ":%d", ntohs(p->sa.sin_port)); cw_build_string(&invite, &invite_max, "%s", urioptions); } /* If custom URI options have been provided, append them */ if (p->options && p->options->uri_options) cw_build_string(&invite, &invite_max, ";%s", p->options->uri_options); cw_copy_string(p->uri, invite_buf, sizeof(p->uri)); /* If there is a VXML URL append it to the SIP URL */ if (p->options && p->options->vxml_url) snprintf(to, sizeof(to), "<%s>;%s", p->uri, p->options->vxml_url); else snprintf(to, sizeof(to), "<%s>", p->uri); if (sipmethod == SIP_NOTIFY && !cw_strlen_zero(p->theirtag)) { /* If this is a NOTIFY, use the From: tag in the subscribe (RFC 3265) */ /* Fix for double sip: on the to field */ char *urip = p->uri; if(strncmp(p->uri, "sip:", 4) == 0) urip+=4; snprintf(to, sizeof(to), ";tag=%s", urip, p->theirtag); } else if (p->options && p->options->vxml_url) { /* If there is a VXML URL append it to the SIP URL */ snprintf(to, sizeof(to), "<%s>;%s", p->uri, p->options->vxml_url); } else { snprintf(to, sizeof(to), "<%s>", p->uri); } memset(req, 0, sizeof(struct sip_request)); init_req(req, sipmethod, p->uri); snprintf(tmp, sizeof(tmp), "%d %s", ++p->ocseq, sip_methods[sipmethod].text); add_header(req, "Via", p->via, SIP_DL_HEAD_VIA); /* SLD: FIXME?: do Route: here too? I think not cos this is the first request. * OTOH, then we won't have anything in p->route anyway */ /* Build Remote Party-ID and From */ if (cw_test_flag(p, SIP_SENDRPID) && (sipmethod == SIP_INVITE)) { build_rpid(p); add_header(req, "From", p->rpid_from, SIP_DL_DONTCARE); } else { add_header(req, "From", from, SIP_DL_HEAD_FROM); } add_header(req, "To", to, SIP_DL_DONTCARE); cw_copy_string(p->exten, l, sizeof(p->exten)); build_contact(p); add_header(req, "Contact", p->our_contact, SIP_DL_HEAD_CONTACT); add_header(req, "Call-ID", p->callid, SIP_DL_HEAD_CALLID); add_header(req, "CSeq", tmp, SIP_DL_DONTCARE); add_header(req, "User-Agent", default_useragent, SIP_DL_DONTCARE); add_header(req, "Max-Forwards", DEFAULT_MAX_FORWARDS, SIP_DL_DONTCARE); if (p->rpid) add_header(req, "Remote-Party-ID", p->rpid, SIP_DL_DONTCARE); } /*! \brief transmit_invite: Build REFER/INVITE/OPTIONS message and transmit it */ static int transmit_invite(struct sip_pvt *p, int sipmethod, int sdp, int init) { struct sip_request req; req.method = sipmethod; if (init) { /* Bump branch even on initial requests */ p->branch ^= thread_safe_cw_random(); build_via(p, p->via, sizeof(p->via)); if (init > 1) initreqprep(&req, p, sipmethod); else reqprep(&req, p, sipmethod, 0, 1); } else reqprep(&req, p, sipmethod, 0, 1); if (p->options && p->options->auth) add_header(&req, p->options->authheader, p->options->auth, SIP_DL_DONTCARE); append_date(&req); if (sipmethod == SIP_REFER) { /* Call transfer */ if (!cw_strlen_zero(p->refer_to)) add_header(&req, "Refer-To", p->refer_to, SIP_DL_DONTCARE); if (!cw_strlen_zero(p->referred_by)) add_header(&req, "Referred-By", p->referred_by, SIP_DL_DONTCARE); } if (p->options && !cw_strlen_zero(p->options->distinctive_ring)) { add_header(&req, "Alert-Info", p->options->distinctive_ring, SIP_DL_DONTCARE); } add_header(&req, "Allow", ALLOWED_METHODS, SIP_DL_DONTCARE); if (p->options && p->options->addsipheaders ) { struct cw_channel *chan; char *header = (char *) NULL; char *content = (char *) NULL; char *end = (char *) NULL; struct varshead *headp = (struct varshead *) NULL; struct cw_var_t *current; chan = p->owner; /* The owner channel */ if (chan) { char *headdup; headp = &chan->varshead; if (!headp) cw_log(LOG_WARNING,"No Headp for the channel...ooops!\n"); else { CW_LIST_TRAVERSE(headp, current, entries) { /* SIPADDHEADER: Add SIP header to outgoing call */ if (!strncasecmp(cw_var_name(current), "SIPADDHEADER", strlen("SIPADDHEADER"))) { header = cw_var_value(current); headdup = cw_strdupa(header); /* Strip of the starting " (if it's there) */ if (*headdup == '"') headdup++; if ((content = strchr(headdup, ':'))) { *content = '\0'; content++; /* Move pointer ahead */ /* Skip white space */ while (*content == ' ') content++; /* Strip the ending " (if it's there) */ end = content + strlen(content) -1; if (*end == '"') *end = '\0'; add_header(&req, headdup, content, SIP_DL_DONTCARE); if (sipdebug) cw_log(LOG_DEBUG, "Adding SIP Header \"%s\" with content :%s: \n", headdup, content); } } } } } } if (sdp && p->udptl && (p->t38state == SIP_T38_OFFER_SENT_DIRECT)) { cw_udptl_offered_from_local(p->udptl, 1); cw_log(LOG_DEBUG, "T38 is in state %d on channel %s\n",p->t38state, p->owner ? p->owner->name : ""); add_t38_sdp(&req, p); } else if (sdp && p->rtp) { cw_rtp_offered_from_local(p->rtp, 1); add_sdp(&req, p); } else { add_header_contentLength(&req, 0); add_blank_header(&req); } if (!p->initreq.headers) { /* Use this as the basis */ copy_request(&p->initreq, &req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) cw_verbose("%d headers, %d lines\n", p->initreq.headers, p->initreq.lines); } p->lastinvite = p->ocseq; return send_request(p, &req, init ? 2 : 1, p->ocseq); } /*! \brief transmit_state_notify: Used in the SUBSCRIBE notification subsystem -*/ static int transmit_state_notify(struct sip_pvt *p, int state, int full, int substate, int timeout) { char tmp[4000], from[256], to[256]; char *t = tmp, *c, *a, *mfrom, *mto; size_t maxbytes = sizeof(tmp); struct sip_request req; char hint[CW_MAX_EXTENSION]; char *statestring = "terminated"; const struct cfsubscription_types *subscriptiontype; enum state { NOTIFY_OPEN, NOTIFY_INUSE, NOTIFY_CLOSED } local_state = NOTIFY_OPEN; char *pidfstate = "--"; char *pidfnote= "Ready"; memset(from, 0, sizeof(from)); memset(to, 0, sizeof(to)); memset(tmp, 0, sizeof(tmp)); switch (state) { case (CW_EXTENSION_RINGING | CW_EXTENSION_INUSE): if (global_notifyringing) statestring = "early"; else statestring = "confirmed"; local_state = NOTIFY_INUSE; pidfstate = "busy"; pidfnote = "Ringing"; break; case CW_EXTENSION_RINGING: statestring = "early"; local_state = NOTIFY_INUSE; pidfstate = "busy"; pidfnote = "Ringing"; break; case CW_EXTENSION_INUSE: statestring = "confirmed"; local_state = NOTIFY_INUSE; pidfstate = "busy"; pidfnote = "On the phone"; break; case CW_EXTENSION_BUSY: statestring = "confirmed"; local_state = NOTIFY_CLOSED; pidfstate = "busy"; pidfnote = "On the phone"; break; case CW_EXTENSION_UNAVAILABLE: statestring = "confirmed"; local_state = NOTIFY_CLOSED; pidfstate = "away"; pidfnote = "Unavailable"; break; case CW_EXTENSION_NOT_INUSE: default: /* Default setting */ break; } subscriptiontype = find_subscription_type(p->subscribed); /* Check which device/devices we are watching and if they are registered */ if (cw_get_hint(hint, sizeof(hint), NULL, 0, NULL, p->context, p->exten)) { /* If they are not registered, we will override notification and show no availability */ if (cw_device_state(hint) == CW_DEVICE_UNAVAILABLE) { local_state = NOTIFY_CLOSED; pidfstate = "away"; pidfnote = "Not online"; } } cw_copy_string(from, get_header(&p->initreq, "From"), sizeof(from)); c = get_in_brackets(from); if (strncasecmp(c, "sip:", 4) && strncasecmp(c, "sips:", 5)) { cw_log(LOG_WARNING, "Huh? Not a SIP header (%s)?\n", c); return -1; } if ((a = strchr(c, ';'))) *a = '\0'; mfrom = c; cw_copy_string(to, get_header(&p->initreq, "To"), sizeof(to)); c = get_in_brackets(to); if (strncasecmp(c, "sip:", 4) && strncasecmp(c, "sips:", 5)) { cw_log(LOG_WARNING, "Huh? Not a SIP header (%s)?\n", c); return -1; } if ((a = strchr(c, ';'))) *a = '\0'; mto = c; reqprep(&req, p, SIP_NOTIFY, 0, 1); add_header(&req, "Event", subscriptiontype->event, SIP_DL_DONTCARE); add_header(&req, "Content-Type", subscriptiontype->mediatype, SIP_DL_DONTCARE); switch(state) { case CW_EXTENSION_DEACTIVATED: if (p->subscribed == TIMEOUT) { add_header(&req, "Subscription-State", "terminated;reason=timeout", SIP_DL_DONTCARE); } else { add_header(&req, "Subscription-State", "terminated;reason=probation", SIP_DL_DONTCARE); add_header(&req, "Retry-After", "60", SIP_DL_DONTCARE); } break; case CW_EXTENSION_REMOVED: add_header(&req, "Subscription-State", "terminated;reason=noresource", SIP_DL_DONTCARE); break; default: if (p->expiry) add_header(&req, "Subscription-State", "active", SIP_DL_DONTCARE); else /* Expired */ add_header(&req, "Subscription-State", "terminated;reason=timeout", SIP_DL_DONTCARE); } switch (p->subscribed) { case XPIDF_XML: case CPIM_PIDF_XML: cw_build_string(&t, &maxbytes, "\n"); cw_build_string(&t, &maxbytes, "\n"); cw_build_string(&t, &maxbytes, "\n"); cw_build_string(&t, &maxbytes, "\n", mfrom); cw_build_string(&t, &maxbytes, "\n", p->exten); cw_build_string(&t, &maxbytes, "
\n", mto); cw_build_string(&t, &maxbytes, "\n", (local_state == NOTIFY_OPEN) ? "open" : (local_state == NOTIFY_INUSE) ? "inuse" : "closed"); cw_build_string(&t, &maxbytes, "\n", (local_state == NOTIFY_OPEN) ? "online" : (local_state == NOTIFY_INUSE) ? "onthephone" : "offline"); cw_build_string(&t, &maxbytes, "
\n\n\n"); break; case PIDF_XML: /* Eyebeam supports this format */ cw_build_string(&t, &maxbytes, "\n"); cw_build_string(&t, &maxbytes, "\n", mfrom); cw_build_string(&t, &maxbytes, "\n"); if (pidfstate[0] != '-') cw_build_string(&t, &maxbytes, "\n", pidfstate); cw_build_string(&t, &maxbytes, "\n"); cw_build_string(&t, &maxbytes, "%s\n", pidfnote); /* Note */ cw_build_string(&t, &maxbytes, "\n", p->exten); /* Tuple start */ cw_build_string(&t, &maxbytes, "%s\n", mto); if (pidfstate[0] == 'b') /* Busy? Still open ... */ cw_build_string(&t, &maxbytes, "open\n"); else cw_build_string(&t, &maxbytes, "%s\n", (local_state != NOTIFY_CLOSED) ? "open" : "closed"); cw_build_string(&t, &maxbytes, "\n\n"); break; case DIALOG_INFO_XML: /* SNOM subscribes in this format */ cw_build_string(&t, &maxbytes, "\n"); cw_build_string(&t, &maxbytes, "\n", p->dialogver++, full ? "full":"partial", mto); if ((state & CW_EXTENSION_RINGING) && global_notifyringing) cw_build_string(&t, &maxbytes, "\n", p->exten); else cw_build_string(&t, &maxbytes, "\n", p->exten); cw_build_string(&t, &maxbytes, "%s\n", statestring); cw_build_string(&t, &maxbytes, "\n\n"); break; case NONE: default: break; } if (t > tmp + sizeof(tmp)) cw_log(LOG_WARNING, "Buffer overflow detected!! (Please file a bug report)\n"); add_header_contentLength(&req, strlen(tmp)); add_line(&req, tmp, SIP_DL_DONTCARE); return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_notify_with_mwi: Notify user of messages waiting in voicemail */ /* Notification only works for registered peers with mailbox= definitions * in sip.conf * We use the SIP Event package message-summary * MIME type defaults to "application/simple-message-summary"; */ static int transmit_notify_with_mwi(struct sip_pvt *p, int newmsgs, int oldmsgs, char *vmexten) { struct sip_request req; char tmp[500]; char *t = tmp; size_t maxbytes = sizeof(tmp); initreqprep(&req, p, SIP_NOTIFY); add_header(&req, "Event", "message-summary", SIP_DL_DONTCARE); add_header(&req, "Content-Type", default_notifymime, SIP_DL_DONTCARE); add_header_contentLength(&req, strlen(tmp)); snprintf(t, maxbytes, "Messages-Waiting: %s", newmsgs ? "yes" : "no"); add_line(&req, tmp, SIP_DL_DONTCARE); snprintf(t, maxbytes, "Message-Account: sip:%s@%s\r\n", !cw_strlen_zero(vmexten) ? vmexten : global_vmexten, p->fromdomain); add_line(&req, tmp, SIP_DL_DONTCARE); snprintf(t, maxbytes, "Voice-Message: %d/%d (0/0)\r\n", newmsgs, oldmsgs); add_line(&req, tmp, SIP_DL_DONTCARE); if (!p->initreq.headers) { /* Use this as the basis */ copy_request(&p->initreq, &req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) cw_verbose("%d headers, %d lines\n", p->initreq.headers, p->initreq.lines); determine_firstline_parts(&p->initreq); } return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_sip_request: Transmit SIP request */ static int transmit_sip_request(struct sip_pvt *p,struct sip_request *req) { if (!p->initreq.headers) { /* Use this as the basis */ copy_request(&p->initreq, req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) cw_verbose("%d headers, %d lines\n", p->initreq.headers, p->initreq.lines); determine_firstline_parts(&p->initreq); } return send_request(p, req, 0, p->ocseq); } /*! \brief transmit_notify_with_sipfrag: Notify a transferring party of the status of trasnfer */ /* Apparently the draft SIP REFER structure was too simple, so it was decided that the * status of transfers also needed to be sent via NOTIFY instead of just the 202 Accepted * that had worked heretofore. */ static int transmit_notify_with_sipfrag(struct sip_pvt *p, int cseq) { struct sip_request req; char tmp[20]; reqprep(&req, p, SIP_NOTIFY, 0, 1); snprintf(tmp, sizeof(tmp), "refer;id=%d", cseq); add_header(&req, "Event", tmp, SIP_DL_DONTCARE); add_header(&req, "Subscription-state", "terminated;reason=noresource", SIP_DL_DONTCARE); add_header(&req, "Content-Type", "message/sipfrag;version=2.0", SIP_DL_DONTCARE); strcpy(tmp, "SIP/2.0 200 OK"); add_header_contentLength(&req, strlen(tmp)); add_line(&req, tmp, SIP_DL_DONTCARE); if (!p->initreq.headers) { /* Use this as the basis */ copy_request(&p->initreq, &req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) cw_verbose("%d headers, %d lines\n", p->initreq.headers, p->initreq.lines); determine_firstline_parts(&p->initreq); } return send_request(p, &req, 1, p->ocseq); } static char *regstate2str(int regstate) { switch (regstate) { case REG_STATE_FAILED: return "Failed"; case REG_STATE_UNREGISTERED: return "Unregistered"; case REG_STATE_REGSENT: return "Request Sent"; case REG_STATE_AUTHSENT: return "Auth. Sent"; case REG_STATE_REGISTERED: return "Registered"; case REG_STATE_REJECTED: return "Rejected"; case REG_STATE_TIMEOUT: return "Timeout"; case REG_STATE_NOAUTH: return "No Authentication"; default: return "Unknown"; } } static int transmit_register(struct sip_registry *r, int sipmethod, char *auth, char *authheader); /*! \brief sip_reregister: Update registration with SIP Proxy*/ static int sip_reregister(void *data) { /* if we are here, we know that we need to reregister. */ struct sip_registry *r= CWOBJ_REF((struct sip_registry *) data); /* if we couldn't get a reference to the registry object, punt */ if (!r) return 0; if (r->call && recordhistory) { char tmp[80]; snprintf(tmp, sizeof(tmp), "Account: %s@%s", r->username, r->hostname); append_history(r->call, "RegistryRenew", tmp); } /* Since registry's are only added/removed by the the monitor thread, this may be overkill to reference/dereference at all here */ if (sipdebug) cw_log(LOG_NOTICE, " -- Re-registration for %s@%s\n", r->username, r->hostname); r->expire = -1; __sip_do_register(r); CWOBJ_UNREF(r, sip_registry_destroy); return 0; } /*! \brief __sip_do_register: Register with SIP proxy */ static int __sip_do_register(struct sip_registry *r) { int res; res = transmit_register(r, SIP_REGISTER, NULL, NULL); return res; } /*! \brief sip_reg_timeout: Registration timeout, register again */ static int sip_reg_timeout(void *data) { /* if we are here, our registration timed out, so we'll just do it over */ struct sip_registry *r = CWOBJ_REF((struct sip_registry *) data); struct sip_pvt *p; int res; /* if we couldn't get a reference to the registry object, punt */ if (!r) return 0; cw_log(LOG_NOTICE, " -- Registration for '%s@%s' timed out, trying again (Attempt #%d)\n", r->username, r->hostname, r->regattempts); if (r->call) { /* Unlink us, destroy old call. Locking is not relevant here because all this happens in the single SIP manager thread. */ p = r->call; if (p->registry) CWOBJ_UNREF(p->registry, sip_registry_destroy); r->call = NULL; cw_set_flag(p, SIP_NEEDDESTROY); /* Pretend to ACK anything just in case */ __sip_pretend_ack(p); } /* If we have a limit, stop registration and give up */ if (global_regattempts_max && (r->regattempts > global_regattempts_max)) { /* Ok, enough is enough. Don't try any more */ /* We could add an external notification here... steal it from app_voicemail :-) */ cw_log(LOG_NOTICE, " -- Giving up forever trying to register '%s@%s'\n", r->username, r->hostname); r->regstate=REG_STATE_FAILED; } else { r->regstate=REG_STATE_UNREGISTERED; r->timeout = -1; res=transmit_register(r, SIP_REGISTER, NULL, NULL); } manager_event(EVENT_FLAG_SYSTEM, "Registry", "Channel: SIP\r\nUsername: %s\r\nDomain: %s\r\nStatus: %s\r\n", r->username, r->hostname, regstate2str(r->regstate)); CWOBJ_UNREF(r,sip_registry_destroy); return 0; } /*! \brief transmit_register: Transmit register to SIP proxy or UA */ static int transmit_register(struct sip_registry *r, int sipmethod, char *auth, char *authheader) { struct sip_request req; char from[256]; char to[256]; char tmp[80]; char via[80]; char addr[80]; struct sip_pvt *p; /* exit if we are already in process with this registrar ?*/ if ( r == NULL || ((auth==NULL) && (r->regstate==REG_STATE_REGSENT || r->regstate==REG_STATE_AUTHSENT))) { cw_log(LOG_NOTICE, "Strange, trying to register %s@%s when registration already pending\n", r->username, r->hostname); return 0; } if (r->call) { /* We have a registration */ if (!auth) { cw_log(LOG_WARNING, "Already have a REGISTER going on to %s@%s?? \n", r->username, r->hostname); return 0; } p = r->call; /* Forget their old tag, so we don't match tags when getting response. * This is strictly incorrect since the tag should be constant throughout * a dialogue (in this case register,unauth'd,reg-with-auth,ok-or-fail) * but there are SIP implementations that have had this wrong in the past. * DEPRECATED: This should be removed at some point... */ p->theirtag[0]='\0'; } else { /* Build callid for registration if we haven't registered before */ if (!r->callid_valid) { build_callid(r->callid, sizeof(r->callid), __ourip, default_fromdomain); r->callid_valid = 1; } /* Allocate SIP packet for registration */ p = sip_alloc(r->callid, NULL, 0, SIP_REGISTER); if (!p) { cw_log(LOG_WARNING, "Unable to allocate registration call\n"); return 0; } make_our_tag(p->tag, sizeof(p->tag)); /* create a new local tag for every register attempt */ if (recordhistory) { char tmp[80]; snprintf(tmp, sizeof(tmp), "Account: %s@%s", r->username, r->hostname); append_history(p, "RegistryInit", tmp); } /* Find address to hostname */ if (create_addr(p, r->hostname)) { /* we have what we hope is a temporary network error, * probably DNS. We need to reschedule a registration try */ sip_destroy(p); if (r->timeout > -1) { cw_sched_del(sched, r->timeout); r->timeout = cw_sched_add(sched, global_reg_timeout*1000, sip_reg_timeout, r); cw_log(LOG_WARNING, "Still have a registration timeout for %s@%s (create_addr() error), %d\n", r->username, r->hostname, r->timeout); } else { r->timeout = cw_sched_add(sched, global_reg_timeout*1000, sip_reg_timeout, r); cw_log(LOG_WARNING, "Probably a DNS error for registration to %s@%s, trying REGISTER again (after %d seconds)\n", r->username, r->hostname, global_reg_timeout); } r->regattempts++; return 0; } /* Copy back Call-ID in case create_addr changed it */ cw_copy_string(r->callid, p->callid, sizeof(r->callid)); if (r->portno) { p->sa.sin_port = htons(r->portno); p->recv.sin_port = htons(r->portno); } else /* Set registry port to the port set from the peer definition/srv or default */ r->portno = ntohs(p->sa.sin_port); cw_set_flag(p, SIP_OUTGOING); /* Registration is outgoing call */ r->call=p; /* Save pointer to SIP packet */ p->registry=CWOBJ_REF(r); /* Add pointer to registry in packet */ if (!cw_strlen_zero(r->secret)) /* Secret (password) */ cw_copy_string(p->peersecret, r->secret, sizeof(p->peersecret)); if (!cw_strlen_zero(r->md5secret)) cw_copy_string(p->peermd5secret, r->md5secret, sizeof(p->peermd5secret)); /* User name in this realm - if authuser is set, use that, otherwise use username */ if (!cw_strlen_zero(r->authuser)) { cw_copy_string(p->peername, r->authuser, sizeof(p->peername)); cw_copy_string(p->authname, r->authuser, sizeof(p->authname)); } else { if (!cw_strlen_zero(r->username)) { cw_copy_string(p->peername, r->username, sizeof(p->peername)); cw_copy_string(p->authname, r->username, sizeof(p->authname)); cw_copy_string(p->fromuser, r->username, sizeof(p->fromuser)); } } if (!cw_strlen_zero(r->username)) cw_copy_string(p->username, r->username, sizeof(p->username)); /* Save extension in packet */ cw_copy_string(p->exten, r->contact, sizeof(p->exten)); /* check which address we should use in our contact header based on whether the remote host is on the external or internal network so we can register through nat */ if (cw_sip_ouraddrfor(&p->sa.sin_addr, &p->ourip,p)) memcpy(&p->ourip, &bindaddr.sin_addr, sizeof(p->ourip)); build_contact(p); } /* set up a timeout */ if (auth == NULL) { if (r->timeout > -1) { cw_log(LOG_WARNING, "Still have a registration timeout, #%d - deleting it\n", r->timeout); cw_sched_del(sched, r->timeout); } r->timeout = cw_sched_add(sched, global_reg_timeout * 1000, sip_reg_timeout, r); cw_log(LOG_DEBUG, "Scheduled a registration timeout for %s id #%d \n", r->hostname, r->timeout); } if (strchr(r->username, '@')) { snprintf(from, sizeof(from), ";tag=%s", r->username, p->tag); if (!cw_strlen_zero(p->theirtag)) snprintf(to, sizeof(to), ";tag=%s", r->username, p->theirtag); else snprintf(to, sizeof(to), "", r->username); } else { snprintf(from, sizeof(from), ";tag=%s", r->username, p->tohost, p->tag); if (!cw_strlen_zero(p->theirtag)) snprintf(to, sizeof(to), ";tag=%s", r->username, p->tohost, p->theirtag); else snprintf(to, sizeof(to), "", r->username, p->tohost); } /* Fromdomain is what we are registering to, regardless of actual host name from SRV */ if (!cw_strlen_zero(p->fromdomain)) { if (r->portno && r->portno != DEFAULT_SIP_PORT) snprintf(addr, sizeof(addr), "sip:%s:%d", p->fromdomain, r->portno); else snprintf(addr, sizeof(addr), "sip:%s", p->fromdomain); } else { if (r->portno && r->portno != DEFAULT_SIP_PORT) snprintf(addr, sizeof(addr), "sip:%s:%d", r->hostname, r->portno); else snprintf(addr, sizeof(addr), "sip:%s", r->hostname); } cw_copy_string(p->uri, addr, sizeof(p->uri)); p->branch ^= thread_safe_cw_random(); memset(&req, 0, sizeof(req)); init_req(&req, sipmethod, addr); /* Add to CSEQ */ snprintf(tmp, sizeof(tmp), "%u %s", ++r->ocseq, sip_methods[sipmethod].text); p->ocseq = r->ocseq; build_via(p, via, sizeof(via)); add_header(&req, "Via", via, SIP_DL_HEAD_VIA); add_header(&req, "From", from, SIP_DL_DONTCARE); add_header(&req, "To", to, SIP_DL_DONTCARE); add_header(&req, "Call-ID", p->callid, SIP_DL_HEAD_CALLID); add_header(&req, "CSeq", tmp, SIP_DL_DONTCARE); add_header(&req, "User-Agent", default_useragent, SIP_DL_DONTCARE); add_header(&req, "Max-Forwards", DEFAULT_MAX_FORWARDS, SIP_DL_DONTCARE); if (auth) /* Add auth header */ add_header(&req, authheader, auth, SIP_DL_DONTCARE); else if (!cw_strlen_zero(r->nonce)) { char digest[1024]; /* We have auth data to reuse, build a digest header! */ if (sipdebug) cw_log(LOG_DEBUG, " >>> Re-using Auth data for %s@%s\n", r->username, r->hostname); cw_copy_string(p->realm, r->realm, sizeof(p->realm)); cw_copy_string(p->nonce, r->nonce, sizeof(p->nonce)); cw_copy_string(p->domain, r->domain, sizeof(p->domain)); cw_copy_string(p->opaque, r->opaque, sizeof(p->opaque)); cw_copy_string(p->qop, r->qop, sizeof(p->qop)); p->noncecount = r->noncecount++; memset(digest,0,sizeof(digest)); if(!build_reply_digest(p, sipmethod, digest, sizeof(digest))) add_header(&req, "Authorization", digest, SIP_DL_DONTCARE); else cw_log(LOG_NOTICE, "No authorization available for authentication of registration to %s@%s\n", r->username, r->hostname); } snprintf(tmp, sizeof(tmp), "%d", default_expiry); add_header(&req, "Expires", tmp, SIP_DL_DONTCARE); add_header(&req, "Contact", p->our_contact, SIP_DL_HEAD_CONTACT); add_header(&req, "Event", "registration", SIP_DL_DONTCARE); add_header_contentLength(&req, 0); add_blank_header(&req); copy_request(&p->initreq, &req); parse_request(&p->initreq); if (sip_debug_test_pvt(p)) { cw_verbose("REGISTER %d headers, %d lines\n", p->initreq.headers, p->initreq.lines); } determine_firstline_parts(&p->initreq); r->regstate=auth?REG_STATE_AUTHSENT:REG_STATE_REGSENT; r->regattempts++; /* Another attempt */ if (option_debug > 3) cw_verbose("REGISTER attempt %d to %s@%s\n", r->regattempts, r->username, r->hostname); return send_request(p, &req, 2, p->ocseq); } /*! \brief transmit_message_with_text: Transmit text with SIP MESSAGE method */ static int transmit_message_with_text(struct sip_pvt *p, const char *text) { struct sip_request req; reqprep(&req, p, SIP_MESSAGE, 0, 1); add_text(&req, text); return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_refer: Transmit SIP REFER message */ static int transmit_refer(struct sip_pvt *p, const char *dest) { struct sip_request req; char from[256]; char *of, *c; char referto[256]; if (cw_test_flag(p, SIP_OUTGOING)) of = get_header(&p->initreq, "To"); else of = get_header(&p->initreq, "From"); cw_copy_string(from, of, sizeof(from)); of = get_in_brackets(from); cw_copy_string(p->from,of,sizeof(p->from)); if (strncasecmp(of, "sip:", 4) == 0) { of += 4; } else if (strncasecmp(of, "sips:", 5) == 0) { of += 5; } else { cw_log(LOG_NOTICE, "From address missing 'sip:' or 'sips:', using it anyway\n"); } /* Get just the username part */ if ((c = strchr(dest, '@'))) { c = NULL; } else if ((c = strchr(of, '@'))) { *c = '\0'; c++; } if (c) { snprintf(referto, sizeof(referto), "", dest, c); } else { snprintf(referto, sizeof(referto), "", dest); } /* save in case we get 407 challenge */ cw_copy_string(p->refer_to, referto, sizeof(p->refer_to)); cw_copy_string(p->referred_by, p->our_contact, sizeof(p->referred_by)); reqprep(&req, p, SIP_REFER, 0, 1); add_header(&req, "Refer-To", referto, SIP_DL_DONTCARE); if (!cw_strlen_zero(p->our_contact)) add_header(&req, "Referred-By", p->our_contact, SIP_DL_DONTCARE); add_blank_header(&req); return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_info_with_digit: Send SIP INFO dtmf message, see Cisco documentation on cisco.co m */ static int transmit_info_with_digit(struct sip_pvt *p, char digit, unsigned int duration) { struct sip_request req; reqprep(&req, p, SIP_INFO, 0, 1); add_digit(&req, digit, duration); return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_info_with_vidupdate: Send SIP INFO with video update request */ static int transmit_info_with_vidupdate(struct sip_pvt *p) { struct sip_request req; reqprep(&req, p, SIP_INFO, 0, 1); add_vidupdate(&req); return send_request(p, &req, 1, p->ocseq); } /*! \brief transmit_request: transmit generic SIP request */ static int transmit_request(struct sip_pvt *p, int sipmethod, int seqno, int reliable, int newbranch) { struct sip_request resp; reqprep(&resp, p, sipmethod, seqno, newbranch); add_header_contentLength(&resp, 0); add_blank_header(&resp); return send_request(p, &resp, reliable, seqno ? seqno : p->ocseq); } /*! \brief transmit_request_with_auth: Transmit SIP request, auth added */ static int transmit_request_with_auth(struct sip_pvt *p, int sipmethod, int seqno, int reliable, int newbranch) { struct sip_request resp; reqprep(&resp, p, sipmethod, seqno, newbranch); if (*p->realm) { char digest[1024]; memset(digest, 0, sizeof(digest)); if (!build_reply_digest(p, sipmethod, digest, sizeof(digest))) { if (p->options && p->options->auth_type == PROXY_AUTH) add_header(&resp, "Proxy-Authorization", digest, SIP_DL_DONTCARE); else if (p->options && p->options->auth_type == WWW_AUTH) add_header(&resp, "Authorization", digest, SIP_DL_DONTCARE); else /* Default, to be backwards compatible (maybe being too careful, but leaving it for now) */ add_header(&resp, "Proxy-Authorization", digest, SIP_DL_DONTCARE); } else cw_log(LOG_WARNING, "No authentication available for call %s\n", p->callid); } /* If we are hanging up and know a cause for that, send it in clear text to make debugging easier. */ if (sipmethod == SIP_BYE) { if (p->owner && p->owner->hangupcause) { add_header(&resp, "X-CallWeaver-HangupCause", cw_cause2str(p->owner->hangupcause), SIP_DL_DONTCARE); } } add_header_contentLength(&resp, 0); add_blank_header(&resp); return send_request(p, &resp, reliable, seqno ? seqno : p->ocseq); } static void destroy_association(struct sip_peer *peer) { if (!cw_test_flag((&global_flags_page2), SIP_PAGE2_IGNOREREGEXPIRE)) { if (cw_test_flag(&(peer->flags_page2), SIP_PAGE2_RT_FROMCONTACT)) { cw_update_realtime("sippeers", "name", peer->name, "fullcontact", "", "port", "", "username", "", "regserver", "", NULL); } else { cw_db_del("SIP/Registry", peer->name); } } } /*! \brief expire_register: Expire registration of SIP peer */ static int expire_register(void *data) { struct sip_peer *peer = data; if (!peer) /* Hmmm. We have no peer. Weird. */ return 0; memset(&peer->addr, 0, sizeof(peer->addr)); destroy_association(peer); manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Unregistered\r\nCause: Expired\r\n", peer->name); register_peer_exten(peer, 0); peer->expire = -1; cw_device_state_changed("SIP/%s", peer->name); if (cw_test_flag(peer, SIP_SELFDESTRUCT) || cw_test_flag((&peer->flags_page2), SIP_PAGE2_RTAUTOCLEAR)) { peer = CWOBJ_CONTAINER_UNLINK(&peerl, peer); CWOBJ_UNREF(peer, sip_destroy_peer); } return 0; } static int sip_poke_peer(struct sip_peer *peer); static int sip_poke_peer_s(void *data) { struct sip_peer *peer = data; peer->pokeexpire = -1; sip_poke_peer(peer); return 0; } /*! \brief reg_source_db: Get registration details from CallWeaver DB */ static void reg_source_db(struct sip_peer *peer) { char data[256]; char iabuf[INET_ADDRSTRLEN]; struct in_addr in; int expiry; int port; char *scan, *addr, *port_str, *expiry_str, *username, *contact; if (cw_test_flag(&(peer->flags_page2), SIP_PAGE2_RT_FROMCONTACT)) return; if (cw_db_get("SIP/Registry", peer->name, data, sizeof(data))) return; scan = data; addr = strsep(&scan, ":"); port_str = strsep(&scan, ":"); expiry_str = strsep(&scan, ":"); username = strsep(&scan, ":"); contact = scan; /* Contact include sip: and has to be the last part of the database entry as long as we use : as a separator */ if (!inet_aton(addr, &in)) return; if (port_str) port = atoi(port_str); else return; if (expiry_str) expiry = atoi(expiry_str); else return; if (username) cw_copy_string(peer->username, username, sizeof(peer->username)); if (contact) cw_copy_string(peer->fullcontact, contact, sizeof(peer->fullcontact)); if (option_verbose > 3) cw_verbose(VERBOSE_PREFIX_3 "SIP Seeding peer from cwdb: '%s' at %s@%s:%d for %d\n", peer->name, peer->username, cw_inet_ntoa(iabuf, sizeof(iabuf), in), port, expiry); memset(&peer->addr, 0, sizeof(peer->addr)); peer->addr.sin_family = AF_INET; peer->addr.sin_addr = in; peer->addr.sin_port = htons(port); if (sipsock < 0) { /* SIP isn't up yet, so schedule a poke only, pretty soon */ if (peer->pokeexpire > -1) cw_sched_del(sched, peer->pokeexpire); peer->pokeexpire = cw_sched_add(sched, thread_safe_cw_random() % 5000 + 1, sip_poke_peer_s, peer); } else sip_poke_peer(peer); if (peer->expire > -1) cw_sched_del(sched, peer->expire); peer->expire = cw_sched_add(sched, (expiry + 10) * 1000, expire_register, peer); register_peer_exten(peer, 1); } /*! \brief parse_ok_contact: Parse contact header for 200 OK on INVITE */ static int parse_ok_contact(struct sip_pvt *pvt, struct sip_request *req) { char contact[250]; char *c, *n, *pt; int port; struct hostent *hp; struct cw_hostent ahp; struct sockaddr_in oldsin; /* Look for brackets */ cw_copy_string(contact, get_header(req, "Contact"), sizeof(contact)); c = get_in_brackets(contact); /* Save full contact to call pvt for later bye or re-invite */ cw_copy_string(pvt->fullcontact, c, sizeof(pvt->fullcontact)); /* Save URI for later ACKs, BYE or RE-invites */ cw_copy_string(pvt->okcontacturi, c, sizeof(pvt->okcontacturi)); /* Make sure it's a SIP URL */ if ( strncasecmp(c, "sip:", 4) == 0 ) { c += 4; } else if ( strncasecmp(c, "sips:", 5) == 0 ) { c += 5; }else { cw_log(LOG_NOTICE, "'%s' is not a valid SIP contact (missing 'sip:' or 'sips:') trying to use anyway\n", c); } /* Ditch arguments */ n = strchr(c, ';'); if (n) *n = '\0'; /* Grab host */ n = strchr(c, '@'); if (!n) { n = c; c = NULL; } else { *n = '\0'; n++; } pt = strchr(n, ':'); if (pt) { *pt = '\0'; pt++; port = atoi(pt); } else port = DEFAULT_SIP_PORT; memcpy(&oldsin, &pvt->sa, sizeof(oldsin)); if (!sip_is_nat_needed(pvt) ) { /* XXX This could block for a long time XXX */ /* We should only do this if it's a name, not an IP */ if ((hp = cw_gethostbyname(n, &ahp)) == NULL) { cw_log(LOG_WARNING, "Invalid host '%s'\n", n); return -1; } pvt->sa.sin_family = AF_INET; memcpy(&pvt->sa.sin_addr, hp->h_addr, sizeof(pvt->sa.sin_addr)); pvt->sa.sin_port = htons(port); } else { /* Don't trust the contact field. Just use what they came to us with. */ memcpy(&pvt->sa, &pvt->recv, sizeof(pvt->sa)); } return 0; } enum parse_register_result { PARSE_REGISTER_FAILED, PARSE_REGISTER_UPDATE, PARSE_REGISTER_QUERY, }; /*! \brief parse_register_contact: Parse contact header and save registration */ static enum parse_register_result parse_register_contact(struct sip_pvt *pvt, struct sip_peer *p, struct sip_request *req) { char contact[256]; char data[256]; char iabuf[INET_ADDRSTRLEN]; char *expires = get_header(req, "Expires"); int expiry = atoi(expires); char *c, *n, *pt; int port; char *useragent; struct hostent *hp; struct cw_hostent ahp; struct sockaddr_in oldsin; #ifdef SIP_TCP_SUPPORT char *t, *q; #endif if (cw_strlen_zero(expires)) { /* No expires header */ expires = strcasestr(get_header(req, "Contact"), ";expires="); if (expires) { char *ptr; if ((ptr = strchr(expires, ';'))) *ptr = '\0'; if (sscanf(expires + 9, "%d", &expiry) != 1) expiry = default_expiry; } else { /* Nothing has been specified */ expiry = default_expiry; } } /* Look for brackets */ cw_copy_string(contact, get_header(req, "Contact"), sizeof(contact)); if (strchr(contact, '<') == NULL) { /* No <, check for ; and strip it */ char *ptr = strchr(contact, ';'); /* This is Header options, not URI options */ if (ptr) *ptr = '\0'; } c = get_in_brackets(contact); /* if they did not specify Contact: or Expires:, they are querying what we currently have stored as their contact address, so return it */ if (cw_strlen_zero(c) && cw_strlen_zero(expires)) { if ((p->expire > -1) && !cw_strlen_zero(p->fullcontact)) { /* tell them when the registration is going to expire */ pvt->expiry = cw_sched_when(sched, p->expire); } return PARSE_REGISTER_QUERY; } else if (!strcasecmp(c, "*") || !expiry) { /* Unregister this peer */ /* This means remove all registrations and return OK */ memset(&p->addr, 0, sizeof(p->addr)); if (p->expire > -1) cw_sched_del(sched, p->expire); p->expire = -1; destroy_association(p); register_peer_exten(p, 0); p->fullcontact[0] = '\0'; p->useragent[0] = '\0'; p->sipoptions = 0; p->lastms = 0; if (option_verbose > 3) cw_verbose(VERBOSE_PREFIX_3 "Unregistered SIP '%s'\n", p->name); manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Unregistered\r\n", p->name); return PARSE_REGISTER_UPDATE; } cw_copy_string(p->fullcontact, c, sizeof(p->fullcontact)); /* For the 200 OK, we should use the received contact */ snprintf(pvt->our_contact, sizeof(pvt->our_contact) - 1, "<%s>", c); /* Make sure it's a SIP URL */ if ( strncasecmp(c, "sip:", 4) == 0 ) { c += 4; } else if ( strncasecmp(c, "sips:", 5) == 0 ) { c += 5; } else { cw_log(LOG_NOTICE, "'%s' is not a valid SIP contact (missing sip:) trying to use anyway\n", c); } #ifdef SIP_TCP_SUPPORT /* transport parameter */ t = NULL; q = NULL; t = strstr(c, "transport="); if( t ) { t += 10; } q = strstr(c, "q="); if( q ) { q += 2; } /* Ditch ';' after transport */ if( t ) { n = strchr(t, ';'); if (n) { *n = '\0'; } } /* Ditch ';' after q */ if( q ) { n = strchr(q, ';'); if (n) { *n = '\0'; } } if (option_debug > 2 && sipdebug) { cw_log(LOG_DEBUG, "Contact header: transport %s\n", t ? t : ""); cw_log(LOG_DEBUG, "Contact header: q %s\n", q ? q : ""); } #endif /* Ditch first ';' */ n = strchr(c, ';'); if (n) *n = '\0'; /* Grab host */ n = strchr(c, '@'); if (!n) { n = c; c = NULL; } else { *n = '\0'; n++; } pt = strchr(n, ':'); if (pt) { *pt = '\0'; pt++; port = atoi(pt); } else { port = DEFAULT_SIP_PORT; } memcpy(&oldsin, &p->addr, sizeof(oldsin)); if (!sip_is_nat_needed(pvt) ) { /* XXX This could block for a long time XXX */ if ((hp = cw_gethostbyname(n, &ahp)) == NULL) { cw_log(LOG_WARNING, "Invalid host '%s'\n", n); return PARSE_REGISTER_FAILED; } p->addr.sin_family = AF_INET; memcpy(&p->addr.sin_addr, hp->h_addr, sizeof(p->addr.sin_addr)); p->addr.sin_port = htons(port); } else { /* Don't trust the contact field. Just use what they came to us with */ memcpy(&p->addr, &pvt->recv, sizeof(p->addr)); } #ifdef SIP_TCP_SUPPORT /* Check a peer has old stalled TCP or TLS connection */ /* if (p->ssl) { SSL_clear(p->ssl); SSL_free(p->ssl); p->ssl = NULL; } if (p->sockfd > 0) { close(p->sockfd); p->sockfd = -1; }*/ p->sockfd = pvt->sockfd; p->ssl = pvt->ssl; if (t) { if(!strncasecmp(t, "TCP", 3)) { cw_copy_string(p->transport, "TCP", sizeof(p->transport)); } else if (!strncasecmp(t, "TLS", 3)) { cw_copy_string(p->transport, "TLS", sizeof(p->transport)); if (!pvt->ssl) cw_log(LOG_ERROR, "transport tls comes without SSL from peer %s, fd %d\n", p->name, pvt->sockfd); } else if (!strncasecmp(t, "UDP", 3)) { cw_copy_string(p->transport, "UDP", sizeof(p->transport)); } else { cw_log(LOG_ERROR, "Unsupported transport %s comes from peer %s, fd %d\n", t, p->name, pvt->sockfd); return PARSE_REGISTER_FAILED; } } else { if( pvt->sockfd == sipsock ) { cw_copy_string(p->transport, "UDP", sizeof(p->transport)); } else { if (pvt->ssl) cw_copy_string(p->transport, "TLS", sizeof(p->transport)); else if (pvt->sockfd != sipsock) cw_copy_string(p->transport, "TCP", sizeof(p->transport)); } } #endif if (c && cw_strlen_zero(p->username)) cw_copy_string(p->username, c, sizeof(p->username)); #ifdef SIP_TCP_SUPPORT else cw_copy_string(p->username, p->name, sizeof(p->username)); #endif if (p->expire > -1) { cw_sched_del(sched, p->expire); p->expire = -1; } if ((expiry < 1) || (expiry > max_expiry)) expiry = max_expiry; if (!cw_test_flag(p, SIP_REALTIME)) p->expire = cw_sched_add(sched, (expiry + 10) * 1000, expire_register, p); else p->expire = -1; pvt->expiry = expiry; snprintf(data, sizeof(data), "%s:%d:%d:%s:%s", cw_inet_ntoa(iabuf, sizeof(iabuf), p->addr.sin_addr), ntohs(p->addr.sin_port), expiry, p->username, p->fullcontact); if (!cw_test_flag((&p->flags_page2), SIP_PAGE2_RT_FROMCONTACT) && !cw_test_flag(&(p->flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) cw_db_put("SIP/Registry", p->name, data); manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Registered\r\nPeerType: SIP\r\nPeerIP: %s\r\nPeerPort: %d\r\nPeerExpire: %d\r\n", p->name, cw_inet_ntoa(iabuf, sizeof(iabuf), p->addr.sin_addr), ntohs(p->addr.sin_port), expiry); if (inaddrcmp(&p->addr, &oldsin)) { sip_poke_peer(p); if (option_verbose > 3) cw_verbose(VERBOSE_PREFIX_3 "Registered SIP '%s' at %s port %d expires %d\n", p->name, cw_inet_ntoa(iabuf, sizeof(iabuf), p->addr.sin_addr), ntohs(p->addr.sin_port), expiry); register_peer_exten(p, 1); } /* Save SIP options profile */ p->sipoptions = pvt->sipoptions; /* Save User agent */ useragent = get_header(req, "User-Agent"); if (useragent && strcasecmp(useragent, p->useragent)) { cw_copy_string(p->useragent, useragent, sizeof(p->useragent)); if (option_verbose > 4) { cw_verbose(VERBOSE_PREFIX_3 "Saved useragent \"%s\" for peer %s\n",p->useragent,p->name); } } return PARSE_REGISTER_UPDATE; } /*! \brief free_old_route: Remove route from route list */ static void free_old_route(struct sip_route *route) { struct sip_route *next; while (route) { next = route->next; free(route); route = next; } } /*! \brief list_route: List all routes - mostly for debugging */ static void list_route(struct sip_route *route) { if (!route) { cw_verbose("list_route: no route\n"); return; } while (route) { cw_verbose("list_route: hop: <%s>\n", route->hop); route = route->next; } } /*! \brief build_route: Build route list from Record-Route header */ static void build_route(struct sip_pvt *p, struct sip_request *req, int backwards) { struct sip_route *thishop, *head, *tail; int start = 0; int len; char *rr, *contact, *c; /* Once a persistant route is set, don't fool with it */ if (p->route && p->route_persistant) { cw_log(LOG_DEBUG, "build_route: Retaining previous route: <%s>\n", p->route->hop); return; } if (p->route) { free_old_route(p->route); p->route = NULL; } p->route_persistant = backwards; /* We build up head, then assign it to p->route when we're done */ head = NULL; tail = head; /* 1st we pass through all the hops in any Record-Route headers */ for (;;) { /* Each Record-Route header */ rr = __get_header(req, "Record-Route", &start); if (*rr == '\0') break; for (;;) { /* Each route entry */ /* Find < */ rr = strchr(rr, '<'); if (!rr) break; /* No more hops */ ++rr; len = strcspn(rr, ">") + 1; /* Make a struct route */ thishop = malloc(sizeof(struct sip_route) + len); if (thishop) { cw_copy_string(thishop->hop, rr, len); cw_log(LOG_DEBUG, "build_route: Record-Route hop: <%s>\n", thishop->hop); /* Link in */ if (backwards) { /* Link in at head so they end up in reverse order */ thishop->next = head; head = thishop; /* If this was the first then it'll be the tail */ if (!tail) tail = thishop; } else { thishop->next = NULL; /* Link in at the end */ if (tail) tail->next = thishop; else head = thishop; tail = thishop; } } rr += len; } } /* Only append the contact if we are dealing with a strict router */ if (!head || (!cw_strlen_zero(head->hop) && strstr(head->hop,";lr") == NULL)) { /* 2nd append the Contact: if there is one */ /* Can be multiple Contact headers, comma separated values - we just take the first */ contact = get_header(req, "Contact"); if (!cw_strlen_zero(contact)) { cw_log(LOG_DEBUG, "build_route: Contact hop: %s\n", contact); /* Look for <: delimited address */ c = strchr(contact, '<'); if (c) { /* Take to > */ ++c; len = strcspn(c, ">") + 1; } else { /* No <> - just take the lot */ c = contact; len = strlen(contact) + 1; } thishop = malloc(sizeof(struct sip_route) + len); if (thishop) { cw_copy_string(thishop->hop, c, len); thishop->next = NULL; /* Goes at the end */ if (tail) tail->next = thishop; else head = thishop; } } } /* Store as new route */ p->route = head; /* For debugging dump what we ended up with */ if (sip_debug_test_pvt(p)) list_route(p->route); } /*! \brief check_auth: Check user authorization from peer definition */ /* Some actions, like REGISTER and INVITEs from peers require authentication (if peer have secret set) */ static int check_auth(struct sip_pvt *p, struct sip_request *req, char *randdata, int randlen, char *username, char *secret, char *md5secret, int sipmethod, char *uri, int reliable, int ignore) { int res = -1; char *response = "407 Proxy Authentication Required"; char *reqheader = "Proxy-Authorization"; char *respheader = "Proxy-Authenticate"; char *authtoken; /* Always OK if no secret */ if (cw_strlen_zero(secret) && cw_strlen_zero(md5secret)) return 0; if (sipmethod == SIP_REGISTER || sipmethod == SIP_SUBSCRIBE || sipmethod == SIP_INVITE) { /* On a REGISTER, we have to use 401 and its family of headers instead of 407 and its family of headers -- GO SIP! Whoo hoo! Two things that do the same thing but are used in different circumstances! What a surprise. */ response = "401 Unauthorized"; reqheader = "Authorization"; respheader = "WWW-Authenticate"; } authtoken = get_header(req, reqheader); if (ignore && !cw_strlen_zero(randdata) && cw_strlen_zero(authtoken)) { /* This is a retransmitted invite/register/etc, don't reconstruct authentication information */ if (!cw_strlen_zero(randdata)) { if (!reliable) { /* Resend message if this was NOT a reliable delivery. Otherwise the retransmission should get it */ transmit_response_with_auth(p, response, req, randdata, reliable, respheader, 0); /* Schedule auto destroy in 15 seconds */ sip_scheddestroy(p, 15000); } res = 1; } } else if (cw_strlen_zero(randdata) || cw_strlen_zero(authtoken)) { snprintf(randdata, randlen, "%08x", thread_safe_cw_random()); transmit_response_with_auth(p, response, req, randdata, reliable, respheader, 0); /* Schedule auto destroy in 15 seconds */ sip_scheddestroy(p, 15000); res = 1; } else { char buf[256] = ""; char a1_hash[2 * CW_MAX_BINARY_MD_SIZE + 1]; char a2_hash[2 * CW_MAX_BINARY_MD_SIZE + 1]; char *ua_hash = NULL; int ua_hash_len; char *usednonce = randdata; int usednonce_len = randlen; while (*authtoken && *authtoken == ' ') authtoken++; if (!strncasecmp(authtoken, "digest", sizeof("digest") - 1)) authtoken += sizeof("digest") - 1; while (*authtoken) { char *key, *val; int lkey, lval; while (*authtoken && (*authtoken == ' ' || *authtoken == ',')) authtoken++; key = authtoken; for (lkey = 0; *authtoken && *authtoken != '='; lkey++,authtoken++); if (*authtoken && *(++authtoken) == '"') { val = ++authtoken; for (lval = 0; *authtoken && *authtoken != '"'; lval++,authtoken++); if (*authtoken) authtoken++; } else { val = authtoken; for (lval = 0; *authtoken && *authtoken != ','; lval++,authtoken++); while (*authtoken == ' ') lval--,authtoken--; } switch (lkey) { case sizeof("uri")-1: if (!strncasecmp(key, "uri", sizeof("uri")-1)) snprintf(buf, sizeof(buf), "%s:%.*s", sip_methods[sipmethod].text, lval, val); break; case sizeof("nonce")-1: if (!strncasecmp(key, "nonce", sizeof("nonce")-1)) { usednonce = val; usednonce_len = lval; } break; case sizeof("response")-1: /* case sizeof("username")-1: */ if (!strncasecmp(key, "response", sizeof("response")-1)) { ua_hash = val; ua_hash_len = lval; } else if (!strncasecmp(key, "username", sizeof("username")-1)) { /* Verify that digest username matches the username we auth as */ if (strlen(username) != lval || strncmp(username, val, lval)) return -2; } break; } } if (!*buf) snprintf(buf, sizeof(buf), "%s:%s", sip_methods[sipmethod].text, uri); cw_md5_hash(a2_hash, buf); if (!cw_strlen_zero(md5secret)) snprintf(a1_hash, sizeof(a1_hash), "%s", md5secret); else { snprintf(buf, sizeof(buf), "%s:%s:%s", username, global_realm, secret); cw_md5_hash(a1_hash, buf); } snprintf(buf, sizeof(buf), "%s:%.*s:%s", a1_hash, usednonce_len, usednonce, a2_hash); cw_md5_hash(a1_hash, buf); /* Verify nonce from request matches our nonce. If not, send 401 with new nonce */ if (strlen(randdata) != usednonce_len || strncasecmp(randdata, usednonce, usednonce_len)) { snprintf(randdata, randlen, "%08x", thread_safe_cw_random()); if (ua_hash && strlen(a1_hash) == ua_hash_len && !strncasecmp(ua_hash, a1_hash, ua_hash_len)) { if (sipdebug) cw_log(LOG_NOTICE, "stale nonce received from '%s'\n", get_header(req, "To")); /* We got working auth token, based on stale nonce . */ transmit_response_with_auth(p, response, req, randdata, reliable, respheader, 1); } else { /* Everything was wrong, so give the device one more try with a new challenge */ if (sipdebug) cw_log(LOG_NOTICE, "Bad authentication received from '%s'\n", get_header(req, "To")); transmit_response_with_auth(p, response, req, randdata, reliable, respheader, 0); } /* Schedule auto destroy in 15 seconds */ sip_scheddestroy(p, 15000); return 1; } /* a1_hash now has the expected response, compare the two */ if (ua_hash && strlen(a1_hash) == ua_hash_len && !strncasecmp(ua_hash, a1_hash, ua_hash_len)) { /* Auth is OK */ res = 0; } } /* Failure */ return res; } /*! \brief cb_extensionstate: Callback for the devicestate notification (SUBSCRIBE) support subsystem */ /* If you add an "hint" priority to the extension in the dial plan, you will get notifications on device state changes */ static int cb_extensionstate(char *context, char* exten, int state, void *data) { struct sip_pvt *p = data; switch (state) { case CW_EXTENSION_DEACTIVATED: /* Retry after a while */ case CW_EXTENSION_REMOVED: /* Extension is gone */ if (p->autokillid > -1) sip_cancel_destroy(p); /* Remove subscription expiry for renewals */ sip_scheddestroy(p, 15000); /* Delete subscription in 15 secs */ cw_verbose(VERBOSE_PREFIX_2 "Extension state: Watcher for hint %s %s. Notify User %s\n", exten, state == CW_EXTENSION_DEACTIVATED ? "deactivated" : "removed", p->username); p->stateid = -1; p->subscribed = NONE; append_history(p, "Subscribestatus", state == CW_EXTENSION_REMOVED ? "HintRemoved" : "Deactivated"); break; default: /* Tell user */ p->laststate = state; break; } if (p->subscribed != NONE) /* Only send state NOTIFY if we know the format */ transmit_state_notify(p, state, 1, 1, 0); if (option_verbose > 1) cw_verbose(VERBOSE_PREFIX_1 "Extension Changed %s new state %s for Notify User %s\n", exten, cw_extension_state2str(state), p->username); return 0; } /*! \brief Send a fake 401 Unauthorized response when the administrator wants to hide the names of local users/peers from fishers */ static void transmit_fake_auth_response(struct sip_pvt *p, struct sip_request *req, char *randdata, int randlen, int reliable) { snprintf(randdata, randlen, "%08x", thread_safe_cw_random()); transmit_response_with_auth(p, "401 Unauthorized", req, randdata, reliable, "WWW-Authenticate", 0); } /*! \brief register_verify: Verify registration of user */ static int register_verify(struct sip_pvt *p, struct sockaddr_in *sin, struct sip_request *req, char *uri, int ignore) { int res = -3; struct sip_peer *peer; char tmp[256]; char iabuf[INET_ADDRSTRLEN]; char *name, *c; char *t; char *domain; if (uri == NULL) { cw_log(LOG_WARNING, "register_verify: URI is NULL!\n"); transmit_response_with_date(p, "503 Bad Request", req); return -3; } /* Terminate URI */ t = uri; while(*t && !isspace(*t) && (*t != ';')) t++; *t = '\0'; cw_copy_string(tmp, get_header(req, "To"), sizeof(tmp)); if (pedanticsipchecking) cw_uri_decode(tmp); c = get_in_brackets(tmp); /* Ditch ;user=phone */ name = strchr(c, ';'); if (name) *name = '\0'; if (!strncmp(c, "sip:", 4)) { name = c + 4; } else if (!strncmp(c, "sips:", 5)) { name = c + 5; } else { name = c; cw_log(LOG_NOTICE, "Invalid to address: '%s' from %s (missing sip:) trying to use anyway...\n", c, cw_inet_ntoa(iabuf, sizeof(iabuf), sin->sin_addr)); } /* Strip off the domain name */ if ((c = strchr(name, '@'))) { *c++ = '\0'; domain = c; if ((c = strchr(domain, ':'))) /* Remove :port */ *c = '\0'; if (!CW_LIST_EMPTY(&domain_list)) { if (!check_sip_domain(domain, NULL, 0)) { transmit_response(p, "404 Not found (unknown domain)", &p->initreq); return -3; } } } cw_copy_string(p->exten, name, sizeof(p->exten)); build_contact(p); peer = find_peer(name, NULL, 1); if (!(peer && cw_apply_ha(peer->ha, sin))) { if (peer) CWOBJ_UNREF(peer,sip_destroy_peer); peer = NULL; } if (peer) { if (!cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC)) { cw_log(LOG_ERROR, "Peer '%s' is trying to register, but not configured as host=dynamic\n", peer->name); } else { cw_copy_flags(p, peer, SIP_NAT); transmit_response(p, "100 Trying", req); if (!(res = check_auth(p, req, p->randdata, sizeof(p->randdata), peer->name, peer->secret, peer->md5secret, SIP_REGISTER, uri, 0, ignore))) { sip_cancel_destroy(p); switch (parse_register_contact(p, peer, req)) { case PARSE_REGISTER_FAILED: cw_log(LOG_WARNING, "Failed to parse contact info\n"); transmit_response_with_date(p, "400 Bad Request", req); peer->lastmsgssent = -1; res = 0; break; case PARSE_REGISTER_QUERY: transmit_response_with_date(p, "200 OK", req); peer->lastmsgssent = -1; res = 0; break; case PARSE_REGISTER_UPDATE: update_peer(peer, p->expiry); /* Say OK and ask subsystem to retransmit msg counter */ transmit_response_with_date(p, "200 OK", req); peer->lastmsgssent = -1; res = 0; break; } } } } if (!peer && autocreatepeer) { /* Create peer if we have autocreate mode enabled */ peer = temp_peer(name); if (peer) { CWOBJ_CONTAINER_LINK(&peerl, peer); sip_cancel_destroy(p); switch (parse_register_contact(p, peer, req)) { case PARSE_REGISTER_FAILED: cw_log(LOG_WARNING, "Failed to parse contact info\n"); peer->lastmsgssent = -1; res = 0; break; case PARSE_REGISTER_QUERY: transmit_response_with_date(p, "200 OK", req); peer->lastmsgssent = -1; res = 0; break; case PARSE_REGISTER_UPDATE: /* Say OK and ask subsystem to retransmit msg counter */ transmit_response_with_date(p, "200 OK", req); manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Registered\r\nPeerType: SIP\r\nPeerIP: %s\r\nPeerPort: %d\r\nPeerExpire: %d\r\n", peer->name, cw_inet_ntoa(iabuf, sizeof(iabuf), peer->addr.sin_addr), ntohs(peer->addr.sin_port), expiry); peer->lastmsgssent = -1; res = 0; break; } } } if (!res) { cw_device_state_changed("SIP/%s", peer->name); } if (res < 0) { switch (res) { case -1: /* Wrong password in authentication. Go away, don't try again until you fixed it */ transmit_response(p, "403 Forbidden (Bad auth)", &p->initreq); break; case -2: /* Username and digest username does not match. CallWeaver uses the From: username for authentication. We need the users to use the same authentication user name until we support proper authentication by digest auth name */ transmit_response(p, "403 Authentication user name does not match account name", &p->initreq); break; case -3: if (global_alwaysauthreject) { transmit_fake_auth_response(p, &p->initreq, p->randdata, sizeof(p->randdata), 1); } else { /* URI not found */ transmit_response(p, "404 Not found", &p->initreq); } res = -2; break; } if (option_debug > 1) { cw_log(LOG_DEBUG, "SIP REGISTER attempt failed for %s : %s\n", peer->name, (res == -1) ? "Bad password" : ((res == -2 ) ? "Bad digest user" : "Peer not found")); } } if (peer) CWOBJ_UNREF(peer,sip_destroy_peer); return res; } /*! \brief get_rdnis: get referring dnis */ static int get_rdnis(struct sip_pvt *p, struct sip_request *oreq) { char tmp[256], *c, *a; struct sip_request *req; req = oreq; if (!req) req = &p->initreq; cw_copy_string(tmp, get_header(req, "Diversion"), sizeof(tmp)); if (cw_strlen_zero(tmp)) return 0; c = get_in_brackets(tmp); if ( strncasecmp(c, "sip:", 4) == 0 ) { c += 4; } else if ( strncasecmp(c, "sips:", 5) == 0 ) { c += 5; } else { cw_log(LOG_WARNING, "Huh? Not an RDNIS SIP header (%s)?\n", c); return -1; } if ((a = strchr(c, '@')) || (a = strchr(c, ';'))) { *a = '\0'; } if (sip_debug_test_pvt(p)) cw_verbose("RDNIS is %s\n", c); cw_copy_string(p->rdnis, c, sizeof(p->rdnis)); return 0; } /*! \brief get_destination: Find out who the call is for */ static int get_destination(struct sip_pvt *p, struct sip_request *oreq) { char tmp[256] = "", *uri, *a, *user, *domain, *opts; char tmpf[256], *from; struct sip_request *req; char *colon; req = oreq; if (!req) req = &p->initreq; if (req->rlPart2) cw_copy_string(tmp, req->rlPart2, sizeof(tmp)); uri = get_in_brackets(tmp); cw_copy_string(tmpf, get_header(req, "From"), sizeof(tmpf)); from = get_in_brackets(tmpf); if (strncasecmp(uri, "sip:", 4) == 0) { uri += 4; } else if (strncasecmp(uri, "sips:", 5) == 0) { uri += 5; } else { cw_log(LOG_WARNING, "Huh? Not a SIP header (%s)?\n", uri); return -1; } if (!cw_strlen_zero(from)) { if ( strncasecmp(from, "sip:", 4) == 0 ) { from += 4; } else if ( strncasecmp(from, "sips:", 5) == 0 ) { from += 5; } else { cw_log(LOG_WARNING, "Huh? Not a SIP header (%s)?\n", from); return -1; } } else from = NULL; if (pedanticsipchecking) { cw_uri_decode(uri); cw_uri_decode(from); } if ( sipdebug && option_debug > 9 ) cw_log(LOG_DEBUG,"get_destination: from = %s / to = %s\n", from, uri); /* Get the target domain first and user */ if ((domain = strchr(uri, '@'))) { *domain++ = '\0'; user = uri; } else { /* No user portion present */ domain = uri; user = "s"; } /* Strip port from domain if present */ if ((colon = strchr(domain, ':'))) { *colon = '\0'; } /* Strip any params or options from user */ if ((opts = strchr(user, ';'))) { *opts = '\0'; } cw_copy_string(p->domain, domain, sizeof(p->domain)); if (!CW_LIST_EMPTY(&domain_list)) { char domain_context[CW_MAX_EXTENSION]; domain_context[0] = '\0'; if (!check_sip_domain(p->domain, domain_context, sizeof(domain_context))) { if (!allow_external_domains && (req->method == SIP_INVITE || req->method == SIP_REFER)) { cw_log(LOG_DEBUG, "Got SIP %s to non-local domain '%s'; refusing request.\n", sip_methods[req->method].text, p->domain); return -2; } } /* If we have a context defined, overwrite the original context */ if (!cw_strlen_zero(domain_context)) cw_copy_string(p->context, domain_context, sizeof(p->context)); } if (from) { if ((a = strchr(from, ';'))) *a = '\0'; if ((a = strchr(from, '@'))) { *a = '\0'; cw_copy_string(p->fromdomain, a + 1, sizeof(p->fromdomain)); } else cw_copy_string(p->fromdomain, from, sizeof(p->fromdomain)); } if (sip_debug_test_pvt(p)) cw_verbose("Looking for %s in %s (domain %s)\n", uri, p->context, p->domain); /* Return 0 if we have a matching extension */ if (cw_exists_extension(NULL, p->context, uri, 1, from) || !strcmp(uri, cw_pickup_ext())) { if (!oreq) cw_copy_string(p->exten, uri, sizeof(p->exten)); return 0; } /* Return 1 for overlap dialling support */ if (cw_canmatch_extension(NULL, p->context, uri, 1, from) || !strncmp(uri, cw_pickup_ext(),strlen(uri))) { return 1; } return -1; } /*! \brief get_sip_pvt_byid_locked: Lock interface lock and find matching pvt lock */ static struct sip_pvt *get_sip_pvt_byid_locked(char *callid) { struct sip_pvt *sip_pvt_ptr = NULL; /* Search interfaces and find the match */ cw_mutex_lock(&iflock); sip_pvt_ptr = iflist; while (sip_pvt_ptr) { if (!strcmp(sip_pvt_ptr->callid, callid)) { /* Go ahead and lock it (and its owner) before returning */ cw_mutex_lock(&sip_pvt_ptr->lock); if (sip_pvt_ptr->owner) { while (cw_mutex_trylock(&sip_pvt_ptr->owner->lock)) { cw_mutex_unlock(&sip_pvt_ptr->lock); usleep(1); cw_mutex_lock(&sip_pvt_ptr->lock); if (!sip_pvt_ptr->owner) break; } } break; } sip_pvt_ptr = sip_pvt_ptr->next; } cw_mutex_unlock(&iflock); return sip_pvt_ptr; } /*! \brief get_refer_info: Call transfer support (the REFER method) */ static int get_refer_info(struct sip_pvt *sip_pvt, struct sip_request *outgoing_req, char **transfercontext) { char *p_refer_to = NULL, *p_referred_by = NULL, *h_refer_to = NULL, *h_referred_by = NULL, *h_contact = NULL; char *replace_callid = "", *refer_to = NULL, *referred_by = NULL, *ptr = NULL; struct sip_request *req = NULL; struct sip_pvt *sip_pvt_ptr = NULL; struct cw_channel *chan = NULL, *peer = NULL; req = outgoing_req; if (!req) { req = &sip_pvt->initreq; } if (!((p_refer_to = get_header(req, "Refer-To")) && (h_refer_to = cw_strdupa(p_refer_to)))) { cw_log(LOG_WARNING, "No Refer-To Header That's illegal\n"); return -1; } refer_to = get_in_brackets(h_refer_to); if (!((p_referred_by = get_header(req, "Referred-By")) && (h_referred_by = cw_strdupa(p_referred_by)))) { cw_log(LOG_WARNING, "No Referrred-By Header That's not illegal\n"); return -1; } else { if (pedanticsipchecking) { cw_uri_decode(h_referred_by); } referred_by = get_in_brackets(h_referred_by); } h_contact = get_header(req, "Contact"); if ( strncasecmp(refer_to, "sip:", 4) == 0) { refer_to += 4; } else if ( strncasecmp(refer_to, "sips:", 5) == 0) { refer_to += 5; } else { cw_log(LOG_ERROR, "Refer-to: Huh? Not a SIP header (%s)?\n", refer_to); return -1; } if ( strncasecmp(referred_by, "sip:", 4) == 0 ) { referred_by += 4; } else if ( strncasecmp(referred_by, "sips:", 5) == 0 ) { referred_by += 5; } else { cw_log(LOG_WARNING, "Referred-by: Huh? Not a SIP header (%s) Ignoring?\n", referred_by); referred_by = NULL; } if ((ptr = strchr(refer_to, '?'))) { /* Search for arguments */ *ptr = '\0'; ptr++; if (!strncasecmp(ptr, "REPLACES=", 9)) { char *p; replace_callid = cw_strdupa(ptr + 9); /* someday soon to support invite/replaces properly! replaces_header = cw_strdupa(replace_callid); -anthm */ cw_uri_decode(replace_callid); if ((ptr = strchr(replace_callid, '%'))) *ptr = '\0'; if ((ptr = strchr(replace_callid, ';'))) *ptr = '\0'; /* Skip leading whitespace XXX memmove behaviour with overlaps ? */ p = cw_skip_blanks(replace_callid); if (p != replace_callid) memmove(replace_callid, p, strlen(p)); } } if ((ptr = strchr(refer_to, '@'))) /* Skip domain (should be saved in SIPDOMAIN) */ *ptr = '\0'; if ((ptr = strchr(refer_to, ';'))) *ptr = '\0'; if (referred_by) { if ((ptr = strchr(referred_by, '@'))) *ptr = '\0'; if ((ptr = strchr(referred_by, ';'))) *ptr = '\0'; } *transfercontext = pbx_builtin_getvar_helper(sip_pvt->owner, "TRANSFER_CONTEXT"); if (cw_strlen_zero(*transfercontext)) *transfercontext = sip_pvt->context; if (sip_debug_test_pvt(sip_pvt)) { cw_verbose("Transfer to %s in %s\n", refer_to, *transfercontext); if (referred_by) cw_verbose("Transfer from %s in %s\n", referred_by, sip_pvt->context); } if (!cw_strlen_zero(replace_callid)) { /* This is a supervised transfer */ cw_log(LOG_DEBUG,"Assigning Replace-Call-ID Info %s to REPLACE_CALL_ID\n",replace_callid); cw_copy_string(sip_pvt->refer_to, "", sizeof(sip_pvt->refer_to)); cw_copy_string(sip_pvt->referred_by, "", sizeof(sip_pvt->referred_by)); cw_copy_string(sip_pvt->refer_contact, "", sizeof(sip_pvt->refer_contact)); sip_pvt->refer_call = NULL; if ((sip_pvt_ptr = get_sip_pvt_byid_locked(replace_callid))) { sip_pvt->refer_call = sip_pvt_ptr; if (sip_pvt->refer_call == sip_pvt) { cw_log(LOG_NOTICE, "Supervised transfer attempted to transfer into same call id (%s == %s)!\n", replace_callid, sip_pvt->callid); sip_pvt->refer_call = NULL; } else { cw_mutex_unlock(&sip_pvt_ptr->lock); return 0; } cw_mutex_unlock(&sip_pvt_ptr->lock); } else { cw_log(LOG_NOTICE, "Supervised transfer requested, but unable to find callid '%s'. Both legs must reside on CallWeaver box to transfer at this time.\n", replace_callid); /* XXX The refer_to could contain a call on an entirely different machine, requiring an INVITE with a replaces header -anthm XXX */ /* The only way to find out is to use the dialplan - oej */ } } else if (cw_exists_extension(NULL, *transfercontext, refer_to, 1, NULL) || !strcmp(refer_to, cw_parking_ext())) { /* This is an unsupervised transfer (blind transfer) */ cw_log(LOG_DEBUG,"Unsupervised transfer to (Refer-To): %s\n", refer_to); if (referred_by) cw_log(LOG_DEBUG,"Transferred by (Referred-by: ) %s \n", referred_by); cw_log(LOG_DEBUG,"Transfer Contact Info %s (REFER_CONTACT)\n", h_contact); cw_copy_string(sip_pvt->refer_to, refer_to, sizeof(sip_pvt->refer_to)); if (referred_by) cw_copy_string(sip_pvt->referred_by, referred_by, sizeof(sip_pvt->referred_by)); if (h_contact) { cw_copy_string(sip_pvt->refer_contact, h_contact, sizeof(sip_pvt->refer_contact)); } sip_pvt->refer_call = NULL; if ((chan = sip_pvt->owner) && (peer = cw_bridged_channel(sip_pvt->owner))) { pbx_builtin_setvar_helper(peer, "SIPREFERTO", get_header(req, "Refer-To")); pbx_builtin_setvar_helper(chan, "SIPREFERTO", get_header(req, "Refer-To")); pbx_builtin_setvar_helper(chan, "BLINDTRANSFER", peer->name); pbx_builtin_setvar_helper(peer, "BLINDTRANSFER", chan->name); } return 0; } else if (cw_canmatch_extension(NULL, *transfercontext, refer_to, 1, NULL)) { return 1; } return -1; } /*! \brief get_also_info: Call transfer support (old way, depreciated) */ static int get_also_info(struct sip_pvt *p, struct sip_request *oreq) { char tmp[256], *c, *a; struct sip_request *req; req = oreq; if (!req) req = &p->initreq; cw_copy_string(tmp, get_header(req, "Also"), sizeof(tmp)); c = get_in_brackets(tmp); if ( strncmp(c, "sip:", 4) == 0 ) { c += 4; } else if ( strncmp(c, "sips:", 5) == 0 ) { c += 5; } else { cw_log(LOG_WARNING, "Huh? Not a SIP header (%s)?\n", c); return -1; } if ((a = strchr(c, '@'))) *a = '\0'; if ((a = strchr(c, ';'))) *a = '\0'; if (sip_debug_test_pvt(p)) { cw_verbose("Looking for %s in %s\n", c, p->context); } if (cw_exists_extension(NULL, p->context, c, 1, NULL)) { /* This is an unsupervised transfer */ cw_log(LOG_DEBUG,"Assigning Extension %s to REFER-TO\n", c); cw_copy_string(p->refer_to, c, sizeof(p->refer_to)); cw_copy_string(p->referred_by, "", sizeof(p->referred_by)); cw_copy_string(p->refer_contact, "", sizeof(p->refer_contact)); p->refer_call = NULL; return 0; } else if (cw_canmatch_extension(NULL, p->context, c, 1, NULL)) { return 1; } return -1; } /*! \brief check_via: check Via: headers */ static int check_via(struct sip_pvt *p, struct sip_request *req) { char via[256]; char iabuf[INET_ADDRSTRLEN]; char *c, *pt; struct hostent *hp; struct cw_hostent ahp; #ifdef SIP_TCP_SUPPORT char transport[4]; #endif /* SIP_TCP_SUPPORT */ cw_copy_string(via, get_header(req, "Via"), sizeof(via)); /* Check for rport */ c = strstr(via, ";rport"); if (c && (c[6] != '=')) /* rport query, not answer */ cw_set_flag(p, SIP_NAT_ROUTE); c = strchr(via, ';'); if (c) *c = '\0'; c = strchr(via, ' '); if (c) { *c = '\0'; c = cw_skip_blanks(c+1); #ifdef SIP_TCP_SUPPORT if (!strcasecmp(via, "SIP/2.0/UDP")) { cw_copy_string( transport, "UDP", sizeof(transport) ); }else if (!strcasecmp(via, "SIP/2.0/TCP")) { cw_copy_string( transport, "TCP", sizeof(transport) ); }else if (!strcasecmp(via, "SIP/2.0/TLS")) { cw_copy_string( transport, "TLS", sizeof(transport) ); }else { #else if (strcasecmp(via, "SIP/2.0/UDP")){ #endif cw_log(LOG_WARNING, "Don't know how to respond via '%s'\n", via); return -1; } pt = strchr(c, ':'); if (pt) *pt++ = '\0'; /* remember port pointer */ if ((hp = cw_gethostbyname(c, &ahp)) == NULL) { cw_log(LOG_WARNING, "'%s' is not a valid host\n", c); return -1; } memset(&p->sa, 0, sizeof(p->sa)); p->sa.sin_family = AF_INET; memcpy(&p->sa.sin_addr, hp->h_addr, sizeof(p->sa.sin_addr)); p->sa.sin_port = htons(pt ? atoi(pt) : DEFAULT_SIP_PORT); #ifdef SIP_TCP_SUPPORT cw_copy_string( p->transport, transport, sizeof(p->transport) ); #endif /* SIP_TCP_SUPPORT */ if (sip_debug_test_pvt(p)) { c = sip_is_nat_needed(p) ? "NAT" : "non-NAT"; #ifdef SIP_TCP_SUPPORT cw_verbose("Sending to %s: %d; transport %s (%s)\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), p->transport, c); #else cw_verbose("Sending to %s : %d (%s)\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), ntohs(p->sa.sin_port), c); #endif /* SIP_TCP_SUPPORT */ } } return 0; } /*! \brief get_calleridname: Get caller id name from SIP headers */ static char *get_calleridname(char *input, char *output, size_t outputsize) { char *end = strchr(input, '<'); char *tmp = strchr(input, '\"'); int bytes = 0; int maxbytes = outputsize - 1; if (!end || (end == input)) return NULL; /* move away from "<" */ end--; /* we found "name" */ if (tmp && tmp < end) { end = strchr(tmp+1, '\"'); if (!end) return NULL; bytes = (int) (end - tmp); /* protect the output buffer */ if (bytes > maxbytes) bytes = maxbytes; cw_copy_string(output, tmp + 1, bytes); } else { /* we didn't find "name" */ /* clear the empty characters in the begining*/ input = cw_skip_blanks(input); /* clear the empty characters in the end */ while(*end && isspace(*end) && end > input) end--; if (end >= input) { bytes = (int) (end - input) + 2; /* protect the output buffer */ if (bytes > maxbytes) { bytes = maxbytes; } cw_copy_string(output, input, bytes); } else return NULL; } return output; } /*! \brief get_rpid_num: Get caller id number from Remote-Party-ID header field * Returns true if number should be restricted (privacy setting found) * output is set to NULL if no number found */ static int get_rpid_num(char *input,char *output, int maxlen) { char *start; char *end; start = strchr(input, ':'); if (!start) { output[0] = '\0'; return 0; } start++; /* we found "number" */ cw_copy_string(output,start,maxlen); output[maxlen-1] = '\0'; end = strchr(output, '@'); if (end) *end = '\0'; else output[0] = '\0'; if (strstr(input,"privacy=full") || strstr(input,"privacy=uri")) return CW_PRES_PROHIB_USER_NUMBER_NOT_SCREENED; return 0; } /*! \brief check_user_full: Check if matching user or peer is defined */ /* Match user on From: user name and peer on IP/port */ /* This is used on first invite (not re-invites) and subscribe requests */ static int check_user_full(struct sip_pvt *p, struct sip_request *req, int sipmethod, char *uri, int reliable, struct sockaddr_in *sin, int ignore, char *mailbox, int mailboxlen) { struct sip_user *user = NULL; struct sip_peer *peer; char *of, from[256], *c; char *rpid,rpid_num[50]; char iabuf[INET_ADDRSTRLEN]; int res = 0; char *t; char calleridname[50]; int debug=sip_debug_test_addr(sin); struct cw_variable *tmpvar = NULL, *v = NULL; char *uri2 = cw_strdupa(uri); /* Terminate URI */ t = uri2; while(*t && !isspace(*t) && (*t != ';')) t++; *t = '\0'; of = get_header(req, "From"); if (pedanticsipchecking) cw_uri_decode(of); cw_copy_string(from, of, sizeof(from)); memset(calleridname,0,sizeof(calleridname)); get_calleridname(from, calleridname, sizeof(calleridname)); if (calleridname[0]) cw_copy_string(p->cid_name, calleridname, sizeof(p->cid_name)); rpid = get_header(req, "Remote-Party-ID"); memset(rpid_num,0,sizeof(rpid_num)); if (!cw_strlen_zero(rpid)) p->callingpres = get_rpid_num(rpid,rpid_num, sizeof(rpid_num)); of = get_in_brackets(from); if (cw_strlen_zero(p->exten)) { t = uri2; if (strncasecmp(t, "sip:", 4) == 0) t+= 4; else if (strncasecmp(t, "sips:", 5) == 0) t+= 5; cw_copy_string(p->exten, t, sizeof(p->exten)); t = strchr(p->exten, '@'); if (t) *t = '\0'; if (cw_strlen_zero(p->our_contact)) build_contact(p); } /* save the URI part of the From header */ cw_copy_string(p->from, of, sizeof(p->from)); if (strncasecmp(of, "sip:", 4) == 0) { of += 4; } else if (strncasecmp(of, "sips:", 5) == 0) { of += 5; } else { cw_log(LOG_NOTICE, "From address missing 'sip:', using it anyway\n"); } /* Get just the username part */ if ((c = strchr(of, '@'))) { *c = '\0'; if ((c = strchr(of, ':'))) *c = '\0'; cw_copy_string(p->cid_num, of, sizeof(p->cid_num)); cw_shrink_phone_number(p->cid_num); } if (cw_strlen_zero(of)) return 0; if (!mailbox) /* If it's a mailbox SUBSCRIBE, don't check users */ user = find_user(of, 1); /* Find user based on user name in the from header */ if (user && cw_apply_ha(user->ha, sin)) { cw_copy_flags(p, user, SIP_FLAGS_TO_COPY); /* copy channel vars */ for (v = user->chanvars ; v ; v = v->next) { if ((tmpvar = cw_variable_new(v->name, v->value))) { tmpvar->next = p->chanvars; p->chanvars = tmpvar; } } p->prefs = user->prefs; /* replace callerid if rpid found, and not restricted */ if (!cw_strlen_zero(rpid_num) && cw_test_flag(p, SIP_TRUSTRPID)) { if (*calleridname) cw_copy_string(p->cid_name, calleridname, sizeof(p->cid_name)); cw_copy_string(p->cid_num, rpid_num, sizeof(p->cid_num)); cw_shrink_phone_number(p->cid_num); } if (p->rtp) { cw_log(LOG_DEBUG, "*** Setting NAT on RTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->rtp, sip_is_nat_needed(p) ); } if (p->vrtp) { cw_log(LOG_DEBUG, "Setting NAT on VRTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->vrtp, sip_is_nat_needed(p) ); } if (p->udptl) { cw_log(LOG_DEBUG, "Setting NAT on UDPTL to %d\n", sip_is_nat_needed(p) ); //To be checked. cw_udptl_setnat(p->udptl, sip_is_nat_needed(p) ); } if (!(res = check_auth(p, req, p->randdata, sizeof(p->randdata), user->name, user->secret, user->md5secret, sipmethod, uri2, reliable, ignore))) { sip_cancel_destroy(p); cw_copy_flags(p, user, SIP_FLAGS_TO_COPY); /* Copy SIP extensions profile from INVITE */ if (p->sipoptions) user->sipoptions = p->sipoptions; #ifdef ENABLE_SIP_CALL_LIMIT /* If we have a call limit, set flag */ if (user->call_limit) cw_set_flag(p, SIP_CALL_LIMIT); #endif if (!cw_strlen_zero(user->context)) cw_copy_string(p->context, user->context, sizeof(p->context)); if (!cw_strlen_zero(user->cid_num) && !cw_strlen_zero(p->cid_num)) { cw_copy_string(p->cid_num, user->cid_num, sizeof(p->cid_num)); cw_shrink_phone_number(p->cid_num); } if (!cw_strlen_zero(user->cid_name) && !cw_strlen_zero(p->cid_num)) cw_copy_string(p->cid_name, user->cid_name, sizeof(p->cid_name)); cw_copy_string(p->username, user->name, sizeof(p->username)); cw_copy_string(p->peersecret, user->secret, sizeof(p->peersecret)); cw_copy_string(p->subscribecontext, user->subscribecontext, sizeof(p->subscribecontext)); cw_copy_string(p->peermd5secret, user->md5secret, sizeof(p->peermd5secret)); cw_copy_string(p->accountcode, user->accountcode, sizeof(p->accountcode)); cw_copy_string(p->language, user->language, sizeof(p->language)); cw_copy_string(p->musicclass, user->musicclass, sizeof(p->musicclass)); p->amaflags = user->amaflags; p->callgroup = user->callgroup; p->pickupgroup = user->pickupgroup; /* Copy callingpres only if the RPID did not indicate any privacy/screening parameters */ if (p->callingpres == 0) p->callingpres = user->callingpres; p->capability = user->capability; p->jointcapability = user->capability; if (p->peercapability) p->jointcapability &= p->peercapability; if ((cw_test_flag(p, SIP_DTMF) == SIP_DTMF_RFC2833) || (cw_test_flag(p, SIP_DTMF) == SIP_DTMF_AUTO)) p->noncodeccapability |= CW_RTP_DTMF; else p->noncodeccapability &= ~CW_RTP_DTMF; if (p->t38peercapability) p->t38jointcapability &= p->t38peercapability; } if (user && debug) cw_verbose("Found user '%s'\n", user->name); } else { if (user) { if (!mailbox && debug) cw_verbose("Found user '%s', but fails host access\n", user->name); CWOBJ_UNREF(user,sip_destroy_user); } user = NULL; } if (!user) { /* If we didn't find a user match, check for peers */ if (sipmethod == SIP_SUBSCRIBE) /* For subscribes, match on peer name only */ peer = find_peer(of, NULL, 1); else { /* Look for peer based on the IP address we received data from */ /* If peer is registered from this IP address or have this as a default IP address, this call is from the peer */ peer = find_peer(NULL, &p->recv, 1); } if (peer) { if (debug) cw_verbose("Found peer '%s'\n", peer->name); /* Take the peer */ cw_copy_flags(p, peer, SIP_FLAGS_TO_COPY); /* Copy SIP extensions profile to peer */ if (p->sipoptions) peer->sipoptions = p->sipoptions; /* replace callerid if rpid found, and not restricted */ if (!cw_strlen_zero(rpid_num) && cw_test_flag(p, SIP_TRUSTRPID)) { if (*calleridname) cw_copy_string(p->cid_name, calleridname, sizeof(p->cid_name)); cw_copy_string(p->cid_num, rpid_num, sizeof(p->cid_num)); cw_shrink_phone_number(p->cid_num); } if (p->rtp) { cw_log(LOG_DEBUG, "Setting NAT on RTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->rtp, sip_is_nat_needed(p) ); } if (p->vrtp) { cw_log(LOG_DEBUG, "Setting NAT on VRTP to %d\n", sip_is_nat_needed(p) ); cw_rtp_setnat(p->vrtp, sip_is_nat_needed(p) ); } if (p->udptl) { cw_log(LOG_DEBUG, "Setting NAT on UDPTL to %d\n", sip_is_nat_needed(p) ); cw_udptl_setnat(p->udptl, sip_is_nat_needed(p) ); } cw_copy_string(p->peersecret, peer->secret, sizeof(p->peersecret)); p->peersecret[sizeof(p->peersecret)-1] = '\0'; cw_copy_string(p->subscribecontext, peer->subscribecontext, sizeof(p->subscribecontext)); cw_copy_string(p->peermd5secret, peer->md5secret, sizeof(p->peermd5secret)); p->peermd5secret[sizeof(p->peermd5secret)-1] = '\0'; /* Copy callingpres only if the RPID did not indicate any privacy/screening parameters */ if (p->callingpres == 0) p->callingpres = peer->callingpres; if (peer->maxms && peer->lastms) p->timer_t1 = peer->lastms; if (cw_test_flag(peer, SIP_INSECURE_INVITE)) { /* Pretend there is no required authentication */ p->peersecret[0] = '\0'; p->peermd5secret[0] = '\0'; } if (!(res = check_auth(p, req, p->randdata, sizeof(p->randdata), peer->name, p->peersecret, p->peermd5secret, sipmethod, uri, reliable, ignore))) { cw_copy_flags(p, peer, SIP_FLAGS_TO_COPY); #ifdef ENABLE_SIP_CALL_LIMIT /* If we have a call limit, set flag */ if (peer->call_limit) cw_set_flag(p, SIP_CALL_LIMIT); #endif cw_copy_string(p->peername, peer->name, sizeof(p->peername)); cw_copy_string(p->authname, peer->name, sizeof(p->authname)); /* copy channel vars */ for (v = peer->chanvars ; v ; v = v->next) { if ((tmpvar = cw_variable_new(v->name, v->value))) { tmpvar->next = p->chanvars; p->chanvars = tmpvar; } } if (mailbox) { snprintf(mailbox, mailboxlen, ",%s,", peer->mailbox); p->mwipeer = peer; } if (!cw_strlen_zero(peer->username)) { cw_copy_string(p->username, peer->username, sizeof(p->username)); /* Use the default username for authentication on outbound calls */ cw_copy_string(p->authname, peer->username, sizeof(p->authname)); } if (!cw_strlen_zero(peer->cid_num) && !cw_strlen_zero(p->cid_num)) { cw_copy_string(p->cid_num, peer->cid_num, sizeof(p->cid_num)); cw_shrink_phone_number(p->cid_num); } if (!cw_strlen_zero(peer->cid_name) && !cw_strlen_zero(p->cid_name)) cw_copy_string(p->cid_name, peer->cid_name, sizeof(p->cid_name)); cw_copy_string(p->fullcontact, peer->fullcontact, sizeof(p->fullcontact)); if (!cw_strlen_zero(peer->context)) cw_copy_string(p->context, peer->context, sizeof(p->context)); cw_copy_string(p->peersecret, peer->secret, sizeof(p->peersecret)); cw_copy_string(p->peermd5secret, peer->md5secret, sizeof(p->peermd5secret)); cw_copy_string(p->language, peer->language, sizeof(p->language)); cw_copy_string(p->accountcode, peer->accountcode, sizeof(p->accountcode)); p->amaflags = peer->amaflags; p->callgroup = peer->callgroup; p->pickupgroup = peer->pickupgroup; p->capability = peer->capability; p->prefs = peer->prefs; p->jointcapability = peer->capability; if (p->peercapability) p->jointcapability &= p->peercapability; if ((cw_test_flag(p, SIP_DTMF) == SIP_DTMF_RFC2833) || (cw_test_flag(p, SIP_DTMF) == SIP_DTMF_AUTO)) p->noncodeccapability |= CW_RTP_DTMF; else p->noncodeccapability &= ~CW_RTP_DTMF; if (p->t38peercapability) p->t38jointcapability &= p->t38peercapability; } CWOBJ_UNREF(peer,sip_destroy_peer); } else { if (debug) cw_verbose("Found no matching peer or user for '%s:%d'\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port)); /* do we allow guests? */ if (!global_allowguest) { if (global_alwaysauthreject) res = -4; /* reject with fake authorization request */ else res = -1; /* we don't want any guests, authentication will fail */ } } } if (user) CWOBJ_UNREF(user,sip_destroy_user); return res; } /*! \brief check_user: Find user */ static int check_user(struct sip_pvt *p, struct sip_request *req, int sipmethod, char *uri, int reliable, struct sockaddr_in *sin, int ignore) { return check_user_full(p, req, sipmethod, uri, reliable, sin, ignore, NULL, 0); } /*! \brief get_msg_text: Get text out of a SIP MESSAGE packet */ static int get_msg_text(char *buf, int len, struct sip_request *req) { int x; int y; buf[0] = '\0'; y = len - strlen(buf) - 5; if (y < 0) y = 0; for (x = 0; x < req->lines; x++) { strncat(buf, req->line[x], y); /* safe */ y -= strlen(req->line[x]) + 1; if (y < 0) y = 0; if (y != 0) strcat(buf, "\n"); /* safe */ } return 0; } /*! \brief receive_message: Receive SIP MESSAGE method messages */ /* We only handle messages within current calls currently */ /* Reference: RFC 3428 */ static void receive_message(struct sip_pvt *p, struct sip_request *req) { char buf[1024]; struct cw_frame f; char *content_type; content_type = get_header(req, "Content-Type"); /* We want text/plain. It may have a charset specifier after it but we don't want text/plainfoo[;charset=...] */ if (strncmp(content_type, "text/plain", 10) || (content_type[10] && !