/* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "sdp_os_defs.h" #include "sdp.h" #include "sdp_private.h" #include "CSFLog.h" static const char* logTag = "sdp_main"; /* Note: These *must* be in the same order as the enum types. */ const sdp_tokenarray_t sdp_token[SDP_MAX_TOKENS] = { {"v=", sdp_parse_version, sdp_build_version }, {"o=", sdp_parse_owner, sdp_build_owner }, {"s=", sdp_parse_sessname, sdp_build_sessname }, {"i=", sdp_parse_sessinfo, sdp_build_sessinfo }, {"u=", sdp_parse_uri, sdp_build_uri }, {"e=", sdp_parse_email, sdp_build_email }, {"p=", sdp_parse_phonenum, sdp_build_phonenum }, {"c=", sdp_parse_connection, sdp_build_connection }, {"b=", sdp_parse_bandwidth, sdp_build_bandwidth }, {"t=", sdp_parse_timespec, sdp_build_timespec }, {"r=", sdp_parse_repeat_time, sdp_build_repeat_time }, {"z=", sdp_parse_timezone_adj, sdp_build_timezone_adj }, {"k=", sdp_parse_encryption, sdp_build_encryption }, {"a=", sdp_parse_attribute, sdp_build_attribute }, {"m=", sdp_parse_media, sdp_build_media } }; /* Note: These *must* be in the same order as the enum types. */ const sdp_attrarray_t sdp_attr[SDP_MAX_ATTR_TYPES] = { {"bearer", sizeof("bearer"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"called", sizeof("called"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"connection_type", sizeof("connection_type"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"dialed", sizeof("dialed"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"dialing", sizeof("dialing"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"direction", sizeof("direction"), sdp_parse_attr_comediadir, sdp_build_attr_comediadir }, {"eecid", sizeof("eecid"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"fmtp", sizeof("fmtp"), sdp_parse_attr_fmtp, sdp_build_attr_fmtp }, {"sctpmap", sizeof("sctpmap"), sdp_parse_attr_sctpmap, sdp_build_attr_sctpmap }, {"framing", sizeof("framing"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"inactive", sizeof("inactive"), sdp_parse_attr_direction, sdp_build_attr_direction }, {"ptime", sizeof("ptime"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"qos", sizeof("qos"), sdp_parse_attr_qos, sdp_build_attr_qos }, {"curr", sizeof("curr"), sdp_parse_attr_curr, sdp_build_attr_curr }, {"des", sizeof("des"), sdp_parse_attr_des, sdp_build_attr_des}, {"conf", sizeof("conf"), sdp_parse_attr_conf, sdp_build_attr_conf}, {"recvonly", sizeof("recvonly"), sdp_parse_attr_direction, sdp_build_attr_direction }, {"rtpmap", sizeof("rtpmap"), sdp_parse_attr_transport_map, sdp_build_attr_transport_map }, {"secure", sizeof("secure"), sdp_parse_attr_qos, sdp_build_attr_qos }, {"sendonly", sizeof("sendonly"), sdp_parse_attr_direction, sdp_build_attr_direction }, {"sendrecv", sizeof("sendrecv"), sdp_parse_attr_direction, sdp_build_attr_direction }, {"subnet", sizeof("subnet"), sdp_parse_attr_subnet, sdp_build_attr_subnet }, {"T38FaxVersion", sizeof("T38FaxVersion"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"T38MaxBitRate", sizeof("T38MaxBitRate"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"T38FaxFillBitRemoval", sizeof("T38FaxFillBitRemoval"), sdp_parse_attr_simple_bool, sdp_build_attr_simple_bool }, {"T38FaxTranscodingMMR", sizeof("T38FaxTranscodingMMR"), sdp_parse_attr_simple_bool, sdp_build_attr_simple_bool }, {"T38FaxTranscodingJBIG", sizeof("T38FaxTranscodingJBIG"), sdp_parse_attr_simple_bool, sdp_build_attr_simple_bool }, {"T38FaxRateManagement", sizeof("T38FaxRateManagement"), sdp_parse_attr_t38_ratemgmt, sdp_build_attr_t38_ratemgmt }, {"T38FaxMaxBuffer", sizeof("T38FaxMaxBuffer"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"T38FaxMaxDatagram", sizeof("T38FaxMaxDatagram"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"T38FaxUdpEC", sizeof("T38FaxUdpEC"), sdp_parse_attr_t38_udpec, sdp_build_attr_t38_udpec }, {"X-cap", sizeof("X-cap"), sdp_parse_attr_cap, sdp_build_attr_cap }, {"X-cpar", sizeof("X-cpar"), sdp_parse_attr_cpar, sdp_build_attr_cpar }, {"X-pc-codec", sizeof("X-pc-codec"), sdp_parse_attr_pc_codec, sdp_build_attr_pc_codec }, {"X-pc-qos", sizeof("X-pc-qos"), sdp_parse_attr_qos, sdp_build_attr_qos }, {"X-qos", sizeof("X-qos"), sdp_parse_attr_qos, sdp_build_attr_qos }, {"X-sqn", sizeof("X-sqn"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"TMRGwXid", sizeof("TMRGwXid"), sdp_parse_attr_simple_bool, sdp_build_attr_simple_bool }, {"TC1PayloadBytes", sizeof("TC1PayloadBytes"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"TC1WindowSize", sizeof("TC1WindowSize"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"TC2PayloadBytes", sizeof("TC2PayloadBytes"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"TC2WindowSize", sizeof("TC2WindowSize"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"rtcp", sizeof("rtcp"), sdp_parse_attr_rtcp, sdp_build_attr_rtcp }, {"rtr", sizeof("rtr"), sdp_parse_attr_rtr, sdp_build_attr_rtr}, {"silenceSupp", sizeof("silenceSupp"), sdp_parse_attr_silencesupp, sdp_build_attr_silencesupp }, {"X-crypto", sizeof("X-crypto"), sdp_parse_attr_srtpcontext, sdp_build_attr_srtpcontext }, {"mptime", sizeof("mptime"), sdp_parse_attr_mptime, sdp_build_attr_mptime }, {"X-sidin", sizeof("X-sidin"), sdp_parse_attr_x_sidin, sdp_build_attr_x_sidin }, {"X-sidout", sizeof("X-sidout"), sdp_parse_attr_x_sidout, sdp_build_attr_x_sidout }, {"X-confid", sizeof("X-confid"), sdp_parse_attr_x_confid, sdp_build_attr_x_confid }, {"group", sizeof("group"), sdp_parse_attr_group, sdp_build_attr_group }, {"mid", sizeof("mid"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"source-filter", sizeof("source-filter"), sdp_parse_attr_source_filter, sdp_build_source_filter}, {"rtcp-unicast", sizeof("rtcp-unicast"), sdp_parse_attr_rtcp_unicast, sdp_build_attr_rtcp_unicast}, {"maxprate", sizeof("maxprate"), sdp_parse_attr_maxprate, sdp_build_attr_simple_string}, {"sqn", sizeof("sqn"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"cdsc", sizeof("cdsc"), sdp_parse_attr_cap, sdp_build_attr_cap }, {"cpar", sizeof("cpar"), sdp_parse_attr_cpar, sdp_build_attr_cpar }, {"sprtmap", sizeof("sprtmap"), sdp_parse_attr_transport_map, sdp_build_attr_transport_map }, {"crypto", sizeof("crypto"), sdp_parse_attr_sdescriptions, sdp_build_attr_sdescriptions }, {"label", sizeof("label"), sdp_parse_attr_simple_string, sdp_build_attr_simple_string }, {"framerate", sizeof("framerate"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32 }, {"candidate", sizeof("candidate"), sdp_parse_attr_ice_attr, sdp_build_attr_ice_attr }, {"ice-ufrag", sizeof("ice-ufrag"), sdp_parse_attr_ice_attr, sdp_build_attr_ice_attr }, {"ice-pwd", sizeof("ice-pwd"), sdp_parse_attr_ice_attr, sdp_build_attr_ice_attr}, {"ice-lite", sizeof("ice-lite"), sdp_parse_attr_simple_flag, sdp_build_attr_simple_flag}, {"rtcp-mux", sizeof("rtcp-mux"), sdp_parse_attr_simple_flag, sdp_build_attr_simple_flag}, {"fingerprint", sizeof("fingerprint"), sdp_parse_attr_complete_line, sdp_build_attr_simple_string}, {"maxptime", sizeof("maxptime"), sdp_parse_attr_simple_u32, sdp_build_attr_simple_u32}, {"rtcp-fb", sizeof("rtcp-fb"), sdp_parse_attr_rtcp_fb, sdp_build_attr_rtcp_fb}, {"setup", sizeof("setup"), sdp_parse_attr_setup, sdp_build_attr_setup}, {"connection", sizeof("connection"), sdp_parse_attr_connection, sdp_build_attr_connection}, {"extmap", sizeof("extmap"), sdp_parse_attr_extmap, sdp_build_attr_extmap}, {"identity", sizeof("identity"), sdp_parse_attr_long_line, sdp_build_attr_long_line}, {"msid", sizeof("msid"), sdp_parse_attr_msid, sdp_build_attr_msid}, {"msid-semantic", sizeof("msid-semantic"), sdp_parse_attr_msid_semantic, sdp_build_attr_msid_semantic}, {"bundle-only", sizeof("bundle-only"), sdp_parse_attr_simple_flag, sdp_build_attr_simple_flag}, {"end-of-candidates", sizeof("end-of-candidates"), sdp_parse_attr_simple_flag, sdp_build_attr_simple_flag}, {"ice-options", sizeof("ice-options"), sdp_parse_attr_complete_line, sdp_build_attr_simple_string}, {"ssrc", sizeof("ssrc"), sdp_parse_attr_ssrc, sdp_build_attr_ssrc}, {"imageattr", sizeof("imageattr"), sdp_parse_attr_complete_line, sdp_build_attr_simple_string}, {"simulcast", sizeof("simulcast"), sdp_parse_attr_complete_line, sdp_build_attr_simple_string}, {"rid", sizeof("rid"), sdp_parse_attr_complete_line, sdp_build_attr_simple_string}, {"dtls-message", sizeof("dtls-message"), sdp_parse_attr_long_line, sdp_build_attr_long_line}, }; /* Note: These *must* be in the same order as the enum types. */ const sdp_namearray_t sdp_media[SDP_MAX_MEDIA_TYPES] = { {"audio", sizeof("audio")}, {"video", sizeof("video")}, {"application", sizeof("application")}, {"data", sizeof("data")}, {"control", sizeof("control")}, {"nas/radius", sizeof("nas/radius")}, {"nas/tacacs", sizeof("nas/tacacs")}, {"nas/diameter", sizeof("nas/diameter")}, {"nas/l2tp", sizeof("nas/l2tp")}, {"nas/login", sizeof("nas/login")}, {"nas/none", sizeof("nas/none")}, {"image", sizeof("image")}, {"text", sizeof("text")} }; /* Note: These *must* be in the same order as the enum types. */ const sdp_namearray_t sdp_nettype[SDP_MAX_NETWORK_TYPES] = { {"IN", sizeof("IN")}, {"ATM", sizeof("ATM")}, {"FR", sizeof("FR")}, {"LOCAL", sizeof("LOCAL")} }; /* Note: These *must* be in the same order as the enum types. */ const sdp_namearray_t