(content_type[10] == ' ' || content_type[10] == ';'))) { /* No text/plain attachment */ transmit_response(p, "415 Unsupported Media Type", req); /* Good enough, or? */ cw_set_flag(p, SIP_NEEDDESTROY); return; } if (get_msg_text(buf, sizeof(buf), req)) { cw_log(LOG_WARNING, "Unable to retrieve text from %s\n", p->callid); transmit_response(p, "202 Accepted", req); cw_set_flag(p, SIP_NEEDDESTROY); return; } if (p->owner) { if (sip_debug_test_pvt(p)) cw_verbose("Message received: '%s'\n", buf); memset(&f, 0, sizeof(f)); f.frametype = CW_FRAME_TEXT; f.subclass = 0; f.offset = 0; f.data = buf; f.datalen = strlen(buf); cw_queue_frame(p->owner, &f); transmit_response(p, "202 Accepted", req); /* We respond 202 accepted, since we relay the message */ } else { /* Message outside of a call, we do not support that */ cw_log(LOG_WARNING,"Received message to %s from %s, dropped it...\n Content-Type:%s\n Message: %s\n", get_header(req,"To"), get_header(req,"From"), content_type, buf); transmit_response(p, "405 Method Not Allowed", req); /* Good enough, or? */ } cw_set_flag(p, SIP_NEEDDESTROY); return; } #ifdef ENABLE_SIP_CALL_LIMIT /*! \brief sip_show_inuse: CLI Command to show calls within limits set by call_limit */ static int sip_show_inuse(int fd, int argc, char *argv[]) { #define FORMAT "%-25.25s %-15.15s %-15.15s \n" #define FORMAT2 "%-25.25s %-15.15s %-15.15s \n" char ilimits[40]; char iused[40]; int showall = 0; if (argc < 3) return RESULT_SHOWUSAGE; if (argc == 4 && !strcmp(argv[3],"all")) showall = 1; cw_cli(fd, FORMAT, "* User name", "In use", "Limit"); CWOBJ_CONTAINER_TRAVERSE(&userl, 1, do { CWOBJ_RDLOCK(iterator); if (iterator->call_limit) snprintf(ilimits, sizeof(ilimits), "%d", iterator->call_limit); else cw_copy_string(ilimits, "N/A", sizeof(ilimits)); snprintf(iused, sizeof(iused), "%d", iterator->inUse); if (showall || iterator->call_limit) cw_cli(fd, FORMAT2, iterator->name, iused, ilimits); CWOBJ_UNLOCK(iterator); } while (0) ); cw_cli(fd, FORMAT, "* Peer name", "In use", "Limit"); CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, do { CWOBJ_RDLOCK(iterator); if (iterator->call_limit) snprintf(ilimits, sizeof(ilimits), "%d", iterator->call_limit); else cw_copy_string(ilimits, "N/A", sizeof(ilimits)); snprintf(iused, sizeof(iused), "%d", iterator->inUse); if (showall || iterator->call_limit) cw_cli(fd, FORMAT2, iterator->name, iused, ilimits); CWOBJ_UNLOCK(iterator); } while (0) ); return RESULT_SUCCESS; #undef FORMAT #undef FORMAT2 } #endif /*! \brief nat2str: Convert NAT setting to text string */ static char *nat2str(int nat) { switch (nat) { case SIP_NAT_NEVER: return "No"; case SIP_NAT_ROUTE: return "Route"; case SIP_NAT_ALWAYS: return "Always"; case SIP_NAT_RFC3581: return "RFC3581"; default: return "Unknown"; } } /*! \brief peer_status: Report Peer status in character string */ /* returns 1 if peer is online, -1 if unmonitored */ static int peer_status(struct sip_peer *peer, char *status, int statuslen) { int res = 0; if (peer->maxms) { if (peer->lastms < 0) { cw_copy_string(status, "UNREACHABLE", statuslen); } else if (peer->lastms > peer->maxms) { snprintf(status, statuslen, "LAGGED (%d ms)", peer->lastms); res = 1; } else if (peer->lastms) { snprintf(status, statuslen, "OK (%d ms)", peer->lastms); res = 1; } else { cw_copy_string(status, "UNKNOWN", statuslen); } } else { cw_copy_string(status, "Unmonitored", statuslen); /* Checking if port is 0 */ res = -1; } return res; } /*! \brief sip_show_users: CLI Command 'SIP Show Users' */ static int sip_show_users(int fd, int argc, char *argv[]) { regex_t regexbuf; int havepattern = 0; #define FORMAT "%-25.25s %-15.15s %-15.15s %-15.15s %-5.5s%-10.10s\n" switch (argc) { case 5: if (!strcasecmp(argv[3], "like")) { if (regcomp(®exbuf, argv[4], REG_EXTENDED | REG_NOSUB)) return RESULT_SHOWUSAGE; havepattern = 1; } else return RESULT_SHOWUSAGE; break; case 3: break; default: return RESULT_SHOWUSAGE; } cw_cli(fd, FORMAT, "Username", "Secret", "Accountcode", "Def.Context", "ACL", "NAT"); CWOBJ_CONTAINER_TRAVERSE(&userl, 1, do { CWOBJ_RDLOCK(iterator); if (havepattern && regexec(®exbuf, iterator->name, 0, NULL, 0)) { CWOBJ_UNLOCK(iterator); continue; } cw_cli(fd, FORMAT, iterator->name, iterator->secret, iterator->accountcode, iterator->context, iterator->ha ? "Yes" : "No", nat2str(cw_test_flag(iterator, SIP_NAT))); CWOBJ_UNLOCK(iterator); } while (0) ); if (havepattern) regfree(®exbuf); return RESULT_SUCCESS; #undef FORMAT } static char mandescr_show_peers[] = "Description: Lists SIP peers in text format with details on current status.\n" "Variables: \n" " ActionID: Action ID for this transaction. Will be returned.\n"; static int _sip_show_peers(int fd, int *total, struct mansession *s, struct message *m, int argc, char *argv[]); /*! \brief manager_sip_show_peers: Show SIP peers in the manager API */ /* Inspired from chan_iax2 */ static int manager_sip_show_peers( struct mansession *s, struct message *m ) { char *id = astman_get_header(m,"ActionID"); char *a[] = { "sip", "show", "peers" }; char idtext[256] = ""; int total = 0; if (!cw_strlen_zero(id)) snprintf(idtext,256,"ActionID: %s\r\n",id); astman_send_ack(s, m, "Peer status list will follow"); /* List the peers in separate manager events */ _sip_show_peers(s->fd, &total, s, m, 3, a); /* Send final confirmation */ cw_cli(s->fd, "Event: PeerlistComplete\r\n" "ListItems: %d\r\n" "%s" "\r\n", total, idtext); return 0; } /*! \brief sip_show_peers: CLI Show Peers command */ static int sip_show_peers(int fd, int argc, char *argv[]) { return _sip_show_peers(fd, NULL, NULL, NULL, argc, argv); } /*! \brief _sip_show_peers: Execute sip show peers command */ static int _sip_show_peers(int fd, int *total, struct mansession *s, struct message *m, int argc, char *argv[]) { regex_t regexbuf; int havepattern = 0; #define FORMAT2 "%-25.25s %-15.15s %-3.3s %-3.3s %-3.3s %-8s %-10s\n" #define FORMAT "%-25.25s %-15.15s %-3.3s %-3.3s %-3.3s %-8d %-10s\n" char name[256]; char iabuf[INET_ADDRSTRLEN]; int total_peers = 0; int peers_online = 0; int peers_offline = 0; char *id; char idtext[256] = ""; if (s) { /* Manager - get ActionID */ id = astman_get_header(m,"ActionID"); if (!cw_strlen_zero(id)) snprintf(idtext,256,"ActionID: %s\r\n",id); } switch (argc) { case 5: if (!strcasecmp(argv[3], "like")) { if (regcomp(®exbuf, argv[4], REG_EXTENDED | REG_NOSUB)) return RESULT_SHOWUSAGE; havepattern = 1; } else return RESULT_SHOWUSAGE; break; case 3: break; default: return RESULT_SHOWUSAGE; } if (!s) { /* Normal list */ cw_cli(fd, FORMAT2, "Name/username", "Host", "Dyn", "Nat", "ACL", "Port", "Status"); } CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, do { char status[20] = ""; char srch[2000]; char pstatus; CWOBJ_RDLOCK(iterator); if (havepattern && regexec(®exbuf, iterator->name, 0, NULL, 0)) { CWOBJ_UNLOCK(iterator); continue; } if (!cw_strlen_zero(iterator->username) && !s) snprintf(name, sizeof(name), "%s/%s", iterator->name, iterator->username); else cw_copy_string(name, iterator->name, sizeof(name)); pstatus = peer_status(iterator, status, sizeof(status)); if (pstatus && iterator->addr.sin_addr.s_addr) peers_online++; else peers_offline++; snprintf(srch, sizeof(srch), FORMAT, name, iterator->addr.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), iterator->addr.sin_addr) : "(Unspecified)", cw_test_flag(&iterator->flags_page2, SIP_PAGE2_DYNAMIC) ? " D " : " ", /* Dynamic or not? */ (cw_test_flag(iterator, SIP_NAT) & SIP_NAT_ROUTE) ? " N " : " ", /* NAT=yes? */ iterator->ha ? " A " : " ", /* permit/deny */ ntohs(iterator->addr.sin_port), status); if (!s) { /* Normal CLI list */ cw_cli(fd, FORMAT, name, iterator->addr.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), iterator->addr.sin_addr) : "(Unspecified)", cw_test_flag(&iterator->flags_page2, SIP_PAGE2_DYNAMIC) ? " D " : " ", /* Dynamic or not? */ (cw_test_flag(iterator, SIP_NAT) & SIP_NAT_ROUTE) ? " N " : " ", /* NAT=yes? */ iterator->ha ? " A " : " ", /* permit/deny */ ntohs(iterator->addr.sin_port), status); } else { /* Manager format */ /* The names here need to be the same as other channels */ cw_cli(fd, "Event: PeerEntry\r\n%s" "Channeltype: SIP\r\n" "ObjectName: %s\r\n" "ChanObjectType: peer\r\n" /* "peer" or "user" */ "IPaddress: %s\r\n" "IPport: %d\r\n" "Dynamic: %s\r\n" "Natsupport: %s\r\n" "ACL: %s\r\n" "Status: %s\r\n\r\n", idtext, iterator->name, iterator->addr.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), iterator->addr.sin_addr) : "-none-", ntohs(iterator->addr.sin_port), cw_test_flag(&iterator->flags_page2, SIP_PAGE2_DYNAMIC) ? "yes" : "no", /* Dynamic or not? */ (cw_test_flag(iterator, SIP_NAT) & SIP_NAT_ROUTE) ? "yes" : "no", /* NAT=yes? */ iterator->ha ? "yes" : "no", /* permit/deny */ status); } CWOBJ_UNLOCK(iterator); total_peers++; } while(0) ); if (!s) { cw_cli(fd,"%d sip peers [%d online , %d offline]\n",total_peers,peers_online,peers_offline); } if (havepattern) regfree(®exbuf); if (total) *total = total_peers; return RESULT_SUCCESS; #undef FORMAT #undef FORMAT2 } /*! \brief sip_show_objects: List all allocated SIP Objects */ static int sip_show_objects(int fd, int argc, char *argv[]) { char tmp[256]; if (argc != 3) return RESULT_SHOWUSAGE; cw_cli(fd, "-= User objects: %d static, %d realtime =-\n\n", suserobjs, ruserobjs); CWOBJ_CONTAINER_DUMP(fd, tmp, sizeof(tmp), &userl); cw_cli(fd, "-= Peer objects: %d static, %d realtime, %d autocreate =-\n\n", speerobjs, rpeerobjs, apeerobjs); CWOBJ_CONTAINER_DUMP(fd, tmp, sizeof(tmp), &peerl); cw_cli(fd, "-= Registry objects: %d =-\n\n", regobjs); CWOBJ_CONTAINER_DUMP(fd, tmp, sizeof(tmp), ®l); return RESULT_SUCCESS; } /*! \brief print_group: Print call group and pickup group */ static void print_group(int fd, unsigned int group, int crlf) { char buf[256]; cw_cli(fd, crlf ? "%s\r\n" : "%s\n", cw_print_group(buf, sizeof(buf), group) ); } /*! \brief dtmfmode2str: Convert DTMF mode to printable string */ static const char *dtmfmode2str(int mode) { switch (mode) { case SIP_DTMF_RFC2833: return "rfc2833"; case SIP_DTMF_INFO: return "info"; case SIP_DTMF_INBAND: return "inband"; case SIP_DTMF_AUTO: return "auto"; } return ""; } /*! \brief insecure2str: Convert Insecure setting to printable string */ static const char *insecure2str(int port, int invite) { if (port && invite) return "port,invite"; else if (port) return "port"; else if (invite) return "invite"; else return "no"; } /*! \brief sip_prune_realtime: Remove temporary realtime objects from memory (CLI) */ static int sip_prune_realtime(int fd, int argc, char *argv[]) { struct sip_peer *peer; struct sip_user *user; int pruneuser = 0; int prunepeer = 0; int multi = 0; char *name = NULL; regex_t regexbuf; switch (argc) { case 4: if (!strcasecmp(argv[3], "user")) return RESULT_SHOWUSAGE; if (!strcasecmp(argv[3], "peer")) return RESULT_SHOWUSAGE; if (!strcasecmp(argv[3], "like")) return RESULT_SHOWUSAGE; if (!strcasecmp(argv[3], "all")) { multi = 1; pruneuser = prunepeer = 1; } else { pruneuser = prunepeer = 1; name = argv[3]; } break; case 5: if (!strcasecmp(argv[4], "like")) return RESULT_SHOWUSAGE; if (!strcasecmp(argv[3], "all")) return RESULT_SHOWUSAGE; if (!strcasecmp(argv[3], "like")) { multi = 1; name = argv[4]; pruneuser = prunepeer = 1; } else if (!strcasecmp(argv[3], "user")) { pruneuser = 1; if (!strcasecmp(argv[4], "all")) multi = 1; else name = argv[4]; } else if (!strcasecmp(argv[3], "peer")) { prunepeer = 1; if (!strcasecmp(argv[4], "all")) multi = 1; else name = argv[4]; } else return RESULT_SHOWUSAGE; break; case 6: if (strcasecmp(argv[4], "like")) return RESULT_SHOWUSAGE; if (!strcasecmp(argv[3], "user")) { pruneuser = 1; name = argv[5]; } else if (!strcasecmp(argv[3], "peer")) { prunepeer = 1; name = argv[5]; } else return RESULT_SHOWUSAGE; break; default: return RESULT_SHOWUSAGE; } if (multi && name) { if (regcomp(®exbuf, name, REG_EXTENDED | REG_NOSUB)) return RESULT_SHOWUSAGE; } if (multi) { if (prunepeer) { int pruned = 0; CWOBJ_CONTAINER_WRLOCK(&peerl); CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, do { CWOBJ_RDLOCK(iterator); if (name && regexec(®exbuf, iterator->name, 0, NULL, 0)) { CWOBJ_UNLOCK(iterator); continue; }; if (cw_test_flag((&iterator->flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) { CWOBJ_MARK(iterator); pruned++; } CWOBJ_UNLOCK(iterator); } while (0) ); if (pruned) { CWOBJ_CONTAINER_PRUNE_MARKED(&peerl, sip_destroy_peer); cw_cli(fd, "%d peers pruned.\n", pruned); } else cw_cli(fd, "No peers found to prune.\n"); CWOBJ_CONTAINER_UNLOCK(&peerl); } if (pruneuser) { int pruned = 0; CWOBJ_CONTAINER_WRLOCK(&userl); CWOBJ_CONTAINER_TRAVERSE(&userl, 1, do { CWOBJ_RDLOCK(iterator); if (name && regexec(®exbuf, iterator->name, 0, NULL, 0)) { CWOBJ_UNLOCK(iterator); continue; }; if (cw_test_flag((&iterator->flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) { CWOBJ_MARK(iterator); pruned++; } CWOBJ_UNLOCK(iterator); } while (0) ); if (pruned) { CWOBJ_CONTAINER_PRUNE_MARKED(&userl, sip_destroy_user); cw_cli(fd, "%d users pruned.\n", pruned); } else cw_cli(fd, "No users found to prune.\n"); CWOBJ_CONTAINER_UNLOCK(&userl); } } else { if (prunepeer) { if ((peer = CWOBJ_CONTAINER_FIND_UNLINK(&peerl, name))) { if (!cw_test_flag((&peer->flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) { cw_cli(fd, "Peer '%s' is not a Realtime peer, cannot be pruned.\n", name); CWOBJ_CONTAINER_LINK(&peerl, peer); } else cw_cli(fd, "Peer '%s' pruned.\n", name); CWOBJ_UNREF(peer, sip_destroy_peer); } else cw_cli(fd, "Peer '%s' not found.\n", name); } if (pruneuser) { if ((user = CWOBJ_CONTAINER_FIND_UNLINK(&userl, name))) { if (!cw_test_flag((&user->flags_page2), SIP_PAGE2_RTCACHEFRIENDS)) { cw_cli(fd, "User '%s' is not a Realtime user, cannot be pruned.\n", name); CWOBJ_CONTAINER_LINK(&userl, user); } else cw_cli(fd, "User '%s' pruned.\n", name); CWOBJ_UNREF(user, sip_destroy_user); } else cw_cli(fd, "User '%s' not found.\n", name); } } return RESULT_SUCCESS; } /*! \brief print_codec_to_cli: Print codec list from preference to CLI/manager */ static void print_codec_to_cli(int fd, struct cw_codec_pref *pref) { int x, codec; for (x = 0; x < 32; x++) { codec = cw_codec_pref_index(pref, x); if (!codec) break; cw_cli(fd, "%s", cw_getformatname(codec)); if (x < 31 && cw_codec_pref_index(pref, x + 1)) cw_cli(fd, ","); } if (!x) cw_cli(fd, "none"); } static const char *domain_mode_to_text(const enum domain_mode mode) { switch (mode) { case SIP_DOMAIN_AUTO: return "[Automatic]"; case SIP_DOMAIN_CONFIG: return "[Configured]"; } return ""; } /*! \brief sip_show_domains: CLI command to list local domains */ #define FORMAT "%-40.40s %-20.20s %-16.16s\n" static int sip_show_domains(int fd, int argc, char *argv[]) { struct domain *d; if (CW_LIST_EMPTY(&domain_list)) { cw_cli(fd, "SIP Domain support not enabled.\n\n"); return RESULT_SUCCESS; } else { cw_cli(fd, FORMAT, "Our local SIP domains:", "Context", "Set by"); CW_LIST_LOCK(&domain_list); CW_LIST_TRAVERSE(&domain_list, d, list) cw_cli(fd, FORMAT, d->domain, cw_strlen_zero(d->context) ? "(default)": d->context, domain_mode_to_text(d->mode)); CW_LIST_UNLOCK(&domain_list); cw_cli(fd, "\n"); return RESULT_SUCCESS; } } #undef FORMAT static char mandescr_show_peer[] = "Description: Show one SIP peer with details on current status.\n" " The XML format is under development, feedback welcome! /oej\n" "Variables: \n" " Peer: The peer name you want to check.\n" " ActionID: Optional action ID for this AMI transaction.\n"; static int _sip_show_peer(int type, int fd, struct mansession *s, struct message *m, int argc, char *argv[]); /*! \brief manager_sip_show_peer: Show SIP peers in the manager API */ static int manager_sip_show_peer( struct mansession *s, struct message *m ) { char *id = astman_get_header(m,"ActionID"); char *a[4]; char *peer; int ret; peer = astman_get_header(m,"Peer"); if (cw_strlen_zero(peer)) { astman_send_error(s, m, "Peer: missing.\n"); return 0; } a[0] = "sip"; a[1] = "show"; a[2] = "peer"; a[3] = peer; if (!cw_strlen_zero(id)) cw_cli(s->fd, "ActionID: %s\r\n",id); ret = _sip_show_peer(1, s->fd, s, m, 4, a ); cw_cli( s->fd, "\r\n\r\n" ); return ret; } /*! \brief sip_show_peer: Show one peer in detail */ static int sip_show_peer(int fd, int argc, char *argv[]) { return _sip_show_peer(0, fd, NULL, NULL, argc, argv); } static int _sip_show_peer(int type, int fd, struct mansession *s, struct message *m, int argc, char *argv[]) { char status[30] = ""; char cbuf[256]; char iabuf[INET_ADDRSTRLEN]; struct sip_peer *peer; char codec_buf[512]; struct cw_codec_pref *pref; struct cw_variable *v; struct sip_auth *auth; int x = 0, codec = 0, load_realtime = 0; if (argc < 4) return RESULT_SHOWUSAGE; load_realtime = (argc == 5 && !strcmp(argv[4], "load")) ? 1 : 0; peer = find_peer(argv[3], NULL, load_realtime); if (s) { /* Manager */ if (peer) cw_cli(s->fd, "Response: Success\r\n"); else { snprintf (cbuf, sizeof(cbuf), "Peer %s not found.\n", argv[3]); astman_send_error(s, m, cbuf); return 0; } } if (peer && type == 0) { /* Normal listing */ cw_cli(fd,"\n\n"); cw_cli(fd, " * Name : %s\n", peer->name); cw_cli(fd, " Secret : %s\n", cw_strlen_zero(peer->secret)?"":""); cw_cli(fd, " MD5Secret : %s\n", cw_strlen_zero(peer->md5secret)?"":""); auth = peer->auth; while (auth) { cw_cli(fd, " Realm-auth : Realm %-15.15s User %-10.20s ", auth->realm, auth->username); cw_cli(fd, "%s\n", !cw_strlen_zero(auth->secret)?"":(!cw_strlen_zero(auth->md5secret)?"" : "")); auth = auth->next; } cw_cli(fd, " Context : %s\n", peer->context); cw_cli(fd, " Subscr.Cont. : %s\n", cw_strlen_zero(peer->subscribecontext)?"":peer->subscribecontext); cw_cli(fd, " Language : %s\n", peer->language); if (!cw_strlen_zero(peer->accountcode)) cw_cli(fd, " Accountcode : %s\n", peer->accountcode); cw_cli(fd, " AMA flags : %s\n", cw_cdr_flags2str(peer->amaflags)); cw_cli(fd, " CallingPres : %s\n", cw_describe_caller_presentation(peer->callingpres)); if (!cw_strlen_zero(peer->fromuser)) cw_cli(fd, " FromUser : %s\n", peer->fromuser); if (!cw_strlen_zero(peer->fromdomain)) cw_cli(fd, " FromDomain : %s\n", peer->fromdomain); cw_cli(fd, " Callgroup : "); print_group(fd, peer->callgroup, 0); cw_cli(fd, " Pickupgroup : "); print_group(fd, peer->pickupgroup, 0); cw_cli(fd, " Music Class : %s\n", peer->musicclass); cw_cli(fd, " Mailbox : %s\n", peer->mailbox); cw_cli(fd, " VM Extension : %s\n", peer->vmexten); cw_cli(fd, " LastMsgsSent : %d\n", peer->lastmsgssent); #ifdef ENABLE_SIP_CALL_LIMIT cw_cli(fd, " Call limit : %d\n", peer->call_limit); #endif cw_cli(fd, " Dynamic : %s\n", (cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC)?"Yes":"No")); cw_cli(fd, " Callerid : %s\n", cw_callerid_merge(cbuf, sizeof(cbuf), peer->cid_name, peer->cid_num, "")); cw_cli(fd, " Expire : %ld\n", cw_sched_when(sched,peer->expire)); cw_cli(fd, " Insecure : %s\n", insecure2str(cw_test_flag(peer, SIP_INSECURE_PORT), cw_test_flag(peer, SIP_INSECURE_INVITE))); cw_cli(fd, " Nat : %s\n", nat2str(cw_test_flag(peer, SIP_NAT))); cw_cli(fd, " ACL : %s\n", (peer->ha?"Yes":"No")); cw_cli(fd, " CanReinvite : %s\n", (cw_test_flag(peer, SIP_CAN_REINVITE)?"Yes":"No")); cw_cli(fd, " PromiscRedir : %s\n", (cw_test_flag(peer, SIP_PROMISCREDIR)?"Yes":"No")); cw_cli(fd, " User=Phone : %s\n", (cw_test_flag(peer, SIP_USEREQPHONE)?"Yes":"No")); cw_cli(fd, " Trust RPID : %s\n", (cw_test_flag(peer, SIP_TRUSTRPID) ? "Yes" : "No")); cw_cli(fd, " Send RPID : %s\n", (cw_test_flag(peer, SIP_SENDRPID) ? "Yes" : "No")); /* - is enumerated */ cw_cli(fd, " DTMFmode : %s\n", dtmfmode2str(cw_test_flag(peer, SIP_DTMF))); cw_cli(fd, " LastMsg : %d\n", peer->lastmsg); cw_cli(fd, " ToHost : %s\n", peer->tohost); cw_cli(fd, " Addr->IP : %s Port %d\n", peer->addr.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), peer->addr.sin_addr) : "(Unspecified)", ntohs(peer->addr.sin_port)); cw_cli(fd, " Defaddr->IP : %s Port %d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), peer->defaddr.sin_addr), ntohs(peer->defaddr.sin_port)); #ifdef SIP_TCP_SUPPORT cw_cli(fd, " Sock fd : %d\n", peer->sockfd); cw_cli(fd, " Transport : %s\n", peer->transport); #endif cw_cli(fd, " Def. Username: %s\n", peer->username); cw_cli(fd, " SIP Options : "); if (peer->sipoptions) { for (x = 0; (x < (sizeof(sip_options)/sizeof(sip_options[0]))); x++) { if (peer->sipoptions & sip_options[x].id) cw_cli(fd, "%s ", sip_options[x].text); } } else cw_cli(fd, "(none)"); cw_cli(fd, "\n"); cw_cli(fd, " Codecs : "); cw_getformatname_multiple(codec_buf, sizeof(codec_buf) -1, peer->capability); cw_cli(fd, "%s\n", codec_buf); cw_cli(fd, " Codec Order : ("); print_codec_to_cli(fd, &peer->prefs); cw_cli(fd, ")\n"); cw_cli(fd, " Status : "); peer_status(peer, status, sizeof(status)); cw_cli(fd, "%s\n",status); cw_cli(fd, " Useragent : %s\n", peer->useragent); cw_cli(fd, " Reg. Contact : %s\n", peer->fullcontact); if (peer->chanvars) { cw_cli(fd, " Variables :\n"); for (v = peer->chanvars; v; v = v->next) cw_cli(fd, " %s = %s\n", v->name, v->value); } cw_cli(fd, "\n"); CWOBJ_UNREF(peer, sip_destroy_peer); } else if (peer && type == 1) { /* manager listing */ char *actionid = astman_get_header(m,"ActionID"); cw_cli(fd, "Channeltype: SIP\r\n"); if (actionid) cw_cli(fd, "ActionID: %s\r\n", actionid); cw_cli(fd, "ObjectName: %s\r\n", peer->name); cw_cli(fd, "ChanObjectType: peer\r\n"); cw_cli(fd, "SecretExist: %s\r\n", cw_strlen_zero(peer->secret)?"N":"Y"); cw_cli(fd, "MD5SecretExist: %s\r\n", cw_strlen_zero(peer->md5secret)?"N":"Y"); cw_cli(fd, "Context: %s\r\n", peer->context); cw_cli(fd, "Language: %s\r\n", peer->language); if (!cw_strlen_zero(peer->accountcode)) cw_cli(fd, "Accountcode: %s\r\n", peer->accountcode); cw_cli(fd, "AMAflags: %s\r\n", cw_cdr_flags2str(peer->amaflags)); cw_cli(fd, "CID-CallingPres: %s\r\n", cw_describe_caller_presentation(peer->callingpres)); if (!cw_strlen_zero(peer->fromuser)) cw_cli(fd, "SIP-FromUser: %s\r\n", peer->fromuser); if (!cw_strlen_zero(peer->fromdomain)) cw_cli(fd, "SIP-FromDomain: %s\r\n", peer->fromdomain); cw_cli(fd, "Callgroup: "); print_group(fd, peer->callgroup, 1); cw_cli(fd, "Pickupgroup: "); print_group(fd, peer->pickupgroup, 1); cw_cli(fd, "VoiceMailbox: %s\r\n", peer->mailbox); cw_cli(fd, "LastMsgsSent: %d\r\n", peer->lastmsgssent); #ifdef ENABLE_SIP_CALL_LIMIT cw_cli(fd, "Call limit: %d\r\n", peer->call_limit); #endif cw_cli(fd, "Dynamic: %s\r\n", (cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC)?"Y":"N")); cw_cli(fd, "Callerid: %s\r\n", cw_callerid_merge(cbuf, sizeof(cbuf), peer->cid_name, peer->cid_num, "")); cw_cli(fd, "RegExpire: %ld seconds\r\n", cw_sched_when(sched,peer->expire)); cw_cli(fd, "SIP-AuthInsecure: %s\r\n", insecure2str(cw_test_flag(peer, SIP_INSECURE_PORT), cw_test_flag(peer, SIP_INSECURE_INVITE))); cw_cli(fd, "SIP-NatSupport: %s\r\n", nat2str(cw_test_flag(peer, SIP_NAT))); cw_cli(fd, "ACL: %s\r\n", (peer->ha?"Y":"N")); cw_cli(fd, "SIP-CanReinvite: %s\r\n", (cw_test_flag(peer, SIP_CAN_REINVITE)?"Y":"N")); cw_cli(fd, "SIP-PromiscRedir: %s\r\n", (cw_test_flag(peer, SIP_PROMISCREDIR)?"Y":"N")); cw_cli(fd, "SIP-UserPhone: %s\r\n", (cw_test_flag(peer, SIP_USEREQPHONE)?"Y":"N")); /* - is enumerated */ cw_cli(fd, "SIP-DTMFmode %s\r\n", dtmfmode2str(cw_test_flag(peer, SIP_DTMF))); cw_cli(fd, "SIPLastMsg: %d\r\n", peer->lastmsg); cw_cli(fd, "ToHost: %s\r\n", peer->tohost); cw_cli(fd, "Address-IP: %s\r\nAddress-Port: %d\r\n", peer->addr.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), peer->addr.sin_addr) : "", ntohs(peer->addr.sin_port)); cw_cli(fd, "Default-addr-IP: %s\r\nDefault-addr-port: %d\r\n", cw_inet_ntoa(iabuf, sizeof(iabuf), peer->defaddr.sin_addr), ntohs(peer->defaddr.sin_port)); cw_cli(fd, "Default-Username: %s\r\n", peer->username); cw_cli(fd, "Codecs: "); cw_getformatname_multiple(codec_buf, sizeof(codec_buf) -1, peer->capability); cw_cli(fd, "%s\r\n", codec_buf); cw_cli(fd, "CodecOrder: "); pref = &peer->prefs; for (x = 0; x < 32; x++) { codec = cw_codec_pref_index(pref,x); if (!codec) break; cw_cli(fd, "%s", cw_getformatname(codec)); if (x < 31 && cw_codec_pref_index(pref,x+1)) cw_cli(fd, ","); } cw_cli(fd, "\r\n"); cw_cli(fd, "Status: "); peer_status(peer, status, sizeof(status)); cw_cli(fd, "%s\r\n", status); cw_cli(fd, "SIP-Useragent: %s\r\n", peer->useragent); cw_cli(fd, "Reg-Contact : %s\r\n", peer->fullcontact); if (peer->chanvars) { for (v = peer->chanvars; v; v = v->next) { cw_cli(fd, "ChanVariable:\n"); cw_cli(fd, " %s,%s\r\n", v->name, v->value); } } CWOBJ_UNREF(peer,sip_destroy_peer); } else { cw_cli(fd,"Peer %s not found.\n", argv[3]); cw_cli(fd,"\n"); } return RESULT_SUCCESS; } /*! \brief sip_show_user: Show one user in detail */ static int sip_show_user(int fd, int argc, char *argv[]) { char cbuf[256]; struct sip_user *user; struct cw_codec_pref *pref; struct cw_variable *v; int x = 0, codec = 0, load_realtime = 0; if (argc < 4) return RESULT_SHOWUSAGE; /* Load from realtime storage? */ load_realtime = (argc == 5 && !strcmp(argv[4], "load")) ? 1 : 0; user = find_user(argv[3], load_realtime); if (user) { cw_cli(fd,"\n\n"); cw_cli(fd, " * Name : %s\n", user->name); cw_cli(fd, " Secret : %s\n", cw_strlen_zero(user->secret)?"":""); cw_cli(fd, " MD5Secret : %s\n", cw_strlen_zero(user->md5secret)?"":""); cw_cli(fd, " Context : %s\n", user->context); cw_cli(fd, " Music Class : %s\n", user->musicclass); cw_cli(fd, " Language : %s\n", user->language); if (!cw_strlen_zero(user->accountcode)) cw_cli(fd, " Accountcode : %s\n", user->accountcode); cw_cli(fd, " AMA flags : %s\n", cw_cdr_flags2str(user->amaflags)); cw_cli(fd, " CallingPres : %s\n", cw_describe_caller_presentation(user->callingpres)); #ifdef ENABLE_SIP_CALL_LIMIT cw_cli(fd, " Call limit : %d\n", user->call_limit); #endif cw_cli(fd, " Callgroup : "); print_group(fd, user->callgroup, 0); cw_cli(fd, " Pickupgroup : "); print_group(fd, user->pickupgroup, 0); cw_cli(fd, " Callerid : %s\n", cw_callerid_merge(cbuf, sizeof(cbuf), user->cid_name, user->cid_num, "")); cw_cli(fd, " ACL : %s\n", (user->ha?"Yes":"No")); cw_cli(fd, " Codec Order : ("); pref = &user->prefs; for (x = 0; x < 32; x++) { codec = cw_codec_pref_index(pref,x); if (!codec) break; cw_cli(fd, "%s", cw_getformatname(codec)); if (x < 31 && cw_codec_pref_index(pref,x+1)) cw_cli(fd, ","); } if (!x) cw_cli(fd, "none"); cw_cli(fd, ")\n"); if (user->chanvars) { cw_cli(fd, " Variables :\n"); for (v = user->chanvars; v; v = v->next) cw_cli(fd, " %s = %s\n", v->name, v->value); } cw_cli(fd,"\n"); CWOBJ_UNREF(user,sip_destroy_user); } else { cw_cli(fd,"User %s not found.\n", argv[3]); cw_cli(fd,"\n"); } return RESULT_SUCCESS; } /*! \brief sip_show_registry: Show SIP Registry (registrations with other SIP proxies */ static int sip_show_registry(int fd, int argc, char *argv[]) { #define FORMAT2 "%-30.30s %-12.12s %8.8s %-20.20s\n" #define FORMAT "%-30.30s %-12.12s %8d %-20.20s\n" char host[80]; if (argc != 3) return RESULT_SHOWUSAGE; cw_cli(fd, FORMAT2, "Host", "Username", "Refresh", "State"); CWOBJ_CONTAINER_TRAVERSE(®l, 1, do { CWOBJ_RDLOCK(iterator); snprintf(host, sizeof(host), "%s:%d", iterator->hostname, iterator->portno ? iterator->portno : DEFAULT_SIP_PORT); cw_cli(fd, FORMAT, host, iterator->username, iterator->refresh, regstate2str(iterator->regstate)); CWOBJ_UNLOCK(iterator); } while(0)); return RESULT_SUCCESS; #undef FORMAT #undef FORMAT2 } /*! \brief sip_show_settings: List global settings for the SIP channel */ static int sip_show_settings(int fd, int argc, char *argv[]) { char tmp[BUFSIZ]; int realtimepeers = 0; int realtimeusers = 0; realtimepeers = cw_check_realtime("sippeers"); realtimeusers = cw_check_realtime("sipusers"); if (argc != 3) return RESULT_SHOWUSAGE; cw_cli(fd, "\n\nGlobal Settings:\n"); cw_cli(fd, "----------------\n"); cw_cli(fd, " SIP Port: %d\n", ntohs(bindaddr.sin_port)); cw_cli(fd, " Bindaddress: %s\n", cw_inet_ntoa(tmp, sizeof(tmp), bindaddr.sin_addr)); cw_cli(fd, " Videosupport: %s\n", videosupport ? "Yes" : "No"); cw_cli(fd, " T.38 UDPTL Support: %s\n", t38udptlsupport ? "Yes" : "No"); cw_cli(fd, " AutoCreatePeer: %s\n", autocreatepeer ? "Yes" : "No"); cw_cli(fd, " Allow unknown access: %s\n", global_allowguest ? "Yes" : "No"); cw_cli(fd, " Promsic. redir: %s\n", cw_test_flag(&global_flags, SIP_PROMISCREDIR) ? "Yes" : "No"); cw_cli(fd, " SIP domain support: %s\n", CW_LIST_EMPTY(&domain_list) ? "No" : "Yes"); cw_cli(fd, " Call to non-local dom.: %s\n", allow_external_domains ? "Yes" : "No"); cw_cli(fd, " URI user is phone no: %s\n", cw_test_flag(&global_flags, SIP_USEREQPHONE) ? "Yes" : "No"); cw_cli(fd, " Our auth realm %s\n", global_realm); cw_cli(fd, " Realm. auth: %s\n", authl ? "Yes": "No"); cw_cli(fd, " User Agent: %s\n", default_useragent); cw_cli(fd, " MWI checking interval: %d secs\n", global_mwitime); cw_cli(fd, " Reg. context: %s\n", cw_strlen_zero(regcontext) ? "(not set)" : regcontext); cw_cli(fd, " Caller ID: %s\n", default_callerid); cw_cli(fd, " From: Domain: %s\n", default_fromdomain); cw_cli(fd, " Record SIP history: %s\n", recordhistory ? "On" : "Off"); cw_cli(fd, " Call Events: %s\n", callevents ? "On" : "Off"); cw_cli(fd, " IP ToS: 0x%x\n", tos); cw_cli(fd, " OSP Support: No\n"); // Removed OSP support completely. 080528. mm_202. if (!realtimepeers && !realtimeusers) cw_cli(fd, " SIP realtime: Disabled\n" ); else cw_cli(fd, " SIP realtime: Enabled\n" ); cw_cli(fd, "\nGlobal Signalling Settings:\n"); cw_cli(fd, "---------------------------\n"); cw_cli(fd, " Codecs: "); print_codec_to_cli(fd, &prefs); cw_cli(fd, "\n"); cw_cli(fd, " Relax DTMF: %s\n", relaxdtmf ? "Yes" : "No"); cw_cli(fd, " Compact SIP headers: %s\n", compactheaders ? "Yes" : "No"); cw_cli(fd, " RTP Timeout: %d %s\n", global_rtptimeout, global_rtptimeout ? "" : "(Disabled)" ); cw_cli(fd, " RTP Hold Timeout: %d %s\n", global_rtpholdtimeout, global_rtpholdtimeout ? "" : "(Disabled)"); cw_cli(fd, " MWI NOTIFY mime type: %s\n", default_notifymime); cw_cli(fd, " DNS SRV lookup: %s\n", srvlookup ? "Yes" : "No"); cw_cli(fd, " Pedantic SIP support: %s\n", pedanticsipchecking ? "Yes" : "No"); cw_cli(fd, " Reg. max duration: %d secs\n", max_expiry); cw_cli(fd, " Reg. default duration: %d secs\n", default_expiry); cw_cli(fd, " Outbound reg. timeout: %d secs\n", global_reg_timeout); cw_cli(fd, " Outbound reg. attempts: %d\n", global_regattempts_max); cw_cli(fd, " Notify ringing state: %s\n", global_notifyringing ? "Yes" : "No"); cw_cli(fd, "\nDefault Settings:\n"); cw_cli(fd, "-----------------\n"); cw_cli(fd, " Context: %s\n", default_context); cw_cli(fd, " Nat: %s\n", nat2str(cw_test_flag(&global_flags, SIP_NAT))); cw_cli(fd, " DTMF: %s\n", dtmfmode2str(cw_test_flag(&global_flags, SIP_DTMF))); cw_cli(fd, " Qualify: %d\n", default_qualify); cw_cli(fd, " Use ClientCode: %s\n", cw_test_flag(&global_flags, SIP_USECLIENTCODE) ? "Yes" : "No"); cw_cli(fd, " Progress inband: %s\n", (cw_test_flag(&global_flags, SIP_PROG_INBAND) == SIP_PROG_INBAND_NEVER) ? "Never" : (cw_test_flag(&global_flags, SIP_PROG_INBAND) == SIP_PROG_INBAND_NO) ? "No" : "Yes" ); cw_cli(fd, " Language: %s\n", cw_strlen_zero(default_language) ? "(Defaults to English)" : default_language); cw_cli(fd, " Musicclass: %s\n", global_musicclass); cw_cli(fd, " Voice Mail Extension: %s\n", global_vmexten); if (realtimepeers || realtimeusers) { cw_cli(fd, "\nRealtime SIP Settings:\n"); cw_cli(fd, "----------------------\n"); cw_cli(fd, " Realtime Peers: %s\n", realtimepeers ? "Yes" : "No"); cw_cli(fd, " Realtime Users: %s\n", realtimeusers ? "Yes" : "No"); cw_cli(fd, " Cache Friends: %s\n", cw_test_flag(&global_flags_page2, SIP_PAGE2_RTCACHEFRIENDS) ? "Yes" : "No"); cw_cli(fd, " Update: %s\n", cw_test_flag(&global_flags_page2, SIP_PAGE2_RTUPDATE) ? "Yes" : "No"); cw_cli(fd, " Ignore Reg. Expire: %s\n", cw_test_flag(&global_flags_page2, SIP_PAGE2_IGNOREREGEXPIRE) ? "Yes" : "No"); cw_cli(fd, " Auto Clear: %d\n", global_rtautoclear); } cw_cli(fd, "\n----\n"); return RESULT_SUCCESS; } /*! \brief subscription_type2str: Show subscription type in string format */ static const char *subscription_type2str(enum subscriptiontype subtype) { int i; for (i = 1; (i < (sizeof(subscription_types) / sizeof(subscription_types[0]))); i++) { if (subscription_types[i].type == subtype) { return subscription_types[i].text; } } return subscription_types[0].text; } /*! \brief find_subscription_type: Find subscription type in array */ static const struct cfsubscription_types *find_subscription_type(enum subscriptiontype subtype) { int i; for (i = 1; (i < (sizeof(subscription_types) / sizeof(subscription_types[0]))); i++) { if (subscription_types[i].type == subtype) { return &subscription_types[i]; } } return &subscription_types[0]; } /* Forward declaration */ static int __sip_show_channels(int fd, int argc, char *argv[], int subscriptions); /*! \brief sip_show_channels: Show active SIP channels */ static int sip_show_channels(int fd, int argc, char *argv[]) { return __sip_show_channels(fd, argc, argv, 0); } /*! \brief sip_show_subscriptions: Show active SIP subscriptions */ static int sip_show_subscriptions(int fd, int argc, char *argv[]) { return __sip_show_channels(fd, argc, argv, 1); } static int __sip_show_channels(int fd, int argc, char *argv[], int subscriptions) { #define FORMAT3 "%-15.15s %-10.10s %-11.11s %-15.15s %-13.13s %-15.15s\n" #define FORMAT2 "%-15.15s %-10.10s %-11.11s %-11.11s %-4.4s %-7.7s %-15.15s\n" #define FORMAT "%-15.15s %-10.10s %-11.11s %5.5d/%5.5d %-4.4s %-3.3s %-3.3s %-15.15s\n" struct sip_pvt *cur; char iabuf[INET_ADDRSTRLEN]; int numchans = 0; if (argc != 3) return RESULT_SHOWUSAGE; cw_mutex_lock(&iflock); cur = iflist; if (!subscriptions) cw_cli(fd, FORMAT2, "Peer", "User/ANR", "Call ID", "Seq (Tx/Rx)", "Format", "Hold", "Last Message"); else cw_cli(fd, FORMAT3, "Peer", "User", "Call ID", "Extension", "Last state", "Type"); while (cur) { if (cur->subscribed == NONE && !subscriptions) { cw_cli(fd, FORMAT, cw_inet_ntoa(iabuf, sizeof(iabuf), cur->sa.sin_addr), cw_strlen_zero(cur->username) ? ( cw_strlen_zero(cur->cid_num) ? "(None)" : cur->cid_num ) : cur->username, cur->callid, cur->ocseq, cur->icseq, (cur->t38state == SIP_T38_NEGOTIATED ? "T38" : cw_getformatname(cur->owner ? cur->owner->nativeformats : 0)), cw_test_flag(cur, SIP_CALL_ONHOLD) ? "Yes" : "No", cw_test_flag(cur, SIP_NEEDDESTROY) ? "(d)" : "", cur->lastmsg ); numchans++; } if (cur->subscribed != NONE && subscriptions) { cw_cli(fd, FORMAT3, cw_inet_ntoa(iabuf, sizeof(iabuf), cur->sa.sin_addr), cw_strlen_zero(cur->username) ? ( cw_strlen_zero(cur->cid_num) ? "(None)" : cur->cid_num ) : cur->username, cur->callid, cur->exten, cw_extension_state2str(cur->laststate), subscription_type2str(cur->subscribed)); numchans++; } cur = cur->next; } cw_mutex_unlock(&iflock); if (!subscriptions) cw_cli(fd, "%d active SIP channel%s\n", numchans, (numchans != 1) ? "s" : ""); else cw_cli(fd, "%d active SIP subscription%s\n", numchans, (numchans != 1) ? "s" : ""); return RESULT_SUCCESS; #undef FORMAT #undef FORMAT2 #undef FORMAT3 } /*! \brief complete_sipch: Support routine for 'sip show channel' CLI */ static char *complete_sipch(char *line, char *word, int pos, int state) { int which=0; struct sip_pvt *cur; char *c = NULL; cw_mutex_lock(&iflock); cur = iflist; while (cur) { if (!strncasecmp(word, cur->callid, strlen(word))) { if (++which > state) { c = strdup(cur->callid); break; } } cur = cur->next; } cw_mutex_unlock(&iflock); return c; } /*! \brief complete_sip_peer: Do completion on peer name */ static char *complete_sip_peer(char *word, int state, int flags2) { char *result = NULL; int wordlen = strlen(word); int which = 0; CWOBJ_CONTAINER_TRAVERSE(&peerl, !result, do { /* locking of the object is not required because only the name and flags are being compared */ if (!strncasecmp(word, iterator->name, wordlen)) { if (flags2 && !cw_test_flag((&iterator->flags_page2), flags2)) continue; if (++which > state) { result = strdup(iterator->name); } } } while(0) ); return result; } /*! \brief complete_sip_show_peer: Support routine for 'sip show peer' CLI */ static char *complete_sip_show_peer(char *line, char *word, int pos, int state) { if (pos == 3) return complete_sip_peer(word, state, 0); return NULL; } /*! \brief complete_sip_debug_peer: Support routine for 'sip debug peer' CLI */ static char *complete_sip_debug_peer(char *line, char *word, int pos, int state) { if (pos == 3) return complete_sip_peer(word, state, 0); return NULL; } /*! \brief complete_sip_user: Do completion on user name */ static char *complete_sip_user(char *word, int state, int flags2) { char *result = NULL; int wordlen = strlen(word); int which = 0; CWOBJ_CONTAINER_TRAVERSE(&userl, !result, do { /* locking of the object is not required because only the name and flags are being compared */ if (!strncasecmp(word, iterator->name, wordlen)) { if (flags2 && !cw_test_flag(&(iterator->flags_page2), flags2)) continue; if (++which > state) { result = strdup(iterator->name); } } } while(0) ); return result; } /*! \brief complete_sip_show_user: Support routine for 'sip show user' CLI */ static char *complete_sip_show_user(char *line, char *word, int pos, int state) { if (pos == 3) return complete_sip_user(word, state, 0); return NULL; } /*! \brief complete_sipnotify: Support routine for 'sip notify' CLI */ static char *complete_sipnotify(char *line, char *word, int pos, int state) { char *c = NULL; if (pos == 2) { int which = 0; char *cat; /* do completion for notify type */ if (!notify_types) return NULL; cat = cw_category_browse(notify_types, NULL); while (cat) { if (!strncasecmp(word, cat, strlen(word))) { if (++which > state) { c = strdup(cat); break; } } cat = cw_category_browse(notify_types, cat); } return c; } if (pos > 2) return complete_sip_peer(word, state, 0); return NULL; } /*! \brief complete_sip_prune_realtime_peer: Support routine for 'sip prune realtime peer' CLI */ static char *complete_sip_prune_realtime_peer(char *line, char *word, int pos, int state) { if (pos == 4) return complete_sip_peer(word, state, SIP_PAGE2_RTCACHEFRIENDS); return NULL; } /*! \brief complete_sip_prune_realtime_user: Support routine for 'sip prune realtime user' CLI */ static char *complete_sip_prune_realtime_user(char *line, char *word, int pos, int state) { if (pos == 4) return complete_sip_user(word, state, SIP_PAGE2_RTCACHEFRIENDS); return NULL; } /*! \brief sip_show_channel: Show details of one call */ static int sip_show_channel(int fd, int argc, char *argv[]) { struct sip_pvt *cur; char iabuf[INET_ADDRSTRLEN]; size_t len; int found = 0; if (argc != 4) return RESULT_SHOWUSAGE; len = strlen(argv[3]); cw_mutex_lock(&iflock); cur = iflist; while (cur) { if (!strncasecmp(cur->callid, argv[3],len)) { cw_cli(fd,"\n"); if (cur->subscribed != NONE) cw_cli(fd, " * Subscription (type: %s)\n", subscription_type2str(cur->subscribed)); else cw_cli(fd, " * SIP Call\n"); cw_cli(fd, " Direction: %s\n", cw_test_flag(cur, SIP_OUTGOING)?"Outgoing":"Incoming"); cw_cli(fd, " Call-ID: %s\n", cur->callid); cw_cli(fd, " Our Codec Capability: %d\n", cur->capability); cw_cli(fd, " Non-Codec Capability: %d\n", cur->noncodeccapability); cw_cli(fd, " Their Codec Capability: %d\n", cur->peercapability); cw_cli(fd, " Joint Codec Capability: %d\n", cur->jointcapability); cw_cli(fd, " Format %s\n", cw_getformatname(cur->owner ? cur->owner->nativeformats : 0) ); cw_cli(fd, " Theoretical Address: %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), cur->sa.sin_addr), ntohs(cur->sa.sin_port)); cw_cli(fd, " Received Address: %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), cur->recv.sin_addr), ntohs(cur->recv.sin_port)); cw_cli(fd, " NAT Support: %s\n", nat2str(cw_test_flag(cur, SIP_NAT))); cw_cli(fd, " Audio IP: %s %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), cur->redirip.sin_addr.s_addr ? cur->redirip.sin_addr : cur->ourip), cur->redirip.sin_addr.s_addr ? "(Outside bridge)" : "(local)" ); cw_cli(fd, " Our Tag: %s\n", cur->tag); cw_cli(fd, " Their Tag: %s\n", cur->theirtag); cw_cli(fd, " SIP User agent: %s\n", cur->useragent); if (!cw_strlen_zero(cur->username)) cw_cli(fd, " Username: %s\n", cur->username); if (!cw_strlen_zero(cur->peername)) cw_cli(fd, " Peername: %s\n", cur->peername); if (!cw_strlen_zero(cur->uri)) cw_cli(fd, " Original uri: %s\n", cur->uri); if (!cw_strlen_zero(cur->cid_num)) cw_cli(fd, " Caller-ID: %s\n", cur->cid_num); cw_cli(fd, " Need Destroy: %d\n", cw_test_flag(cur, SIP_NEEDDESTROY)); cw_cli(fd, " Last Message: %s\n", cur->lastmsg); cw_cli(fd, " Promiscuous Redir: %s\n", cw_test_flag(cur, SIP_PROMISCREDIR) ? "Yes" : "No"); cw_cli(fd, " Route: %s\n", cur->route ? cur->route->hop : "N/A"); cw_cli(fd, " T38 State: %d\n", cur->t38state); cw_cli(fd, " DTMF Mode: %s\n", dtmfmode2str(cw_test_flag(cur, SIP_DTMF))); cw_cli(fd, " On HOLD: %s\n", cw_test_flag(cur, SIP_CALL_ONHOLD) ? "Yes" : "No" ); cw_cli(fd, " SIP Options: "); if (cur->sipoptions) { int x; for (x=0 ; (x < (sizeof(sip_options) / sizeof(sip_options[0]))); x++) { if (cur->sipoptions & sip_options[x].id) cw_cli(fd, "%s ", sip_options[x].text); } } else cw_cli(fd, "(none)\n"); cw_cli(fd, "\n\n"); found++; } cur = cur->next; } cw_mutex_unlock(&iflock); if (!found) cw_cli(fd, "No such SIP Call ID starting with '%s'\n", argv[3]); return RESULT_SUCCESS; } /*! \brief sip_show_history: Show history details of one call */ static int sip_show_history(int fd, int argc, char *argv[]) { struct sip_pvt *cur; struct sip_history *hist; size_t len; int x; int found = 0; if (argc != 4) return RESULT_SHOWUSAGE; if (!recordhistory) cw_cli(fd, "\n***Note: History recording is currently DISABLED. Use 'sip history' to ENABLE.