sdp_addrtype[SDP_MAX_ADDR_TYPES] = { {"IP4", sizeof("IP4")}, {"IP6", sizeof("IP6")}, {"NSAP", sizeof("NSAP")}, {"EPN", sizeof("EPN")}, {"E164", sizeof("E164")}, {"GWID", sizeof("GWID")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_transport[SDP_MAX_TRANSPORT_TYPES] = { {"RTP/AVP", sizeof("RTP/AVP")}, {"udp", sizeof("udp")}, {"udptl", sizeof("udptl")}, {"ces10", sizeof("ces10")}, {"LOCAL", sizeof("LOCAL")}, {"AAL2/ITU", sizeof("AAL2/ITU")}, {"AAL2/ATMF", sizeof("AAL2/ATMF")}, {"AAL2/custom", sizeof("AAL2/custom")}, {"AAL1/AVP", sizeof("AAL1/AVP")}, {"udpsprt", sizeof("udpsprt")}, {"RTP/SAVP", sizeof("RTP/SAVP")}, {"tcp", sizeof("tcp")}, {"RTP/SAVPF", sizeof("RTP/SAVPF")}, {"DTLS/SCTP", sizeof("DTLS/SCTP")}, {"RTP/AVPF", sizeof("RTP/AVPF")}, {"UDP/TLS/RTP/SAVP", sizeof("UDP/TLS/RTP/SAVP")}, {"UDP/TLS/RTP/SAVPF", sizeof("UDP/TLS/RTP/SAVPF")}, {"TCP/TLS/RTP/SAVP", sizeof("TCP/TLS/RTP/SAVP")}, {"TCP/TLS/RTP/SAVPF", sizeof("TCP/TLS/RTP/SAVPF")}, }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_encrypt[SDP_MAX_ENCRYPT_TYPES] = { {"clear", sizeof("clear")}, {"base64", sizeof("base64")}, {"uri", sizeof("uri")}, {"prompt", sizeof("prompt")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_payload[SDP_MAX_STRING_PAYLOAD_TYPES] = { {"t38", sizeof("t38")}, {"X-tmr", sizeof("X-tmr")}, {"T120", sizeof("T120")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_t38_rate[SDP_T38_MAX_RATES] = { {"localTCF", sizeof("localTCF")}, {"transferredTCF", sizeof("transferredTCF")}, {"unknown", sizeof("unknown")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_t38_udpec[SDP_T38_MAX_UDPEC] = { {"t38UDPRedundancy", sizeof("t38UDPRedundancy")}, {"t38UDPFEC", sizeof("t38UDPFEC")}, {"unknown", sizeof("unknown")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_qos_strength[SDP_MAX_QOS_STRENGTH] = { {"optional", sizeof("optional")}, {"mandatory", sizeof("mandatory")}, {"success", sizeof("success")}, {"failure", sizeof("failure")}, {"none", sizeof("none")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_qos_status_type[SDP_MAX_QOS_STATUS_TYPES] = { {"local", sizeof("local")}, {"remote", sizeof("remote")}, {"e2e", sizeof("e2e")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_curr_type[SDP_MAX_CURR_TYPES] = { {"qos", sizeof("qos")}, {"unknown", sizeof("unknown")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_des_type[SDP_MAX_DES_TYPES] = { {"qos", sizeof("qos")}, {"unknown", sizeof("unknown")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_conf_type[SDP_MAX_CONF_TYPES] = { {"qos", sizeof("qos")}, {"unknown", sizeof("unknown")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_qos_direction[SDP_MAX_QOS_DIR] = { {"send", sizeof("send")}, {"recv", sizeof("recv")}, {"sendrecv", sizeof("sendrecv")}, {"none", sizeof("none")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_silencesupp_pref[SDP_MAX_SILENCESUPP_PREF] = { {"standard", sizeof("standard")}, {"custom", sizeof("custom")}, {"-", sizeof("-")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_silencesupp_siduse[SDP_MAX_SILENCESUPP_SIDUSE] = { {"No SID", sizeof("No SID")}, {"Fixed Noise", sizeof("Fixed Noise")}, {"Sampled Noise", sizeof("Sampled Noise")}, {"-", sizeof("-")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_mediadir_role[SDP_MAX_MEDIADIR_ROLES] = { {"passive", sizeof("passive")}, {"active", sizeof("active")}, {"both", sizeof("both")}, {"reuse", sizeof("reuse")}, {"unknown", sizeof("unknown")} }; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_fmtp_codec_param[SDP_MAX_FMTP_PARAM] = { {"annexa", sizeof("annexa")}, /* 0 */ {"annexb", sizeof("annexb")}, /* 1 */ {"bitrate", sizeof("bitrate")}, /* 2 */ {"QCIF", sizeof("QCIF")}, /* 3 */ {"CIF", sizeof("CIF")}, /* 4 */ {"MAXBR", sizeof("MAXBR")}, /* 5 */ {"SQCIF", sizeof("SQCIF")}, /* 6 */ {"CIF4", sizeof("CIF4")}, /* 7 */ {"CIF16", sizeof("CIF16")}, /* 8 */ {"CUSTOM", sizeof("CUSTOM")}, /* 9 */ {"PAR", sizeof("PAR")}, /* 10 */ {"CPCF", sizeof("CPCF")}, /* 11 */ {"BPP", sizeof("BPP")}, /* 12 */ {"HRD", sizeof("HRD")}, /* 13 */ {"PROFILE", sizeof("PROFILE")}, /* 14 */ {"LEVEL", sizeof("LEVEL")}, /* 15 */ {"INTERLACE", sizeof("INTERLACE")}, /* 16 */ /* H.264 related */ {"profile-level-id", sizeof("profile-level-id")}, /* 17 */ {"sprop-parameter-sets", sizeof("sprop-parameter-sets")}, /* 18 */ {"packetization-mode", sizeof("packetization-mode")}, /* 19 */ {"sprop-interleaving-depth", sizeof("sprop-interleaving-depth")}, /* 20 */ {"sprop-deint-buf-req", sizeof("sprop-deint-buf-req")}, /* 21 */ {"sprop-max-don-diff", sizeof("sprop-max-don-diff")}, /* 22 */ {"sprop-init-buf-time", sizeof("sprop-init-buf-time")}, /* 23 */ {"max-mbps", sizeof("max-mbps")}, /* 24 */ {"max-fs", sizeof("max-fs")}, /* 25 */ {"max-cpb", sizeof("max-cpb")}, /* 26 */ {"max-dpb", sizeof("max-dpb")}, /* 27 */ {"max-br", sizeof("max-br")}, /* 28 */ {"redundant-pic-cap", sizeof("redundant-pic-cap")}, /* 29 */ {"deint-buf-cap", sizeof("deint-buf-cap")}, /* 30 */ {"max-rcmd-nalu-size", sizeof("max-rcmd_nali-size")}, /* 31 */ {"parameter-add", sizeof("parameter-add")}, /* 32 */ /* Annexes - require special handling */ {"D", sizeof("D")}, /* 