\n"); len = strlen(argv[3]); cw_mutex_lock(&iflock); cur = iflist; while (cur) { if (!strncasecmp(cur->callid, argv[3], len)) { cw_cli(fd,"\n"); if (cur->subscribed != NONE) cw_cli(fd, " * Subscription\n"); else cw_cli(fd, " * SIP Call\n"); x = 0; hist = cur->history; while (hist) { x++; cw_cli(fd, "%d. %s\n", x, hist->event); hist = hist->next; } if (!x) cw_cli(fd, "Call '%s' has no history\n", cur->callid); found++; } cur = cur->next; } cw_mutex_unlock(&iflock); if (!found) cw_cli(fd, "No such SIP Call ID starting with '%s'\n", argv[3]); return RESULT_SUCCESS; } /*! \brief dump_history: Dump SIP history to debug log file at end of lifespan for SIP dialog */ void sip_dump_history(struct sip_pvt *dialog) { int x; struct sip_history *hist; if (!dialog) return; cw_log(LOG_DEBUG, "\n---------- SIP HISTORY for '%s' \n", dialog->callid); if (dialog->subscribed) cw_log(LOG_DEBUG, " * Subscription\n"); else cw_log(LOG_DEBUG, " * SIP Call\n"); x = 0; hist = dialog->history; while (hist) { x++; cw_log(LOG_DEBUG, " %d. %s\n", x, hist->event); hist = hist->next; } if (!x) cw_log(LOG_DEBUG, "Call '%s' has no history\n", dialog->callid); cw_log(LOG_DEBUG, "\n---------- END SIP HISTORY for '%s' \n", dialog->callid); } /*! \brief handle_request_info: Receive SIP INFO Message */ /* Doesn't read the duration of the DTMF signal */ static void handle_request_info(struct sip_pvt *p, struct sip_request *req) { char buf[1024]; unsigned int event; char *c; /* Need to check the media/type */ if (!strcasecmp(get_header(req, "Content-Type"), "application/dtmf-relay") || !strcasecmp(get_header(req, "Content-Type"), "application/vnd.nortelnetworks.digits")) { /* Try getting the "signal=" part */ if (cw_strlen_zero(c = get_sdp(req, "Signal")) && cw_strlen_zero(c = get_body(req, "d"))) { cw_log(LOG_WARNING, "Unable to retrieve DTMF signal from INFO message from %s\n", p->callid); transmit_response(p, "200 OK", req); /* Should return error */ return; } else { cw_copy_string(buf, c, sizeof(buf)); } if (!p->owner) { /* not a PBX call */ transmit_response(p, "481 Call leg/transaction does not exist", req); cw_set_flag(p, SIP_NEEDDESTROY); return; } if (cw_strlen_zero(buf)) { transmit_response(p, "200 OK", req); return; } if (sipdebug && option_verbose > 2) cw_verbose("* DTMF-relay event received: '%c'\n", buf[0]); if (buf[0] == '*') event = 10; else if (buf[0] == '#') event = 11; else if ((buf[0] >= 'A') && (buf[0] <= 'D')) event = 12 + buf[0] - 'A'; else if (buf[0] == '!') event = 16; else event = atoi(buf); if (event == 16) { /* send a FLASH event */ struct cw_frame f = { CW_FRAME_CONTROL, CW_CONTROL_FLASH, }; cw_queue_frame(p->owner, &f); if (sipdebug && option_verbose > 2) cw_verbose("* DTMF-relay event received: FLASH\n"); } else { /* send a DTMF event */ struct cw_frame f = { CW_FRAME_DTMF, }; if (event < 10) { f.subclass = '0' + event; } else if (event < 11) { f.subclass = '*'; } else if (event < 12) { f.subclass = '#'; } else if (event < 16) { f.subclass = 'A' + (event - 12); } cw_queue_frame(p->owner, &f); if (sipdebug && option_verbose > 2) cw_verbose("* DTMF-relay event received: %c\n", f.subclass); } transmit_response(p, "200 OK", req); return; } else if (!strcasecmp(get_header(req, "Content-Type"), "application/media_control+xml")) { /* Eh, we'll just assume it's a fast picture update for now */ if (p->owner) cw_queue_control(p->owner, CW_CONTROL_VIDUPDATE); transmit_response(p, "200 OK", req); return; } else if ((c = get_header(req, "X-ClientCode"))) { /* Client code (from SNOM phone) */ if (cw_test_flag(p, SIP_USECLIENTCODE)) { if (p->owner && p->owner->cdr) cw_cdr_setuserfield(p->owner, c); if (p->owner && cw_bridged_channel(p->owner) && cw_bridged_channel(p->owner)->cdr) cw_cdr_setuserfield(cw_bridged_channel(p->owner), c); transmit_response(p, "200 OK", req); } else if (strcasecmp(get_header(req, "Content-Length"), "0") == 0) { transmit_response(p, "200 OK", req); return; } else { transmit_response(p, "403 Unauthorized", req); } return; } /* Other type of INFO message, not really understood by CallWeaver */ cw_log(LOG_WARNING, "Unable to parse INFO message from %s. Content %s\n", p->callid, buf); transmit_response(p, "415 Unsupported media type", req); return; } /*! \brief sip_do_debug: Enable SIP Debugging in CLI */ static int sip_do_debug_ip(int fd, int argc, char *argv[]) { struct hostent *hp; struct cw_hostent ahp; char iabuf[INET_ADDRSTRLEN]; int port = 0; char *p, *arg; if (argc != 4) return RESULT_SHOWUSAGE; arg = argv[3]; p = strstr(arg, ":"); if (p) { *p = '\0'; p++; port = atoi(p); } if ((hp = cw_gethostbyname(arg, &ahp)) == NULL) return RESULT_SHOWUSAGE; debugaddr.sin_family = AF_INET; memcpy(&debugaddr.sin_addr, hp->h_addr, sizeof(debugaddr.sin_addr)); debugaddr.sin_port = htons(port); if (port == 0) cw_cli(fd, "SIP Debugging Enabled for IP: %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), debugaddr.sin_addr)); else cw_cli(fd, "SIP Debugging Enabled for IP: %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), debugaddr.sin_addr), port); sipdebug |= SIP_DEBUG_CONSOLE; return RESULT_SUCCESS; } /*! \brief sip_do_debug_peer: Turn on SIP debugging with peer mask */ static int sip_do_debug_peer(int fd, int argc, char *argv[]) { struct sip_peer *peer; char iabuf[INET_ADDRSTRLEN]; if (argc != 4) return RESULT_SHOWUSAGE; peer = find_peer(argv[3], NULL, 1); if (peer) { if (peer->addr.sin_addr.s_addr) { debugaddr.sin_family = AF_INET; memcpy(&debugaddr.sin_addr, &peer->addr.sin_addr, sizeof(debugaddr.sin_addr)); debugaddr.sin_port = peer->addr.sin_port; cw_cli(fd, "SIP Debugging Enabled for IP: %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), debugaddr.sin_addr), ntohs(debugaddr.sin_port)); sipdebug |= SIP_DEBUG_CONSOLE; } else cw_cli(fd, "Unable to get IP address of peer '%s'\n", argv[3]); CWOBJ_UNREF(peer,sip_destroy_peer); } else cw_cli(fd, "No such peer '%s'\n", argv[3]); return RESULT_SUCCESS; } /*! \brief sip_do_debug: Turn on SIP debugging (CLI command) */ static int sip_do_debug(int fd, int argc, char *argv[]) { int oldsipdebug = sipdebug & SIP_DEBUG_CONSOLE; if (argc != 2) { if (argc != 4) return RESULT_SHOWUSAGE; else if (strncmp(argv[2], "ip\0", 3) == 0) return sip_do_debug_ip(fd, argc, argv); else if (strncmp(argv[2], "peer\0", 5) == 0) return sip_do_debug_peer(fd, argc, argv); else return RESULT_SHOWUSAGE; } sipdebug |= SIP_DEBUG_CONSOLE; memset(&debugaddr, 0, sizeof(debugaddr)); if (oldsipdebug) cw_cli(fd, "SIP Debugging re-enabled\n"); else cw_cli(fd, "SIP Debugging enabled\n"); return RESULT_SUCCESS; } /*! \brief sip_notify: Send SIP notify to peer */ static int sip_notify(int fd, int argc, char *argv[]) { struct cw_variable *varlist; regex_t regexbuf; int havepattern = 0; int i; if (argc < 4) return RESULT_SHOWUSAGE; if (!notify_types) { cw_cli(fd, "No %s file found, or no types listed there\n", notify_config); return RESULT_FAILURE; } varlist = cw_variable_browse(notify_types, argv[2]); if (!varlist) { cw_cli(fd, "Unable to find notify type '%s'\n", argv[2]); return RESULT_FAILURE; } if (!strcasecmp(argv[3], "like")) { if (argc <= 4 || regcomp(®exbuf, argv[4], REG_EXTENDED | REG_NOSUB)) return RESULT_SHOWUSAGE; havepattern = 1; } int found; CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, do { CWOBJ_RDLOCK(iterator); if (havepattern && regexec(®exbuf, iterator->name, 0, NULL, 0)) { CWOBJ_UNLOCK(iterator); continue; } else if (!havepattern) { found = 0; for(i = 3; i < argc; i++) { if (!strcasecmp(argv[i], iterator->name)) { found = 1; } } if (found == 0) { CWOBJ_UNLOCK(iterator); continue; } } struct sip_pvt *p; struct sip_request req; struct cw_variable *var; p = sip_alloc(NULL, NULL, 0, SIP_NOTIFY); if (!p) { cw_log(LOG_WARNING, "Unable to build sip pvt data for notify\n"); CWOBJ_UNLOCK(iterator); continue; } if (create_addr(p, iterator->name)) { /* Maybe they're not registered, etc. */ sip_destroy(p); cw_cli(fd, "Could not create address for '%s'\n", iterator->name); CWOBJ_UNLOCK(iterator); continue; } initreqprep(&req, p, SIP_NOTIFY); for (var = varlist; var; var = var->next) add_header(&req, var->name, var->value, SIP_DL_DONTCARE); add_blank_header(&req); /* Recalculate our side, and recalculate Call ID */ if (cw_sip_ouraddrfor(&p->sa.sin_addr, &p->ourip,p)) memcpy(&p->ourip, &__ourip, sizeof(p->ourip)); build_via(p, p->via, sizeof(p->via)); build_callid(p->callid, sizeof(p->callid), p->ourip, p->fromdomain); cw_cli(fd, "Sending NOTIFY of type '%s' to '%s'\n", argv[2], iterator->name); transmit_sip_request(p, &req); sip_scheddestroy(p, 15000); CWOBJ_UNLOCK(iterator); } while(0) ); if (havepattern) regfree(®exbuf); return RESULT_SUCCESS; } /*! \brief sip_do_history: Enable SIP History logging (CLI) */ static int sip_do_history(int fd, int argc, char *argv[]) { if (argc != 2) { return RESULT_SHOWUSAGE; } recordhistory = 1; cw_cli(fd, "SIP History Recording Enabled (use 'sip show history')\n"); return RESULT_SUCCESS; } /*! \brief sip_no_history: Disable SIP History logging (CLI) */ static int sip_no_history(int fd, int argc, char *argv[]) { if (argc != 3) { return RESULT_SHOWUSAGE; } recordhistory = 0; cw_cli(fd, "SIP History Recording Disabled\n"); return RESULT_SUCCESS; } /*! \brief sip_no_debug: Disable SIP Debugging in CLI */ static int sip_no_debug(int fd, int argc, char *argv[]) { if (argc != 3) return RESULT_SHOWUSAGE; sipdebug &= ~SIP_DEBUG_CONSOLE; cw_cli(fd, "SIP Debugging Disabled\n"); return RESULT_SUCCESS; } static int reply_digest(struct sip_pvt *p, struct sip_request *req, char *header, int sipmethod, char *digest, int digest_len); /*! \brief do_register_auth: Authenticate for outbound registration */ static int do_register_auth(struct sip_pvt *p, struct sip_request *req, char *header, char *respheader) { char digest[1024]; p->authtries++; memset(digest,0,sizeof(digest)); if (reply_digest(p, req, header, SIP_REGISTER, digest, sizeof(digest))) { /* There's nothing to use for authentication */ /* No digest challenge in request */ if (sip_debug_test_pvt(p) && p->registry) cw_verbose("No authentication challenge, sending blank registration to domain/host name %s\n", p->registry->hostname); /* No old challenge */ return -1; } if (recordhistory) { char tmp[80]; snprintf(tmp, sizeof(tmp), "Try: %d", p->authtries); append_history(p, "RegistryAuth", tmp); } if (sip_debug_test_pvt(p) && p->registry) cw_verbose("Responding to challenge, registration to domain/host name %s\n", p->registry->hostname); return transmit_register(p->registry, SIP_REGISTER, digest, respheader); } /*! \brief do_proxy_auth: Add authentication on outbound SIP packet */ static int do_proxy_auth(struct sip_pvt *p, struct sip_request *req, char *header, char *respheader, int sipmethod, int init) { char digest[1024]; if (!p->options) { p->options = calloc(1, sizeof(struct sip_invite_param)); if (!p->options) { cw_log(LOG_ERROR, "Out of memory\n"); return -2; } } p->authtries++; if (option_debug > 1) cw_log(LOG_DEBUG, "Auth attempt %d on %s\n", p->authtries, sip_methods[sipmethod].text); memset(digest, 0, sizeof(digest)); if (reply_digest(p, req, header, sipmethod, digest, sizeof(digest) )) { /* No way to authenticate */ return -1; } /* Now we have a reply digest */ p->options->auth = digest; p->options->authheader = respheader; return transmit_invite(p, sipmethod, sipmethod == SIP_INVITE, init); } /*! \brief reply_digest: reply to authentication for outbound registrations */ /* This is used for register= servers in sip.conf, SIP proxies we register with for receiving calls from. */ /* Returns -1 if we have no auth */ static int reply_digest(struct sip_pvt *p, struct sip_request *req, char *header, int sipmethod, char *digest, int digest_len) { char tmp[512]; char *c; char oldnonce[256]; /* table of recognised keywords, and places where they should be copied */ const struct x { const char *key; char *dst; int dstlen; } *i, keys[] = { { "realm=", p->realm, sizeof(p->realm) }, { "nonce=", p->nonce, sizeof(p->nonce) }, { "opaque=", p->opaque, sizeof(p->opaque) }, { "qop=", p->qop, sizeof(p->qop) }, { "domain=", p->domain, sizeof(p->domain) }, { NULL, NULL, 0 }, }; cw_copy_string(tmp, get_header(req, header), sizeof(tmp)); if (cw_strlen_zero(tmp)) return -1; if (strncasecmp(tmp, "Digest ", strlen("Digest "))) { cw_log(LOG_WARNING, "missing Digest.\n"); return -1; } c = tmp + strlen("Digest "); for (i = keys; i->key != NULL; i++) i->dst[0] = '\0'; /* init all to empty strings */ cw_copy_string(oldnonce, p->nonce, sizeof(oldnonce)); while (c && *(c = cw_skip_blanks(c))) { /* lookup for keys */ for (i = keys; i->key != NULL; i++) { char *src, *separator; if (strncasecmp(c, i->key, strlen(i->key)) != 0) continue; /* Found. Skip keyword, take text in quotes or up to the separator. */ c += strlen(i->key); if (*c == '\"') { src = ++c; separator = "\""; } else { src = c; separator = ","; } strsep(&c, separator); /* clear separator and move ptr */ cw_copy_string(i->dst, src, i->dstlen); break; } if (i->key == NULL) /* not found, try ',' */ strsep(&c, ","); } /* Reset nonce count */ if (strcmp(p->nonce, oldnonce)) p->noncecount = 0; /* Save auth data for following registrations */ if (p->registry) { struct sip_registry *r = p->registry; if (strcmp(r->nonce, p->nonce)) { cw_copy_string(r->realm, p->realm, sizeof(r->realm)); cw_copy_string(r->nonce, p->nonce, sizeof(r->nonce)); cw_copy_string(r->domain, p->domain, sizeof(r->domain)); cw_copy_string(r->opaque, p->opaque, sizeof(r->opaque)); cw_copy_string(r->qop, p->qop, sizeof(r->qop)); r->noncecount = 0; } } return build_reply_digest(p, sipmethod, digest, digest_len); } /*! \brief build_reply_digest: Build reply digest */ /* Build digest challenge for authentication of peers (for registration) and users (for calls). Also used for authentication of CANCEL and BYE */ /* Returns -1 if we have no auth */ static int build_reply_digest(struct sip_pvt *p, int method, char* digest, int digest_len) { char a1[256]; char a2[256]; char a1_hash[256]; char a2_hash[256]; char resp[256]; char resp_hash[256]; char uri[256]; char cnonce[80]; char iabuf[INET_ADDRSTRLEN]; char *username; char *secret; char *md5secret; struct sip_auth *auth = (struct sip_auth *) NULL; /* Realm authentication */ if (!cw_strlen_zero(p->domain)) cw_copy_string(uri, p->domain, sizeof(uri)); else if (!cw_strlen_zero(p->uri)) cw_copy_string(uri, p->uri, sizeof(uri)); else snprintf(uri, sizeof(uri), "sip:%s@%s",p->username, cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr)); snprintf(cnonce, sizeof(cnonce), "%08x", thread_safe_cw_random()); /* Check if we have separate auth credentials */ if ((auth = find_realm_authentication(authl, p->realm))) { username = auth->username; secret = auth->secret; md5secret = auth->md5secret; if (sipdebug) cw_log(LOG_DEBUG,"Using realm %s authentication for call %s\n", p->realm, p->callid); } else { /* No authentication, use peer or register= config */ username = p->authname; secret = p->peersecret; md5secret = p->peermd5secret; } if (cw_strlen_zero(username)) /* We have no authentication */ return -1; /* Calculate SIP digest response */ snprintf(a1,sizeof(a1),"%s:%s:%s", username, p->realm, secret); snprintf(a2,sizeof(a2),"%s:%s", sip_methods[method].text, uri); if (!cw_strlen_zero(md5secret)) cw_copy_string(a1_hash, md5secret, sizeof(a1_hash)); else cw_md5_hash(a1_hash,a1); cw_md5_hash(a2_hash,a2); p->noncecount++; if (!cw_strlen_zero(p->qop)) snprintf(resp,sizeof(resp),"%s:%s:%08x:%s:%s:%s", a1_hash, p->nonce, p->noncecount, cnonce, "auth", a2_hash); else snprintf(resp,sizeof(resp),"%s:%s:%s", a1_hash, p->nonce, a2_hash); cw_md5_hash(resp_hash, resp); /* XXX We hard code our qop to "auth" for now. XXX */ if (!cw_strlen_zero(p->qop)) snprintf(digest, digest_len, "Digest username=\"%s\", realm=\"%s\", algorithm=MD5, uri=\"%s\", nonce=\"%s\", response=\"%s\", opaque=\"%s\", qop=auth, cnonce=\"%s\", nc=%08x", username, p->realm, uri, p->nonce, resp_hash, p->opaque, cnonce, p->noncecount); else snprintf(digest, digest_len, "Digest username=\"%s\", realm=\"%s\", algorithm=MD5, uri=\"%s\", nonce=\"%s\", response=\"%s\", opaque=\"%s\"", username, p->realm, uri, p->nonce, resp_hash, p->opaque); return 0; } static char show_domains_usage[] = "Usage: sip show domains\n" " Lists all configured SIP local domains.\n" " CallWeaver only responds to SIP messages to local domains.\n"; static char notify_usage[] = "Usage: sip notify [...|like ]\n" " Send a NOTIFY message to a SIP peer or peers\n" " Message types are defined in sip_notify.conf\n"; static char show_users_usage[] = "Usage: sip show users [like ]\n" " Lists all known SIP users.\n" " Optional regular expression pattern is used to filter the user list.\n"; static char show_user_usage[] = "Usage: sip show user [load]\n" " Lists all details on one SIP user and the current status.\n" " Option \"load\" forces lookup of peer in realtime storage.\n"; #ifdef ENABLE_SIP_CALL_LIMIT static char show_inuse_usage[] = "Usage: sip show inuse [all]\n" " List all SIP users and peers usage counters and limits.\n" " Add option \"all\" to show all devices, not only those with a limit.\n"; #endif static char show_channels_usage[] = "Usage: sip show channels\n" " Lists all currently active SIP channels.\n"; static char show_channel_usage[] = "Usage: sip show channel \n" " Provides detailed status on a given SIP channel.\n"; static char show_history_usage[] = "Usage: sip show history \n" " Provides detailed dialog history on a given SIP channel.\n"; static char show_peers_usage[] = "Usage: sip show peers [like ]\n" " Lists all known SIP peers.\n" " Optional regular expression pattern is used to filter the peer list.\n"; static char show_peer_usage[] = "Usage: sip show peer [load]\n" " Lists all details on one SIP peer and the current status.\n" " Option \"load\" forces lookup of peer in realtime storage.\n"; static char prune_realtime_usage[] = "Usage: sip prune realtime [peer|user] [|all|like ]\n" " Prunes object(s) from the cache.\n" " Optional regular expression pattern is used to filter the objects.\n"; static char show_reg_usage[] = "Usage: sip show registry\n" " Lists all registration requests and status.\n"; static char debug_usage[] = "Usage: sip debug\n" " Enables dumping of SIP packets for debugging purposes\n\n" " sip debug ip \n" " Enables dumping of SIP packets to and from host.\n\n" " sip debug peer \n" " Enables dumping of SIP packets to and from host.\n" " Require peer to be registered.\n"; static char no_debug_usage[] = "Usage: sip no debug\n" " Disables dumping of SIP packets for debugging purposes\n"; static char no_history_usage[] = "Usage: sip no history\n" " Disables recording of SIP dialog history for debugging purposes\n"; static char history_usage[] = "Usage: sip history\n" " Enables recording of SIP dialog history for debugging purposes.\n" "Use 'sip show history' to view the history of a call number.\n"; static char sip_reload_usage[] = "Usage: sip reload\n" " Reloads SIP configuration from sip.conf\n"; static char show_subscriptions_usage[] = "Usage: sip show subscriptions\n" " Shows active SIP subscriptions for extension states\n"; static char show_objects_usage[] = "Usage: sip show objects\n" " Shows status of known SIP objects\n"; static char show_settings_usage[] = "Usage: sip show settings\n" " Provides detailed list of the configuration of the SIP channel.\n"; /*! \brief func_sipbuilddial_read: Read DIAL string based on regex (dialplan function) */ static char *func_sipbuilddial_read(struct cw_channel *chan, int argc, char **argv, char *buf, size_t len) { regex_t regexbuf; char data[1024]; if (regcomp(®exbuf, argv[0], REG_EXTENDED | REG_NOSUB)) { // Print Error return ""; } CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, do { CWOBJ_RDLOCK(iterator); if (regexec(®exbuf, iterator->name, 0, NULL, 0)) { CWOBJ_UNLOCK(iterator); continue; } cw_copy_string(data, buf, sizeof(data)); if (!cw_strlen_zero(data)) { snprintf(buf,len,"%s&SIP/%s",data,iterator->name); } else { snprintf(buf,len,"SIP/%s",iterator->name); } CWOBJ_UNLOCK(iterator); } while(0) ); regfree(®exbuf); return buf; } /*! \brief func_header_read: Read SIP header (dialplan function) */ static char *func_header_read(struct cw_channel *chan, int argc, char **argv, char *buf, size_t len) { struct sip_pvt *p; char *content; if (argc != 1 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", sipheader_func_syntax); return NULL; } cw_mutex_lock(&chan->lock); if (chan->type != channeltype) { cw_log(LOG_WARNING, "This function can only be used on SIP channels.\n"); cw_mutex_unlock(&chan->lock); return NULL; } p = chan->tech_pvt; /* If there is no private structure, this channel is no longer alive */ if (!p) { cw_mutex_unlock(&chan->lock); return NULL; } content = get_header(&p->initreq, argv[0]); if (cw_strlen_zero(content)) { cw_mutex_unlock(&chan->lock); return NULL; } cw_copy_string(buf, content, len); cw_mutex_unlock(&chan->lock); return buf; } /*! \brief function_check_sipdomain: Dial plan function to check if domain is local */ static char *func_check_sipdomain(struct cw_channel *chan, int argc, char **argv, char *buf, size_t len) { if (argc != 1 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", checksipdomain_func_syntax); return NULL; } if (check_sip_domain(argv[0], NULL, 0)) cw_copy_string(buf, argv[0], len); else buf[0] = '\0'; return buf; } /*! \brief function_sippeer: ${SIPPEER()} Dialplan function - reads peer data */ static char *function_sippeer(struct cw_channel *chan, int argc, char **argv, char *buf, size_t len) { char *ret = NULL; struct sip_peer *peer; char iabuf[INET_ADDRSTRLEN]; if (argc < 1 || argc > 2 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", sippeer_func_syntax); return NULL; } if (argc == 1) { /* As long as we have one argument argv[1] exists as well * and contains the terminating NULL. */ if ((argv[1] = strchr(argv[0], ':'))) { static int deprecated = 0; if (!deprecated) { cw_log(LOG_WARNING, "Syntax SIPPEER(peername:item) is deprecated. Use SIPPEER(peername, item) instead\n"); deprecated= 1; } *(argv[1]++) = '\0'; } else argv[1] = "ip"; } if (!(peer = find_peer(argv[0], NULL, 1))) return ret; if (!strcasecmp(argv[1], "ip")) { cw_copy_string(buf, peer->addr.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), peer->addr.sin_addr) : "", len); } else if (!strcasecmp(argv[1], "status")) { peer_status(peer, buf, len); } else if (!strcasecmp(argv[1], "language")) { cw_copy_string(buf, peer->language, len); } else if (!strcasecmp(argv[1], "regexten")) { cw_copy_string(buf, peer->regexten, len); } #ifdef ENABLE_SIP_CALL_LIMIT else if (!strcasecmp(argv[1], "limit")) { snprintf(buf, len, "%d", peer->call_limit); } #endif else if (!strcasecmp(argv[1], "curcalls")) { snprintf(buf, len, "%d", peer->inUse); } else if (!strcasecmp(argv[1], "useragent")) { cw_copy_string(buf, peer->useragent, len); } else if (!strcasecmp(argv[1], "mailbox")) { cw_copy_string(buf, peer->mailbox, len); } else if (!strcasecmp(argv[1], "context")) { cw_copy_string(buf, peer->context, len); } else if (!strcasecmp(argv[1], "expire")) { snprintf(buf, len, "%d", peer->expire); } else if (!strcasecmp(argv[1], "dynamic")) { cw_copy_string(buf, (cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC) ? "yes" : "no"), len); } else if (!strcasecmp(argv[1], "callerid_name")) { cw_copy_string(buf, peer->cid_name, len); } else if (!strcasecmp(argv[1], "callerid_num")) { cw_copy_string(buf, peer->cid_num, len); } else if (!strcasecmp(argv[1], "codecs")) { cw_getformatname_multiple(buf, len -1, peer->capability); } else if (!strncasecmp(argv[1], "codec[", 6)) { char *codecnum, *ptr; int index = 0, codec = 0; codecnum = strchr(argv[1], '['); *codecnum = '\0'; codecnum++; if ((ptr = strchr(codecnum, ']'))) { *ptr = '\0'; } index = atoi(codecnum); if ((codec = cw_codec_pref_index(&peer->prefs, index))) { cw_copy_string(buf, cw_getformatname(codec), len); } } ret = buf; CWOBJ_UNREF(peer, sip_destroy_peer); return ret; } static char *function_sippeervar(struct cw_channel *chan, int argc, char **argv, char *buf, size_t len) { struct sip_peer *peer; struct cw_variable *var; if (argc != 2 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", sippeervar_func_syntax); return NULL; } if (!buf || !(peer = find_peer(argv[0], NULL, 1))) return NULL; for (var = peer->chanvars; var; var = var->next) { if (!strcmp(var->name, argv[1])) { cw_copy_string(buf, var->value, len); break; } } CWOBJ_UNREF(peer, sip_destroy_peer); return buf; } /*! \brief function_sipchaninfo_read: ${SIPCHANINFO()} Dialplan function - reads sip channel data */ static char *function_sipchaninfo_read(struct cw_channel *chan, int argc, char **argv, char *buf, size_t len) { struct sip_pvt *p; char iabuf[INET_ADDRSTRLEN]; if (argc != 1 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", sipchaninfo_func_syntax); return NULL; } *buf = 0; cw_mutex_lock(&chan->lock); if (chan->type != channeltype) { cw_log(LOG_WARNING, "This function can only be used on SIP channels.\n"); cw_mutex_unlock(&chan->lock); return NULL; } /* cw_verbose("function_sipchaninfo_read: %s\n", argv[0]); */ p = chan->tech_pvt; /* If there is no private structure, this channel is no longer alive */ if (!p) { cw_mutex_unlock(&chan->lock); return NULL; } if (!strcasecmp(argv[0], "peerip")) { cw_copy_string(buf, p->sa.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr) : "", len); } else if (!strcasecmp(argv[0], "recvip")) { cw_copy_string(buf, p->recv.sin_addr.s_addr ? cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr) : "", len); } else if (!strcasecmp(argv[0], "from")) { cw_copy_string(buf, p->from, len); } else if (!strcasecmp(argv[0], "uri")) { cw_copy_string(buf, p->uri, len); } else if (!strcasecmp(argv[0], "useragent")) { cw_copy_string(buf, p->useragent, len); } else if (!strcasecmp(argv[0], "peername")) { cw_copy_string(buf, p->peername, len); } else { cw_mutex_unlock(&chan->lock); return NULL; } cw_mutex_unlock(&chan->lock); return buf; } /*! \brief parse_moved_contact: Parse 302 Moved temporalily response */ static void parse_moved_contact(struct sip_pvt *p, struct sip_request *req) { char tmp[256]; char *s, *e, *t; cw_copy_string(tmp, get_header(req, "Contact"), sizeof(tmp)); if ((t = strchr(tmp, ','))) *t = '\0'; s = get_in_brackets(tmp); e = strchr(s, ';'); if (e) *e = '\0'; if (cw_test_flag(p, SIP_PROMISCREDIR)) { if ( strncasecmp(s, "sip:", 4) == 0 ) { s += 4; } else if ( strncasecmp(s, "sips:", 5) == 0 ) { s += 5; } e = strchr(s, '/'); if (e) *e = '\0'; cw_log(LOG_DEBUG, "Found promiscuous redirection to 'SIP/%s'\n", s); if (p->owner) snprintf(p->owner->call_forward, sizeof(p->owner->call_forward), "SIP/%s", s); } else { e = strchr(tmp, '@'); if (e) *e = '\0'; e = strchr(tmp, '/'); if (e) *e = '\0'; if ( strncasecmp(s, "sip:", 4) == 0) { s += 4; } else if ( strncasecmp(s, "sips:", 5) == 0) { s += 5; } cw_log(LOG_DEBUG, "Found 302 Redirect to extension '%s'\n", s); if (p->owner) cw_copy_string(p->owner->call_forward, s, sizeof(p->owner->call_forward)); } } /*! \brief check_pendings: Check pending actions on SIP call */ static void check_pendings(struct sip_pvt *p) { /* Go ahead and send bye at this point */ if (cw_test_flag(p, SIP_PENDINGBYE)) { /* if we can't BYE, then this is really a pending CANCEL */ if (!cw_test_flag(p, SIP_CAN_BYE)) transmit_request_with_auth(p, SIP_CANCEL, p->ocseq, 1, 0); /* Actually don't destroy us yet, wait for the 487 on our original INVITE, but do set an autodestruct just in case we never get it. */ else transmit_request_with_auth(p, SIP_BYE, 0, 1, 1); cw_clear_flag(p, SIP_PENDINGBYE); sip_scheddestroy(p, 32000); //transmit_request_with_auth(p, SIP_BYE, 0, 1, 1); //cw_set_flag(p, SIP_NEEDDESTROY); //cw_clear_flag(p, SIP_NEEDREINVITE); } else if (cw_test_flag(p, SIP_NEEDREINVITE)) { cw_log(LOG_DEBUG, "Sending pending reinvite on '%s'\n", p->callid); /* Didn't get to reinvite yet, so do it now */ transmit_reinvite_with_sdp(p); cw_clear_flag(p, SIP_NEEDREINVITE); } } /*! \brief handle_response_invite: Handle SIP response in dialogue */ static void handle_response_invite(struct sip_pvt *p, int resp, char *rest, struct sip_request *req, int ignore, int seqno) { int outgoing = cw_test_flag(p, SIP_OUTGOING); if (option_debug > 3) { int reinvite = (p->owner && p->owner->_state == CW_STATE_UP); if (reinvite) cw_log(LOG_DEBUG, "SIP response %d to RE-invite on %s call %s\n", resp, outgoing ? "outgoing" : "incoming", p->callid); else cw_log(LOG_DEBUG, "SIP response %d to standard invite\n", resp); } if (cw_test_flag(p, SIP_ALREADYGONE)) { /* This call is already gone */ cw_log(LOG_DEBUG, "Got response on call that is already terminated: %s (ignoring)\n", p->callid); return; } /* RFC3261 says we must treat every 1xx response (but not 100) that we don't recognize as if it was 183. */ if ((resp > 100) && (resp < 200) && (resp != 180) && (resp != 183)) resp = 183; switch (resp) { case 100: /* Trying */ if (!ignore) sip_cancel_destroy(p); check_pendings(p); cw_set_flag(p, SIP_CAN_BYE); break; case 180: /* 180 Ringing */ if (!ignore) sip_cancel_destroy(p); if (!ignore && p->owner) { cw_queue_control(p->owner, CW_CONTROL_RINGING); if (p->owner->_state != CW_STATE_UP) cw_setstate(p->owner, CW_STATE_RINGING); } // if (is_sdp_content(get_header(req, "Content-Type")) if (find_sdp(req)) { process_sdp(p, req); if (!ignore && p->owner) { /* Queue a progress frame only if we have SDP in 180 */ cw_queue_control(p->owner, CW_CONTROL_PROGRESS); } } cw_set_flag(p, SIP_CAN_BYE); check_pendings(p); break; case 183: /* Session progress */ if (!ignore) sip_cancel_destroy(p); if (is_sdp_content(get_header(req, "Content-Type"))) { process_sdp(p, req); if (!ignore && p->owner) { /* Queue a progress frame */ cw_queue_control(p->owner, CW_CONTROL_PROGRESS); } } cw_set_flag(p, SIP_CAN_BYE); check_pendings(p); break; case 200: /* 200 OK on invite - someone's answering our call */ if (!ignore) sip_cancel_destroy(p); p->authtries = 0; if (is_sdp_content(get_header(req, "Content-Type"))) process_sdp(p, req); /* Parse contact header for continued conversation */ /* When we get 200 OK, we know which device (and IP) to contact for this call */ /* This is important when we have a SIP proxy between us and the phone */ if (outgoing) { parse_ok_contact(p, req); /* Save Record-Route for any later requests we make on this dialogue */ build_route(p, req, 1); } if (p->owner && (p->owner->_state == CW_STATE_UP)) { /* if this is a re-invite */ struct cw_channel *bridgepeer = NULL; struct sip_pvt *bridgepvt = NULL; if ((bridgepeer = cw_bridged_channel(p->owner))) { if (!strcasecmp(bridgepeer->type, "SIP")) { if ((bridgepvt = (struct sip_pvt *) bridgepeer->tech_pvt)) { if (bridgepvt->udptl) { if (p->t38state == SIP_T38_OFFER_RECEIVED_REINVITE) { /* This is 200 OK to re-invite where T38 was offered on channel so we need to send 200 OK with T38 the other side of the bridge */ /* Send response with T38 SDP to the other side of the bridge */ sip_handle_t38_reinvite(bridgepeer, p, 0); cw_channel_set_t38_status(p->owner, T38_NEGOTIATED); } else if (p->t38state == SIP_T38_STATUS_UNKNOWN && bridgepeer && (bridgepvt->t38state == SIP_T38_NEGOTIATED)) { /* This is case of RTP re-invite after T38 session */ cw_log(LOG_WARNING, "RTP re-invite after T38 session not handled yet !\n"); /* Insted of this we should somehow re-invite the other side of the bridge to RTP */ cw_set_flag(p, SIP_NEEDDESTROY); } } else { cw_log(LOG_WARNING, "Strange... The other side of the bridge don't have udptl struct\n"); cw_mutex_lock(&bridgepvt->lock); bridgepvt->t38state = SIP_T38_STATUS_UNKNOWN; cw_mutex_unlock(&bridgepvt->lock); cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",bridgepvt->t38state, bridgepeer->name); p->t38state = SIP_T38_STATUS_UNKNOWN; cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",p->t38state, p->owner ? p->owner->name : ""); } } else { cw_log(LOG_WARNING, "Strange... The other side of the bridge don't seem to exist\n"); } } else { /* Other side is not a SIP channel */ cw_log(LOG_WARNING, "Strange... The other side of the bridge is not a SIP channel\n"); p->t38state = SIP_T38_STATUS_UNKNOWN; cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",p->t38state, p->owner ? p->owner->name : ""); } } else { cw_log(LOG_DEBUG, "Channel Bridge information is non-existant. T38 Termination requested.\n"); } } if ((p->t38state == SIP_T38_OFFER_SENT_REINVITE) || (p->t38state == SIP_T38_OFFER_SENT_DIRECT)) { /* If there was T38 reinvite and we are supposed to answer with 200 OK than this should set us to T38 negotiated mode */ p->t38state = SIP_T38_NEGOTIATED; cw_log(LOG_DEBUG, "T38 changed state to %d on channel %s\n", p->t38state, p->owner ? p->owner->name : ""); if (p->owner) { cw_channel_set_t38_status(p->owner, T38_NEGOTIATED); cw_log(LOG_DEBUG, "T38mode enabled for channel %s\n", p->owner->name); } } if (!ignore && p->owner) { if (p->owner->_state != CW_STATE_UP) { cw_queue_control(p->owner, CW_CONTROL_ANSWER); } else { /* RE-invite */ struct cw_frame af = { CW_FRAME_NULL, }; cw_queue_frame(p->owner, &af); } } else { /* It's possible we're getting an ACK after we've tried to disconnect by sending CANCEL */ /* THIS NEEDS TO BE CHECKED: OEJ */ if (!ignore) cw_set_flag(p, SIP_PENDINGBYE); } /* If I understand this right, the branch is different for a non-200 ACK only */ transmit_request(p, SIP_ACK, seqno, 0, 1); cw_set_flag(p, SIP_CAN_BYE); check_pendings(p); break; case 407: /* Proxy authentication */ case 401: /* Www auth */ /* First we ACK */ transmit_request(p, SIP_ACK, seqno, 0, 0); if (p->options) p->options->auth_type = (resp == 401 ? WWW_AUTH : PROXY_AUTH); /* Then we AUTH */ p->theirtag[0]='\0'; /* forget their old tag, so we don't match tags when getting response */ if (!ignore) { char *authenticate = (resp == 401 ? "WWW-Authenticate" : "Proxy-Authenticate"); char *authorization = (resp == 401 ? "Authorization" : "Proxy-Authorization"); if ((p->authtries == MAX_AUTHTRIES) || do_proxy_auth(p, req, authenticate, authorization, SIP_INVITE, 1)) { cw_log(LOG_NOTICE, "Failed to authenticate on INVITE to '%s'\n", get_header(&p->initreq, "From")); cw_set_flag(p, SIP_NEEDDESTROY); cw_set_flag(p, SIP_ALREADYGONE); if (p->owner) cw_queue_control(p->owner, CW_CONTROL_CONGESTION); } } break; case 403: /* Forbidden */ /* First we ACK */ transmit_request(p, SIP_ACK, seqno, 0, 0); cw_log(LOG_WARNING, "Forbidden - wrong password on authentication for INVITE to '%s'\n", get_header(&p->initreq, "From")); if (!ignore && p->owner) cw_queue_control(p->owner, CW_CONTROL_CONGESTION); cw_set_flag(p, SIP_NEEDDESTROY); cw_set_flag(p, SIP_ALREADYGONE); break; case 404: /* Not found */ transmit_request(p, SIP_ACK, seqno, 0, 0); if (p->owner && !ignore) cw_queue_control(p->owner, CW_CONTROL_CONGESTION); cw_set_flag(p, SIP_ALREADYGONE); break; case 481: /* Call leg does not exist */ /* Could be REFER or INVITE */ cw_log(LOG_WARNING, "Re-invite to non-existing call leg on other UA. SIP dialog '%s'. Giving up.\n", p->callid); transmit_request(p, SIP_ACK, seqno, 0, 0); break; case 487: /* Cancelled transaction */ /* We have sent CANCEL on an outbound INVITE This transaction is already scheduled to be killed by sip_hangup(). */ transmit_request(p, SIP_ACK, seqno, 0, 0); if (p->owner && !ignore) cw_queue_hangup(p->owner); //#ifdef ENABLE_SIP_CALL_LIMIT else if (!ignore) update_call_counter(p, DEC_CALL_LIMIT); //#endif break; case 491: /* Pending */ /* we have to wait a while, then retransmit */ /* Transmission is rescheduled, so everything should be taken care of. We should support the retry-after at some point */ break; case 501: /* Not implemented */ transmit_request(p, SIP_ACK, seqno, 0, 0); if (p->owner) cw_queue_control(p->owner, CW_CONTROL_CONGESTION); break; } } /*! \brief handle_response_register: Handle responses on REGISTER to services */ static int handle_response_register(struct sip_pvt *p, int resp, char *rest, struct sip_request *req, int ignore, int seqno) { int expires, expires_ms; struct sip_registry *r; r = p->registry; switch (resp) { case 401: /* Unauthorized */ if ((p->authtries == MAX_AUTHTRIES) || do_register_auth(p, req, "WWW-Authenticate", "Authorization")) { cw_log(LOG_NOTICE, "Failed to authenticate on REGISTER to '%s@%s' (Tries %d)\n", p->registry->username, p->registry->hostname, p->authtries); cw_set_flag(p, SIP_NEEDDESTROY); } break; case 403: /* Forbidden */ cw_log(LOG_WARNING, "Forbidden - wrong password on authentication for REGISTER for '%s' to '%s'\n", p->registry->username, p->registry->hostname); if (global_regattempts_max) p->registry->regattempts = global_regattempts_max+1; cw_sched_del(sched, r->timeout); r->timeout = -1; cw_set_flag(p, SIP_NEEDDESTROY); break; case 404: /* Not found */ cw_log(LOG_WARNING, "Got 404 Not found on SIP register to service %s@%s, giving up\n", p->registry->username,p->registry->hostname); if (global_regattempts_max) p->registry->regattempts = global_regattempts_max+1; cw_set_flag(p, SIP_NEEDDESTROY); r->call = NULL; cw_sched_del(sched, r->timeout); r->timeout = -1; break; case 407: /* Proxy auth */ if ((p->authtries == MAX_AUTHTRIES) || do_register_auth(p, req, "Proxy-Authenticate", "Proxy-Authorization")) { cw_log(LOG_NOTICE, "Failed to authenticate on REGISTER to '%s' (tries '%d')\n", get_header(&p->initreq, "From"), p->authtries); cw_set_flag(p, SIP_NEEDDESTROY); } break; case 479: /* SER: Not able to process the URI - address is wrong in register*/ cw_log(LOG_WARNING, "Got error 479 on register to %s@%s, giving up (check config)\n", p->registry->username,p->registry->hostname); if (global_regattempts_max) p->registry->regattempts = global_regattempts_max+1; cw_set_flag(p, SIP_NEEDDESTROY); r->call = NULL; cw_sched_del(sched, r->timeout); r->timeout = -1; break; case 200: /* 200 OK */ if (!r) { cw_log(LOG_WARNING, "Got 200 OK on REGISTER that isn't a register\n"); cw_set_flag(p, SIP_NEEDDESTROY); return 0; } r->regstate = REG_STATE_REGISTERED; manager_event(EVENT_FLAG_SYSTEM, "Registry", "Channel: SIP\r\nUsername: %s\r\nDomain: %s\r\nStatus: %s\r\n", r->username, r->hostname, regstate2str(r->regstate)); r->regattempts = 0; cw_log(LOG_DEBUG, "Registration successful\n"); if (r->timeout > -1) { cw_log(LOG_DEBUG, "Cancelling timeout %d\n", r->timeout); cw_sched_del(sched, r->timeout); } r->timeout=-1; r->call = NULL; p->registry = NULL; /* Let this one hang around until we have all the responses */ sip_scheddestroy(p, 32000); /* cw_set_flag(p, SIP_NEEDDESTROY); */ /* set us up for re-registering */ /* figure out how long we got registered for */ if (r->expire > -1) { cw_sched_del(sched, r->expire); r->expire = -1; } /* according to section 6.13 of RFC, contact headers override expires headers, so check those first */ expires = 0; if (!cw_strlen_zero(get_header(req, "Contact"))) { char *contact = NULL; char *tmptmp = NULL; int start = 0; for (;;) { contact = __get_header(req, "Contact", &start); /* this loop ensures we get a contact header about our register request */ if (!cw_strlen_zero(contact)) { if ((tmptmp = strstr(contact, p->our_contact))) { contact = tmptmp; break; } } else break; } tmptmp = strcasestr(contact, "expires="); if (tmptmp) { if (sscanf(tmptmp + 8, "%d;", &expires) != 1) expires = 0; } } if (!expires) expires=atoi(get_header(req, "expires")); if (!expires) expires=default_expiry; expires_ms = expires * 1000; if (expires <= EXPIRY_GUARD_LIMIT) expires_ms -= MAX((expires_ms * EXPIRY_GUARD_PCT),EXPIRY_GUARD_MIN); else expires_ms -= EXPIRY_GUARD_SECS * 1000; if (sipdebug) cw_log(LOG_NOTICE, "Outbound Registration: Expiry for %s is %d sec (Scheduling reregistration in %d s)\n", r->hostname, expires, expires_ms/1000); r->refresh= (int) expires_ms / 1000; /* Schedule re-registration before we expire */ r->expire=cw_sched_add(sched, expires_ms, sip_reregister, r); CWOBJ_UNREF(r, sip_registry_destroy); } return 1; } /*! \brief handle_response_peerpoke: Handle qualification responses (OPTIONS) */ static int handle_response_peerpoke(struct sip_pvt *p, int resp, char *rest, struct sip_request *req, int ignore, int seqno, int sipmethod) { struct sip_peer *peer; int pingtime; struct timeval tv; if (resp != 100) { int statechanged = 0; int newstate = 0; peer = p->peerpoke; gettimeofday(&tv, NULL); pingtime = cw_tvdiff_ms(tv, peer->ps); if (pingtime < 1) pingtime = 1; peer->noanswer = 0; if ((peer->lastms < 0) || (peer->lastms > peer->maxms)) { if (pingtime <= peer->maxms) { if (option_verbose > 3) cw_log(LOG_NOTICE, "Peer '%s' is now REACHABLE! (%dms / %dms)\n", peer->name, pingtime, peer->maxms); statechanged = 1; newstate = 1; } } else if ((peer->lastms > 0) && (peer->lastms <= peer->maxms)) { if (pingtime > peer->maxms) { if (option_verbose > 3) cw_log(LOG_NOTICE, "Peer '%s' is now TOO LAGGED! (%dms / %dms)\n", peer->name, pingtime, peer->maxms); statechanged = 1; newstate = 2; } } if (!peer->lastms) statechanged = 1; peer->lastms = pingtime; peer->call = NULL; if (statechanged) { cw_device_state_changed("SIP/%s", peer->name); if (option_verbose > 3) { if (newstate == 2) manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Lagged\r\nTime: %d\r\n", peer->name, pingtime); else manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Reachable\r\nTime: %d\r\n", peer->name, pingtime); } } if (peer->pokeexpire > -1) { cw_sched_del(sched, peer->pokeexpire); peer->pokeexpire = -1; } #ifdef VOCAL_DATA_HACK if (sipmethod == SIP_INVITE) transmit_request(p, SIP_ACK, seqno, 0, 0); #endif cw_set_flag(p, SIP_NEEDDESTROY); /* Try again eventually */ if ((peer->lastms < 0) || (peer->lastms > peer->maxms)) peer->pokeexpire = cw_sched_add(sched, DEFAULT_FREQ_NOTOK, sip_poke_peer_s, peer); else peer->pokeexpire = cw_sched_add(sched, DEFAULT_FREQ_OK, sip_poke_peer_s, peer); } return 1; } /*! \brief handle_response: Handle SIP response in dialogue */ static void handle_response(struct sip_pvt *p, int resp, char *rest, struct sip_request *req, int ignore, int seqno) { char *msg, *c; struct cw_channel *owner; char iabuf[INET_ADDRSTRLEN]; int sipmethod; int res = 1; c = get_header(req, "Cseq"); msg = strchr(c, ' '); if (!msg) msg = ""; else msg++; sipmethod = find_sip_method(msg); owner = p->owner; if (owner) owner->hangupcause = hangup_sip2cause(resp); /* Acknowledge whatever it is destined for */ if ((resp >= 100) && (resp <= 199)) __sip_semi_ack(p, seqno, 0, sipmethod); else __sip_ack(p, seqno, 0, sipmethod); /* Get their tag if we haven't already */ if (cw_strlen_zero(p->theirtag) || (resp >= 200)) { gettag(req, "To", p->theirtag, sizeof(p->theirtag)); } if (p->peerpoke) { /* We don't really care what the response is, just that it replied back. Well, as long as it's not a 100 response... since we might need to hang around for something more "definitive" */ res = handle_response_peerpoke(p, resp, rest, req, ignore, seqno, sipmethod); } else if (cw_test_flag(p, SIP_OUTGOING)) { /* Acknowledge sequence number */ if (p->initid > -1) { /* Don't auto congest anymore since we've gotten something useful back */ cw_sched_del(sched, p->initid); p->initid = -1; } switch(resp) { case 100: /* 100 Trying */ if (sipmethod == SIP_INVITE) handle_response_invite(p, resp, rest, req, ignore, seqno); break; case 183: /* 183 Session Progress */ if (sipmethod == SIP_INVITE) handle_response_invite(p, resp, rest, req, ignore, seqno); break; case 180: /* 180 Ringing */ if (sipmethod == SIP_INVITE) handle_response_invite(p, resp, rest, req, ignore, seqno); break; case 200: /* 200 OK */ p->authtries = 0; /* Reset authentication counter */ if (sipmethod == SIP_MESSAGE) { /* We successfully transmitted a message */ cw_set_flag(p, SIP_NEEDDESTROY); } else if (sipmethod == SIP_NOTIFY) { /* They got the notify, this is the end */ if (p->owner) { cw_log(LOG_WARNING, "Notify answer on an owned channel?\n"); cw_queue_hangup(p->owner); } else { if (p->subscribed == NONE) { cw_set_flag(p, SIP_NEEDDESTROY); } } } else if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } else if (sipmethod == SIP_REGISTER) { res = handle_response_register(p, resp, rest, req, ignore, seqno); } else if (sipmethod == SIP_BYE) { /* Ok, we're ready to go */ cw_set_flag(p, SIP_NEEDDESTROY); } break; case 401: /* Not www-authorized on SIP method */ if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } else if (p->registry && sipmethod == SIP_REGISTER) { res = handle_response_register(p, resp, rest, req, ignore, seqno); } else { cw_log(LOG_WARNING, "Got authentication request (401) on unknown %s to '%s'\n", sip_methods[sipmethod].text, get_header(req, "To")); cw_set_flag(p, SIP_NEEDDESTROY); } break; case 403: /* Forbidden - we failed authentication */ if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } else if (p->registry && sipmethod == SIP_REGISTER) { res = handle_response_register(p, resp, rest, req, ignore, seqno); } else { cw_log(LOG_WARNING, "Forbidden - wrong password on authentication for %s\n", msg); } break; case 404: /* Not found */ if (p->registry && sipmethod == SIP_REGISTER) { res = handle_response_register(p, resp, rest, req, ignore, seqno); } else if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } else if (owner) cw_queue_control(p->owner, CW_CONTROL_CONGESTION); break; case 407: /* Proxy auth required */ if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } else if (sipmethod == SIP_BYE || sipmethod == SIP_REFER) { if (cw_strlen_zero(p->authname)) cw_log(LOG_WARNING, "Asked to authenticate %s, to %s:%d but we have no matching peer!\n", msg, cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr), ntohs(p->recv.sin_port)); cw_set_flag(p, SIP_NEEDDESTROY); if ((p->authtries == MAX_AUTHTRIES) || do_proxy_auth(p, req, "Proxy-Authenticate", "Proxy-Authorization", sipmethod, 0)) { cw_log(LOG_NOTICE, "Failed to authenticate on %s to '%s'\n", msg, get_header(&p->initreq, "From")); cw_set_flag(p, SIP_NEEDDESTROY); } } else if (p->registry && sipmethod == SIP_REGISTER) { res = handle_response_register(p, resp, rest, req, ignore, seqno); } else { /* We can't handle this, giving up in a bad way */ cw_set_flag(p, SIP_NEEDDESTROY); } break; case 487: if (sipmethod == SIP_INVITE) handle_response_invite(p, resp, rest, req, ignore, seqno); break; case 491: /* Pending */ if (sipmethod == SIP_INVITE) handle_response_invite(p, resp, rest, req, ignore, seqno); else cw_log(LOG_WARNING, "Host '%s' does not implement '%s'\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), msg); break; case 501: /* Not Implemented */ if (sipmethod == SIP_INVITE) handle_response_invite(p, resp, rest, req, ignore, seqno); else cw_log(LOG_WARNING, "Host '%s' does not implement '%s'\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr), msg); break; default: if ((resp >= 300) && (resp < 700)) { if ((option_verbose > 2) && (resp != 487)) cw_verbose(VERBOSE_PREFIX_3 "Got SIP response %d \"%s\" back from %s\n", resp, rest, cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr)); if (p->rtp) { /* Immediately stop RTP */ cw_rtp_stop(p->rtp); } if (p->vrtp) { /* Immediately stop VRTP */ cw_rtp_stop(p->vrtp); } if (p->udptl) { /* Immediately stop T.38 UDPTL */ cw_udptl_stop(p->udptl); } /* XXX Locking issues?? XXX */ switch (resp) { case 300: /* Multiple Choices */ case 301: /* Moved permenantly */ case 302: /* Moved temporarily */ case 305: /* Use Proxy */ parse_moved_contact(p, req); /* Fall through */ case 486: /* Busy here */ case 600: /* Busy everywhere */ case 603: /* Decline */ if (p->owner) cw_queue_control(p->owner, CW_CONTROL_BUSY); break; case 482: /* SIP is incapable of performing a hairpin call, which is yet another failure of not having a layer 2 (again, YAY IETF for thinking ahead). So we treat this as a call forward and hope we end up at the right place... */ cw_log(LOG_DEBUG, "Hairpin detected, setting up call forward for what it's worth\n"); if (p->owner) snprintf(p->owner->call_forward, sizeof(p->owner->call_forward), "Local/%s@%s", p->username, p->context); /* Fall through */ case 488: /* Not acceptable here - codec error */ case 480: /* Temporarily Unavailable */ case 404: /* Not Found */ case 410: /* Gone */ case 400: /* Bad Request */ case 500: /* Server error */ case 503: /* Service Unavailable */ if (owner) cw_queue_control(p->owner, CW_CONTROL_CONGESTION); break; default: /* Send hangup */ if (owner) cw_queue_hangup(p->owner); break; } /* ACK on invite */ if (sipmethod == SIP_INVITE) transmit_request(p, SIP_ACK, seqno, 0, 0); cw_set_flag(p, SIP_ALREADYGONE); if (!p->owner) cw_set_flag(p, SIP_NEEDDESTROY); } else if ((resp >= 100) && (resp < 200)) { if (sipmethod == SIP_INVITE) { if (!ignore) sip_cancel_destroy(p); if (!cw_strlen_zero(get_header(req, "Content-Type"))) process_sdp(p, req); if (p->owner) { /* Queue a progress frame */ cw_queue_control(p->owner, CW_CONTROL_PROGRESS); } } } else cw_log(LOG_NOTICE, "Dont know how to handle a %d %s response from %s\n", resp, rest, p->owner ? p->owner->name : cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr)); } } else { /* Responses to OUTGOING SIP requests on INCOMING calls get handled here. As well as out-of-call message responses */ if (req->debug) cw_verbose("SIP Response message for INCOMING dialog %s arrived\n", msg); if (resp == 200) { /* Tags in early session is replaced by the tag in 200 OK, which is the final reply to our INVITE */ gettag(req, "To", p->theirtag, sizeof(p->theirtag)); } switch(resp) { case 200: if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } else if (sipmethod == SIP_CANCEL) { cw_log(LOG_DEBUG, "Got 200 OK on CANCEL\n"); } else if (sipmethod == SIP_MESSAGE) /* We successfully transmitted a message */ cw_set_flag(p, SIP_NEEDDESTROY); else if (sipmethod == SIP_BYE) /* ok done */ cw_set_flag(p, SIP_NEEDDESTROY); break; case 401: /* www-auth */ case 407: if (sipmethod == SIP_BYE || sipmethod == SIP_REFER) { char *auth, *auth2; if (resp == 407) { auth = "Proxy-Authenticate"; auth2 = "Proxy-Authorization"; } else { auth = "WWW-Authenticate"; auth2 = "Authorization"; } if ((p->authtries == MAX_AUTHTRIES) || do_proxy_auth(p, req, auth, auth2, sipmethod, 0)) { cw_log(LOG_NOTICE, "Failed to authenticate on %s to '%s'\n", msg, get_header(&p->initreq, "From")); cw_set_flag(p, SIP_NEEDDESTROY); } } else if (sipmethod == SIP_INVITE) { handle_response_invite(p, resp, rest, req, ignore, seqno); } break; case 481: /* Call leg does not exist */ if (sipmethod == SIP_INVITE) { /* Re-invite failed */ handle_response_invite(p, resp, rest, req, ignore, seqno); } break; default: /* Errors without handlers */ if ((resp >= 100) && (resp < 200)) { if (sipmethod == SIP_INVITE && !ignore) { /* re-invite */ sip_cancel_destroy(p); } } if ((resp >= 300) && (resp < 700)) { if ((option_verbose > 2) && (resp != 487)) cw_verbose(VERBOSE_PREFIX_3 "Incoming call: Got SIP response %d \"%s\" back from %s\n", resp, rest, cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr)); switch (resp) { case 488: /* Not acceptable here - codec error */ case 603: /* Decline */ case 500: /* Server error */ case 503: /* Service Unavailable */ if (sipmethod == SIP_INVITE && !ignore) { /* re-invite failed */ sip_cancel_destroy(p); } break; } } break; } } } struct sip_dual { struct cw_channel *chan1; struct cw_channel *chan2; struct sip_request req; }; /*! \brief sip_park_thread: Park SIP call support function */ static void *sip_park_thread(void *stuff) { struct cw_channel *chan1, *chan2; struct sip_dual *d; struct sip_request req; int ext; int res; d = stuff; chan1 = d->chan1; chan2 = d->chan2; copy_request(&req, &d->req); free(d); cw_mutex_lock(&chan1->lock); cw_do_masquerade(chan1); cw_mutex_unlock(&chan1->lock); res = cw_park_call(chan1, chan2, 0, &ext); /* Then hangup */ cw_hangup(chan2); cw_log(LOG_DEBUG, "Parked on extension '%d'\n", ext); return NULL; } /*! \brief sip_park: Park a call */ static int sip_park(struct cw_channel *chan1, struct cw_channel *chan2, struct sip_request *req) { struct sip_dual *d; struct cw_channel *chan1m, *chan2m; pthread_attr_t attr; pthread_t th; int ret; chan1m = cw_channel_alloc(0); chan2m = cw_channel_alloc(0); if ((!chan2m) || (!chan1m)) { if (chan1m) cw_hangup(chan1m); if (chan2m) cw_hangup(chan2m); return -1; } snprintf(chan1m->name, sizeof(chan1m->name), "Parking/%s", chan1->name); /* Make formats okay */ chan1m->readformat = chan1->readformat; chan1m->writeformat = chan1->writeformat; cw_channel_masquerade(chan1m, chan1); /* Setup the extensions and such */ cw_copy_string(chan1m->context, chan1->context, sizeof(chan1m->context)); cw_copy_string(chan1m->exten, chan1->exten, sizeof(chan1m->exten)); chan1m->priority = chan1->priority; /* We make a clone of the peer channel too, so we can play back the announcement */ snprintf(chan2m->name, sizeof (chan2m->name), "SIPPeer/%s",chan2->name); /* Make formats okay */ chan2m->readformat = chan2->readformat; chan2m->writeformat = chan2->writeformat; cw_channel_masquerade(chan2m, chan2); /* Setup the extensions and such */ cw_copy_string(chan2m->context, chan2->context, sizeof(chan2m->context)); cw_copy_string(chan2m->exten, chan2->exten, sizeof(chan2m->exten)); chan2m->priority = chan2->priority; cw_mutex_lock(&chan2m->lock); if (cw_do_masquerade(chan2m)) { cw_log(LOG_WARNING, "Masquerade failed :(\n"); cw_mutex_unlock(&chan2m->lock); cw_hangup(chan2m); return -1; } cw_mutex_unlock(&chan2m->lock); d = malloc(sizeof(struct sip_dual)); if (d) { memset(d, 0, sizeof(struct sip_dual)); /* Save original request for followup */ copy_request(&d->req, req); d->chan1 = chan1m; d->chan2 = chan2m; pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); ret = cw_pthread_create(&th, &attr, sip_park_thread, d); pthread_attr_destroy(&attr); if (!ret) return 0; free(d); } return -1; } /*! \brief cw_quiet_chan: Turn off generator data */ static void cw_quiet_chan(struct cw_channel *chan) { if (chan) cw_generator_deactivate(chan); else cw_log(LOG_WARNING, "Aiiiee. Tried to quit_chan non-existing Channel!\n"); } /*! \brief attempt_transfer: Attempt transfer of SIP call */ static int attempt_transfer(struct sip_pvt *p1, struct sip_pvt *p2) { int res = 0; struct cw_channel *chana = NULL, *chanb = NULL, *bridgea = NULL, *bridgeb = NULL, *peera = NULL, *peerb = NULL, *peerc = NULL, *peerd = NULL; if (!p1->owner || !p2->owner) { cw_log(LOG_WARNING, "Transfer attempted without dual ownership?\n"); return -1; } chana = p1->owner; chanb = p2->owner; bridgea = cw_bridged_channel(chana); bridgeb = cw_bridged_channel(chanb); // Will the other bridge ever be active? // i.e.: is peerd ever != NULL? -mc if (bridgea) { peera = chana; peerb = chanb; peerc = bridgea; peerd = bridgeb; } else if (bridgeb) { peera = chanb; peerb = chana; peerc = bridgeb; peerd = bridgea; } else { cw_log(LOG_WARNING, "Neither bridgea nor bridgeb?\n"); } if (peera && peerb && peerc && (peerb != peerc)) { cw_quiet_chan(peera); cw_quiet_chan(peerb); cw_quiet_chan(peerc); if (peerd) cw_quiet_chan(peerd); if (peera->cdr && peerb->cdr) { peerb->cdr = cw_cdr_append(peerb->cdr, peera->cdr); } else if (peera->cdr) { peerb->cdr = peera->cdr; } peera->cdr = NULL; if (peerb->cdr && peerc->cdr) { peerb->cdr = cw_cdr_append(peerb->cdr, peerc->cdr); } else if (peerc->cdr) { peerb->cdr = peerc->cdr; } peerc->cdr = NULL; if (cw_channel_masquerade(peerb, peerc)) { cw_log(LOG_WARNING, "Failed to masquerade %s into %s\n", peerb->name, peerc->name); res = -1; } return res; } else { cw_log(LOG_NOTICE, "Transfer attempted with no appropriate bridged calls to transfer\n"); if (chana) cw_softhangup_nolock(chana, CW_SOFTHANGUP_DEV); if (chanb) cw_softhangup_nolock(chanb, CW_SOFTHANGUP_DEV); return -1; } return 0; } /*! \brief gettag: Get tag from packet */ static char *gettag(struct sip_request *req, char *header, char *tagbuf, int tagbufsize) { char *thetag, *sep; if (!tagbuf) return NULL; tagbuf[0] = '\0'; /* reset the buffer */ thetag = get_header(req, header); thetag = strcasestr(thetag, ";tag="); if (thetag) { thetag += 5; cw_copy_string(tagbuf, thetag, tagbufsize); sep = strchr(tagbuf, ';'); if (sep) *sep = '\0'; } return thetag; } /*! \brief handle_request_options: Handle incoming OPTIONS request */ static int handle_request_options(struct sip_pvt *p, struct sip_request *req, int debug) { int res; res = get_destination(p, req); build_contact(p); /* XXX Should we authenticate OPTIONS? XXX */ if ( sipdebug && option_debug > 9 ) cw_log(LOG_DEBUG,"get_destination returned %d in handle_request_options\n", res ); if (cw_strlen_zero(p->context)) strcpy(p->context, default_context); if (res < 0) res = transmit_response_with_allow(p, "404 Not Found", req, 0); else if (res > 0) res = transmit_response_with_allow(p, "484 Address Incomplete", req, 0); else res = transmit_response_with_allow(p, "200 OK", req, 0); /* Destroy if this OPTIONS was the opening request, but not if it's in the middle of a normal call flow. */ if (!p->lastinvite && !p->stun_needed) cw_set_flag(p, SIP_NEEDDESTROY); return res; } /*! \brief handle_request_invite: Handle incoming INVITE request */ static int handle_request_invite(struct sip_pvt *p, struct sip_request *req, int debug, int ignore, int seqno, struct sockaddr_in *sin, int *recount, char *e) { int res = 1; struct cw_channel *c = NULL; int gotdest; struct cw_frame af = { CW_FRAME_NULL, }; char *supported; char *required; unsigned int required_profile = 0; /* Find out what they support */ if (!p->sipoptions) { supported = get_header(req, "Supported"); if (supported) parse_sip_options(p, supported); } required = get_header(req, "Required"); if (!cw_strlen_zero(required)) { required_profile = parse_sip_options(NULL, required); if (required_profile) { /* They require something */ /* At this point we support no extensions, so fail */ transmit_response_with_unsupported(p, "420 Bad extension", req, required); if (!p->lastinvite) cw_set_flag(p, SIP_NEEDDESTROY); return -1; } } /* save the Request line */ cw_copy_string(p->ruri, e, sizeof(p->ruri)); /* Check if this is a loop */ /* This happens since we do not properly support SIP domain handling yet... -oej */ if (cw_test_flag(p, SIP_OUTGOING) && p->owner && (p->owner->_state != CW_STATE_UP)) { /* This is a call to ourself. Send ourselves an error code and stop processing immediately, as SIP really has no good mechanism for being able to call yourself */ if (debug) cw_verbose( "482 Loop Detected\n" ); transmit_response(p, "482 Loop Detected", req); /* We do NOT destroy p here, so that our response will be accepted */ return 0; } if (!ignore) { /* Use this as the basis */ if (debug) cw_verbose("Using INVITE request as basis request - %s\n", p->callid); sip_cancel_destroy(p); /* This call is no longer outgoing if it ever was */ cw_clear_flag(p, SIP_OUTGOING); /* This also counts as a pending invite */ p->pendinginvite = seqno; copy_request(&p->initreq, req); check_via(p, req); if (p->owner) { /* Handle SDP here if we already have an owner */ if (is_sdp_content(get_header(req, "Content-Type"))) { if (process_sdp(p, req)) { transmit_response(p, "488 Not acceptable here", req); if (!p->lastinvite) cw_set_flag(p, SIP_NEEDDESTROY); return -1; } } else { p->jointcapability = p->capability; cw_log(LOG_DEBUG, "Hm.... No sdp for the moment\n"); } } } else if (debug) { cw_verbose("Ignoring this INVITE request\n"); } if (!p->lastinvite && !ignore && !p->owner) { /* Handle authentication if this is our first invite */ res = check_user(p, req, SIP_INVITE, e, 1, sin, ignore); if (res > 0) return 0; if (res < 0) { if (res == -4) { cw_log(LOG_NOTICE, "Sending fake auth rejection for user %s\n", get_header(req, "From")); transmit_fake_auth_response(p, req, p->randdata, sizeof(p->randdata), 1); } else { cw_log(LOG_NOTICE, "Failed to authenticate user %s\n", get_header(req, "From")); transmit_response_reliable(p, "403 Forbidden", req, 1); } cw_set_flag(p, SIP_NEEDDESTROY); p->theirtag[0] = '\0'; /* Forget their to-tag, we'll get a new one */ return 0; } /* Process the SDP portion */ if (!cw_strlen_zero(get_header(req, "Content-Type"))) { if (process_sdp(p, req)) { transmit_response(p, "488 Not acceptable here", req); cw_set_flag(p, SIP_NEEDDESTROY); return -1; } } else { p->jointcapability = p->capability; cw_log(LOG_DEBUG, "Hm.... No sdp for the moment\n"); } /* Queue NULL frame to prod cw_rtp_bridge if appropriate */ if (p->owner) cw_queue_frame(p->owner, &af); /* Initialize the context if it hasn't been already */ if (cw_strlen_zero(p->context)) strcpy(p->context, default_context); #ifdef ENABLE_SIP_CALL_LIMIT /* Check number of concurrent calls -vs- incoming limit HERE */ cw_log(LOG_DEBUG, "Checking SIP call limits for device %s\n", p->username); res = update_call_counter(p, INC_CALL_LIMIT); if (res) { if (res < 0) { cw_log(LOG_NOTICE, "Failed to place call for user %s, too many calls\n", p->username); transmit_response_reliable(p, "480 Temporarily Unavailable (Call limit) ", req, 1); cw_set_flag(p, SIP_NEEDDESTROY); } return 0; } #endif /* Get destination right away */ gotdest = get_destination(p, NULL); get_rdnis(p, NULL); extract_uri(p, req); build_contact(p); if (gotdest) { if (gotdest < 0) { transmit_response_reliable(p, "404 Not Found", req, 1); } else { transmit_response_reliable(p, "484 Address Incomplete", req, 1); } //#ifdef ENABLE_SIP_CALL_LIMIT update_call_counter(p, DEC_CALL_LIMIT); //#endif cw_set_flag(p, SIP_NEEDDESTROY); return 0; } else { /* If no extension was specified, use the s one */ if (cw_strlen_zero(p->exten)) cw_copy_string(p->exten, "s", sizeof(p->exten)); /* Initialize tag */ make_our_tag(p->tag, sizeof(p->tag)); /* First invitation */ c = sip_new(p, CW_STATE_DOWN, cw_strlen_zero(p->username) ? NULL : p->username); *recount = 1; /* Save Record-Route for any later requests we make on this dialogue */ build_route(p, req, 0); if (c) { /* Pre-lock the call */ cw_mutex_lock(&c->lock); } } } else { if (option_debug > 1 && sipdebug) cw_log(LOG_DEBUG, "Got a SIP re-invite for call %s\n", p->callid); c = p->owner; } if (!ignore && p) p->lastinvite = seqno; if (c) { switch (c->_state) { case CW_STATE_DOWN: transmit_response(p, "100 Trying", req); cw_setstate(c, CW_STATE_RING); if (strcmp(p->exten, cw_pickup_ext())) { enum cw_pbx_result res; res = cw_pbx_start(c); switch (res) { case CW_PBX_FAILED: cw_log(LOG_WARNING, "Failed to start PBX :(\n"); if (ignore) transmit_response(p, "503 Unavailable", req); else transmit_response_reliable(p, "503 Unavailable", req, 1); break; #ifdef ENABLE_SIP_CALL_LIMIT case CW_PBX_CALL_LIMIT: cw_log(LOG_WARNING, "Failed to start PBX (call limit reached) \n"); if (ignore) transmit_response(p, "480 Temporarily Unavailable", req); else transmit_response_reliable(p, "480 Temporarily Unavailable", req, 1); break; #endif case CW_PBX_SUCCESS: /* nothing to do */ break; } if (res) { cw_log(LOG_WARNING, "Failed to start PBX :(\n"); /* Unlock locks so cw_hangup can do its magic */ cw_mutex_unlock(&c->lock); cw_mutex_unlock(&p->lock); cw_hangup(c); cw_mutex_lock(&p->lock); c = NULL; } } else { cw_mutex_unlock(&c->lock); if (cw_pickup_call(c)) { cw_log(LOG_NOTICE, "Nothing to pick up\n"); if (ignore) transmit_response(p, "503 Unavailable", req); else transmit_response_reliable(p, "503 Unavailable", req, 1); cw_set_flag(p, SIP_ALREADYGONE); /* Unlock locks so cw_hangup can do its magic */ cw_mutex_unlock(&p->lock); cw_hangup(c); cw_mutex_lock(&p->lock); c = NULL; } else { cw_mutex_unlock(&p->lock); cw_setstate(c, CW_STATE_DOWN); cw_hangup(c); cw_mutex_lock(&p->lock); c = NULL; } } break; case CW_STATE_RING: transmit_response(p, "100 Trying", req); break; case CW_STATE_RINGING: transmit_response(p, "180 Ringing", req); break; case CW_STATE_UP: if (p->t38state == SIP_T38_OFFER_RECEIVED_REINVITE) { struct cw_channel *bridgepeer = NULL; struct sip_pvt *bridgepvt = NULL; if ((bridgepeer=cw_bridged_channel(p->owner))) { /* We have a bridge, and this is re-invite to switchover to T38 so we send re-invite with T38 SDP, to other side of bridge*/ /*! XXX: we should also check here does the other side supports t38 at all !!! XXX */ if (!strcasecmp(bridgepeer->type,"SIP")) { /* If we are bridged to SIP channel */ if ((bridgepvt = (struct sip_pvt *) bridgepeer->tech_pvt)) { if (bridgepvt->t38state >= SIP_T38_STATUS_UNKNOWN) { if (bridgepvt->udptl) { /* If everything is OK with other side's udptl struct */ /* Send re-invite to the bridged channel */ sip_handle_t38_reinvite(bridgepeer,p,1); cw_channel_set_t38_status(bridgepeer, T38_NEGOTIATING); } else { /* Something is wrong with peers udptl struct */ cw_log(LOG_WARNING, "Strange... The other side of the bridge don't have udptl struct\n"); cw_mutex_lock(&bridgepvt->lock); bridgepvt->t38state = SIP_T38_STATUS_UNKNOWN; cw_mutex_unlock(&bridgepvt->lock); cw_log(LOG_DEBUG,"T38 state changed to %d on channel %s\n",bridgepvt->t38state, bridgepeer->name); p->t38state = SIP_T38_STATUS_UNKNOWN; cw_log(LOG_DEBUG,"T38 state changed to %d on channel %s\n",p->t38state, p->owner ? p->owner->name : ""); if (ignore) transmit_response(p, "415 Unsupported Media Type", req); else transmit_response_reliable(p, "415 Unsupported Media Type", req, 1); cw_set_flag(p, SIP_NEEDDESTROY); } } } else { cw_log(LOG_WARNING, "Strange... The other side of the bridge don't seem to exist\n"); } } else { /* Other side is not a SIP channel */ if (ignore) transmit_response(p, "415 Unsupported Media Type", req); else transmit_response_reliable(p, "415 Unsupported Media Type", req, 1); p->t38state = SIP_T38_STATUS_UNKNOWN; cw_log(LOG_DEBUG,"T38 state changed to %d on channel %s\n",p->t38state, p->owner ? p->owner->name : ""); cw_set_flag(p, SIP_NEEDDESTROY); } } else { /* we are not bridged in a call */ transmit_response_with_t38_sdp(p, "200 OK", req, 1); p->t38state = SIP_T38_NEGOTIATED; cw_log(LOG_DEBUG,"T38 state changed to %d on channel %s\n",p->t38state, p->owner ? p->owner->name : ""); if (p->owner) { cw_channel_set_t38_status(p->owner, T38_NEGOTIATED); cw_log(LOG_DEBUG,"T38mode enabled for channel %s\n", p->owner->name); } } } else if (p->t38state == SIP_T38_STATUS_UNKNOWN) { /* Channel doesn't have T38 offered or enabled */ /* If we are bridged to a channel that has T38 enabled than this is a case of RTP re-invite after T38 session */ /* so handle it here (re-invite other party to RTP) */ struct cw_channel *bridgepeer = NULL; struct sip_pvt *bridgepvt = NULL; if ( (bridgepeer=cw_bridged_channel(p->owner) ) && !strcasecmp(bridgepeer->type,"SIP") ) { { bridgepvt = (struct sip_pvt*)bridgepeer->tech_pvt; if (bridgepvt->t38state == SIP_T38_NEGOTIATED) { cw_log(LOG_WARNING, "RTP re-invite after T38 session not handled yet !\n"); /* Insted of this we should somehow re-invite the other side of the bridge to RTP */ if (ignore) transmit_response(p, "488 Not Acceptable Here (unsupported)", req); else transmit_response_reliable(p, "488 Not Acceptable Here (unsupported)", req, 1); cw_set_flag(p, SIP_NEEDDESTROY); } else { /* No bridged peer with T38 enabled*/ transmit_response_with_sdp(p, "200 OK", req, 1); } } } else transmit_response_with_sdp(p, "200 OK", req, 1); } break; default: cw_log(LOG_WARNING, "Don't know how to handle INVITE in state %d\n", c->_state); transmit_response(p, "100 Trying", req); } } else { if (p && !cw_test_flag(p, SIP_NEEDDESTROY) && !ignore) { if (!p->jointcapability) { transmit_response_reliable(p, "488 Not Acceptable Here (codec error)", req, 1); } else { cw_log(LOG_NOTICE, "Unable to create/find channel\n"); transmit_response_reliable(p, "503 Unavailable", req, 1); } cw_set_flag(p, SIP_NEEDDESTROY); } } return res; } /*! \brief handle_request_refer: Handle incoming REFER request */ static int handle_request_refer(struct sip_pvt *p, struct sip_request *req, int debug, int ignore, int seqno, int *nounlock) { struct cw_channel *c=NULL; int res; struct cw_channel *transfer_to; char *transfercontext = NULL; if (option_debug > 2) cw_log(LOG_DEBUG, "SIP call transfer received for call %s (REFER)!\n", p->callid); res = get_refer_info(p, req, &transfercontext); if (cw_strlen_zero(p->context)) strcpy(p->context, default_context); if (cw_strlen_zero(transfercontext)) transfercontext = p->context; if (res < 0) transmit_response(p, "603 Declined", req); else if (res > 0) transmit_response(p, "484 Address Incomplete", req); else { int nobye = 0; if (!ignore) { if (p->refer_call) { cw_log(LOG_DEBUG,"202 Accepted (supervised)\n"); attempt_transfer(p, p->refer_call); if (p->refer_call->owner) cw_mutex_unlock(&p->refer_call->owner->lock); cw_mutex_unlock(&p->refer_call->lock); p->refer_call = NULL; cw_set_flag(p, SIP_GOTREFER); } else { cw_log(LOG_DEBUG,"202 Accepted (blind)\n"); c = p->owner; if (c) { transfer_to = cw_bridged_channel(c); if (transfer_to) { cw_log(LOG_DEBUG, "Got SIP blind transfer, applying to '%s'\n", transfer_to->name); cw_moh_stop(transfer_to); if (!strcmp(p->refer_to, cw_parking_ext())) { /* Must release c's lock now, because it will not longer be accessible after the transfer! */ *nounlock = 1; cw_mutex_unlock(&c->lock); sip_park(transfer_to, c, req); nobye = 1; } else { /* Must release c's lock now, because it will not longer be accessible after the transfer! */ *nounlock = 1; cw_mutex_unlock(&c->lock); cw_async_goto(transfer_to,transfercontext, p->refer_to,1); } } else { cw_log(LOG_DEBUG, "Got SIP blind transfer but nothing to transfer to.\n"); cw_queue_hangup(p->owner); } } cw_set_flag(p, SIP_GOTREFER); } transmit_response(p, "202 Accepted", req); transmit_notify_with_sipfrag(p, seqno); /* Always increment on a BYE */ if (!nobye) { transmit_request_with_auth(p, SIP_BYE, 0, 1, 1); cw_set_flag(p, SIP_ALREADYGONE); } } } return res; } /*! \brief handle_request_cancel: Handle incoming CANCEL request */ static int handle_request_cancel(struct sip_pvt *p, struct sip_request *req, int debug, int ignore) { check_via(p, req); cw_set_flag(p, SIP_ALREADYGONE); if (p->rtp) { /* Immediately stop RTP */ cw_rtp_stop(p->rtp); } if (p->vrtp) { /* Immediately stop VRTP */ cw_rtp_stop(p->vrtp); } if (p->udptl) { /* Immediately stop T.38 UDPTL */ cw_udptl_stop(p->udptl); } if (p->owner) cw_queue_hangup(p->owner); else cw_set_flag(p, SIP_NEEDDESTROY); if (p->initreq.len > 0) { if (!ignore) transmit_response_reliable(p, "487 Request Terminated", &p->initreq, 1); transmit_response(p, "200 OK", req); return 1; } else { transmit_response(p, "481 Call Leg Does Not Exist", req); return 0; } } /*! \brief handle_request_bye: Handle incoming BYE request */ static int handle_request_bye(struct sip_pvt *p, struct sip_request *req, int debug, int ignore) { struct cw_channel *c=NULL; int res; struct cw_channel *bridged_to; char iabuf[INET_ADDRSTRLEN]; if (p->pendinginvite && !cw_test_flag(p, SIP_OUTGOING) && !ignore && !p->owner) transmit_response_reliable(p, "487 Request Terminated", &p->initreq, 1); copy_request(&p->initreq, req); check_via(p, req); cw_set_flag(p, SIP_ALREADYGONE); if (p->rtp) { /* Immediately stop RTP */ cw_rtp_stop(p->rtp); } if (p->vrtp) { /* Immediately stop VRTP */ cw_rtp_stop(p->vrtp); } if (p->udptl) { /* Immediately stop T.38 UDPTL */ cw_udptl_stop(p->udptl); } if (!cw_strlen_zero(get_header(req, "Also"))) { cw_log(LOG_NOTICE, "Client '%s' using deprecated BYE/Also transfer method. Ask vendor to support REFER instead\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr)); if (cw_strlen_zero(p->context)) strcpy(p->context, default_context); res = get_also_info(p, req); if (!res) { c = p->owner; if (c) { bridged_to = cw_bridged_channel(c); if (bridged_to) { /* Don't actually hangup here... */ cw_moh_stop(bridged_to); cw_async_goto(bridged_to, p->context, p->refer_to,1); } else cw_queue_hangup(p->owner); } } else { cw_log(LOG_WARNING, "Invalid transfer information from '%s'\n", cw_inet_ntoa(iabuf, sizeof(iabuf), p->recv.sin_addr)); cw_queue_hangup(p->owner); } } else if (p->owner) cw_queue_hangup(p->owner); else cw_set_flag(p, SIP_NEEDDESTROY); transmit_response(p, "200 OK", req); return 1; } /*! \brief handle_request_message: Handle incoming MESSAGE request */ static int handle_request_message(struct sip_pvt *p, struct sip_request *req, int debug, int ignore) { if (!ignore) { if (debug) cw_verbose("Receiving message!