33 */ {"F", sizeof("F")}, /* 34 */ {"I", sizeof("I")}, /* 35 */ {"J", sizeof("J")}, /* 36 */ {"T", sizeof("T")}, /* 37 */ {"K", sizeof("K")}, /* 38 */ {"N", sizeof("N")}, /* 39 */ {"P", sizeof("P")}, /* 40 */ {"mode", sizeof("mode")}, /* 41 */ {"level-asymmetry-allowed", sizeof("level-asymmetry-allowed")}, /* 42 */ {"maxaveragebitrate", sizeof("maxaveragebitrate")}, /* 43 */ {"usedtx", sizeof("usedtx")}, /* 44 */ {"stereo", sizeof("stereo")}, /* 45 */ {"useinbandfec", sizeof("useinbandfec")}, /* 46 */ {"maxcodedaudiobandwidth", sizeof("maxcodedaudiobandwidth")}, /* 47 */ {"cbr", sizeof("cbr")}, /* 48 */ {"max-fr", sizeof("max-fr")}, /* 49 */ {"maxplaybackrate", sizeof("maxplaybackrate")} /* 50 */ } ; /* Note: These *must* be in the same order as the enum type. */ const sdp_namearray_t sdp_fmtp_codec_param_val[SDP_MAX_FMTP_PARAM_VAL] = { {"yes", sizeof("yes")}, {"no", sizeof("no")} }; const sdp_namearray_t sdp_bw_modifier_val[SDP_MAX_BW_MODIFIER_VAL] = { {"AS", sizeof("AS")}, {"CT", sizeof("CT")}, {"TIAS", sizeof("TIAS")} }; const sdp_namearray_t sdp_group_attr_val[SDP_MAX_GROUP_ATTR_VAL] = { {"FID", sizeof("FID")}, {"LS", sizeof("LS")}, {"ANAT", sizeof("ANAT")}, {"BUNDLE", sizeof("BUNDLE")} }; const sdp_namearray_t sdp_srtp_context_crypto_suite[SDP_SRTP_MAX_NUM_CRYPTO_SUITES] = { {"UNKNOWN_CRYPTO_SUITE", sizeof("UNKNOWN_CRYPTO_SUITE")}, {"AES_CM_128_HMAC_SHA1_32", sizeof("AES_CM_128_HMAC_SHA1_32")}, {"AES_CM_128_HMAC_SHA1_80", sizeof("AES_CM_128_HMAC_SHA1_80")}, {"F8_128_HMAC_SHA1_80", sizeof("F8_128_HMAC_SHA1_80")} }; /* Maintain the same order as defined in typedef sdp_src_filter_mode_e */ const sdp_namearray_t sdp_src_filter_mode_val[SDP_MAX_FILTER_MODE] = { {"incl", sizeof("incl")}, {"excl", sizeof("excl")} }; /* Maintain the same order as defined in typdef sdp_rtcp_unicast_mode_e */ const sdp_namearray_t sdp_rtcp_unicast_mode_val[SDP_RTCP_MAX_UNICAST_MODE] = { {"reflection", sizeof("reflection")}, {"rsi", sizeof("rsi")} }; #define SDP_NAME(x) {x, sizeof(x)} /* Maintain the same order as defined in typdef sdp_rtcp_fb_type_e */ const sdp_namearray_t sdp_rtcp_fb_type_val[SDP_MAX_RTCP_FB] = { SDP_NAME("ack"), SDP_NAME("ccm"), SDP_NAME("nack"), SDP_NAME("trr-int"), SDP_NAME("goog-remb") }; /* Maintain the same order as defined in typdef sdp_rtcp_fb_nack_type_e */ const sdp_namearray_t sdp_rtcp_fb_nack_type_val[SDP_MAX_RTCP_FB_NACK] = { SDP_NAME(""), SDP_NAME("sli"), SDP_NAME("pli"), SDP_NAME("rpsi"), SDP_NAME("app"), SDP_NAME("rai"), SDP_NAME("tllei"), SDP_NAME("pslei"), SDP_NAME("ecn") }; /* Maintain the same order as defined in typdef sdp_rtcp_fb_ack_type_e */ const sdp_namearray_t sdp_rtcp_fb_ack_type_val[SDP_MAX_RTCP_FB_ACK] = { SDP_NAME("rpsi"), SDP_NAME("app") }; /* Maintain the same order as defined in typdef sdp_rtcp_fb_ccm_type_e */ const sdp_namearray_t sdp_rtcp_fb_ccm_type_val[SDP_MAX_RTCP_FB_CCM] = { SDP_NAME("fir"), SDP_NAME("tmmbr"), SDP_NAME("tstr"), SDP_NAME("vbcm") }; /* Maintain the same order as defined in typedef sdp_setup_type_e */ const sdp_namearray_t sdp_setup_type_val[SDP_MAX_SETUP] = { SDP_NAME("active"), SDP_NAME("passive"), SDP_NAME("actpass"), SDP_NAME("holdconn") }; /* Maintain the same order as defined in typedef sdp_connection_type_e */ const sdp_namearray_t sdp_connection_type_val[SDP_MAX_CONNECTION] = { SDP_NAME("new"), SDP_NAME("existing") }; /* Maintain same order as defined in typedef sdp_srtp_crypto_suite_t */ const sdp_srtp_crypto_suite_list sdp_srtp_crypto_suite_array[SDP_SRTP_MAX_NUM_CRYPTO_SUITES] = { {SDP_SRTP_UNKNOWN_CRYPTO_SUITE, UNKNOWN_CRYPTO_SUITE, 0, 0}, {SDP_SRTP_AES_CM_128_HMAC_SHA1_32, AES_CM_128_HMAC_SHA1_32, SDP_SRTP_AES_CM_128_HMAC_SHA1_32_KEY_BYTES, SDP_SRTP_AES_CM_128_HMAC_SHA1_32_SALT_BYTES}, {SDP_SRTP_AES_CM_128_HMAC_SHA1_80, AES_CM_128_HMAC_SHA1_80, SDP_SRTP_AES_CM_128_HMAC_SHA1_80_KEY_BYTES, SDP_SRTP_AES_CM_128_HMAC_SHA1_80_SALT_BYTES}, {SDP_SRTP_F8_128_HMAC_SHA1_80, F8_128_HMAC_SHA1_80, SDP_SRTP_F8_128_HMAC_SHA1_80_KEY_BYTES, SDP_SRTP_F8_128_HMAC_SHA1_80_SALT_BYTES} }; const char* sdp_result_name[SDP_MAX_RC] = {"SDP_SUCCESS", "SDP_FAILURE", "SDP_INVALID_SDP_PTR", "SDP_NOT_SDP_DESCRIPTION", "SDP_INVALID_TOKEN_ORDERING", "SDP_INVALID_PARAMETER", "SDP_INVALID_MEDIA_LEVEL", "SDP_INVALID_CAPABILITY", "SDP_NO_RESOURCE", "SDP_UNRECOGNIZED_TOKEN", "SDP_NULL_BUF_PTR", "SDP_POTENTIAL_SDP_OVERFLOW", "SDP_EMPTY_TOKEN"}; const char *sdp_get_result_name ( sdp_result_e rc ) { if (rc >= SDP_MAX_RC) { return ("Invalid SDP result code"); } else { return (sdp_result_name[rc]); } } const char *sdp_get_attr_name ( sdp_attr_e attr_type ) { if (attr_type >= SDP_MAX_ATTR_TYPES) { return ("Invalid attribute type"); } else { return (sdp_attr[attr_type].name); } } const char *sdp_get_media_name ( sdp_media_e media_type ) { if (media_type == SDP_MEDIA_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (media_type >= SDP_MAX_MEDIA_TYPES) { return ("Invalid media type"); } else { return (sdp_media[media_type].name); } } const char *sdp_get_network_name ( sdp_nettype_e network_type ) { if (network_type == SDP_NT_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (network_type >= SDP_MAX_NETWORK_TYPES) { return ("Invalid network type"); } else { return (sdp_nettype[network_type].name); } } const char *sdp_get_address_name ( sdp_addrtype_e addr_type ) { if (addr_type == SDP_AT_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (addr_type >= SDP_MAX_ADDR_TYPES) { if (addr_type == SDP_AT_FQDN) { return ("*"); } else { return ("Invalid address type"); } } else { return (sdp_addrtype[addr_type].name); } } const char *sdp_get_transport_name ( sdp_transport_e transport_type ) { if (transport_type == SDP_TRANSPORT_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (transport_type >= SDP_MAX_TRANSPORT_TYPES) { return ("Invalid transport type"); } else { return (sdp_transport[transport_type].name); } } const char *sdp_get_encrypt_name ( sdp_encrypt_type_e encrypt_type ) { if (encrypt_type == SDP_ENCRYPT_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (encrypt_type >= SDP_MAX_ENCRYPT_TYPES) { return ("Invalid encryption type"); } else { return (sdp_encrypt[encrypt_type].name); } } const char *sdp_get_payload_name ( sdp_payload_e payload ) { if (payload == SDP_PAYLOAD_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (payload >= SDP_MAX_STRING_PAYLOAD_TYPES) { return ("Invalid payload type"); } else { return (sdp_payload[payload].name); } } const char *sdp_get_t38_ratemgmt_name ( sdp_t38_ratemgmt_e rate ) { if (rate >= SDP_T38_MAX_RATES) { return ("Invalid rate"); } else { return (sdp_t38_rate[rate].name); } } const char *sdp_get_t38_udpec_name ( sdp_t38_udpec_e udpec ) { if (udpec >= SDP_T38_MAX_UDPEC) { return ("Invalid udpec"); } else { return (sdp_t38_udpec[udpec].name); } } const char *sdp_get_qos_strength_name ( sdp_qos_strength_e strength ) { if (strength >= SDP_MAX_QOS_STRENGTH) { return ("Invalid qos strength"); } else { return (sdp_qos_strength[strength].name); } } const char *sdp_get_qos_direction_name ( sdp_qos_dir_e direction ) { if (direction >= SDP_MAX_QOS_DIR) { return ("Invalid qos direction"); } else { return (sdp_qos_direction[direction].name); } } const char *sdp_get_qos_status_type_name ( sdp_qos_status_types_e status_type ) { if (status_type >= SDP_MAX_QOS_STATUS_TYPES) { return ("Invalid qos status type"); } else { return (sdp_qos_status_type[status_type].name); } } const char *sdp_get_curr_type_name (sdp_curr_type_e curr_type ) { if (curr_type >= SDP_MAX_CURR_TYPES) { return ("Invalid curr type"); } else { return (sdp_curr_type[curr_type].name); } } const char *sdp_get_des_type_name (sdp_des_type_e des_type ) { if (des_type >= SDP_MAX_DES_TYPES) { return ("Invalid des type"); } else { return (sdp_des_type[des_type].name); } } const char *sdp_get_conf_type_name (sdp_conf_type_e conf_type ) { if (conf_type >= SDP_MAX_CONF_TYPES) { return ("Invalid conf type"); } else { return (sdp_conf_type[conf_type].name); } } const char *sdp_get_silencesupp_pref_name (sdp_silencesupp_pref_e pref) { if (pref >= SDP_MAX_SILENCESUPP_PREF) { return ("Invalid silencesupp pref"); } else { return (sdp_silencesupp_pref[pref].name); } } const char *sdp_get_silencesupp_siduse_name (sdp_silencesupp_siduse_e siduse) { if (siduse >= SDP_MAX_SILENCESUPP_SIDUSE) { return ("Invalid silencesupp siduse"); } else { return (sdp_silencesupp_siduse[siduse].name); } } const char *sdp_get_mediadir_role_name (sdp_mediadir_role_e role) { if (role >= SDP_MEDIADIR_ROLE_UNKNOWN) { return ("Invalid media direction role"); } else { return (sdp_mediadir_role[role].name); } } const char *sdp_get_bw_modifier_name (sdp_bw_modifier_e bw_modifier_type) { if (bw_modifier_type == SDP_BW_MODIFIER_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (bw_modifier_type < SDP_BW_MODIFIER_AS || bw_modifier_type >= SDP_MAX_BW_MODIFIER_VAL) { return ("Invalid bw modifier type"); } else { return (sdp_bw_modifier_val[bw_modifier_type].name); } } const char *sdp_get_group_attr_name (sdp_group_attr_e group_attr_type) { if (group_attr_type == SDP_GROUP_ATTR_UNSUPPORTED) { return (SDP_UNSUPPORTED); } else if (group_attr_type >= SDP_MAX_GROUP_ATTR_VAL) { return ("Invalid a=group: attribute type"); } else { return (sdp_group_attr_val[group_attr_type].name); } } const char *sdp_get_src_filter_mode_name (sdp_src_filter_mode_e type) { if (type >= SDP_MAX_FILTER_MODE) { return ("Invalid source filter mode"); } else { return (sdp_src_filter_mode_val[type].name); } } const char *sdp_get_rtcp_unicast_mode_name (sdp_rtcp_unicast_mode_e type) { if (type >= SDP_RTCP_MAX_UNICAST_MODE) { return ("Invalid rtcp unicast mode"); } else { return (sdp_rtcp_unicast_mode_val[type].name); } } /* Function: sdp_init_description * Description: Allocates a new SDP structure that can be used for either * parsing or building an SDP description. This routine * saves the config pointer passed in the SDP structure so * SDP will know how to parse/build based on the options defined. * An SDP structure must be allocated before parsing or building * since the handle must be passed to these routines. * Parameters: config_p The config handle returned by sdp_init_config * Returns: A handle for a new SDP structure as a void ptr. */ sdp_t *sdp_init_description (sdp_conf_options_t *conf_p) { int i; sdp_t *sdp_p; if (!conf_p) { return (NULL); } sdp_p = (sdp_t *)SDP_MALLOC(sizeof(sdp_t)); if (sdp_p == NULL) { return (NULL); } sdp_p->conf_p = conf_p; sdp_p->version = SDP_CURRENT_VERSION; sdp_p->owner_name[0] = '\0'; sdp_p->owner_sessid[0] = '\0'; sdp_p->owner_version[0] = '\0'; sdp_p->owner_network_type = SDP_NT_INVALID; sdp_p->owner_addr_type = SDP_AT_INVALID; sdp_p->owner_addr[0] = '\0'; sdp_p->sessname[0] = '\0'; sdp_p->sessinfo_found = FALSE; sdp_p->uri_found = FALSE; sdp_p->default_conn.nettype = SDP_NT_INVALID; sdp_p->default_conn.addrtype = SDP_AT_INVALID; sdp_p->default_conn.conn_addr[0] = '\0'; sdp_p->default_conn.is_multicast = FALSE; sdp_p->default_conn.ttl = 0; sdp_p->default_conn.num_of_addresses = 0; sdp_p->bw.bw_data_count = 0; sdp_p->bw.bw_data_list = NULL; sdp_p->timespec_p = NULL; sdp_p->sess_attrs_p = NULL; sdp_p->mca_p = NULL; sdp_p->mca_count = 0; /* Set default debug flags from application config. */ for (i=0; i < SDP_MAX_DEBUG_TYPES; i++) { sdp_p->debug_flag[i] = conf_p->debug_flag[i]; } return (sdp_p); } /* Function: void sdp_debug(sdp_t *sdp_p, sdp_debug_e debug_type, * tinybool my_bool); * Description: Define the type of debug for this particular SDP structure. * By default, each SDP description has the settings that are * set for the application. * Valid debug types are ERRORS, WARNINGS, and TRACE. Each * debug type can be turned on/off individually. The * debug level can be redefined at any time. * Parameters: sdp_ptr The SDP handle returned by sdp_init_description. * debug_type Specifies the debug type being enabled/disabled. * my_bool Defines whether the debug should be enabled or not. * Returns: Nothing. */ void sdp_debug (sdp_t *sdp_p, sdp_debug_e debug_type, tinybool debug_flag) { if (!sdp_p) { return; } if (debug_type < SDP_MAX_DEBUG_TYPES) { sdp_p->debug_flag[debug_type] = debug_flag; } } /* Function: void sdp_set_string_debug(sdp_t *sdp_p, char *debug_str) * Description: Define a string to be associated with all debug output * for this SDP. The string will be copied into the SDP * structure and so the library will not be dependent on * the application's memory for this string. * Parameters: sdp_p The SDP handle returned by sdp_init_description. * debug_str Pointer to a string that should be printed out * with every debug msg. * Returns: Nothing. */ void sdp_set_string_debug (sdp_t *sdp_p, const char *debug_str) { if (!sdp_p) { return; } sstrncpy(sdp_p->debug_str, debug_str, sizeof(sdp_p->debug_str)); } /* Function: sdp_validate_sdp * Description: Validate an SDP structure. * Parameters: sdp_p The SDP handle of the struct to validate. * Returns: A result value indicating if the validation was successful. * If not, what type of error was encountered. */ sdp_result_e sdp_validate_sdp (sdp_t *sdp_p) { int i; uint16_t num_media_levels; /* Need to validate c= info is specified at session level or * at all m= levels. */ if (sdp_connection_valid((void *)sdp_p, SDP_SESSION_LEVEL) == FALSE) { num_media_levels = sdp_get_num_media_lines((void *)sdp_p); for (i=1; i <= num_media_levels; i++) { if (sdp_connection_valid((void *)sdp_p, (unsigned short)i) == FALSE) { sdp_parse_error(sdp_p, "%s c= connection line not specified for " "every media level, validation failed.", sdp_p->debug_str); return (SDP_FAILURE); } } } /* Validate required lines were specified */ if ((sdp_owner_valid((void *)sdp_p) == FALSE) && (sdp_p->conf_p->owner_reqd == TRUE)) { sdp_parse_error(sdp_p, "%s o= owner line not specified, validation failed.", sdp_p->debug_str); return (SDP_FAILURE); } if ((sdp_session_name_valid((void *)sdp_p) == FALSE) && (sdp_p->conf_p->session_name_reqd == TRUE)) { sdp_parse_error(sdp_p, "%s s= session name line not specified, validation failed.", sdp_p->debug_str); return (SDP_FAILURE); } if ((sdp_timespec_valid((void *)sdp_p) == FALSE) && (sdp_p->conf_p->timespec_reqd == TRUE)) { sdp_parse_error(sdp_p, "%s t= timespec line not specified, validation failed.", sdp_p->debug_str); return (SDP_FAILURE); } return (SDP_SUCCESS); } /* Function: sdp_parse * Description: Parse