\n"); receive_message(p, req); } else { transmit_response(p, "202 Accepted", req); } return 1; } /*! \brief handle_request_subscribe: Handle incoming SUBSCRIBE request */ static int handle_request_subscribe(struct sip_pvt *p, struct sip_request *req, int debug, int ignore, struct sockaddr_in *sin, int seqno, char *e) { int gotdest; int res = 0; int firststate = CW_EXTENSION_REMOVED; if (p->initreq.headers) { /* We already have a dialog */ if (p->initreq.method != SIP_SUBSCRIBE) { /* This is a SUBSCRIBE within another SIP dialog, which we do not support */ /* For transfers, this could happen, but since we haven't seen it happening, let us just refuse this */ transmit_response(p, "403 Forbidden (within dialog)", req); /* Do not destroy session, since we will break the call if we do */ cw_log(LOG_DEBUG, "Got a subscription within the context of another call, can't handle that - %s (Method %s)\n", p->callid, sip_methods[p->initreq.method].text); return 0; } else { if (debug) cw_log(LOG_DEBUG, "Got a re-subscribe on existing subscription %s\n", p->callid); } } if (!ignore && !p->initreq.headers) { /* Use this as the basis */ if (debug) cw_verbose("Using latest SUBSCRIBE request as basis request\n"); /* This call is no longer outgoing if it ever was */ cw_clear_flag(p, SIP_OUTGOING); copy_request(&p->initreq, req); check_via(p, req); } else if (debug && ignore) cw_verbose("Ignoring this SUBSCRIBE request\n"); if (!p->lastinvite) { char mailboxbuf[256]=""; int found = 0; char *mailbox = NULL; int mailboxsize = 0; char *eventparam; char *event = get_header(req, "Event"); /* Get Event package name */ char *accept = get_header(req, "Accept"); /* Find parameters to Event: header value and remove them for now */ eventparam = strchr(event, ';'); if (eventparam) { *eventparam = '\0'; eventparam++; } if (!strcmp(event, "message-summary") && !strcmp(accept, "application/simple-message-summary")) { mailbox = mailboxbuf; mailboxsize = sizeof(mailboxbuf); } /* Handle authentication if this is our first subscribe */ res = check_user_full(p, req, SIP_SUBSCRIBE, e, 0, sin, ignore, mailbox, mailboxsize); /* if an authentication challenge was sent, we are done here */ if (res > 0) return 0; if (res<0) { if (res == -4) { cw_log(LOG_NOTICE, "Sending fake auth rejection for user %s\n", get_header(req, "From")); transmit_fake_auth_response(p, req, p->randdata, sizeof(p->randdata), 1); } else { cw_log(LOG_NOTICE, "Failed to authenticate user %s for SUBSCRIBE\n", get_header(req, "From")); if (ignore) transmit_response(p, "403 Forbidden", req); else transmit_response_reliable(p, "403 Forbidden", req, 1); } cw_set_flag(p, SIP_NEEDDESTROY); return 0; } gotdest = get_destination(p, NULL); /* Initialize the context if it hasn't been already note this is done _after_ handling any domain lookups, because the context specified there is for calls, not subscriptions */ if (!cw_strlen_zero(p->subscribecontext)) cw_copy_string(p->context, p->subscribecontext, sizeof(p->context)); else if (cw_strlen_zero(p->context)) strcpy(p->context, default_context); /* Get destination right away */ build_contact(p); if (gotdest) { if (gotdest < 0) transmit_response(p, "404 Not Found", req); else transmit_response(p, "484 Address Incomplete", req); /* Overlap dialing on SUBSCRIBE?? */ cw_set_flag(p, SIP_NEEDDESTROY); } else { /* Initialize tag for new subscriptions */ if (cw_strlen_zero(p->tag)) make_our_tag(p->tag, sizeof(p->tag)); if (!strcmp(event, "presence") || !strcmp(event, "dialog")) { /* Presence, RFC 3842 */ /* Header from Xten Eye-beam Accept: multipart/related, application/rlmi+xml, application/pidf+xml, application/xpidf+xml */ /* Polycom phones only handle xpidf+xml, even if they say they can handle pidf+xml as well */ if (strstr(p->useragent, "Polycom")) { p->subscribed = XPIDF_XML; } else if (strstr(accept, "application/pidf+xml")) { p->subscribed = PIDF_XML; /* RFC 3863 format */ } else if (strstr(accept, "application/dialog-info+xml")) { p->subscribed = DIALOG_INFO_XML; /* IETF draft: draft-ietf-sipping-dialog-package-05.txt */ } else if (strstr(accept, "application/cpim-pidf+xml")) { p->subscribed = CPIM_PIDF_XML; /* RFC 3863 format */ } else if (strstr(accept, "application/xpidf+xml")) { p->subscribed = XPIDF_XML; /* Early pre-RFC 3863 format with MSN additions (Microsoft Messenger) */ } else if (cw_strlen_zero(accept)) { if (p->subscribed == NONE) { /* if the subscribed field is not already set, and there is no accept header... */ transmit_response(p, "489 Bad Event", req); cw_log(LOG_WARNING,"SUBSCRIBE failure: no Accept header: pvt: stateid: %d, laststate: %d, dialogver: %d, subscribecont: '%s'\n", p->stateid, p->laststate, p->dialogver, p->subscribecontext); cw_set_flag(p, SIP_NEEDDESTROY); return 0; } /* if p->subscribed is non-zero, then accept is not obligatory; according to rfc 3265 section 3.1.3, at least. so, we'll just let it ride, keeping the value from a previous subscription, and not abort the subscription */ } else { /* Can't find a format for events that we know about */ char mybuf[200]; snprintf(mybuf,sizeof(mybuf),"489 Bad Event (format %s)", accept); transmit_response(p, mybuf, req); cw_set_flag(p, SIP_NEEDDESTROY); return 0; } if (option_debug > 2) { const struct cfsubscription_types *st = find_subscription_type(p->subscribed); if ( st != NULL ) cw_log(LOG_DEBUG, "Subscription type: Event: %s Format: %s\n", st->event, st->mediatype); } } else if (!strcmp(event, "message-summary") && !strcmp(accept, "application/simple-message-summary")) { /* Looks like they actually want a mailbox status */ /* At this point, we should check if they subscribe to a mailbox that has the same extension as the peer or the mailbox id. If we configure the context to be the same as a SIP domain, we could check mailbox context as well. To be able to securely accept subscribes on mailbox IDs, not extensions, we need to check the digest auth user to make sure that the user has access to the mailbox. Since we do not act on this subscribe anyway, we might as well accept any authenticated peer with a mailbox definition in their config section. */ if (!cw_strlen_zero(mailbox)) { found++; } if (found) { /* Only one message subscription allowed */ if( p->mwipeer && p->mwipeer->mwipvt && p->mwipeer->mwipvt != p ) sip_destroy(p->mwipeer->mwipvt ); p->mwipeer->mwipvt = p; p->subscribed = MWI_NOTIFICATION; p->expiry = atoi(get_header(req, "Expires")); /* If we are a renewal of existing sub, then cancel old destroy */ if (p->autokillid > -1 ) sip_cancel_destroy(p); sip_scheddestroy(p, (p->expiry + 10)*1000); transmit_response(p, "200 OK", req); CWOBJ_WRLOCK(p->mwipeer); sip_send_mwi_to_peer(p->mwipeer); CWOBJ_UNLOCK(p->mwipeer); } else { transmit_response(p, "404 Not found", req); cw_set_flag(p, SIP_NEEDDESTROY); } return 0; } else { /* At this point, CallWeaver does not understand the specified event */ transmit_response(p, "489 Bad Event", req); if (option_debug > 1) cw_log(LOG_DEBUG, "Received SIP subscribe for unknown event package: %s\n", event); cw_set_flag(p, SIP_NEEDDESTROY); return 0; } if (p->subscribed != NONE) p->stateid = cw_extension_state_add(p->context, p->exten, cb_extensionstate, p); } } if (!ignore && p) p->lastinvite = seqno; if (p && !cw_test_flag(p, SIP_NEEDDESTROY)) { p->expiry = atoi(get_header(req, "Expires")); /* The next 4 lines can be removed if the SNOM Expires bug is fixed */ if (p->subscribed == DIALOG_INFO_XML) { if (p->expiry > max_expiry) p->expiry = max_expiry; } if (sipdebug || option_debug > 1) cw_log(LOG_DEBUG, "Adding subscription for extension %s context %s for peer %s\n", p->exten, p->context, p->username); if (p->autokillid > -1) sip_cancel_destroy(p); /* Remove subscription expiry for renewals */ sip_scheddestroy(p, (p->expiry + 10) * 1000); /* Set timer for destruction of call at expiration */ if ((firststate = cw_extension_state(NULL, p->context, p->exten)) < 0) { cw_log(LOG_ERROR, "Got SUBSCRIBE for extensions without hint. Please add hint to %s in context %s\n", p->exten, p->context); transmit_response(p, "404 Not found", req); cw_set_flag(p, SIP_NEEDDESTROY); return 0; } else { transmit_response(p, "200 OK", req); transmit_state_notify(p, firststate, 1, 1, 0); /* Send first notification */ append_history(p, "Subscribestatus", cw_extension_state2str(firststate)); struct sip_pvt *p_old; /* remove any old subscription from this peer for the same exten/context, as the peer has obviously forgotten about it and it's wasteful to wait for it to expire and send NOTIFY messages to the peer only to have them ignored (or generate errors) */ cw_mutex_lock(&iflock); for (p_old = iflist; p_old; p_old = p_old->next) { if (p_old == p) continue; if (p_old->initreq.method != SIP_SUBSCRIBE) continue; if (p_old->subscribed == NONE) continue; cw_mutex_lock(&p_old->lock); if (!strcmp(p_old->username, p->username)) { if (!strcmp(p_old->exten, p->exten) && !strcmp(p_old->context, p->context)) { cw_set_flag(p_old, SIP_NEEDDESTROY); cw_mutex_unlock(&p_old->lock); break; } } cw_mutex_unlock(&p_old->lock); } cw_mutex_unlock(&iflock); } if (!p->expiry) cw_set_flag(p, SIP_NEEDDESTROY); } return 1; } /*! \brief handle_request_register: Handle incoming REGISTER request */ static int handle_request_register(struct sip_pvt *p, struct sip_request *req, int debug, int ignore, struct sockaddr_in *sin, char *e) { int res = 0; char iabuf[INET_ADDRSTRLEN]; /* Use this as the basis */ if (debug) cw_verbose("Using latest REGISTER request as basis request\n"); copy_request(&p->initreq, req); check_via(p, req); if ((res = register_verify(p, sin, req, e, ignore)) < 0) cw_log(LOG_NOTICE, "Registration from '%s' failed for '%s' - %s\n", get_header(req, "To"), cw_inet_ntoa(iabuf, sizeof(iabuf), sin->sin_addr), (res == -1) ? "Wrong password" : (res == -2 ? "Username/auth name mismatch" : "Not a local SIP domain")); if (res < 1) { /* Destroy the session, but keep us around for just a bit in case they don't get our 200 OK */ sip_scheddestroy(p, 15*1000); } return res; } /*! \brief handle_request: Handle SIP requests (methods) */ /* this is where all incoming requests go first */ static int handle_request(struct sip_pvt *p, struct sip_request *req, struct sockaddr_in *sin, int *recount, int *nounlock) { /* Called with p->lock held, as well as p->owner->lock if appropriate, keeping things relatively static */ struct sip_request resp; char *cmd; char *cseq; char *useragent; int seqno; int len; int ignore=0; int respid; int res = 0; char iabuf[INET_ADDRSTRLEN]; int debug = sip_debug_test_pvt(p); char *e; int error = 0; /* Clear out potential response */ memset(&resp, 0, sizeof(resp)); /* Get Method and Cseq */ cseq = get_header(req, "Cseq"); cmd = req->header[0]; /* Must have Cseq */ if (cw_strlen_zero(cmd) || cw_strlen_zero(cseq)) { cw_log(LOG_ERROR, "Missing Cseq. Dropping this SIP message, it's incomplete.\n"); error = 1; } if (!error && sscanf(cseq, "%d%n", &seqno, &len) != 1) { cw_log(LOG_ERROR, "No seqno in '%s'. Dropping incomplete message.\n", cmd); error = 1; } if (error) { if (!p->initreq.header) /* New call */ cw_set_flag(p, SIP_NEEDDESTROY); /* Make sure we destroy this dialog */ return -1; } /* Get the command XXX */ cmd = req->rlPart1; e = req->rlPart2; /* Save useragent of the client */ useragent = get_header(req, "User-Agent"); if (!cw_strlen_zero(useragent)) cw_copy_string(p->useragent, useragent, sizeof(p->useragent)); /* Find out SIP method for incoming request */ if (req->method == SIP_RESPONSE) { /* Response to our request */ /* Response to our request -- Do some sanity checks */ if (!p->initreq.headers) { cw_log(LOG_DEBUG, "That's odd... Got a response on a call we dont know about. Cseq %d Cmd %s\n", seqno, cmd); if (stun_active) p->stun_needed=0; // We must ignore and destroy this packet. Allow destruction if stun is active cw_set_flag(p, SIP_NEEDDESTROY); return 0; } else if (p->ocseq && (p->ocseq < seqno)) { cw_log(LOG_DEBUG, "Ignoring out of order response %d (expecting %d)\n", seqno, p->ocseq); return -1; } else if (p->ocseq && (p->ocseq != seqno)) { /* ignore means "don't do anything with it" but still have to respond appropriately */ ignore=1; } else if (e) { e = cw_skip_blanks(e); if (sscanf(e, "%d %n", &respid, &len) != 1) { cw_log(LOG_WARNING, "Invalid response: '%s'\n", e); } else { /* More SIP ridiculousness, we have to ignore bogus contacts in 100 etc responses */ if ((respid == 200) || ((respid >= 300) && (respid <= 399))) extract_uri(p, req); handle_response(p, respid, e + len, req, ignore, seqno); } } return 0; } /* New SIP request coming in (could be new request in existing SIP dialog as well...) */ p->method = req->method; /* Find out which SIP method they are using */ if (option_debug > 2) cw_log(LOG_DEBUG, "**** Received %s (%d) - Command in SIP %s\n", sip_methods[p->method].text, sip_methods[p->method].id, cmd); if (p->icseq && (p->icseq > seqno)) { if (req->method == SIP_ACK) { __sip_ack(p, seqno, FLAG_RESPONSE, -1); /* Stop retransmissions of whatever's being ACKed */ return 0; } else { if (option_debug) cw_log(LOG_DEBUG, "Ignoring too old SIP packet packet %d (expecting >= %d)\n", seqno, p->icseq); transmit_response(p, "503 Server error", req); /* We must respond according to RFC 3261 sec 12.2 */ return -1; } } else if (p->icseq && (p->icseq == seqno) && req->method != SIP_ACK &&(p->method != SIP_CANCEL|| cw_test_flag(p, SIP_ALREADYGONE))) { /* ignore means "don't do anything with it" but still have to respond appropriately. We do this if we receive a repeat of the last sequence number */ ignore = 2; if (option_debug > 2) cw_log(LOG_DEBUG, "Ignoring SIP message because of retransmit (%s Seqno %d, ours %d)\n", sip_methods[p->method].text, p->icseq, seqno); } if (seqno >= p->icseq) /* Next should follow monotonically (but not necessarily incrementally -- thanks again to the genius authors of SIP -- increasing */ p->icseq = seqno; /* Find their tag if we haven't got it */ if (cw_strlen_zero(p->theirtag)) { gettag(req, "From", p->theirtag, sizeof(p->theirtag)); } snprintf(p->lastmsg, sizeof(p->lastmsg), "Rx: %s", cmd); if (pedanticsipchecking) { /* If this is a request packet without a from tag, it's not correct according to RFC 3261 */ /* Check if this a new request in a new dialog with a totag already attached to it, RFC 3261 - section 12.2 - and we don't want to mess with recovery */ if (!p->initreq.headers && cw_test_flag(req, SIP_PKT_WITH_TOTAG)) { /* If this is a first request and it got a to-tag, it is not for us */ if (!ignore && req->method == SIP_INVITE) { transmit_response_reliable(p, "481 Call/Transaction Does Not Exist", req, 1); /* Will cease to exist after ACK */ } else if (req->method != SIP_ACK) { transmit_response(p, "481 Call/Transaction Does Not Exist", req); cw_set_flag(p, SIP_NEEDDESTROY); } return res; } } if (!e && (p->method == SIP_INVITE || p->method == SIP_SUBSCRIBE || p->method == SIP_REGISTER)) { transmit_response(p, "400 Bad request", req); cw_set_flag(p, SIP_NEEDDESTROY); return -1; } /* Handle various incoming SIP methods in requests */ switch (p->method) { case SIP_OPTIONS: res = handle_request_options(p, req, debug); break; case SIP_INVITE: res = handle_request_invite(p, req, debug, ignore, seqno, sin, recount, e); break; case SIP_REFER: res = handle_request_refer(p, req, debug, ignore, seqno, nounlock); break; case SIP_CANCEL: res = handle_request_cancel(p, req, debug, ignore); break; case SIP_BYE: res = handle_request_bye(p, req, debug, ignore); break; case SIP_MESSAGE: res = handle_request_message(p, req, debug, ignore); break; case SIP_SUBSCRIBE: res = handle_request_subscribe(p, req, debug, ignore, sin, seqno, e); break; case SIP_REGISTER: res = handle_request_register(p, req, debug, ignore, sin, e); break; case SIP_INFO: if (!ignore) { if (debug) cw_verbose("Receiving INFO!\n"); handle_request_info(p, req); } else { /* if ignoring, transmit response */ transmit_response(p, "200 OK", req); } break; case SIP_NOTIFY: /* XXX we get NOTIFY's from some servers. WHY?? Maybe we should look into this someday XXX */ transmit_response(p, "200 OK", req); if (!p->lastinvite) cw_set_flag(p, SIP_NEEDDESTROY); break; case SIP_ACK: /* Make sure we don't ignore this */ if (seqno == p->pendinginvite) { p->pendinginvite = 0; __sip_ack(p, seqno, FLAG_RESPONSE, -1); if (!cw_strlen_zero(get_header(req, "Content-Type"))) { if (process_sdp(p, req)) return -1; } check_pendings(p); } if (!p->lastinvite && cw_strlen_zero(p->randdata)) cw_set_flag(p, SIP_NEEDDESTROY); break; default: transmit_response_with_allow(p, "501 Method Not Implemented", req, 0); cw_log(LOG_NOTICE, "Unknown SIP command '%s' from '%s'\n", cmd, cw_inet_ntoa(iabuf, sizeof(iabuf), p->sa.sin_addr)); /* If this is some new method, and we don't have a call, destroy it now */ if (!p->initreq.headers) cw_set_flag(p, SIP_NEEDDESTROY); break; } return res; } #ifdef SIP_TCP_SUPPORT static int check_content_length(char *data, int readbytes, int max) { int f = 0, blen = 0, msglen = 0; char buf[SIP_MAX_PACKET]; char *c = NULL, *header = NULL, *p; memcpy(buf, data, readbytes); buf[readbytes] = 0; c = buf; /* First header starts immediately */ header = c; while (*c) { if (*c == '\n') { /* We've got a new header */ *c = 0; if (!strncmp(header, "Content-Length", strlen("Content-Length"))) { p = strchr(header, ':'); if (p) { p ++; blen = atoi(p); } else { cw_log(LOG_ERROR, "No colol in Content-Length header\n"); return -1; } } if (cw_strlen_zero(header)) { /* Line by itself means we're now in content */ c++; break; } if (f >= SIP_MAX_HEADERS - 1) { cw_log(LOG_WARNING, "Too many SIP headers...\n"); } else f++; header = c + 1; } else if (*c == '\r') { /* Ignore but eliminate \r's */ *c = 0; } c++; } msglen = (int)(c - buf) + blen; /* cw_verbose("blen %d, msglen %d, readbytes %d\n", blen, msglen, readbytes); */ if ((readbytes >= msglen) || (readbytes >= max)) return msglen; else return 0; } #endif /*! \brief sipsock_read: Read data from SIP socket */ /* Successful messages is connected to SIP call and forwarded to handle_request() */ static int sipsock_read(int *id, int fd, short events, void *ignore) { struct sip_request req; struct sip_request req_bak; struct sockaddr_in sin = { 0, }, sout = { 0, }; struct sip_pvt *p; int res; socklen_t len, leno; int nounlock; int recount = 0; char iabuf[INET_ADDRSTRLEN]; #ifdef SIP_TCP_SUPPORT SSL *ssl = (SSL *)ignore; int msglen = 0, n = 0; #endif unsigned int lockretry = 100; len = sizeof(sin); leno = sizeof(sout); memset(&req, 0, sizeof(req)); #ifdef SIP_TCP_SUPPORT if (fd != sipsock) { /* It is TCP socket */ if (getpeername(fd, (struct sockaddr *)&sin, &len) < 0) cw_log(LOG_WARNING, "TCP getpeername error: %s\n", strerror(errno)); /* ToDo: TLS read needs check the whole SIP message is read or not by looking at double CRLF and Contect-Length header */ if (ssl) { /* This must be TLS connection socket */ do { res = SSL_read(ssl, req.data+n, sizeof(req.data) - 1); switch(SSL_get_error(ssl, res)) { case SSL_ERROR_NONE: n += res; break; case SSL_ERROR_ZERO_RETURN: /* The peer closed the connection */ cw_log(LOG_NOTICE, "The peer closed TLS Connection\n"); res = -1; break; case SSL_ERROR_SYSCALL: if (SSL_get_shutdown(ssl) & SSL_RECEIVED_SHUTDOWN) cw_log(LOG_WARNING, "SSL_ERROR_SYSCALL/HANGUP err=%s(%d)\n", strerror(errno), errno); if (res == 0) cw_log(LOG_WARNING, "SSL_ERROR_SYSCALL/EOF err=%s(%d)\n", strerror(errno), errno); else cw_log(LOG_ERROR, "SSL_ERROR_SYSCALL/SOCKET err=%s(%d)\n", strerror(errno), errno); res = -1; break; default: cw_log(LOG_ERROR, "TLS read error %d, %s\n", SSL_get_error(ssl, res), strerror(errno)); res = -1; break; } if (res >= 0) msglen = check_content_length(req.data, n, (sizeof(req.data) - 1)); } while (!msglen && (res >= 0)); } else { /* This must be TCP connection socket */ do { res = read(fd, req.data+n, sizeof(req.data) - 1); if (res > 0) { n += res; } else if (res == 0) { /* The client closed the TCP connection? */ cw_log(LOG_NOTICE, "Remote closed TCP connection : fd %d\n", fd); res = -1; } else if (res < 0) { cw_log(LOG_ERROR, "TCP read error: %s\n", strerror(errno)); } if (res >= 0) msglen = check_content_length(req.data, n, (sizeof(req.data) - 1)); } while (!msglen && (res >= 0)); } /* clean up sockfd and ssl if a peer closed the TCP connection */ if (res < 0) { cleanup_tcp_connection(fd, ssl); return 0; /* Remove it */ } res = msglen; } else #endif res = cw_recvfromto(sipsock, req.data, sizeof(req.data) - 1, 0, (struct sockaddr *)&sin, &len, (struct sockaddr *)&sout, &leno); if (res < 0) { #if !defined(__FreeBSD__) if (errno == EAGAIN) cw_log(LOG_NOTICE, "SIP: Received packet with bad UDP checksum\n"); else #endif if (errno != ECONNREFUSED) cw_log(LOG_WARNING, "Recv error: %s\n", strerror(errno)); return 1; } if (res == sizeof(req.data)) { cw_log(LOG_DEBUG, "Received packet exceeds buffer. Data is possibly lost\n"); req.data[sizeof(req.data) - 1] = '\0'; } else req.data[res] = '\0'; req.len = res; if (sip_debug_test_addr(&sin)) cw_set_flag(&req, SIP_PKT_DEBUG); if (pedanticsipchecking) { // Save our packet... memcpy (&req_bak, &req, sizeof(struct sip_request) ); req.len = lws2sws(req.data, req.len); /* Fix multiline headers */ } if (cw_test_flag(&req, SIP_PKT_DEBUG)) { #ifdef SIP_TCP_SUPPORT cw_verbose("\n<-- Sip read from %s:%d:%s \n%s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port), fd == sipsock ? "UDP" : (ssl ? "TLS" : "TCP"), req.data); #else cw_verbose("\n<-- SIP read from %s:%d: \n%s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), sin.sin_addr), ntohs(sin.sin_port), req.data); #endif } parse_request(&req); req.method = find_sip_method(req.rlPart1); /* ANALYZE Packet payload to discover stun responses */ if (req.method == SIP_UNKNOWN && req.len >=20 ) { static struct stun_state stun_me; memset(&stun_me, 0, sizeof(struct stun_state)); if ( pedanticsipchecking && stun_handle_packet(sipsock, &sin,(unsigned char *) req_bak.data,res, &stun_me) == STUN_ACCEPT) ; else if ( !pedanticsipchecking && stun_handle_packet(sipsock, &sin,(unsigned char *) req.data,res, &stun_me) == STUN_ACCEPT) ; if (stun_me.msgtype == STUN_BINDRESP) { struct in_addr empty; struct sockaddr_in msin; if (stundebug) cw_log(LOG_DEBUG, "Got STUN bind response on SIP channel.\n"); stun_addr2sockaddr(&msin, stun_me.mapped_addr); memset(&empty, 0, sizeof(empty)); if (!memcmp(&externip.sin_addr, &empty, sizeof(externip.sin_addr))) { cw_log(LOG_NOTICE, "STUN: externip not set. Setting it to stun mapped address %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), msin.sin_addr) ); externip = msin; } else if (memcmp(&externip.sin_addr,&msin.sin_addr,sizeof(externip.sin_addr))) { cw_log(LOG_NOTICE, "STUN: externip changed. Setting it to stun mapped address %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), msin.sin_addr) ); externip = msin; } return 1; } } if (cw_test_flag(&req, SIP_PKT_DEBUG)) { /* cw_verbose("--- (%d headers %d lines)", req.headers, req.lines); if (req.headers + req.lines == 0) cw_verbose(" Nat keepalive "); cw_verbose("---\n"); */ cw_verbose("--- (%d headers %d lines)%s ---\n", req.headers, req.lines, (req.headers + req.lines == 0) ? " Nat keepalive" : ""); } if (req.headers < 2) { /* Must have at least two headers */ return 1; } /* Process request, with netlock held */ retrylock: cw_mutex_lock(&netlock); p = find_call(&req, &sin, &sout, req.method); if (p) { /* Go ahead and lock the owner if it has one -- we may need it */ if (p->owner && cw_mutex_trylock(&p->owner->lock)) { cw_log(LOG_DEBUG, "Failed to grab lock, trying again...\n"); cw_mutex_unlock(&p->lock); cw_mutex_unlock(&netlock); /* Sleep infintismly short amount of time */ usleep(1); if (--lockretry) goto retrylock; } if (!lockretry) { cw_log(LOG_ERROR, "We could NOT get the channel lock for %s - Call ID %s! \n", p->owner->name, p->callid); cw_log(LOG_ERROR, "SIP MESSAGE JUST IGNORED: %s \n", req.data); return 1; } memcpy(&p->recv, &sin, sizeof(p->recv)); if (recordhistory) { char tmp[80]; /* This is a response, note what it was for */ snprintf(tmp, sizeof(tmp), "%s / %s", req.data, get_header(&req, "CSeq")); append_history(p, "Rx", tmp); } #ifdef SIP_TCP_SUPPORT p->sockfd = fd; /* Save socket fd to send a response */ if (fd != sipsock) { if (ssl) { p->ssl = ssl; /* Only TLS will have non-null ssl */ cw_copy_string(p->transport, "TLS", sizeof(p->transport)); } else cw_copy_string(p->transport, "TCP", sizeof(p->transport)); } else cw_copy_string(p->transport, "UDP", sizeof(p->transport)); #endif nounlock = 0; if (handle_request(p, &req, &sin, &recount, &nounlock) == -1) { /* Request failed */ cw_log(LOG_DEBUG, "SIP message could not be handled, bad request: %-70.70s\n", p->callid[0] ? p->callid : ""); } if (p->owner && !nounlock) cw_mutex_unlock(&p->owner->lock); cw_mutex_unlock(&p->lock); } cw_mutex_unlock(&netlock); if (recount) cw_update_use_count(); return 1; } /*! \brief sip_send_mwi_to_peer: Send message waiting indication */ static int sip_send_mwi_to_peer(struct sip_peer *peer) { /* Called with peerl lock, but releases it */ struct sip_pvt *p; int newmsgs, oldmsgs; int msgsummary; time(&peer->lastmsgcheck); /* If we need a subscription but don't have one then we return */ if (cw_test_flag(&peer->flags_page2, SIP_PAGE2_SUBSCRIBEMWIONLY) && !peer->mwipvt) return 0; /* Check for messages */ cw_app_messagecount(peer->mailbox, &newmsgs, &oldmsgs); msgsummary = ((newmsgs > 0x7fff ? 0x7fff0000 : (newmsgs << 16)) | (oldmsgs > 0xffff ? 0xffff : oldmsgs)); /* Return now if it's the same thing we told them last time */ if( msgsummary == peer->lastmsgssent) { return 0; } peer->lastmsgssent = msgsummary; if(peer->mwipvt) { p = peer->mwipvt; } else { p = sip_alloc(NULL, NULL, 0, SIP_NOTIFY); if (!p) { cw_log(LOG_WARNING, "Unable to build sip pvt data for MWI\n"); return -1; } if (create_addr_from_peer(p, peer)) { /* Maybe they're not registered, etc. */ sip_destroy(p); return 0; } /* Recalculate our side, and recalculate Call ID */ if (cw_sip_ouraddrfor(&p->sa.sin_addr,&p->ourip,p)) memcpy(&p->ourip, &__ourip, sizeof(p->ourip)); build_via(p, p->via, sizeof(p->via)); build_callid(p->callid, sizeof(p->callid), p->ourip, p->fromdomain); sip_scheddestroy(p, 15000); } /* Send MWI */ cw_set_flag(p, SIP_OUTGOING); transmit_notify_with_mwi(p, newmsgs, oldmsgs, peer->vmexten); return 0; } #ifdef SIP_TCP_SUPPORT static int siptcp_accept(int *id, int fd, short events, void *ignore) { int tcpconnfd = -1; struct sockaddr_in cliaddr; socklen_t sa_len; char iabuf[INET_ADDRSTRLEN]; sa_len = sizeof(cliaddr); if ((tcpconnfd = accept(siptcpsock, (struct sockaddr *)&cliaddr, &sa_len)) < 0) { cw_log(LOG_WARNING, "Failed to accept SIP TCP connection from TCP listening sock %d : %s\n", siptcpsock, strerror(errno)); return 1; } if( sip_debug_test_addr(&cliaddr) ) cw_verbose(VERBOSE_PREFIX_2 "Accepted TCP connection fd %d from %s:%d\n", tcpconnfd, cw_inet_ntoa(iabuf, sizeof(iabuf), cliaddr.sin_addr), ntohs(cliaddr.sin_port)); cw_io_add(io, tcpconnfd, sipsock_read, CW_IO_IN, NULL); return 1; } static int siptls_accept(int *id, int fd, short events, void *ignore) { int ret, tlsconnfd = -1; struct sockaddr_in cliaddr; socklen_t sa_len; char iabuf[INET_ADDRSTRLEN]; BIO *bio; // BIO *bio_err=BIO_new_fp(stderr, BIO_NOCLOSE); // debug only SSL *ssl; sa_len = sizeof(cliaddr); if ((tlsconnfd = accept(siptlssock, (struct sockaddr *)&cliaddr, &sa_len)) < 0) { cw_log(LOG_WARNING, "Failed to accept SIP TLS connection from TLS listening sock %d : %s\n", siptlssock, strerror(errno)); return 1; } /* Initiate TLS handshake */ bio = BIO_new_socket(tlsconnfd, BIO_CLOSE); if (!(ssl = SSL_new(tlsctx))) { cw_log(LOG_ERROR, "SSL_new error : %s\n", ERR_reason_error_string(ERR_get_error())); // ERR_print_errors(bio_err); return 2; } SSL_set_bio(ssl, bio, bio); if((ret = SSL_accept(ssl) <= 0)) { cw_log(LOG_ERROR, "SSL accept error : %s\n", ERR_reason_error_string(ERR_get_error())); // ERR_print_errors(bio_err); return 3; } /* ToDo : Client authentication code */ if( sip_debug_test_addr(&cliaddr) ) cw_verbose(VERBOSE_PREFIX_2 "Accepted TLS connection fd %d from %s:%d\n", tlsconnfd, cw_inet_ntoa(iabuf, sizeof(iabuf), cliaddr.sin_addr), ntohs(cliaddr.sin_port)); if (!cw_io_add(io, tlsconnfd, sipsock_read, CW_IO_IN, ssl)) cw_log(LOG_ERROR, "ist_io_add failed\n"); return 4; } #endif /*! \brief do_monitor: The SIP monitoring thread */ static void *do_monitor(void *data) { int res; struct sip_pvt *sip; struct sip_peer *peer = NULL; time_t t; int fastrestart =0; int lastpeernum = -1; int curpeernum; int reloading; /* Add an I/O event to our UDP socket */ if (sipsock > -1) sipsock_read_id = cw_io_add(io, sipsock, sipsock_read, CW_IO_IN, NULL); #ifdef SIP_TCP_SUPPORT if (siptcpsock > -1) siptcpsock_read_id = cw_io_add(io, siptcpsock, siptcp_accept, CW_IO_IN, NULL); if (siptlssock > -1) siptlssock_read_id = cw_io_add(io, siptlssock, siptls_accept, CW_IO_IN, NULL); #endif /* This thread monitors all the frame relay interfaces which are not yet in use (and thus do not have a separate thread) indefinitely */ /* From here on out, we die whenever asked */ for (;;) { /* Check for a reload request */ cw_mutex_lock(&sip_reload_lock); reloading = sip_reloading; sip_reloading = 0; cw_mutex_unlock(&sip_reload_lock); if (reloading) { if (option_verbose > 0) cw_verbose(VERBOSE_PREFIX_1 "Reloading SIP\n"); sip_do_reload(); /* Change the I/O fd of our UDP socket */ if (sipsock > -1) sipsock_read_id = cw_io_change(io, sipsock_read_id, sipsock, NULL, 0, NULL); #ifdef SIP_TCP_SUPPORT if (siptcpsock > -1) siptcpsock_read_id = cw_io_change(io, siptcpsock_read_id, siptcpsock, NULL, 0, NULL); if (siptlssock > -1) siptlssock_read_id = cw_io_change(io, siptlssock_read_id, siptlssock, NULL, 0, NULL); #endif } /* Check for interfaces needing to be killed */ cw_mutex_lock(&iflock); restartsearch: time(&t); sip = iflist; while (!fastrestart && sip) { cw_mutex_lock(&sip->lock); if (sip->rtp && sip->owner && (sip->owner->_state == CW_STATE_UP) && !sip->redirip.sin_addr.s_addr) { if (sip->lastrtptx && sip->rtpkeepalive && t > sip->lastrtptx + sip->rtpkeepalive) { /* Need to send an empty RTP packet */ time(&sip->lastrtptx); cw_rtp_sendcng(sip->rtp, 0); } if (sip->lastrtprx && (sip->rtptimeout || sip->rtpholdtimeout) && t > sip->lastrtprx + sip->rtptimeout) { /* Might be a timeout now -- see if we're on hold */ struct sockaddr_in sin; cw_rtp_get_peer(sip->rtp, &sin); if (sin.sin_addr.s_addr || (sip->rtpholdtimeout && (t > sip->lastrtprx + sip->rtpholdtimeout))) { /* Needs a hangup */ /* When we're in T.38 mode, the applications will timeout on their own */ if (sip->rtptimeout && ( sip->t38state != SIP_T38_NEGOTIATED) ) { while (sip->owner && cw_mutex_trylock(&sip->owner->lock)) { cw_mutex_unlock(&sip->lock); usleep(1); cw_mutex_lock(&sip->lock); } if (sip->owner) { cw_log(LOG_NOTICE, "Disconnecting call '%s' for lack of RTP activity in %ld seconds\n", sip->owner->name, (long)(t - sip->lastrtprx)); /* Issue a softhangup */ cw_softhangup(sip->owner, CW_SOFTHANGUP_DEV); cw_mutex_unlock(&sip->owner->lock); /* forget the timeouts for this call, since a hangup has already been requested and we don't want to repeatedly request hangups */ sip->rtptimeout = 0; sip->rtpholdtimeout = 0; } } } } } if (cw_test_flag(sip, SIP_NEEDDESTROY) && !sip->packets && !sip->owner) { if (sip->stun_needed==0 || sip->stun_needed==3 || ( sip->stun_needed==1 && ( cw_stun_find_request(&sip->stun_transid)==NULL ))) { cw_mutex_unlock(&sip->lock); if ( sipdebug && option_debug > 6) cw_log(LOG_DEBUG, "Destroying call '%s' [%d]...\n", sip->callid,sip->stun_needed); __sip_destroy(sip, 1); goto restartsearch; } else cw_log(LOG_NOTICE, "Delaying call destroy (stun active) on call '%s' [%d]\n", sip->callid,sip->stun_needed); } cw_mutex_unlock(&sip->lock); sip = sip->next; } cw_mutex_unlock(&iflock); /* Don't let anybody kill us right away. Nobody should lock the interface list and wait for the monitor list, but the other way around is okay. */ cw_mutex_lock(&monlock); /* Lock the network interface */ cw_mutex_lock(&netlock); /* Okay, now that we know what to do, release the network lock */ cw_mutex_unlock(&netlock); /* And from now on, we're okay to be killed, so release the monitor lock as well */ cw_mutex_unlock(&monlock); pthread_testcancel(); /* Wait for sched or io */ res = cw_sched_wait(sched); if ((res < 0) || (res > 1000)) res = 1000; /* If we might need to send more mailboxes, don't wait long at all.*/ if (fastrestart) res = 1; res = cw_io_wait(io, res); if (res > 20) cw_log(LOG_DEBUG, "chan_sip: cw_io_wait ran %d all at once\n", res); cw_mutex_lock(&monlock); if (res >= 0) { res = cw_sched_runq(sched); if (res >= 20) cw_log(LOG_DEBUG, "chan_sip: cw_sched_runq ran %d all at once\n", res); } /* needs work to send mwi to realtime peers */ time(&t); fastrestart = 0; curpeernum = 0; peer = NULL; CWOBJ_CONTAINER_TRAVERSE(&peerl, !peer, do { if ((curpeernum > lastpeernum) && !cw_strlen_zero(iterator->mailbox) && ((t - iterator->lastmsgcheck) > global_mwitime)) { fastrestart = 1; lastpeernum = curpeernum; peer = CWOBJ_REF(iterator); }; curpeernum++; } while (0) ); if (peer) { CWOBJ_WRLOCK(peer); sip_send_mwi_to_peer(peer); CWOBJ_UNLOCK(peer); CWOBJ_UNREF(peer,sip_destroy_peer); } else { /* Reset where we come from */ lastpeernum = -1; } cw_mutex_unlock(&monlock); } /* Never reached */ return NULL; } /*! \brief restart_monitor: Start the channel monitor thread */ static int restart_monitor(void) { pthread_attr_t attr; /* If we're supposed to be stopped -- stay stopped */ if (monitor_thread == CW_PTHREADT_STOP) return 0; if (cw_mutex_lock(&monlock)) { cw_log(LOG_WARNING, "Unable to lock monitor\n"); return -1; } if (monitor_thread == pthread_self()) { cw_mutex_unlock(&monlock); cw_log(LOG_WARNING, "Cannot kill myself\n"); return -1; } if (monitor_thread != CW_PTHREADT_NULL) { /* Wake up the thread */ pthread_kill(monitor_thread, SIGURG); } else { pthread_attr_init(&attr); pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED); /* Start a new monitor */ if (cw_pthread_create(&monitor_thread, &attr, do_monitor, NULL) < 0) { cw_mutex_unlock(&monlock); cw_log(LOG_ERROR, "Unable to start monitor thread.\n"); return -1; } } cw_mutex_unlock(&monlock); return 0; } /*! \brief sip_poke_noanswer: No answer to Qualify poke */ static int sip_poke_noanswer(void *data) { struct sip_peer *peer = data; peer->pokeexpire = -1; if (peer->noanswer < 3) peer->noanswer++; if (peer->noanswer == 3 && peer->lastms > -1) { if (option_verbose > 3) cw_log(LOG_NOTICE, "Peer '%s' is now UNREACHABLE! Last qualify: %d\n", peer->name, peer->lastms); manager_event(EVENT_FLAG_SYSTEM, "PeerStatus", "Peer: SIP/%s\r\nPeerStatus: Unreachable\r\nTime: %d\r\n", peer->name, -1); peer->lastms = -1; cw_device_state_changed("SIP/%s", peer->name); } if (peer->call) sip_destroy(peer->call); peer->call = NULL; /* Try again quickly */ peer->pokeexpire = cw_sched_add(sched, DEFAULT_FREQ_NOTOK, sip_poke_peer_s, peer); return 0; } /*! \brief sip_poke_peer: Check availability of peer, also keep NAT open */ /* This is done with the interval in qualify= option in sip.conf */ /* Default is 2 seconds */ static int sip_poke_peer(struct sip_peer *peer) { struct sip_pvt *p; if (!peer->maxms || !peer->addr.sin_addr.s_addr) { /* IF we have no IP, or this isn't to be monitored, return imeediately after clearing things out */ if (peer->pokeexpire > -1) cw_sched_del(sched, peer->pokeexpire); peer->lastms = 0; peer->pokeexpire = -1; peer->call = NULL; return 0; } if (peer->call) { if (sipdebug) cw_log(LOG_NOTICE, "Still have a QUALIFY dialog active, deleting\n"); sip_destroy(peer->call); } p = peer->call = sip_alloc(NULL, NULL, 0, SIP_OPTIONS); if (!peer->call) { cw_log(LOG_WARNING, "Unable to allocate dialog for poking peer '%s'\n", peer->name); return -1; } memcpy(&p->sa, &peer->addr, sizeof(p->sa)); memcpy(&p->recv, &peer->addr, sizeof(p->sa)); cw_copy_flags(p, peer, SIP_FLAGS_TO_COPY); /* Send options to peer's fullcontact */ if (!cw_strlen_zero(peer->fullcontact)) { cw_copy_string (p->fullcontact, peer->fullcontact, sizeof(p->fullcontact)); } if (!cw_strlen_zero(peer->tohost)) cw_copy_string(p->tohost, peer->tohost, sizeof(p->tohost)); else cw_inet_ntoa(p->tohost, sizeof(p->tohost), peer->addr.sin_addr); #ifdef SIP_TCP_SUPPORT p->sockfd = peer->sockfd; p->ssl = peer->ssl; cw_copy_string(p->transport, peer->transport, sizeof(p->transport)); if (sipdebug) cw_log(LOG_NOTICE, "Poking %s: transport %s, sockfd %d \n", peer->username, p->transport, p->sockfd); #endif /* Recalculate our side, and recalculate Call ID */ if (cw_sip_ouraddrfor(&p->sa.sin_addr,&p->ourip,p)) memcpy(&p->ourip, &__ourip, sizeof(p->ourip)); build_via(p, p->via, sizeof(p->via)); build_callid(p->callid, sizeof(p->callid), p->ourip, p->fromdomain); if (peer->pokeexpire > -1) cw_sched_del(sched, peer->pokeexpire); p->peerpoke = peer; cw_set_flag(p, SIP_OUTGOING); #ifdef VOCAL_DATA_HACK cw_copy_string(p->username, "__VOCAL_DATA_SHOULD_READ_THE_SIP_SPEC__", sizeof(p->username)); transmit_invite(p, SIP_INVITE, 0, 2); #else transmit_invite(p, SIP_OPTIONS, 0, 2); #endif gettimeofday(&peer->ps, NULL); peer->pokeexpire = cw_sched_add(sched, peer->maxms * 2, sip_poke_noanswer, peer); return 0; } /*! \brief sip_devicestate: Part of PBX channel interface */ /* Return values:--- If we have qualify on and the device is not reachable, regardless of registration state we return CW_DEVICE_UNAVAILABLE For peers with call limit: not registered CW_DEVICE_UNAVAILABLE registered, no call CW_DEVICE_NOT_INUSE registered, calls possible CW_DEVICE_INUSE registered, call limit reached CW_DEVICE_BUSY For peers without call limit: not registered CW_DEVICE_UNAVAILABLE registered CW_DEVICE_UNKNOWN */ static int sip_devicestate(void *data) { char *host; char *tmp; struct hostent *hp; struct cw_hostent ahp; struct sip_peer *p; int res = CW_DEVICE_INVALID; host = cw_strdupa(data); if ((tmp = strchr(host, '@'))) host = tmp + 1; if (option_debug > 2) cw_log(LOG_DEBUG, "Checking device state for peer %s\n", host); if ((p = find_peer(host, NULL, 1))) { if (p->addr.sin_addr.s_addr || p->defaddr.sin_addr.s_addr) { /* we have an address for the peer */ /* if qualify is turned on, check the status */ if (p->maxms && (p->lastms > p->maxms)) { res = CW_DEVICE_UNAVAILABLE; } else { /* qualify is not on, or the peer is responding properly */ //#ifdef ENABLE_SIP_CALL_LIMIT /* check call limit */ if (p->call_limit && (p->inUse == p->call_limit)) res = CW_DEVICE_BUSY; else if (p->call_limit && p->inUse) res = CW_DEVICE_INUSE; else if (p->call_limit) res = CW_DEVICE_NOT_INUSE; else res = CW_DEVICE_UNKNOWN; //#else // res = CW_DEVICE_NOT_INUSE; //#endif } } else { /* there is no address, it's unavailable */ res = CW_DEVICE_UNAVAILABLE; } CWOBJ_UNREF(p,sip_destroy_peer); } else { if ((hp = cw_gethostbyname(host, &ahp))) res = CW_DEVICE_UNKNOWN; } return res; } /*! \brief sip_request: PBX interface function -build SIP pvt structure */ /* SIP calls initiated by the PBX arrive here */ static struct cw_channel *sip_request_call(const char *type, int format, void *data, int *cause) { int oldformat; struct sip_pvt *p; struct cw_channel *tmpc = NULL; char *ext, *host; char tmp[256]; char *dest = data; oldformat = format; format &= ((CW_FORMAT_MAX_AUDIO << 1) - 1); if (!format) { cw_log(LOG_NOTICE, "Asked to get a channel of unsupported format %s while capability is %s\n", cw_getformatname(oldformat), cw_getformatname(global_capability)); return NULL; } p = sip_alloc(NULL, NULL, 0, SIP_INVITE); if (!p) { cw_log(LOG_WARNING, "Unable to build sip pvt data for '%s'\n", (char *)data); return NULL; } p->options = calloc(1, sizeof(struct sip_invite_param)); if (!p->options) { sip_destroy(p); cw_log(LOG_ERROR, "Unable to build option SIP data structure - Out of memory\n"); *cause = CW_CAUSE_SWITCH_CONGESTION; return NULL; } cw_copy_string(tmp, dest, sizeof(tmp)); host = strchr(tmp, '@'); if (host) { *host = '\0'; host++; ext = tmp; } else { ext = strchr(tmp, '/'); if (ext) { *ext++ = '\0'; host = tmp; } else { host = tmp; ext = NULL; } } if (create_addr(p, host)) { *cause = CW_CAUSE_UNREGISTERED; sip_destroy(p); return NULL; } if (cw_strlen_zero(p->peername) && ext) cw_copy_string(p->peername, ext, sizeof(p->peername)); /* Recalculate our side, and recalculate Call ID */ if (cw_sip_ouraddrfor(&p->sa.sin_addr,&p->ourip,p)) memcpy(&p->ourip, &__ourip, sizeof(p->ourip)); build_via(p, p->via, sizeof(p->via)); build_callid(p->callid, sizeof(p->callid), p->ourip, p->fromdomain); /* We have an extension to call, don't use the full contact here */ /* This to enable dialling registered peers with extension dialling, like SIP/peername/extension SIP/peername will still use the full contact */ if (ext) { cw_copy_string(p->username, ext, sizeof(p->username)); p->fullcontact[0] = 0; } #if 0 printf("Setting up to call extension '%s' at '%s'\n", ext ? ext : "", host); #endif p->prefcodec = format; cw_mutex_lock(&p->lock); tmpc = sip_new(p, CW_STATE_DOWN, host); /* Place the call */ cw_mutex_unlock(&p->lock); if (!tmpc) sip_destroy(p); cw_update_use_count(); restart_monitor(); return tmpc; } /*! \brief handle_common_options: Handle flag-type options common to users and peers */ static int handle_common_options(struct cw_flags *flags, struct cw_flags *mask, struct cw_variable *v) { int res = 0; if (!strcasecmp(v->name, "trustrpid")) { cw_set_flag(mask, SIP_TRUSTRPID); cw_set2_flag(flags, cw_true(v->value), SIP_TRUSTRPID); res = 1; } else if (!strcasecmp(v->name, "sendrpid")) { cw_set_flag(mask, SIP_SENDRPID); cw_set2_flag(flags, cw_true(v->value), SIP_SENDRPID); res = 1; } else if (!strcasecmp(v->name, "useclientcode")) { cw_set_flag(mask, SIP_USECLIENTCODE); cw_set2_flag(flags, cw_true(v->value), SIP_USECLIENTCODE); res = 1; } else if (!strcasecmp(v->name, "dtmfmode")) { cw_set_flag(mask, SIP_DTMF); cw_clear_flag(flags, SIP_DTMF); if (!strcasecmp(v->value, "inband")) cw_set_flag(flags, SIP_DTMF_INBAND); else if (!strcasecmp(v->value, "rfc2833")) cw_set_flag(flags, SIP_DTMF_RFC2833); else if (!strcasecmp(v->value, "info")) cw_set_flag(flags, SIP_DTMF_INFO); else if (!strcasecmp(v->value, "auto")) cw_set_flag(flags, SIP_DTMF_AUTO); else { cw_log(LOG_WARNING, "Unknown dtmf mode '%s' on line %d, using rfc2833\n", v->value, v->lineno); cw_set_flag(flags, SIP_DTMF_RFC2833); } } else if (!strcasecmp(v->name, "nat")) { cw_set_flag(mask, SIP_NAT); cw_clear_flag(flags, SIP_NAT); if (!strcasecmp(v->value, "never")) cw_set_flag(flags, SIP_NAT_NEVER); else if (!strcasecmp(v->value, "route")) cw_set_flag(flags, SIP_NAT_ROUTE); else if (cw_true(v->value)) { cw_set_flag(flags, SIP_NAT_ALWAYS); } else cw_set_flag(flags, SIP_NAT_RFC3581); } else if (!strcasecmp(v->name, "canreinvite")) { cw_set_flag(mask, SIP_REINVITE); cw_clear_flag(flags, SIP_REINVITE); if (!strcasecmp(v->value, "update")) cw_set_flag(flags, SIP_REINVITE_UPDATE | SIP_CAN_REINVITE); else cw_set2_flag(flags, cw_true(v->value), SIP_CAN_REINVITE); } else if (!strcasecmp(v->name, "insecure")) { cw_set_flag(mask, SIP_INSECURE_PORT | SIP_INSECURE_INVITE); cw_clear_flag(flags, SIP_INSECURE_PORT | SIP_INSECURE_INVITE); if (!strcasecmp(v->value, "very")) cw_set_flag(flags, SIP_INSECURE_PORT | SIP_INSECURE_INVITE); else if (cw_true(v->value)) cw_set_flag(flags, SIP_INSECURE_PORT); else if (!cw_false(v->value)) { char buf[64]; char *word, *next; cw_copy_string(buf, v->value, sizeof(buf)); next = buf; while ((word = strsep(&next, ","))) { if (!strcasecmp(word, "port")) cw_set_flag(flags, SIP_INSECURE_PORT); else if (!strcasecmp(word, "invite")) cw_set_flag(flags, SIP_INSECURE_INVITE); else cw_log(LOG_WARNING, "Unknown insecure mode '%s' on line %d\n", v->value, v->lineno); } } } else if (!strcasecmp(v->name, "progressinband")) { cw_set_flag(mask, SIP_PROG_INBAND); cw_clear_flag(flags, SIP_PROG_INBAND); if (cw_true(v->value)) cw_set_flag(flags, SIP_PROG_INBAND_YES); else if (strcasecmp(v->value, "never")) cw_set_flag(flags, SIP_PROG_INBAND_NO); } else if (!strcasecmp(v->name, "allowguest")) { if (cw_true(v->value)) global_allowguest = 1; else global_allowguest = 0; } else if (!strcasecmp(v->name, "promiscredir")) { cw_set_flag(mask, SIP_PROMISCREDIR); cw_set2_flag(flags, cw_true(v->value), SIP_PROMISCREDIR); res = 1; } return res; } /*! \brief add_sip_domain: Add SIP domain to list of domains we are responsible for */ static int add_sip_domain(const char *domain, const enum domain_mode mode, const char *context) { struct domain *d; if (cw_strlen_zero(domain)) { cw_log(LOG_WARNING, "Zero length domain.\n"); return 1; } d = calloc(1, sizeof(struct domain)); if (!d) { cw_log(LOG_ERROR, "Allocation of domain structure failed, Out of memory\n"); return 0; } cw_copy_string(d->domain, domain, sizeof(d->domain)); if (!cw_strlen_zero(context)) cw_copy_string(d->context, context, sizeof(d->context)); d->mode = mode; CW_LIST_LOCK(&domain_list); CW_LIST_INSERT_TAIL(&domain_list, d, list); CW_LIST_UNLOCK(&domain_list); if (sipdebug) cw_log(LOG_DEBUG, "Added local SIP domain '%s'\n", domain); return 1; } /*! \brief check_sip_domain: Check if domain part of uri is local to our server */ static int check_sip_domain(const char *domain, char *context, size_t len) { struct domain *d; int result = 0; CW_LIST_LOCK(&domain_list); CW_LIST_TRAVERSE(&domain_list, d, list) { if (strcasecmp(d->domain, domain)) continue; if (len && !cw_strlen_zero(d->context)) cw_copy_string(context, d->context, len); result = 1; break; } CW_LIST_UNLOCK(&domain_list); return result; } /*! \brief clear_sip_domains: Clear our domain list (at reload) */ static void clear_sip_domains(void) { struct domain *d; CW_LIST_LOCK(&domain_list); while ((d = CW_LIST_REMOVE_HEAD(&domain_list, list))) free(d); CW_LIST_UNLOCK(&domain_list); } /*! \brief add_realm_authentication: Add realm authentication in list */ static struct sip_auth *add_realm_authentication(struct sip_auth *authlist, char *configuration, int lineno) { char authcopy[256]; char *username=NULL, *realm=NULL, *secret=NULL, *md5secret=NULL; char *stringp; struct sip_auth *auth; struct sip_auth *b = NULL, *a = authlist; if (cw_strlen_zero(configuration)) return authlist; cw_log(LOG_DEBUG, "Auth config :: %s\n", configuration); cw_copy_string(authcopy, configuration, sizeof(authcopy)); stringp = authcopy; username = stringp; realm = strrchr(stringp, '@'); if (realm) { *realm = '\0'; realm++; } if (cw_strlen_zero(username) || cw_strlen_zero(realm)) { cw_log(LOG_WARNING, "Format for authentication entry is user[:secret]@realm at line %d\n", lineno); return authlist; } stringp = username; username = strsep(&stringp, ":"); if (username) { secret = strsep(&stringp, ":"); if (!secret) { stringp = username; md5secret = strsep(&stringp,"#"); } } auth = malloc(sizeof(struct sip_auth)); if (auth) { memset(auth, 0, sizeof(struct sip_auth)); cw_copy_string(auth->realm, realm, sizeof(auth->realm)); cw_copy_string(auth->username, username, sizeof(auth->username)); if (secret) cw_copy_string(auth->secret, secret, sizeof(auth->secret)); if (md5secret) cw_copy_string(auth->md5secret, md5secret, sizeof(auth->md5secret)); } else { cw_log(LOG_ERROR, "Allocation of auth structure failed, Out of memory\n"); return authlist; } /* Add authentication to authl */ if (!authlist) /* No existing list */ return auth; while (a) { b = a; a = a->next; } b->next = auth; /* Add structure add end of list */ if (option_verbose > 2) cw_verbose("Added authentication for realm %s\n", realm); return authlist; } /*! \brief clear_realm_authentication: Clear realm authentication list (at reload) */ static int clear_realm_authentication(struct sip_auth *authlist) { struct sip_auth *a = authlist; struct sip_auth *b; while (a) { b = a; a = a->next; free(b); } return 1; } /*! \brief find_realm_authentication: Find authentication for a specific realm */ static struct sip_auth *find_realm_authentication(struct sip_auth *authlist, char *realm) { struct sip_auth *a = authlist; /* First entry in auth list */ while (a) { if (!strcasecmp(a->realm, realm)) break; a = a->next; } return a; } /*! \brief build_user: Initiate a SIP user structure from sip.conf */ static struct sip_user *build_user(const char *name, struct cw_variable *v, int realtime, struct cw_config *cfg) { struct sip_user *user; int format; struct cw_ha *oldha = NULL; char *varname = NULL, *varval = NULL; struct cw_variable *tmpvar = NULL; struct cw_flags userflags = {(0)}; struct cw_flags mask = {(0)}; if (option_debug > 5) cw_log(LOG_DEBUG, "build_user() called for user \"%s\" with realtime = %d\n", name, realtime); user = (struct sip_user *)malloc(sizeof(struct sip_user)); if (!user) { return NULL; } memset(user, 0, sizeof(struct sip_user)); suserobjs++; CWOBJ_INIT(user); cw_copy_string(user->name, name, sizeof(user->name)); oldha = user->ha; user->ha = NULL; cw_copy_flags(user, &global_flags, SIP_FLAGS_TO_COPY); user->capability = global_capability; user->prefs = prefs; /* set default context */ strcpy(user->context, default_context); strcpy(user->language, default_language); strcpy(user->musicclass, global_musicclass); int done = 0; struct cw_variable *v_start; struct cw_variable *v_tmp; v_start = v; v_tmp = v; do { if (v_tmp && cfg != NULL) { while (v_tmp) { if(!strcasecmp(v_tmp->name, "include")) { v = cw_variable_browse(cfg, v_tmp->value); v_tmp = v_tmp->next; break; } v_tmp = v_tmp->next; } } else { v = v_start; done = 1; } while (v) { if (handle_common_options(&userflags, &mask, v)) { v = v->next; continue; } if (!strcasecmp(v->name, "context")) { cw_copy_string(user->context, v->value, sizeof(user->context)); } else if (!strcasecmp(v->name, "subscribecontext")) { cw_copy_string(user->subscribecontext, v->value, sizeof(user->subscribecontext)); } else if (!strcasecmp(v->name, "setvar")) { varname = cw_strdupa(v->value); if ((varval = strchr(varname, '='))) { *varval = '\0'; varval++; if ((tmpvar = cw_variable_new(varname, varval))) { tmpvar->next = user->chanvars; user->chanvars = tmpvar; } } } else if (!strcasecmp(v->name, "permit") || !strcasecmp(v->name, "deny")) { user->ha = cw_append_ha(v->name, v->value, user->ha); } else if (!strcasecmp(v->name, "secret")) { cw_copy_string(user->secret, v->value, sizeof(user->secret)); } else if (!strcasecmp(v->name, "md5secret")) { cw_copy_string(user->md5secret, v->value, sizeof(user->md5secret)); } else if (!strcasecmp(v->name, "callerid")) { cw_callerid_split(v->value, user->cid_name, sizeof(user->cid_name), user->cid_num, sizeof(user->cid_num)); } else if (!strcasecmp(v->name, "callgroup")) { user->callgroup = cw_get_group(v->value); } else if (!strcasecmp(v->name, "pickupgroup")) { user->pickupgroup = cw_get_group(v->value); } else if (!strcasecmp(v->name, "language")) { cw_copy_string(user->language, v->value, sizeof(user->language)); } else if (!strcasecmp(v->name, "musicclass") || !strcasecmp(v->name, "musiconhold")) { cw_copy_string(user->musicclass, v->value, sizeof(user->musicclass)); } else if (!strcasecmp(v->name, "accountcode")) { cw_copy_string(user->accountcode, v->value, sizeof(user->accountcode)); } #ifdef ENABLE_SIP_CALL_LIMIT else if (!strcasecmp(v->name, "call-limit") || !strcasecmp(v->name, "call_limit") || !strcasecmp(v->name, "incominglimit")) { user->call_limit = atoi(v->value); if (user->call_limit < 0) user->call_limit = 0; } #endif else if (!strcasecmp(v->name, "amaflags")) { format = cw_cdr_amaflags2int(v->value); if (format < 0) { cw_log(LOG_WARNING, "Invalid AMA Flags: %s at line %d\n", v->value, v->lineno); } else { user->amaflags = format; } } else if (!strcasecmp(v->name, "allow")) { cw_parse_allow_disallow(&user->prefs, &user->capability, v->value, 1); } else if (!strcasecmp(v->name, "disallow")) { cw_parse_allow_disallow(&user->prefs, &user->capability, v->value, 0); } else if (!strcasecmp(v->name, "callingpres")) { user->callingpres = cw_parse_caller_presentation(v->value); if (user->callingpres == -1) user->callingpres = atoi(v->value); } /*else if (strcasecmp(v->name,"type")) * cw_log(LOG_WARNING, "Ignoring %s\n", v->name); */ v = v->next; } } while( done == 0 ); cw_copy_flags(user, &userflags, mask.flags); cw_free_ha(oldha); return user; } /*! \brief temp_peer: Create temporary peer (used in autocreatepeer mode) */ static struct sip_peer *temp_peer(const char *name) { struct sip_peer *peer; peer = malloc(sizeof(struct sip_peer)); if (!peer) return NULL; memset(peer, 0, sizeof(struct sip_peer)); apeerobjs++; CWOBJ_INIT(peer); peer->expire = -1; peer->pokeexpire = -1; cw_copy_string(peer->name, name, sizeof(peer->name)); cw_copy_flags(peer, &global_flags, SIP_FLAGS_TO_COPY); strcpy(peer->context, default_context); strcpy(peer->subscribecontext, default_subscribecontext); strcpy(peer->language, default_language); strcpy(peer->musicclass, global_musicclass); peer->addr.sin_port = htons(DEFAULT_SIP_PORT); peer->addr.sin_family = AF_INET; peer->capability = global_capability; peer->rtptimeout = global_rtptimeout; peer->rtpholdtimeout = global_rtpholdtimeout; peer->rtpkeepalive = global_rtpkeepalive; cw_set_flag(peer, SIP_SELFDESTRUCT); cw_set_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC); peer->prefs = prefs; reg_source_db(peer); return peer; } /*! \brief build_peer: Build peer from config file */ static struct sip_peer *build_peer(const char *name, struct cw_variable *v, int realtime, struct cw_config *cfg) { struct sip_peer *peer = NULL; struct cw_ha *oldha = NULL; int obproxyfound=0; int found=0; int format=0; /* Ama flags */ time_t regseconds; char *varname = NULL, *varval = NULL; struct cw_variable *tmpvar = NULL; struct cw_flags peerflags = {(0)}; struct cw_flags mask = {(0)}; if (!realtime) { /* Note we do NOT use find_peer here, to avoid realtime recursion */ /* We also use a case-sensitive comparison (unlike find_peer) so that case changes made to the peer name will be properly handled during reload */ peer = CWOBJ_CONTAINER_FIND_UNLINK_FULL(&peerl, name, name, 0, 0, strcmp); } if (option_debug > 5) cw_log(LOG_DEBUG, "build_peer() called for peer \"%s\" with realtime = %d\n", name, realtime); if (peer) { if (option_debug > 5) cw_log(LOG_DEBUG, "Peer \"%s\" already in the list, remove it and it will be added back (or FREE'd)\n", name); found++; } else { peer = malloc(sizeof(struct sip_peer)); if (peer) { memset(peer, 0, sizeof(struct sip_peer)); if (realtime) rpeerobjs++; else speerobjs++; CWOBJ_INIT(peer); peer->expire = -1; peer->pokeexpire = -1; peer->lastms = -1; } else { cw_log(LOG_WARNING, "Can't allocate SIP peer memory\n"); } } /* Note that our peer HAS had its reference count incrased */ if (!peer) return NULL; peer->lastmsgssent = -1; if (!found) { if (name) cw_copy_string(peer->name, name, sizeof(peer->name)); peer->addr.sin_port = htons(DEFAULT_SIP_PORT); peer->addr.sin_family = AF_INET; peer->defaddr.sin_family = AF_INET; } /* If we have channel variables, remove them (reload) */ if (peer->chanvars) { cw_variables_destroy(peer->chanvars); peer->chanvars = NULL; } strcpy(peer->context, default_context); strcpy(peer->subscribecontext, default_subscribecontext); strcpy(peer->vmexten, global_vmexten); strcpy(peer->language, default_language); strcpy(peer->musicclass, global_musicclass); cw_copy_flags(peer, &global_flags, SIP_USEREQPHONE); peer->secret[0] = '\0'; peer->md5secret[0] = '\0'; peer->cid_num[0] = '\0'; peer->cid_name[0] = '\0'; peer->fromdomain[0] = '\0'; peer->fromuser[0] = '\0'; peer->regexten[0] = '\0'; peer->mailbox[0] = '\0'; peer->callgroup = 0; peer->pickupgroup = 0; peer->rtpkeepalive = global_rtpkeepalive; peer->maxms = default_qualify; peer->prefs = prefs; oldha = peer->ha; peer->ha = NULL; #ifdef SIP_TCP_SUPPORT /* peer->addr.sin_family = AF_INET; */ #else peer->addr.sin_family = AF_INET; #endif #ifdef SIP_TCP_SUPPORT if(!peer->sockfd) peer->sockfd = -1; if(!peer->ssl) peer->ssl = NULL; cw_copy_string(peer->transport, DEFAULT_TRANSPORT, sizeof(peer->transport)); #endif cw_copy_flags(peer, &global_flags, SIP_FLAGS_TO_COPY); peer->capability = global_capability; peer->rtptimeout = global_rtptimeout; peer->rtpholdtimeout = global_rtpholdtimeout; int done = 0; struct cw_variable *v_start; struct cw_variable *v_tmp; v_start = v; v_tmp = v; do { if (v_tmp && cfg != NULL) { while (v_tmp) { if(!strcasecmp(v_tmp->name, "include")) { v = cw_variable_browse(cfg, v_tmp->value); v_tmp = v_tmp->next; break; } v_tmp = v_tmp->next; } } else { v = v_start; done = 1; } while (v) { if (handle_common_options(&peerflags, &mask, v)) { v = v->next; continue; } if (option_debug > 5) cw_log(LOG_DEBUG, "Got name \"%s\" with value \"%s\" (realtime = %d)\n", v->name, v->value, realtime); if (realtime && !strcasecmp(v->name, "regseconds")) { if (sscanf(v->value, "%li", ®seconds) != 1) regseconds = 0; } else if (realtime && !strcasecmp(v->name, "ipaddr") && !cw_strlen_zero(v->value)) { if (option_debug > 5) cw_log(LOG_DEBUG, "Got the address with value \"%s\"\n", v->value); inet_aton(v->value, &(peer->addr.sin_addr)); if (option_debug > 5) cw_log(LOG_DEBUG, "Got the IP 0x\"%08x\"\n", peer->addr.sin_addr); } else if (realtime && !strcasecmp(v->name, "name")) cw_copy_string(peer->name, v->value, sizeof(peer->name)); else if (realtime && !strcasecmp(v->name, "fullcontact")) { cw_copy_string(peer->fullcontact, v->value, sizeof(peer->fullcontact)); cw_set_flag((&peer->flags_page2), SIP_PAGE2_RT_FROMCONTACT); } else if (!strcasecmp(v->name, "secret")) cw_copy_string(peer->secret, v->value, sizeof(peer->secret)); else if (!strcasecmp(v->name, "md5secret")) cw_copy_string(peer->md5secret, v->value, sizeof(peer->md5secret)); else if (!strcasecmp(v->name, "auth")) peer->auth = add_realm_authentication(peer->auth, v->value, v->lineno); else if (!strcasecmp(v->name, "callerid")) { cw_callerid_split(v->value, peer->cid_name, sizeof(peer->cid_name), peer->cid_num, sizeof(peer->cid_num)); } else if (!strcasecmp(v->name, "context")) { cw_copy_string(peer->context, v->value, sizeof(peer->context)); } else if (!strcasecmp(v->name, "subscribecontext")) { cw_copy_string(peer->subscribecontext, v->value, sizeof(peer->subscribecontext)); } else if (!strcasecmp(v->name, "fromdomain")) cw_copy_string(peer->fromdomain, v->value, sizeof(peer->fromdomain)); else if (!strcasecmp(v->name, "usereqphone")) cw_set2_flag(peer, cw_true(v->value), SIP_USEREQPHONE); else if (!strcasecmp(v->name, "fromuser")) cw_copy_string(peer->fromuser, v->value, sizeof(peer->fromuser)); else if (!strcasecmp(v->name, "host") || !strcasecmp(v->name, "outboundproxy")) { if (!strcasecmp(v->value, "dynamic")) { if (!strcasecmp(v->name, "outboundproxy") || obproxyfound) { cw_log(LOG_WARNING, "You can't have a dynamic outbound proxy, you big silly head at line %d.\n", v->lineno); } else { /* They'll register with us */ cw_set_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC); /* This is loco. If the client is already registred, and we do a sip * reload, the stuff is lost from memory, and even if we * _can_ wait for the client to re-register, we generally * don't _want_ to do that since it can take quite a long * time, perhaps even up to an hour. */ #if 0 if (!found) { /* Initialize stuff iff we're not found, otherwise we keep going with what we had */ memset(&peer->addr.sin_addr, 0, 4); if (peer->addr.sin_port) { /* If we've already got a port, make it the default rather than absolute */ peer->defaddr.sin_port = peer->addr.sin_port; peer->addr.sin_port = 0; } } #endif } } else { /* Non-dynamic. Make sure we become that way if we're not */ if (peer->expire > -1) cw_sched_del(sched, peer->expire); peer->expire = -1; cw_clear_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC); if (!obproxyfound || !strcasecmp(v->name, "outboundproxy")) { #ifdef SIP_TCP_SUPPORT if ( cw_get_ip_or_srv(&peer->addr, v->value, "_sip._udp") < 0 && cw_get_ip_or_srv(&peer->addr, v->value, "_sip._tcp") < 0 && cw_get_ip_or_srv(&peer->addr, v->value, "_sip._tls") < 0 && cw_get_ip_or_srv(&peer->addr, v->value, "_sipinternal._udp") < 0 && cw_get_ip_or_srv(&peer->addr, v->value, "_sipinternal._tcp") < 0 && cw_get_ip_or_srv(&peer->addr, v->value, "_sipinternal._tls") < 0 ) { #else if (cw_get_ip_or_srv(&peer->addr, v->value, (srvlookup) ? "_sip._udp" : NULL)) { #endif /* SIP_TCP_SUPPORT */ cw_log(LOG_WARNING, "Unable to locate outboundproxy for peer'%s'\n", v->value); CWOBJ_UNREF(peer, sip_destroy_peer); return NULL; } } if (!strcasecmp(v->name, "outboundproxy")) obproxyfound=1; else { cw_copy_string(peer->tohost, v->value, sizeof(peer->tohost)); if (!peer->addr.sin_port) peer->addr.sin_port = htons(DEFAULT_SIP_PORT); } } } else if (!strcasecmp(v->name, "defaultip")) { if (cw_get_ip(&peer->defaddr, v->value)) { CWOBJ_UNREF(peer, sip_destroy_peer); return NULL; } } else if (!strcasecmp(v->name, "permit") || !strcasecmp(v->name, "deny")) { peer->ha = cw_append_ha(v->name, v->value, peer->ha); } else if (!strcasecmp(v->name, "port")) { if (!realtime && cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC)) peer->defaddr.sin_port = htons(atoi(v->value)); else peer->addr.sin_port = htons(atoi(v->value)); } else if (!strcasecmp(v->name, "callingpres")) { peer->callingpres = cw_parse_caller_presentation(v->value); if (peer->callingpres == -1) peer->callingpres = atoi(v->value); } else if (!strcasecmp(v->name, "username")) { cw_copy_string(peer->username, v->value, sizeof(peer->username)); } else if (!strcasecmp(v->name, "language")) { cw_copy_string(peer->language, v->value, sizeof(peer->language)); } else if (!strcasecmp(v->name, "regexten")) { cw_copy_string(peer->regexten, v->value, sizeof(peer->regexten)); } #ifdef ENABLE_SIP_CALL_LIMIT else if (!strcasecmp(v->name, "call-limit") || !strcasecmp(v->name, "call_limit") || !strcasecmp(v->name, "incominglimit")) { peer->call_limit = atoi(v->value); if (peer->call_limit < 0) peer->call_limit = 0; } #endif else if (!strcasecmp(v->name, "amaflags")) { format = cw_cdr_amaflags2int(v->value); if (format < 0) { cw_log(LOG_WARNING, "Invalid AMA Flags for peer: %s at line %d\n", v->value, v->lineno); } else { peer->amaflags = format; } } else if (!strcasecmp(v->name, "accountcode")) { cw_copy_string(peer->accountcode, v->value, sizeof(peer->accountcode)); } else if (!strcasecmp(v->name, "musiconhold")) { cw_copy_string(peer->musicclass, v->value, sizeof(peer->musicclass)); } else if (!strcasecmp(v->name, "mailbox")) { cw_copy_string(peer->mailbox, v->value, sizeof(peer->mailbox)); } else if (!strcasecmp(v->name, "vmexten")) { cw_copy_string(peer->vmexten, v->value, sizeof(peer->vmexten)); } else if (!strcasecmp(v->name, "subscribemwi")) { cw_set2_flag(&peer->flags_page2, cw_true(v->value), SIP_PAGE2_SUBSCRIBEMWIONLY); } else if (!strcasecmp(v->name, "callgroup")) { peer->callgroup = cw_get_group(v->value); } else if (!strcasecmp(v->name, "pickupgroup")) { peer->pickupgroup = cw_get_group(v->value); } else if (!strcasecmp(v->name, "allow")) { cw_parse_allow_disallow(&peer->prefs, &peer->capability, v->value, 1); } else if (!strcasecmp(v->name, "disallow")) { cw_parse_allow_disallow(&peer->prefs, &peer->capability, v->value, 0); } else if (!strcasecmp(v->name, "rtptimeout")) { if ((sscanf(v->value, "%d", &peer->rtptimeout) != 1) || (peer->rtptimeout < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid RTP hold time at line %d. Using default.\n", v->value, v->lineno); peer->rtptimeout = global_rtptimeout; } } else if (!strcasecmp(v->name, "rtpholdtimeout")) { if ((sscanf(v->value, "%d", &peer->rtpholdtimeout) != 1) || (peer->rtpholdtimeout < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid RTP hold time at line %d. Using default.\n", v->value, v->lineno); peer->rtpholdtimeout = global_rtpholdtimeout; } } else if (!strcasecmp(v->name, "rtpkeepalive")) { if ((sscanf(v->value, "%d", &peer->rtpkeepalive) != 1) || (peer->rtpkeepalive < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid RTP keepalive time at line %d. Using default.\n", v->value, v->lineno); peer->rtpkeepalive = global_rtpkeepalive; } } else if (!strcasecmp(v->name, "setvar")) { /* Set peer channel variable */ varname = cw_strdupa(v->value); if ((varval = strchr(varname, '='))) { *varval = '\0'; varval++; if ((tmpvar = cw_variable_new(varname, varval))) { tmpvar->next = peer->chanvars; peer->chanvars = tmpvar; } } } else if (!strcasecmp(v->name, "qualify")) { if (!strcasecmp(v->value, "no")) { peer->maxms = 0; } else if (!strcasecmp(v->value, "yes")) { peer->maxms = DEFAULT_MAXMS; } else if (sscanf(v->value, "%d", &peer->maxms) != 1) { cw_log(LOG_WARNING, "Qualification of peer '%s' should be 'yes', 'no', or a number of milliseconds at line %d of sip.conf\n", peer->name, v->lineno); peer->maxms = 0; } #ifdef SIP_TCP_SUPPORT } else if (!strcasecmp(v->name, "transport")) { if(!strncasecmp(v->value, "udp", 3)) { cw_copy_string(peer->transport, "UDP", sizeof(peer->transport)); } else if(!strncasecmp(v->value, "tcp", 3)) { cw_copy_string(peer->transport, "TCP", sizeof(peer->transport)); } else if(!strncasecmp(v->value, "tls", 3)) { cw_copy_string(peer->transport, "TLS", sizeof(peer->transport)); } else { cw_log(LOG_WARNING, "Unsupported transport '%s' should be 'UDP', 'TCP', or 'TLS' at line %d of sip.conf\n", v->value, v->lineno); } #endif /* SIP_TCP_SUPPORT */ } /* else if (strcasecmp(v->name,"type")) * cw_log(LOG_WARNING, "Ignoring %s\n", v->name); */ v = v->next; } } while( done == 0 ); if (!cw_test_flag((&global_flags_page2), SIP_PAGE2_IGNOREREGEXPIRE) && cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC) && realtime) { time_t nowtime; time(&nowtime); if ((nowtime - regseconds) > 0) { destroy_association(peer); memset(&peer->addr, 0, sizeof(peer->addr)); if (option_debug) cw_log(LOG_DEBUG, "Bah, we're expired (%ld/%ld/%ld)!\n", nowtime - regseconds, regseconds, nowtime); } } cw_copy_flags(peer, &peerflags, mask.flags); if (!found && cw_test_flag(&peer->flags_page2, SIP_PAGE2_DYNAMIC) && !cw_test_flag(peer, SIP_REALTIME)) reg_source_db(peer); CWOBJ_UNMARK(peer); cw_free_ha(oldha); return peer; } /*! \brief reload_config: Re-read SIP.conf config file */ /* This function reloads all config data, except for active peers (with registrations). They will only change configuration data at restart, not at reload. SIP debug and recordhistory state will not change */ static int reload_config(void) { struct cw_config *cfg; struct cw_variable *v; struct sip_peer *peer; struct sip_user *user; struct cw_hostent ahp; char *cat; char *utype; struct hostent *hp; int format; char iabuf[INET_ADDRSTRLEN]; struct cw_flags dummy; int auto_sip_domains = 0; struct sockaddr_in old_bindaddr = bindaddr; #ifdef SIP_TCP_SUPPORT struct sockaddr_in old_tlsbindaddr = tlsbindaddr; #endif cfg = cw_config_load(config); /* We *must* have a config file otherwise stop immediately */ if (!cfg) { cw_log(LOG_NOTICE, "Unable to load config %s\n", config); return -1; } /* Reset IP addresses */ memset(&bindaddr, 0, sizeof(bindaddr)); memset(&localaddr, 0, sizeof(localaddr)); memset(&externip, 0, sizeof(externip)); memset(&prefs, 0 , sizeof(prefs)); sipdebug &= ~SIP_DEBUG_CONFIG; memset(&stunserver_ip, 0, sizeof(stunserver_ip)); stunserver_ip.sin_family = AF_INET; stunserver_portno=3478; stunserver_ip.sin_port = htons(stunserver_portno); stun_active=0; /* Initialize some reasonable defaults at SIP reload */ cw_copy_string(default_context, DEFAULT_CONTEXT, sizeof(default_context)); default_subscribecontext[0] = '\0'; default_language[0] = '\0'; default_fromdomain[0] = '\0'; default_qualify = 0; allow_external_domains = 1; /* Allow external invites */ externhost[0] = '\0'; externexpire = 0; externrefresh = 10; cw_copy_string(default_useragent, DEFAULT_USERAGENT, sizeof(default_useragent)); cw_copy_string(default_notifymime, DEFAULT_NOTIFYMIME, sizeof(default_notifymime)); global_notifyringing = 1; global_alwaysauthreject = 0; cw_copy_string(global_realm, DEFAULT_REALM, sizeof(global_realm)); cw_copy_string(global_musicclass, "default", sizeof(global_musicclass)); cw_copy_string(default_callerid, DEFAULT_CALLERID, sizeof(default_callerid)); memset(&outboundproxyip, 0, sizeof(outboundproxyip)); outboundproxyip.sin_port = htons(DEFAULT_SIP_PORT); outboundproxyip.sin_family = AF_INET; /* Type of address: IPv4 */ videosupport = 0; t38udptlsupport = 0; t38rtpsupport = 0; t38tcpsupport = 0; compactheaders = 0; dumphistory = 0; recordhistory = 0; relaxdtmf = 0; callevents = 0; ourport = DEFAULT_SIP_PORT; global_rtptimeout = 0; global_rtpholdtimeout = 0; global_rtpkeepalive = 0; global_rtautoclear = 120; pedanticsipchecking = 0; global_reg_timeout = DEFAULT_REGISTRATION_TIMEOUT; global_regattempts_max = 0; cw_clear_flag(&global_flags, CW_FLAGS_ALL); cw_clear_flag(&global_flags_page2, CW_FLAGS_ALL); cw_set_flag(&global_flags, SIP_DTMF_RFC2833); cw_set_flag(&global_flags, SIP_NAT_RFC3581); cw_set_flag(&global_flags, SIP_CAN_REINVITE); cw_set_flag(&global_flags_page2, SIP_PAGE2_RTUPDATE); global_mwitime = DEFAULT_MWITIME; strcpy(global_vmexten, DEFAULT_VMEXTEN); srvlookup = 0; autocreatepeer = 0; rfc_timer_b = DEFAULT_RFC_TIMER_B; rfc_timer_t1 = DEFAULT_RFC_TIMER_T1; rfc_timer_t2 = DEFAULT_RFC_TIMER_T2; regcontext[0] = '\0'; tos = 0; expiry = DEFAULT_EXPIRY; global_allowguest = 1; #ifdef SIP_TCP_SUPPORT snprintf(trustcerts_file, sizeof(trustcerts_file),"%s/trustcerts.pem", cw_config_CW_KEY_DIR); snprintf(servercert_file, sizeof(servercert_file),"%s/servercert.pem", cw_config_CW_KEY_DIR); snprintf(serverkey_file, sizeof(serverkey_file),"%s/serverkey.pem", cw_config_CW_KEY_DIR); snprintf(dh512param_file, sizeof(dh512param_file),"%s/dh512.pem", cw_config_CW_KEY_DIR); snprintf(dh1024param_file, sizeof(dh1024param_file),"%s/dh1024.pem", cw_config_CW_KEY_DIR); #endif /* Copy the default jb config over global_jbconf */ cw_jb_default_config(&global_jbconf); /* Read the [general] config section of sip.conf (or from realtime config) */ v = cw_variable_browse(cfg, "general"); while (v) { if (handle_common_options(&global_flags, &dummy, v)) { v = v->next; continue; } /* handle jb conf */ if(cw_jb_read_conf(&global_jbconf, v->name, v->value) == 0) { v = v->next; continue; } /* Create the interface list */ if (!strcasecmp(v->name, "context")) { cw_copy_string(default_context, v->value, sizeof(default_context)); } else if (!strcasecmp(v->name, "realm")) { cw_copy_string(global_realm, v->value, sizeof(global_realm)); } else if (!strcasecmp(v->name, "useragent")) { cw_copy_string(default_useragent, v->value, sizeof(default_useragent)); cw_log(LOG_DEBUG, "Setting User Agent Name to %s\n", default_useragent); } else if (!strcasecmp(v->name, "rtcachefriends")) { cw_set2_flag((&global_flags_page2), cw_true(v->value), SIP_PAGE2_RTCACHEFRIENDS); } else if (!strcasecmp(v->name, "rtupdate")) { cw_set2_flag((&global_flags_page2), cw_true(v->value), SIP_PAGE2_RTUPDATE); } else if (!strcasecmp(v->name, "ignoreregexpire")) { cw_set2_flag((&global_flags_page2), cw_true(v->value), SIP_PAGE2_IGNOREREGEXPIRE); } else if (!strcasecmp(v->name, "rtautoclear")) { int i = atoi(v->value); if (i > 0) global_rtautoclear = i; else i = 0; cw_set2_flag((&global_flags_page2), i || cw_true(v->value), SIP_PAGE2_RTAUTOCLEAR); } else if (!strcasecmp(v->name, "usereqphone")) { cw_set2_flag((&global_flags), cw_true(v->value), SIP_USEREQPHONE); } else if (!strcasecmp(v->name, "relaxdtmf")) { relaxdtmf = cw_true(v->value); } else if (!strcasecmp(v->name, "checkmwi")) { if ((sscanf(v->value, "%d", &global_mwitime) != 1) || (global_mwitime < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid MWI time setting at line %d. Using default (10).\n", v->value, v->lineno); global_mwitime = DEFAULT_MWITIME; } } else if (!strcasecmp(v->name, "vmexten")) { cw_copy_string(global_vmexten, v->value, sizeof(global_vmexten)); } else if (!strcasecmp(v->name, "rtptimeout")) { if ((sscanf(v->value, "%d", &global_rtptimeout) != 1) || (global_rtptimeout < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid RTP hold time at line %d. Using default.\n", v->value, v->lineno); global_rtptimeout = 0; } } else if (!strcasecmp(v->name, "rtpholdtimeout")) { if ((sscanf(v->value, "%d", &global_rtpholdtimeout) != 1) || (global_rtpholdtimeout < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid RTP hold time at line %d. Using default.\n", v->value, v->lineno); global_rtpholdtimeout = 0; } } else if (!strcasecmp(v->name, "rtpkeepalive")) { if ((sscanf(v->value, "%d", &global_rtpkeepalive) != 1) || (global_rtpkeepalive < 0)) { cw_log(LOG_WARNING, "'%s' is not a valid RTP keepalive time at line %d. Using default.\n", v->value, v->lineno); global_rtpkeepalive = 0; } } else if (!strcasecmp(v->name, "videosupport")) { videosupport = cw_true(v->value); } else if (!strcasecmp(v->name, "t38udptlsupport")) { t38udptlsupport = cw_true(v->value); } else if (!strcasecmp(v->name, "t38rtpsupport")) { t38rtpsupport = cw_true(v->value); } else if (!strcasecmp(v->name, "t38tcpsupport")) { t38tcpsupport = cw_true(v->value); } else if (!strcasecmp(v->name, "compactheaders")) { compactheaders = cw_true(v->value); } else if (!strcasecmp(v->name, "notifymimetype")) { cw_copy_string(default_notifymime, v->value, sizeof(default_notifymime)); } else if (!strcasecmp(v->name, "notifyringing")) { global_notifyringing = cw_true(v->value); } else if (!strcasecmp(v->name, "alwaysauthreject")) { global_alwaysauthreject = cw_true(v->value); } else if (!strcasecmp(v->name, "musicclass") || !strcasecmp(v->name, "musiconhold")) { cw_copy_string(global_musicclass, v->value, sizeof(global_musicclass)); } else if (!strcasecmp(v->name, "language")) { cw_copy_string(default_language, v->value, sizeof(default_language)); } else if (!strcasecmp(v->name, "regcontext")) { cw_copy_string(regcontext, v->value, sizeof(regcontext)); /* Create context if it doesn't exist already */ if (!cw_context_find(regcontext)) cw_context_create(NULL, regcontext, channeltype); } else if (!strcasecmp(v->name, "callerid")) { cw_copy_string(default_callerid, v->value, sizeof(default_callerid)); } else if (!strcasecmp(v->name, "fromdomain")) { cw_copy_string(default_fromdomain, v->value, sizeof(default_fromdomain)); } else if (!strcasecmp(v->name, "outboundproxy")) { #ifdef SIP_TCP_SUPPORT if ( cw_get_ip_or_srv(&outboundproxyip, v->value, "_sip._udp") < 0 && cw_get_ip_or_srv(&outboundproxyip, v->value, "_sip._tcp") < 0 && cw_get_ip_or_srv(&outboundproxyip, v->value, "_sip._tls") < 0 && cw_get_ip_or_srv(&outboundproxyip, v->value, "_sipinternal._udp") < 0 && cw_get_ip_or_srv(&outboundproxyip, v->value, "_sipinternal._tcp") < 0 && cw_get_ip_or_srv(&outboundproxyip, v->value, "_sipinternal._tls") < 0 ) #else if (cw_get_ip_or_srv(&outboundproxyip, v->value, (srvlookup) ? "_sip._udp" : NULL) < 0) cw_log(LOG_WARNING, "Unable to locate host '%s'\n", v->value); #endif /* SIP_TCP_SUPPORT */ cw_log(LOG_WARNING, "Unable to locate outboundproxy host '%s'\n", v->value); } else if (!strcasecmp(v->name, "outboundproxyport")) { /* Port needs to be after IP */ sscanf(v->value, "%d", &format); outboundproxyip.sin_port = htons(format); } else if (!strcasecmp(v->name, "autocreatepeer")) { autocreatepeer = cw_true(v->value); } else if (!strcasecmp(v->name, "maxinvitetries")) { rfc_timer_b = 1 << (atoi(v->value) - 1); } else if (!strcasecmp(v->name, "timer_t1")) { rfc_timer_t1 = atoi(v->value); } else if (!strcasecmp(v->name, "timer_t2")) { rfc_timer_t2 = atoi(v->value); } else if (!strcasecmp(v->name, "srvlookup")) { srvlookup = cw_true(v->value); } else if (!strcasecmp(v->name, "pedantic")) { pedanticsipchecking = cw_true(v->value); } else if (!strcasecmp(v->name, "maxexpirey") || !strcasecmp(v->name, "maxexpiry")) { max_expiry = atoi(v->value); if (max_expiry < 1) max_expiry = DEFAULT_MAX_EXPIRY; } else if (!strcasecmp(v->name, "defaultexpiry") || !strcasecmp(v->name, "defaultexpirey")) { default_expiry = atoi(v->value); if (default_expiry < 1) default_expiry = DEFAULT_DEFAULT_EXPIRY; } else if (!strcasecmp(v->name, "sipdebug")) { if (cw_true(v->value)) sipdebug |= SIP_DEBUG_CONFIG; } else if (!strcasecmp(v->name, "dumphistory")) { dumphistory = cw_true(v->value); } else if (!strcasecmp(v->name, "recordhistory")) { recordhistory = cw_true(v->value); } else if (!strcasecmp(v->name, "registertimeout")) { global_reg_timeout = atoi(v->value); if (global_reg_timeout < 1) global_reg_timeout = DEFAULT_REGISTRATION_TIMEOUT; } else if (!strcasecmp(v->name, "registerattempts")) { global_regattempts_max = atoi(v->value); } else if (!strcasecmp(v->name, "bindaddr")) { if ((hp = cw_gethostbyname(v->value, &ahp)) == NULL) cw_log(LOG_WARNING, "Invalid address: %s\n", v->value); else memcpy(&bindaddr.sin_addr, hp->h_addr, sizeof(bindaddr.sin_addr)); } else if (!strcasecmp(v->name, "localnet")) { struct cw_ha *na; if (!(na = cw_append_ha("d", v->value, localaddr))) cw_log(LOG_WARNING, "Invalid localnet value: %s\n", v->value); else localaddr = na; } else if (!strcasecmp(v->name, "localmask")) { cw_log(LOG_WARNING, "Use of localmask is no long supported -- use localnet with mask syntax\n"); } else if (!strcasecmp(v->name, "externip")) { if ((hp = cw_gethostbyname(v->value, &ahp)) == NULL) cw_log(LOG_WARNING, "Invalid address for externip keyword: %s\n", v->value); else memcpy(&externip.sin_addr, hp->h_addr, sizeof(externip.sin_addr)); externexpire = 0; } else if (!strcasecmp(v->name, "externhost")) { cw_copy_string(externhost, v->value, sizeof(externhost)); if ((hp = cw_gethostbyname(externhost, &ahp)) == NULL) cw_log(LOG_WARNING, "Invalid address for externhost keyword: %s\n", externhost); else memcpy(&externip.sin_addr, hp->h_addr, sizeof(externip.sin_addr)); time(&externexpire); } else if (!strcasecmp(v->name, "externrefresh")) { if (sscanf(v->value, "%d", &externrefresh) != 1) { cw_log(LOG_WARNING, "Invalid externrefresh value '%s', must be an integer >0 at line %d\n", v->value, v->lineno); externrefresh = 10; } } else if (!strcasecmp(v->name, "stunserver_host")) { cw_copy_string(stunserver_host, v->value, sizeof(stunserver_host)); if ((hp = cw_gethostbyname(stunserver_host, &ahp)) == NULL) { cw_log(LOG_NOTICE, "Invalid address for stunserver_host keyword: %s\n", stunserver_host); } else { memcpy(&stunserver_ip.sin_addr, hp->h_addr, sizeof(stunserver_ip.sin_addr)); cw_log(LOG_NOTICE, "STUN: stunserver_host is: %s\n", stunserver_host); stun_active=1; } } else if (!strcasecmp(v->name, "stunserver_port")) { if (sscanf(v->value, "%d", &stunserver_portno) == 1) { stunserver_ip.sin_port = htons(stunserver_portno); if (stundebug) cw_log(LOG_WARNING, "STUN: stunserver_portno is: %d\n", stunserver_portno); } else { if (stundebug) cw_log(LOG_WARNING, "Invalid stun port number '%s' at line %d of %s\n", v->value, v->lineno, config); } } else if (!strcasecmp(v->name, "allow")) { cw_parse_allow_disallow(&prefs, &global_capability, v->value, 1); } else if (!strcasecmp(v->name, "disallow")) { cw_parse_allow_disallow(&prefs, &global_capability, v->value, 0); } else if (!strcasecmp(v->name, "allowexternaldomains")) { allow_external_domains = cw_true(v->value); } else if (!strcasecmp(v->name, "autodomain")) { auto_sip_domains = cw_true(v->value); } else if (!strcasecmp(v->name, "domain")) { char *domain = cw_strdupa(v->value); char *context = strchr(domain, ','); if (context) *context++ = '\0'; if (cw_strlen_zero(domain)) cw_log(LOG_WARNING, "Empty domain specified at line %d\n", v->lineno); else if (cw_strlen_zero(context)) cw_log(LOG_WARNING, "Empty context specified at line %d for domain '%s'\n", v->lineno, domain); else add_sip_domain(cw_strip(domain), SIP_DOMAIN_CONFIG, context ? cw_strip(context) : ""); } else if (!strcasecmp(v->name, "register")) { sip_register(v->value, v->lineno); } else if (!strcasecmp(v->name, "tos")) { if (cw_str2tos(v->value, &tos)) cw_log(LOG_WARNING, "Invalid tos value at line %d, should be 'lowdelay', 'throughput', 'reliability', 'mincost', or 'none'\n", v->lineno); } else if (!strcasecmp(v->name, "bindport")) { if (sscanf(v->value, "%d", &ourport) == 1) bindaddr.sin_port = htons(ourport); else cw_log(LOG_WARNING, "Invalid port number '%s' at line %d of %s\n", v->value, v->lineno, config); } else if (!strcasecmp(v->name, "qualify")) { if (!strcasecmp(v->value, "no")) { default_qualify = 0; } else if (!strcasecmp(v->value, "yes")) { default_qualify = DEFAULT_MAXMS; } else if (sscanf(v->value, "%d", &default_qualify) != 1) { cw_log(LOG_WARNING, "Qualification default should be 'yes', 'no', or a number of milliseconds at line %d of sip.conf\n", v->lineno); default_qualify = 0; } } else if (!strcasecmp(v->name, "callevents")) { callevents = cw_true(v->value); } #ifdef SIP_TCP_SUPPORT else if (!strcasecmp(v->name, "tlsport")) { if (sscanf(v->value, "%d", &ourport) == 1) { tlsbindaddr.sin_port = htons(ourport); } else { cw_log(LOG_WARNING, "Invalid tlsport number '%s' at line %d of %s\n", v->value, v->lineno, config); } } else if (!strcasecmp(v->name, "trustcerts")) { cw_copy_string(trustcerts_file, v->value, sizeof(trustcerts_file)); } else if (!strcasecmp(v->name, "servercert")) { cw_copy_string(servercert_file, v->value, sizeof(servercert_file)); } else if (!strcasecmp(v->name, "serverkey")) { cw_copy_string(serverkey_file, v->value, sizeof(serverkey_file)); } else if (!strcasecmp(v->name, "serverkeypassword")) { cw_copy_string(serverkey_password, v->value, sizeof(serverkey_password)); } else if (!strcasecmp(v->name, "dh512param")) { cw_copy_string(dh512param_file, v->value, sizeof(dh512param_file)); } else if (!strcasecmp(v->name, "dh1024param")) { cw_copy_string(dh1024param_file, v->value, sizeof(dh1024param_file)); } #endif v = v->next; } if (stun_active) { if (stundebug) cw_log(LOG_DEBUG,"Sending initial STUN discovery packet\n"); cw_udp_stun_bindrequest(sipsock,&stunserver_ip,NULL,NULL); } if (!allow_external_domains && CW_LIST_EMPTY(&domain_list)) { cw_log(LOG_WARNING, "To disallow external domains, you need to configure local SIP domains.