an SDP description in the specified buffer. * Parameters: sdp_p The SDP handle returned by sdp_init_description * bufp Pointer to the buffer containing the SDP * description to parse. * len The length of the buffer. * Returns: A result value indicating if the parse was successful and * if not, what type of error was encountered. The * information from the parse is stored in the sdp_p structure. */ sdp_result_e sdp_parse (sdp_t *sdp_p, const char *buf, size_t len) { uint8_t i; uint16_t cur_level = SDP_SESSION_LEVEL; const char *ptr; const char *next_ptr = NULL; char *line_end; sdp_token_e last_token = SDP_TOKEN_V; sdp_result_e result = SDP_SUCCESS; tinybool parse_done = FALSE; tinybool end_found = FALSE; tinybool first_line = TRUE; tinybool unrec_token = FALSE; const char **bufp = &buf; if (!sdp_p) { return (SDP_INVALID_SDP_PTR); } if ((bufp == NULL) || (*bufp == NULL)) { return (SDP_NULL_BUF_PTR); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Trace SDP Parse:", sdp_p->debug_str); } next_ptr = *bufp; sdp_p->conf_p->num_parses++; /* Initialize the last valid capability instance to zero. Used * to help in parsing X-cpar attrs. */ sdp_p->cap_valid = FALSE; sdp_p->last_cap_inst = 0; sdp_p->parse_line = 0; /* We want to try to find the end of the SDP description, even if * we find a parsing error. */ while (!end_found) { /* If the last char of this line goes beyond the end of the buffer, * we don't parse it. */ ptr = next_ptr; sdp_p->parse_line++; line_end = sdp_findchar(ptr, "\n"); if ((line_end >= (*bufp + len)) || (*line_end == '\0')) { /* As this does not update the result value the SDP up to this point * is still accept as valid. So encountering this is not treated as * an error. */ sdp_parse_error(sdp_p, "%s End of line beyond end of buffer.", sdp_p->debug_str); CSFLogError(logTag, "SDP: Invalid SDP, no \\n (len %u): %*s", (unsigned)len, (int)len, *bufp); end_found = TRUE; break; } /* Print the line if we're tracing. */ if ((parse_done == FALSE) && (sdp_p->debug_flag[SDP_DEBUG_TRACE])) { SDP_PRINT("%s ", sdp_p->debug_str); SDP_PRINT("%*s", (int)(line_end - ptr), ptr); } /* Find out which token this line has, if any. */ for (i=0; i < SDP_MAX_TOKENS; i++) { if (strncmp(ptr, sdp_token[i].name, SDP_TOKEN_LEN) == 0) { break; } } if (i == SDP_MAX_TOKENS) { /* See if the second char on the next line is an '=' char. * If so, we note this as an unrecognized token line. */ if (ptr[1] == '=') { unrec_token = TRUE; } if (first_line == TRUE) { sdp_parse_error(sdp_p, "%s Attempt to parse text not recognized as " "SDP text, parse fails.", sdp_p->debug_str); /* If we haven't already printed out the line we * were trying to parse, do it now. */ if (!sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s ", sdp_p->debug_str); SDP_PRINT("%*s", (int)(line_end - ptr), ptr); } sdp_p->conf_p->num_not_sdp_desc++; return (SDP_NOT_SDP_DESCRIPTION); } else { end_found = TRUE; break; } } /* This is the beginning of a new SDP description. */ if ((first_line != TRUE) && (i == SDP_TOKEN_V)) { end_found = TRUE; break; } /* Advance the next ptr to one char beyond the end of the line. */ next_ptr = line_end + 1; if (next_ptr >= (*bufp + len)) { end_found = TRUE; } /* If we've finished parsing and are just looking for the end of * the SDP description, we don't need to do anything else here. */ if (parse_done == TRUE) { continue; } /* Only certain tokens are valid at the media level. */ if (cur_level != SDP_SESSION_LEVEL) { if ((i != SDP_TOKEN_I) && (i != SDP_TOKEN_C) && (i != SDP_TOKEN_B) && (i != SDP_TOKEN_K) && (i != SDP_TOKEN_A) && (i != SDP_TOKEN_M)) { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: Invalid token %s found at media level", sdp_p->debug_str, sdp_token[i].name); continue; } } /* Verify the token ordering. */ if (first_line == TRUE) { if (i != SDP_TOKEN_V) { if (sdp_p->conf_p->version_reqd == TRUE) { sdp_parse_error(sdp_p, "%s First line not v=, parse fails", sdp_p->debug_str); sdp_p->conf_p->num_invalid_token_order++; result = SDP_INVALID_TOKEN_ORDERING; parse_done = TRUE; } else { last_token = (sdp_token_e)i; } } else { last_token = (sdp_token_e)i; } first_line = FALSE; } else { if (i < last_token) { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: Invalid token ordering detected, " "token %s found after token %s", sdp_p->debug_str, sdp_token[i].name, sdp_token[last_token].name); } } /* Finally parse the line. */ ptr += SDP_TOKEN_LEN; result = sdp_token[i].parse_func(sdp_p, cur_level, (const char *)ptr); last_token = (sdp_token_e)i; if (last_token == SDP_TOKEN_M) { if (cur_level == SDP_SESSION_LEVEL) { cur_level = 1; } else { cur_level++; } /* The token ordering can start again at i= */ last_token = (sdp_token_e)(SDP_TOKEN_I - 1); } if (result != SDP_SUCCESS) { parse_done = TRUE; } /* Skip the new line char at the end of this line and see if * this is the end of the buffer. */ if ((line_end + 1) == (*bufp + len)) { end_found = TRUE; } } /* If we found no valid lines, return an error. */ if (first_line == TRUE) { sdp_p->conf_p->num_not_sdp_desc++; return (SDP_NOT_SDP_DESCRIPTION); } /* If no errors were found yet, validate the overall sdp. */ if (result == SDP_SUCCESS) { result = sdp_validate_sdp(sdp_p); } /* Return the pointer where we left off. */ *bufp = next_ptr; /* If the SDP is valid, but the next line following was an * unrecognized = line, indicate this on the return. */ if ((result == SDP_SUCCESS) && (unrec_token == TRUE)) { return (SDP_UNRECOGNIZED_TOKEN); } else { return (result); } } /* Function: sdp_build * Description: Build an SDP description in the specified buffer based * on the information in the given SDP structure. * Parameters: sdp_p The SDP handle returned by sdp_init_description * fs A flex_string where the SDP description should be built. * Returns: A result value indicating if the build was successful and * if not, what type of error was encountered - e.g., * description was too long for the given buffer. */ sdp_result_e sdp_build (sdp_t *sdp_p, flex_string *fs) { int i, j; sdp_result_e result = SDP_SUCCESS; if (!sdp_p) { return (SDP_INVALID_SDP_PTR); } if (!fs) { return (SDP_NULL_BUF_PTR); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Trace SDP Build:", sdp_p->debug_str); } sdp_p->conf_p->num_builds++; for (i=0; ((i < SDP_TOKEN_M) && (result == SDP_SUCCESS)); i++) { result = sdp_token[i].build_func(sdp_p, SDP_SESSION_LEVEL, fs); /* ok not to check buffer space (yet) as the if() checks it */ } /* If the session level was ok, build the media lines. */ if (result == SDP_SUCCESS) { for (i=1; ((i <= sdp_p->mca_count) && (result == SDP_SUCCESS)); i++) { result = sdp_token[SDP_TOKEN_M].build_func(sdp_p, (uint16_t)i, fs); /* ok not to check buffer space (yet) as the for() checks it */ for (j=SDP_TOKEN_I; ((j < SDP_TOKEN_M) && (result == SDP_SUCCESS)); j++) { if ((j == SDP_TOKEN_U) || (j == SDP_TOKEN_E) || (j == SDP_TOKEN_P) || (j == SDP_TOKEN_T) || (j == SDP_TOKEN_R) || (j == SDP_TOKEN_Z)) { /* These tokens not valid at media level. */ continue; } result = sdp_token[j].build_func(sdp_p, (uint16_t)i, fs); /* ok not to check buffer space (yet) as the for() checks it */ } } } return (result); } /* Function: sdp_free_description * Description: Free an SDP description and all memory associated with it. * Parameters: sdp_p The SDP handle returned by sdp_init_description * Returns: A result value indicating if the free was successful and * if not, what type of error was encountered - e.g., sdp_p * was invalid and didn't point to an SDP structure. */ sdp_result_e sdp_free_description (sdp_t *sdp_p) { sdp_timespec_t *time_p, *next_time_p; sdp_attr_t *attr_p, *next_attr_p; sdp_mca_t *mca_p, *next_mca_p; sdp_bw_t *bw_p; sdp_bw_data_t *bw_data_p; if (!sdp_p) { return (SDP_INVALID_SDP_PTR); } /* Free the config structure */ sdp_free_config(sdp_p->conf_p); /* Free any timespec structures - should be only one since * this is all we currently support. */ time_p = sdp_p->timespec_p; while (time_p != NULL) { next_time_p = time_p->next_p; SDP_FREE(time_p); time_p = next_time_p; } bw_p = &(sdp_p->bw); bw_data_p = bw_p->bw_data_list; while (bw_data_p != NULL) { bw_p->bw_data_list = bw_data_p->next_p; SDP_FREE(bw_data_p); bw_data_p = bw_p->bw_data_list; } /* Free any session attr structures */ attr_p = sdp_p->sess_attrs_p; while (attr_p != NULL) { next_attr_p = attr_p->next_p; sdp_free_attr(attr_p); attr_p = next_attr_p; } /* Free any mca structures */ mca_p = sdp_p->mca_p; while (mca_p != NULL) { next_mca_p = mca_p->next_p; /* Free any media attr structures */ attr_p = mca_p->media_attrs_p; while (attr_p != NULL) { next_attr_p = attr_p->next_p; sdp_free_attr(attr_p); attr_p = next_attr_p; } /* Free the media profiles struct if allocated. */ if (mca_p->media_profiles_p != NULL) { SDP_FREE(mca_p->media_profiles_p); } bw_p = &(mca_p->bw); bw_data_p = bw_p->bw_data_list; while (bw_data_p != NULL) { bw_p->bw_data_list = bw_data_p->next_p; SDP_FREE(bw_data_p); bw_data_p = bw_p->bw_data_list; } SDP_FREE(mca_p); mca_p = next_mca_p; } SDP_FREE(sdp_p); return (SDP_SUCCESS); } /* * sdp_parse_error * Send SDP parsing errors to log and up to peerconnection */ void sdp_parse_error(sdp_t* sdp, const char *format, ...) { flex_string fs; va_list ap; flex_string_init(&fs); va_start(ap, format); flex_string_vsprintf(&fs, format, ap); va_end(ap); CSFLogError("SDP Parse", "SDP Parse Error %s, line %u", fs.buffer, sdp->parse_line); if (sdp->conf_p->error_handler) { sdp->conf_p->error_handler(sdp->conf_p->error_handler_context, sdp->parse_line, fs.buffer); } flex_string_free(&fs); }