\n"); allow_external_domains = 1; } /* Build list of authentication to various SIP realms, i.e. service providers */ v = cw_variable_browse(cfg, "authentication"); while (v) { /* Format for authentication is auth = username:password@realm */ if (!strcasecmp(v->name, "auth")) { authl = add_realm_authentication(authl, v->value, v->lineno); } v = v->next; } /* Load peers, users and friends */ cat = cw_category_browse(cfg, NULL); while (cat) { if (strcasecmp(cat, "general") && strcasecmp(cat, "authentication")) { utype = cw_variable_retrieve(cfg, cat, "type"); if (utype) { if (!strcasecmp(utype, "user") || !strcasecmp(utype, "friend")) { user = build_user(cat, cw_variable_browse(cfg, cat), 0, cfg); if (user) { CWOBJ_CONTAINER_LINK(&userl,user); CWOBJ_UNREF(user, sip_destroy_user); } } if (!strcasecmp(utype, "peer") || !strcasecmp(utype, "friend")) { peer = build_peer(cat, cw_variable_browse(cfg, cat), 0, cfg); if (peer) { CWOBJ_CONTAINER_LINK(&peerl,peer); CWOBJ_UNREF(peer, sip_destroy_peer); } } else if (strcasecmp(utype, "user")) { cw_log(LOG_WARNING, "Unknown type '%s' for '%s' in %s\n", utype, cat, "sip.conf"); } } else cw_log(LOG_WARNING, "Section '%s' lacks type\n", cat); } cat = cw_category_browse(cfg, cat); } if (cw_find_ourip(&__ourip, bindaddr)) { cw_log(LOG_WARNING, "Unable to get own IP address, SIP disabled\n"); return 0; } if (!ntohs(bindaddr.sin_port)) bindaddr.sin_port = ntohs(DEFAULT_SIP_PORT); bindaddr.sin_family = AF_INET; cw_mutex_lock(&netlock); if ((sipsock > -1) && (memcmp(&old_bindaddr, &bindaddr, sizeof(struct sockaddr_in)))) { close(sipsock); sipsock = -1; } if (sipsock < 0) { sipsock = socket(AF_INET, SOCK_DGRAM, 0); if (sipsock < 0) { cw_log(LOG_WARNING, "Unable to create SIP socket: %s\n", strerror(errno)); } else { /* Allow SIP clients on the same host to access us: */ const int reuseFlag = 1; setsockopt(sipsock, SOL_SOCKET, SO_REUSEADDR, (const char*)&reuseFlag, sizeof reuseFlag); cw_enable_packet_fragmentation(sipsock); if (cw_udpfromto_init(sipsock) < 0) { cw_log(LOG_ERROR, "Failed to set socket parameters"); close(sipsock); sipsock = -1; } if (bind(sipsock, (struct sockaddr *)&bindaddr, sizeof(bindaddr)) < 0) { cw_log(LOG_WARNING, "Failed to bind to %s:%d: %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), bindaddr.sin_addr), ntohs(bindaddr.sin_port), strerror(errno)); close(sipsock); sipsock = -1; } else { if (option_verbose > 1) { cw_verbose(VERBOSE_PREFIX_2 "SIP Listening on %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), bindaddr.sin_addr), ntohs(bindaddr.sin_port)); cw_verbose(VERBOSE_PREFIX_2 "Using TOS bits %d\n", tos); } if (setsockopt(sipsock, IPPROTO_IP, IP_TOS, &tos, sizeof(tos))) cw_log(LOG_WARNING, "Unable to set TOS to %d\n", tos); } } } #ifdef SIP_TCP_SUPPORT if ((siptcpsock > -1) && (memcmp(&old_tlsbindaddr, &bindaddr, sizeof(struct sockaddr_in)))) { close(siptcpsock); siptcpsock = -1; } /* Open a TCP listening socket */ if (siptcpsock < 0) { siptcpsock = socket(AF_INET, SOCK_STREAM, 0); if (siptcpsock < 0) { cw_log(LOG_WARNING, "Unable to create SIP TCP socket: %s\n", strerror(errno)); } else { /* Allow SIP clients on the same host to access us: */ const int reuseFlag = 1; setsockopt(siptcpsock, SOL_SOCKET, SO_REUSEADDR, (const char *)&reuseFlag, sizeof reuseFlag); if (bind(siptcpsock, (struct sockaddr *)&bindaddr, sizeof(bindaddr)) < 0) { cw_log(LOG_WARNING, "Failed to bind SIP TCP socket to %s:%d: %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), bindaddr.sin_addr), ntohs(bindaddr.sin_port), strerror(errno)); close(siptcpsock); siptcpsock = -1; } else { if (option_verbose > 1) { cw_verbose(VERBOSE_PREFIX_2 "SIP TCP Listening on %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), bindaddr.sin_addr), ntohs(bindaddr.sin_port)); cw_verbose(VERBOSE_PREFIX_2 "Using TOS bits %d\n", tos); } if (setsockopt(siptcpsock, IPPROTO_IP, IP_TOS, &tos, sizeof(tos))) cw_log(LOG_WARNING, "Unable to set TOS to %d in SIP TCP\n", tos); if (listen(siptcpsock, 30) < 0) { cw_log(LOG_WARNING, "Failed to listen on SIP TCP\n"); } } } } /* Open a TLS listening socket */ memcpy(&tlsbindaddr.sin_addr, &bindaddr.sin_addr, sizeof(tlsbindaddr.sin_addr)); if (!ntohs(tlsbindaddr.sin_port)) tlsbindaddr.sin_port = ntohs(DEFAULT_SIP_TLS_PORT); tlsbindaddr.sin_family = AF_INET; if ((siptlssock > -1) && (memcmp(&old_tlsbindaddr, &tlsbindaddr, sizeof(struct sockaddr_in)))) { close(siptlssock); siptlssock = -1; } if (siptlssock < 0) { siptlssock = socket(AF_INET, SOCK_STREAM, 0); if (siptlssock < 0) { cw_log(LOG_WARNING, "Unable to create SIP TLS socket: %s\n", strerror(errno)); } else { /* Allow SIP clients on the same host to access us: */ const int reuseFlag = 1; setsockopt(siptlssock, SOL_SOCKET, SO_REUSEADDR, ( const char *)&reuseFlag, sizeof reuseFlag); if (bind(siptlssock, (struct sockaddr *)&tlsbindaddr, sizeof(tlsbindaddr)) < 0) { cw_log(LOG_WARNING, "Failed to bind SIP TLS socket to %s:%d: %s\n", cw_inet_ntoa(iabuf, sizeof(iabuf), tlsbindaddr.sin_addr), ntohs(tlsbindaddr.sin_port), strerror(errno)); close(siptlssock); siptlssock = -1; } else { if (option_verbose > 1) { cw_verbose(VERBOSE_PREFIX_2 "SIP TLS Listening on %s:%d\n", cw_inet_ntoa(iabuf, sizeof(iabuf), tlsbindaddr.sin_addr), ntohs(tlsbindaddr.sin_port)); cw_verbose(VERBOSE_PREFIX_2 "Using TOS bits %d\n", tos); } if (setsockopt(siptlssock, IPPROTO_IP, IP_TOS, &tos, sizeof(tos))) cw_log(LOG_WARNING, "Unable to set TOS to %d in SIP TLS\n", tos); if (listen(siptlssock, 30) < 0) { cw_log(LOG_WARNING, "Failed to listen on SIP TLS\n"); } } } } #endif cw_mutex_unlock(&netlock); /* Add default domains - host name, IP address and IP:port */ /* Only do this if user added any sip domain with "localdomains" */ /* In order to *not* break backwards compatibility */ /* Some phones address us at IP only, some with additional port number */ if (auto_sip_domains) { char temp[MAXHOSTNAMELEN]; /* First our default IP address */ if (bindaddr.sin_addr.s_addr) { cw_inet_ntoa(temp, sizeof(temp), bindaddr.sin_addr); add_sip_domain(temp, SIP_DOMAIN_AUTO, NULL); } else { cw_log(LOG_NOTICE, "Can't add wildcard IP address to domain list, please add IP address to domain manually.\n"); } /* Our extern IP address, if configured */ //TODO add stun ip to domains if needed if (externip.sin_addr.s_addr) { cw_inet_ntoa(temp, sizeof(temp), externip.sin_addr); add_sip_domain(temp, SIP_DOMAIN_AUTO, NULL); } /* Extern host name (NAT traversal support) */ if (!cw_strlen_zero(externhost)) add_sip_domain(externhost, SIP_DOMAIN_AUTO, NULL); /* Our host name */ if (!gethostname(temp, sizeof(temp))) add_sip_domain(temp, SIP_DOMAIN_AUTO, NULL); } /* Release configuration from memory */ cw_config_destroy(cfg); /* Load the list of manual NOTIFY types to support */ if (notify_types) cw_config_destroy(notify_types); notify_types = cw_config_load(notify_config); return 0; } /*! \brief sip_get_rtp_peer: Returns null if we can't reinvite (part of RTP interface) */ static struct cw_rtp *sip_get_rtp_peer(struct cw_channel *chan) { struct sip_pvt *p; struct cw_rtp *rtp = NULL; p = chan->tech_pvt; if (!p) return NULL; cw_mutex_lock(&p->lock); if (p->rtp && cw_test_flag(p, SIP_CAN_REINVITE)) rtp = p->rtp; cw_mutex_unlock(&p->lock); return rtp; } /*! \brief sip_get_vrtp_peer: Returns null if we can't reinvite video (part of RTP interface) */ static struct cw_rtp *sip_get_vrtp_peer(struct cw_channel *chan) { struct sip_pvt *p; struct cw_rtp *rtp = NULL; p = chan->tech_pvt; if (!p) return NULL; cw_mutex_lock(&p->lock); if (p->vrtp && cw_test_flag(p, SIP_CAN_REINVITE)) rtp = p->vrtp; cw_mutex_unlock(&p->lock); return rtp; } /*! \brief sip_set_rtp_peer: Set the RTP peer for this call */ static int sip_set_rtp_peer(struct cw_channel *chan, struct cw_rtp *rtp, struct cw_rtp *vrtp, int codecs, int nat_active) { struct sip_pvt *p; p = chan->tech_pvt; if (!p) return -1; cw_mutex_lock(&p->lock); if (rtp) cw_rtp_get_peer(rtp, &p->redirip); else memset(&p->redirip, 0, sizeof(p->redirip)); if (vrtp) cw_rtp_get_peer(vrtp, &p->vredirip); else memset(&p->vredirip, 0, sizeof(p->vredirip)); p->redircodecs = codecs; if (!cw_test_flag(p, SIP_GOTREFER)) { if (!p->pendinginvite) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; cw_log(LOG_DEBUG, "Sending reinvite on SIP '%s' - It's audio soon redirected to IP %s\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), rtp ? p->redirip.sin_addr : p->ourip)); } transmit_reinvite_with_sdp(p); } else if (!cw_test_flag(p, SIP_PENDINGBYE)) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; cw_log(LOG_DEBUG, "Deferring reinvite on SIP '%s' - It's audio will be redirected to IP %s\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), rtp ? p->redirip.sin_addr : p->ourip)); } cw_set_flag(p, SIP_NEEDREINVITE); } } /* Reset lastrtprx timer */ time(&p->lastrtprx); time(&p->lastrtptx); cw_mutex_unlock(&p->lock); return 0; } static struct cw_udptl *sip_get_udptl_peer(struct cw_channel *chan) { struct sip_pvt *p; struct cw_udptl *udptl = NULL; p = chan->tech_pvt; if (!p) return NULL; cw_mutex_lock(&p->lock); if (p->udptl && cw_test_flag(p, SIP_CAN_REINVITE)) udptl = p->udptl; cw_mutex_unlock(&p->lock); return udptl; } static int sip_set_udptl_peer(struct cw_channel *chan, struct cw_udptl *udptl) { struct sip_pvt *p; p = chan->tech_pvt; if (!p) return -1; cw_mutex_lock(&p->lock); if (udptl) cw_udptl_get_peer(udptl, &p->udptlredirip); else memset(&p->udptlredirip, 0, sizeof(p->udptlredirip)); if (!cw_test_flag(p, SIP_GOTREFER)) { if (!p->pendinginvite) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; cw_log(LOG_DEBUG, "Sending reinvite on SIP '%s' - It's UDPTL soon redirected to IP %s:%d\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), udptl ? p->udptlredirip.sin_addr : p->ourip), udptl ? ntohs(p->udptlredirip.sin_port) : 0); } transmit_reinvite_with_t38_sdp(p); } else if (!cw_test_flag(p, SIP_PENDINGBYE)) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; cw_log(LOG_DEBUG, "Deferring reinvite on SIP '%s' - It's UDPTL will be redirected to IP %s:%d\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), udptl ? p->udptlredirip.sin_addr : p->ourip), udptl ? ntohs(p->udptlredirip.sin_port) : 0); } cw_set_flag(p, SIP_NEEDREINVITE); } } /* Reset lastrtprx timer */ time(&p->lastrtprx); time(&p->lastrtptx); cw_mutex_unlock(&p->lock); return 0; } #if 0 static struct cw_tpkt *sip_get_tpkt_peer(struct cw_channel *chan) { struct sip_pvt *p; struct cw_tpkt *tpkt = NULL; p = chan->tech_pvt; if (!p) return NULL; cw_mutex_lock(&p->lock); if (p->tpkt && cw_test_flag(p, SIP_CAN_REINVITE)) tpkt = p->tpkt; cw_mutex_unlock(&p->lock); return tpkt; } static int sip_set_tpkt_peer(struct cw_channel *chan, struct cw_tpkt *tpkt) { struct sip_pvt *p; p = chan->tech_pvt; if (!p) return -1; cw_mutex_lock(&p->lock); if (tpkt) cw_tpkt_get_peer(tpkt, &p->redirip); else memset(&p->redirip, 0, sizeof(p->redirip)); if (!cw_test_flag(p, SIP_GOTREFER)) { if (!p->pendinginvite) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; cw_log(LOG_DEBUG, "Sending reinvite on SIP '%s' - It's TPKT soon redirected to IP %s\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), tpkt ? p->redirip.sin_addr : p->ourip)); } transmit_reinvite_with_t38_sdp(p); } else if (!cw_test_flag(p, SIP_PENDINGBYE)) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; cw_log(LOG_DEBUG, "Deferring reinvite on SIP '%s' - It's TPKT will be redirected to IP %s\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), tpkt ? p->redirip.sin_addr : p->ourip)); } cw_set_flag(p, SIP_NEEDREINVITE); } } /* Reset lastrtprx timer */ time(&p->lastrtprx); time(&p->lastrtptx); cw_mutex_unlock(&p->lock); return 0; } #endif static int sip_handle_t38_reinvite(struct cw_channel *chan, struct sip_pvt *pvt, int reinvite) { struct sip_pvt *p; int flag = 0; p = chan->tech_pvt; if (!p) return -1; if (!pvt->udptl) return -1; /* Setup everything on the other side like offered/responded from first side */ cw_mutex_lock(&p->lock); p->t38jointcapability = p->t38peercapability = pvt->t38jointcapability; cw_udptl_set_far_max_datagram(p->udptl, cw_udptl_get_local_max_datagram(pvt->udptl)); cw_udptl_set_local_max_datagram(p->udptl, cw_udptl_get_local_max_datagram(pvt->udptl)); cw_udptl_set_error_correction_scheme(p->udptl, UDPTL_ERROR_CORRECTION_REDUNDANCY); if (reinvite) { /* If we are handling sending re-invite to the other side of the bridge */ if (cw_test_flag(p, SIP_CAN_REINVITE) && cw_test_flag(pvt, SIP_CAN_REINVITE)) { cw_udptl_get_peer(pvt->udptl, &p->udptlredirip); flag = 1; } else { memset(&p->udptlredirip, 0, sizeof(p->udptlredirip)); } if (!cw_test_flag(p, SIP_GOTREFER)) { if (!p->pendinginvite) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; if (flag) cw_log(LOG_DEBUG, "Sending reinvite on SIP '%s' - It's UDPTL soon redirected to IP %s:%d\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), p->udptlredirip.sin_addr), ntohs(p->udptlredirip.sin_port)); else cw_log(LOG_DEBUG, "Sending reinvite on SIP '%s' - It's UDPTL soon redirected to us (IP %s)\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip)); } transmit_reinvite_with_t38_sdp(p); } else if (!cw_test_flag(p, SIP_PENDINGBYE)) { if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; if (flag) cw_log(LOG_DEBUG, "Deferring reinvite on SIP '%s' - It's UDPTL will be redirected to IP %s:%d\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), p->udptlredirip.sin_addr), ntohs(p->udptlredirip.sin_port)); else cw_log(LOG_DEBUG, "Deferring reinvite on SIP '%s' - It's UDPTL will be redirected to us (IP %s)\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip)); } cw_set_flag(p, SIP_NEEDREINVITE); } } /* Reset lastrtprx timer */ time(&p->lastrtprx); time(&p->lastrtptx); cw_mutex_unlock(&p->lock); return 0; } else { /* If we are handling sending 200 OK to the other side of the bridge */ if (cw_test_flag(p, SIP_CAN_REINVITE) && cw_test_flag(pvt, SIP_CAN_REINVITE)) { cw_udptl_get_peer(pvt->udptl, &p->udptlredirip); flag = 1; } else { memset(&p->udptlredirip, 0, sizeof(p->udptlredirip)); } if (option_debug > 2) { char iabuf[INET_ADDRSTRLEN]; if (flag) cw_log(LOG_DEBUG, "Responding 200 OK on SIP '%s' - It's UDPTL soon redirected to IP %s:%d\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), p->udptlredirip.sin_addr), ntohs(p->udptlredirip.sin_port)); else cw_log(LOG_DEBUG, "Responding 200 OK on SIP '%s' - It's UDPTL soon redirected to us (IP %s)\n", p->callid, cw_inet_ntoa(iabuf, sizeof(iabuf), p->ourip)); } pvt->t38state = SIP_T38_NEGOTIATED; p->t38state = SIP_T38_NEGOTIATED; cw_log(LOG_DEBUG, "T38 changed state to %d on channel %s\n", pvt->t38state, pvt->owner ? pvt->owner->name : ""); sip_debug_ports(pvt); cw_log(LOG_DEBUG, "T38 changed state to %d on channel %s\n", p->t38state, chan ? chan->name : ""); sip_debug_ports(p); cw_channel_set_t38_status(chan, T38_NEGOTIATED); cw_log(LOG_DEBUG,"T38mode enabled for channel %s\n", chan->name); transmit_response_with_t38_sdp(p, "200 OK", &p->initreq, 1); time(&p->lastrtprx); time(&p->lastrtptx); cw_mutex_unlock(&p->lock); return 0; } } static void *dtmfmode_app; static char *dtmfmode_name = "SipDTMFMode"; static char *dtmfmode_synopsis = "Change the DTMF mode for a SIP call"; static char *dtmfmode_syntax = "SipDTMFMode(inband|info|rfc2833)"; static char *dtmfmode_description = "Changes the DTMF mode for a SIP call\n"; static void *sipaddheader_app; static char *sipaddheader_name = "SipAddHeader"; static char *sipaddheader_synopsis= "Add a SIP header to the outbound call"; static char *sipaddheader_syntax = "SipAddHeader(Header: Content)"; static char *sipaddheader_description = "Adds a header to a SIP call placed with DIAL.\n" "Remember to user the X-header if you are adding non-standard SIP\n" "headers, like \"X-CallWeaver-Accountcode:\". Use this with care.\n" "Adding the wrong headers may jeopardize the SIP dialog.\n" "Always returns 0\n"; static void *sipt38switchover_app; static char *sipt38switchover_name = "SipT38SwitchOver"; static char *sipt38switchover_synopsis= "Forces a T38 switchover on a non-bridged channel."; static char *sipt38switchover_syntax= "SipT38SwitchOver()"; static char *sipt38switchover_description= "" "This has been DEPRECATED and will be removed soon.\n" "Its functionality are done automatically by the \n" "T38Gateway and RxFax.\n"; /*! \brief app_sipt38switchover: forces a T38 Switchover on a sip channel. */ static int sip_t38switchover(struct cw_channel *chan, int argc, char **argv) { struct sip_pvt *p; char *tmp_var = NULL; cw_mutex_lock(&chan->lock); if ( ( tmp_var=pbx_builtin_getvar_helper(chan, "T38_DISABLE")) != NULL ) { cw_log(LOG_DEBUG, "T38_DISABLE variable found. Cannot send T38 switchover.\n"); cw_mutex_unlock(&chan->lock); return 0; } if (chan->type != channeltype) { cw_log(LOG_WARNING, "This function can only be used on SIP channels.\n"); cw_mutex_unlock(&chan->lock); return 0; } p = chan->tech_pvt; /* If there is no private structure, this channel is no longer alive */ if (!p) { cw_mutex_unlock(&chan->lock); return 0; } if ( t38udptlsupport && (p->t38state == SIP_T38_STATUS_UNKNOWN) //&& !(cw_bridged_channel(chan)) ) { if (!cw_test_flag(p, SIP_GOTREFER)) { if (!p->pendinginvite) { if (option_debug > 2) cw_log(LOG_DEBUG, "Forcing reinvite on SIP (%s) for T.38 negotiation.\n",chan->name); p->t38state = SIP_T38_OFFER_SENT_REINVITE; cw_channel_set_t38_status(p->owner, T38_NEGOTIATING); transmit_reinvite_with_t38_sdp(p); cw_log(LOG_DEBUG, "T38 state changed to %d on channel %s\n",p->t38state,chan->name); } } else if (!cw_test_flag(p, SIP_PENDINGBYE)) { if (option_debug > 2) cw_log(LOG_DEBUG, "Deferring forced reinvite on SIP (%s) - it will be re-negotiated for T.38\n",chan->name); cw_set_flag(p, SIP_NEEDREINVITE); } } else { if ( ! t38udptlsupport ) /* Don't warn if it's disabled */ cw_log(LOG_WARNING, "Cannot execute T38 reinvite [ t38udptlsupport: %d, p->t38state %d, bridged %d ]\n", t38udptlsupport, p->t38state, ( cw_bridged_channel(chan) ) ? 1 : 0 ); } cw_mutex_unlock(&chan->lock); return 0; } static int sip_do_t38switchover(const struct cw_channel *chan) { return sip_t38switchover( (struct cw_channel*) chan, 0, NULL); } static void *siposd_app; static const char *siposd_name = "SIPOSD"; static const char *siposd_syntax = "SIPOSD(Text)"; static const char *siposd_synopsis = "Add a SIP OSD"; static const char *siposd_description = "" " SIPOSD([Text])\n" "Send a SIP Message to be displayed onto the phone LCD. It works if\n" "supported by the SIP phone and if the channel has already been answered.\n" "Omitting the text parameter will allow the previous message to be cleared."; /* * Cloned version of sendtext with extra paramters used by sip_osd */ static int sip_sendtext2(struct cw_channel *chan, const char *text, const char *disp) { struct sip_request req; struct sip_pvt *p = chan->tech_pvt; //int res = 0; if (!p) return -1; if (cw_strlen_zero(text)) return 0; reqprep(&req, p, SIP_MESSAGE, 0, 1); add_header(&req, "Content-Type", "text/plain", SIP_DL_DONTCARE); add_header(&req, "Content-Disposition", disp, SIP_DL_DONTCARE ); add_header_contentLength(&req, strlen(text)); add_line(&req, text, SIP_DL_DONTCARE); return send_request(p, &req, 1, p->ocseq); } /* * Display message onto phone LCD, if supported. -- Antonio Gallo */ static int sip_osd(struct cw_channel *chan, int argc, char **argv) { int res = 0; struct sip_pvt *p = NULL; const char *blank=" "; /* parameter checking */ if (argc != 1 || !argv[0][0]) { argv[0]=(char*)blank; } if (cw_strlen_zero(argv[0])) { argv[0]=(char*)blank; } /* checking the chan channel structure require locking it */ cw_mutex_lock(&chan->lock); if ( (chan->tech != &sip_tech) && (chan->type != channeltype) ) { cw_log(LOG_WARNING, "sip_osd: Call this application only on SIP incoming calls\n"); cw_mutex_unlock(&chan->lock); return 0; } if (chan->_state != CW_STATE_UP) { cw_log(LOG_WARNING, "sip_osd: channel is NOT YET answered!\n"); cw_mutex_unlock(&chan->lock); return 0; } p = chan->tech_pvt; if (!p) { cw_log(LOG_WARNING, "sip_osd: P IS NULL\n"); cw_mutex_unlock(&chan->lock); return 0; } cw_mutex_unlock(&chan->lock); /* clone sendtext using sendtext2 (all in one) */ if (cw_test_flag(chan, CW_FLAG_ZOMBIE) || cw_check_hangup(chan)) return -1; CHECK_BLOCKING(chan); res = sip_sendtext2(chan, argv[0], "desktop"); cw_clear_flag(chan, CW_FLAG_BLOCKING); return res; } /*! \brief sip_dtmfmode: change the DTMFmode for a SIP call (application) */ static int sip_dtmfmode(struct cw_channel *chan, int argc, char **argv) { struct sip_pvt *p; if (argc != 1 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", dtmfmode_syntax); return -1; } cw_mutex_lock(&chan->lock); if (chan->type != channeltype) { cw_log(LOG_WARNING, "Call this application only on SIP incoming calls\n"); cw_mutex_unlock(&chan->lock); return 0; } p = chan->tech_pvt; if (!p) { cw_mutex_unlock(&chan->lock); return 0; } cw_mutex_lock(&p->lock); if (!strcasecmp(argv[0],"info")) { cw_clear_flag(p, SIP_DTMF); cw_set_flag(p, SIP_DTMF_INFO); } else if (!strcasecmp(argv[0],"rfc2833")) { cw_clear_flag(p, SIP_DTMF); cw_set_flag(p, SIP_DTMF_RFC2833); } else if (!strcasecmp(argv[0],"inband")) { cw_clear_flag(p, SIP_DTMF); cw_set_flag(p, SIP_DTMF_INBAND); } else cw_log(LOG_WARNING, "I don't know about this dtmf mode: %s\n", argv[0]); if (cw_test_flag(p, SIP_DTMF) == SIP_DTMF_INBAND) { if (!p->vad) { p->vad = cw_dsp_new(); cw_dsp_set_features(p->vad, DSP_FEATURE_DTMF_DETECT); } } else { if (p->vad) { cw_dsp_free(p->vad); p->vad = NULL; } } cw_mutex_unlock(&p->lock); cw_mutex_unlock(&chan->lock); return 0; } /*! \brief sip_addheader: Add a SIP header */ static int sip_addheader(struct cw_channel *chan, int argc, char **argv) { char varbuf[128]; char *content = (char *) NULL; int no = 0; int ok = 0; if (argc < 1 || !argv[0][0]) { cw_log(LOG_ERROR, "Syntax: %s\n", sipaddheader_syntax); return -1; } cw_mutex_lock(&chan->lock); /* Check for headers */ while (!ok && no <= 50) { no++; snprintf(varbuf, sizeof(varbuf), "_SIPADDHEADER%.2d", no); content = pbx_builtin_getvar_helper(chan, varbuf); if (!content) ok = 1; } if (ok) { pbx_builtin_setvar_helper (chan, varbuf, argv[0]); if (sipdebug) cw_log(LOG_DEBUG,"SIP Header added \"%s\" as %s\n", argv[0], varbuf); } else { cw_log(LOG_WARNING, "Too many SIP headers added, max 50\n"); } cw_mutex_unlock(&chan->lock); return 0; } /*! \brief sip_sipredirect: Transfer call before connect with a 302 redirect */ /* Called by the transfer() dialplan application through the sip_transfer() */ /* pbx interface function if the call is in ringing state */ /* coded by Martin Pycko (m78pl@yahoo.com) */ static int sip_sipredirect(struct sip_pvt *p, const char *dest) { char *cdest; char *extension, *host, *port; char tmp[80]; cdest = cw_strdupa(dest); extension = strsep(&cdest, "@"); host = strsep(&cdest, ":"); port = strsep(&cdest, ":"); if (!extension) { cw_log(LOG_ERROR, "Missing mandatory argument: extension\n"); return -1; } /* we'll issue the redirect message here */ if (!host) { char *localtmp; char data[256]; char *scan; if (!cw_db_get("SIP/Registry", extension, data, sizeof(data))) { scan = data; host = strsep(&scan, ":"); port = strsep(&scan, ":"); } else { cw_copy_string(tmp, get_header(&p->initreq, "To"), sizeof(tmp)); if (!strlen(tmp)) { cw_log(LOG_ERROR, "Cannot retrieve the 'To' header from the original SIP request!\n"); return -1; } if ((localtmp = strstr(tmp, "sip:")) && (localtmp = strchr(localtmp, '@'))) { char lhost[80]; char lport[80]; memset(lhost, 0, sizeof(lhost)); memset(lport, 0, sizeof(lport)); localtmp++; /* This is okey because lhost and lport are as big as tmp */ sscanf(localtmp, "%[^<>:; ]:%[^<>:; ]", lhost, lport); if (!strlen(lhost)) { cw_log(LOG_ERROR, "Can't find the host address\n"); return -1; } host = cw_strdupa(lhost); if (!cw_strlen_zero(lport)) port = cw_strdupa(lport); } } // else If the device is not registered } snprintf(p->our_contact, sizeof(p->our_contact), "Transfer ", extension, host, port ? ":" : "", port ? port : ""); transmit_response_reliable(p, "302 Moved Temporarily", &p->initreq, 1); /* this is all that we want to send to that SIP device */ cw_set_flag(p, SIP_ALREADYGONE); return 0; } /*! \brief sip_get_codec: Return SIP UA's codec (part of the RTP interface) */ static int sip_get_codec(struct cw_channel *chan) { struct sip_pvt *p = chan->tech_pvt; return p->peercapability; } /*! \brief sip_rtp: Interface structure with callbacks used to connect to rtp module */ static struct cw_rtp_protocol sip_rtp = { type: channeltype, get_rtp_info: sip_get_rtp_peer, get_vrtp_info: sip_get_vrtp_peer, set_rtp_peer: sip_set_rtp_peer, get_codec: sip_get_codec, }; /*! \brief sip_udptl: Interface structure with callbacks used to connect to UDPTL module */ static struct cw_udptl_protocol sip_udptl = { type: channeltype, get_udptl_info: sip_get_udptl_peer, set_udptl_peer: sip_set_udptl_peer, }; #if 0 /*! \brief sip_tpkt: Interface structure with callbacks used to connect to TPKT module */ static struct cw_tpkt_protocol sip_tpkt = { get_tpkt_info: sip_get_tpkt_peer, set_tpkt_peer: sip_set_tpkt_peer, }; #endif /*! \brief sip_poke_all_peers: Send a poke to all known peers */ static void sip_poke_all_peers(void) { CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, do { CWOBJ_WRLOCK(iterator); sip_poke_peer(iterator); CWOBJ_UNLOCK(iterator); } while (0) ); } /*! \brief sip_send_all_registers: Send all known registrations */ static void sip_send_all_registers(void) { int ms; int regspacing; int shift = 1 + (int) (100.0 * (thread_safe_cw_random() / (RAND_MAX + 1.0))); if (!regobjs) return; regspacing = default_expiry * 1000/regobjs; if (regspacing > 100) regspacing = 100 + shift; ms = regspacing; CWOBJ_CONTAINER_TRAVERSE(®l, 1, do { CWOBJ_WRLOCK(iterator); if (iterator->expire > -1) cw_sched_del(sched, iterator->expire); ms += regspacing; iterator->expire = cw_sched_add(sched, ms, sip_reregister, iterator); CWOBJ_UNLOCK(iterator); } while (0) ); } /*! \brief sip_do_reload: Reload module */ static int sip_do_reload(void) { clear_realm_authentication(authl); clear_sip_domains(); authl = NULL; /* First, destroy all outstanding registry calls */ /* This is needed, since otherwise active registry entries will not be destroyed */ CWOBJ_CONTAINER_TRAVERSE(®l, 1, do { CWOBJ_RDLOCK(iterator); if (iterator->call) { if (option_debug > 2) cw_log(LOG_DEBUG, "Destroying active SIP dialog for registry %s@%s\n", iterator->username, iterator->hostname); /* This will also remove references to the registry */ sip_destroy(iterator->call); } CWOBJ_UNLOCK(iterator); } while(0)); CWOBJ_CONTAINER_DESTROYALL(&userl, sip_destroy_user); CWOBJ_CONTAINER_DESTROYALL(®l, sip_registry_destroy); CWOBJ_CONTAINER_MARKALL(&peerl); reload_config(); /* Prune peers who still are supposed to be deleted */ CWOBJ_CONTAINER_PRUNE_MARKED(&peerl, sip_destroy_peer); sip_poke_all_peers(); sip_send_all_registers(); return 0; } /*! \brief sip_reload: Force reload of module from cli */ static int sip_reload(int fd, int argc, char *argv[]) { cw_mutex_lock(&sip_reload_lock); if (sip_reloading) { cw_verbose("Previous SIP reload not yet done\n"); } else sip_reloading = 1; cw_mutex_unlock(&sip_reload_lock); restart_monitor(); return 0; } /*! \brief reload: Part of CallWeaver module interface */ int reload(void) { return sip_reload(0, 0, NULL); } static struct cw_cli_entry my_clis[] = { { { "sip", "notify", NULL }, sip_notify, "Send a notify packet to a SIP peer", notify_usage, complete_sipnotify }, { { "sip", "show", "objects", NULL }, sip_show_objects, "Show all SIP object allocations", show_objects_usage }, { { "sip", "show", "users", NULL }, sip_show_users, "Show defined SIP users", show_users_usage }, { { "sip", "show", "user", NULL }, sip_show_user, "Show details on specific SIP user", show_user_usage, complete_sip_show_user }, { { "sip", "show", "subscriptions", NULL }, sip_show_subscriptions, "Show active SIP subscriptions", show_subscriptions_usage}, { { "sip", "show", "channels", NULL }, sip_show_channels, "Show active SIP channels", show_channels_usage}, { { "sip", "show", "channel", NULL }, sip_show_channel, "Show detailed SIP channel info", show_channel_usage, complete_sipch }, { { "sip", "show", "history", NULL }, sip_show_history, "Show SIP dialog history", show_history_usage, complete_sipch }, { { "sip", "show", "domains", NULL }, sip_show_domains, "List our local SIP domains.", show_domains_usage }, { { "sip", "show", "settings", NULL }, sip_show_settings, "Show SIP global settings", show_settings_usage }, { { "sip", "debug", NULL }, sip_do_debug, "Enable SIP debugging", debug_usage }, { { "sip", "debug", "ip", NULL }, sip_do_debug, "Enable SIP debugging on IP", debug_usage }, { { "sip", "debug", "peer", NULL }, sip_do_debug, "Enable SIP debugging on Peername", debug_usage, complete_sip_debug_peer }, { { "sip", "show", "peer", NULL }, sip_show_peer, "Show details on specific SIP peer", show_peer_usage, complete_sip_show_peer }, { { "sip", "show", "peers", NULL }, sip_show_peers, "Show defined SIP peers", show_peers_usage }, { { "sip", "prune", "realtime", NULL }, sip_prune_realtime, "Prune cached Realtime object(s)", prune_realtime_usage }, { { "sip", "prune", "realtime", "peer", NULL }, sip_prune_realtime, "Prune cached Realtime peer(s)", prune_realtime_usage, complete_sip_prune_realtime_peer }, { { "sip", "prune", "realtime", "user", NULL }, sip_prune_realtime, "Prune cached Realtime user(s)", prune_realtime_usage, complete_sip_prune_realtime_user }, #ifdef ENABLE_SIP_CALL_LIMIT { { "sip", "show", "inuse", NULL }, sip_show_inuse, "List all inuse/limits", show_inuse_usage }, #endif { { "sip", "show", "registry", NULL }, sip_show_registry, "Show SIP registration status", show_reg_usage }, { { "sip", "history", NULL }, sip_do_history, "Enable SIP history", history_usage }, { { "sip", "no", "history", NULL }, sip_no_history, "Disable SIP history", no_history_usage }, { { "sip", "no", "debug", NULL }, sip_no_debug, "Disable SIP debugging", no_debug_usage }, { { "sip", "reload", NULL }, sip_reload, "Reload SIP configuration", sip_reload_usage }, }; #ifdef SIP_TCP_SUPPORT DH *read_dhparams(char *dhfile) { BIO *bio = NULL; DH *dh = NULL; bio = BIO_new_file(dhfile, "r"); if (!bio) cw_log(LOG_ERROR, "Error opening file %s", dhfile); dh = PEM_read_bio_DHparams(bio, NULL, NULL, NULL); if (!dh) cw_log(LOG_ERROR, "Error reading DH parameters from %s", dhfile); BIO_free(bio); return dh; } DH *tmp_dh_callback(SSL *ssl, int is_export, int keylength) { DH *ret; switch (keylength) { case 512: ret = read_dhparams(dh512param_file); break; case 1024: default: ret = read_dhparams(dh1024param_file); break; } return ret; } int password_callback(char *buf, int num, int rwflag, void *userdata) { if (num < (strlen(serverkey_password)+1)) { cw_log(LOG_ERROR, "password buf len %d is too small\n", num); return 0; } strcpy(buf, serverkey_password); return (strlen(serverkey_password)); } int verify_callback(int ok, X509_STORE_CTX *store) { char data[256]; if (!ok) { X509 *cert = X509_STORE_CTX_get_current_cert(store); int depth = X509_STORE_CTX_get_error_depth(store); int err = X509_STORE_CTX_get_error(store); cw_log(LOG_ERROR, "-Error with certificate at depth: %i\n", depth); X509_NAME_oneline(X509_get_issuer_name(cert), data, 256); cw_log(LOG_ERROR, " issuer = %s\n", data); X509_NAME_oneline(X509_get_subject_name(cert), data, 256); cw_log(LOG_ERROR, " subject = %s\n", data); cw_log(LOG_ERROR, " err %i:%s\n", err, X509_verify_cert_error_string(err)); } return ok; } /* initailize OpenSSL library */ SSL_CTX *init_OpenSSL(void) { SSL_CTX *ctx = NULL; if (!SSL_library_init()) { cw_log(LOG_ERROR, "SSL_library_init failed\n"); return NULL; } SSL_load_error_strings(); RAND_load_file(DEFAULT_ENTROPY, 1024); ctx = SSL_CTX_new(TLSv1_method()); if (SSL_CTX_load_verify_locations(ctx, trustcerts_file, NULL) != 1) cw_log(LOG_ERROR, "Error loading a trust certs\n"); SSL_CTX_set_default_passwd_cb(ctx, password_callback); if (SSL_CTX_set_default_verify_paths(ctx) != 1) cw_log(LOG_ERROR, "Error to set_default_verify_path\n"); if (SSL_CTX_use_certificate_chain_file(ctx, servercert_file) != 1) cw_log(LOG_ERROR, "Error loading certificate from file\n"); if (SSL_CTX_use_PrivateKey_file(ctx, serverkey_file, SSL_FILETYPE_PEM) != 1) cw_log(LOG_ERROR, "Error loading private key from file\n"); /* SSL_CTX_set_verify(ctx, SSL_VERIFY_PEER, verify_callback); */ /* SSL_CTX_set_verify_depth(ctx, 4); */ SSL_CTX_set_options(ctx, SSL_OP_ALL | SSL_OP_SINGLE_DH_USE); SSL_CTX_set_tmp_dh_callback(ctx, tmp_dh_callback); if (SSL_CTX_set_cipher_list(ctx, CIPHER_LIST) != 1) cw_log(LOG_ERROR, "Error setting cipher list (no valid ciphers)\n"); SSL_CTX_set_mode(ctx, SSL_MODE_AUTO_RETRY); return ctx; } #endif /*! \brief load_module: PBX load module - initialization */ int load_module(void) { CWOBJ_CONTAINER_INIT(&userl); /* User object list */ CWOBJ_CONTAINER_INIT(&peerl); /* Peer object list */ CWOBJ_CONTAINER_INIT(®l); /* Registry object list */ if ((sched = sched_manual_context_create()) == NULL) cw_log(LOG_WARNING, "Unable to create schedule context\n"); if ((io = io_context_create()) == NULL) cw_log(LOG_WARNING, "Unable to create I/O context\n"); char *test = cw_pickup_ext(); if ( test == NULL ) { cw_log(LOG_ERROR, "Unable to register channel type %s. res_features is not loaded.\n", channeltype); return 0; } reload_config(); /* Load the configuration from sip.conf */ #ifdef SIP_TCP_SUPPORT if( tlsctx != NULL ) SSL_CTX_free(tlsctx); tlsctx = init_OpenSSL(); #endif /* Make sure we can register our sip channel type */ if (cw_channel_register(&sip_tech)) { cw_log(LOG_ERROR, "Unable to register channel type %s\n", channeltype); return -1; } /* Register all CLI functions for SIP */ cw_cli_register_multiple(my_clis, sizeof(my_clis)/ sizeof(my_clis[0])); /* Tell the RTP subdriver that we're here */ cw_rtp_proto_register(&sip_rtp); /* Tell the UDPTL subdriver that we're here */ cw_udptl_proto_register(&sip_udptl); /* Tell the TPKT subdriver that we're here */ //cw_tpkt_proto_register(&sip_tpkt); /* Register dialplan applications */ dtmfmode_app = cw_register_application(dtmfmode_name, sip_dtmfmode, dtmfmode_synopsis, dtmfmode_syntax, dtmfmode_description); sipt38switchover_app = cw_register_application(sipt38switchover_name, sip_t38switchover, sipt38switchover_synopsis, sipt38switchover_syntax, sipt38switchover_description); cw_install_t38_functions(sip_do_t38switchover); /* These will be removed soon */ sipaddheader_app = cw_register_application(sipaddheader_name, sip_addheader, sipaddheader_synopsis, sipaddheader_syntax, sipaddheader_description); siposd_app = cw_register_application(siposd_name, sip_osd, siposd_synopsis, siposd_syntax, siposd_description); /* Register dialplan functions */ sipheader_function = cw_register_function(sipheader_func_name, func_header_read, NULL, sipheader_func_synopsis, sipheader_func_syntax, sipheader_func_desc); sippeer_function = cw_register_function(sippeer_func_name, function_sippeer, NULL, sippeer_func_synopsis, sippeer_func_syntax, sippeer_func_desc); sippeervar_function = cw_register_function(sippeervar_func_name, function_sippeervar, NULL, sippeervar_func_synopsis, sippeervar_func_syntax, sippeervar_func_desc); sipchaninfo_function = cw_register_function(sipchaninfo_func_name, function_sipchaninfo_read, NULL, sipchaninfo_func_synopsis, sipchaninfo_func_syntax, sipchaninfo_func_desc); sipbuilddial_function = cw_register_function(sipbuilddial_func_name, func_sipbuilddial_read, NULL, sipbuilddial_func_synopsis, sipbuilddial_func_syntax, sipbuilddial_func_desc); checksipdomain_function = cw_register_function(checksipdomain_func_name, func_check_sipdomain, NULL, checksipdomain_func_synopsis, checksipdomain_func_syntax, checksipdomain_func_desc); /* Register manager commands */ cw_manager_register2("SIPpeers", EVENT_FLAG_SYSTEM, manager_sip_show_peers, "List SIP peers (text format)", mandescr_show_peers); cw_manager_register2("SIPshowpeer", EVENT_FLAG_SYSTEM, manager_sip_show_peer, "Show SIP peer (text format)", mandescr_show_peer); sip_poke_all_peers(); sip_send_all_registers(); /* And start the monitor for the first time */ restart_monitor(); return 0; } int unload_module(void) { struct sip_pvt *p, *pl; int res = 0; if (strcasecmp(cw_config_CW_ALLOW_SPAGHETTI_CODE, "yes")) { cw_log(LOG_WARNING, "Unload disabled for this module due to spaghetti code\n"); return -1; } /* First, take us out of the channel type list */ cw_channel_unregister(&sip_tech); cw_unregister_function(checksipdomain_function); cw_unregister_function(sipchaninfo_function); cw_unregister_function(sippeer_function); cw_unregister_function(sippeervar_function); cw_unregister_function(sipheader_function); cw_unregister_function(sipbuilddial_function); res |= cw_unregister_application(sipt38switchover_app); cw_uninstall_t38_functions(); res |= cw_unregister_application(dtmfmode_app); res |= cw_unregister_application(sipaddheader_app); res |= cw_unregister_application(siposd_app); cw_cli_unregister_multiple(my_clis, sizeof(my_clis) / sizeof(my_clis[0])); cw_udptl_proto_unregister(&sip_udptl); cw_rtp_proto_unregister(&sip_rtp); cw_manager_unregister("SIPpeers"); cw_manager_unregister("SIPshowpeer"); if (!cw_mutex_lock(&iflock)) { /* Hangup all interfaces if they have an owner */ p = iflist; while (p) { if (p->owner) cw_softhangup(p->owner, CW_SOFTHANGUP_APPUNLOAD); p = p->next; } iflist = NULL; cw_mutex_unlock(&iflock); } else { cw_log(LOG_WARNING, "Unable to lock the interface list\n"); return -1; } if (!cw_mutex_lock(&monlock)) { if (monitor_thread && (monitor_thread != CW_PTHREADT_STOP)) { pthread_cancel(monitor_thread); pthread_kill(monitor_thread, SIGURG); pthread_join(monitor_thread, NULL); } monitor_thread = CW_PTHREADT_STOP; cw_mutex_unlock(&monlock); } else { cw_log(LOG_WARNING, "Unable to lock the monitor\n"); return -1; } if (!cw_mutex_lock(&iflock)) { /* Destroy all the interfaces and free their memory */ p = iflist; while (p) { pl = p; p = p->next; __sip_destroy(pl, 1); } iflist = NULL; cw_mutex_unlock(&iflock); } else { cw_log(LOG_WARNING, "Unable to lock the interface list\n"); return -1; } /* Free memory for local network address mask */ cw_free_ha(localaddr); #ifdef SIP_TCP_SUPPORT CWOBJ_CONTAINER_TRAVERSE(&peerl, 1, { if (iterator->ssl) { SSL_clear(iterator->ssl); SSL_free(iterator->ssl); } } ); #endif CWOBJ_CONTAINER_DESTROYALL(&userl, sip_destroy_user); CWOBJ_CONTAINER_DESTROY(&userl); CWOBJ_CONTAINER_DESTROYALL(&peerl, sip_destroy_peer); CWOBJ_CONTAINER_DESTROY(&peerl); CWOBJ_CONTAINER_DESTROYALL(®l, sip_registry_destroy); CWOBJ_CONTAINER_DESTROY(®l); clear_realm_authentication(authl); clear_sip_domains(); close(sipsock); io_context_destroy(io); sched_context_destroy(sched); #ifdef SIP_TCP_SUPPORT close(siptcpsock); close(siptlssock); SSL_CTX_free(tlsctx); /* destroy TLS CTX */ #endif return res; } int usecount() { return usecnt; } char *description() { return (char *) desc; }