/* 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 #include "sdp_os_defs.h" #include "sipcc_sdp.h" #include "sdp_private.h" #include "sdp_log.h" #include "prprf.h" static const char *logTag = "sdp_token"; #define MCAST_STRING_LEN 4 sdp_result_e sdp_parse_version (sdp_t *sdp_p, uint16_t level, const char *ptr) { sdp_result_e result = SDP_FAILURE; sdp_p->version = (uint16_t)sdp_getnextnumtok(ptr, &ptr, " \t", &result); if ((result != SDP_SUCCESS) || (sdp_p->version != SDP_CURRENT_VERSION)) { sdp_parse_error(sdp_p, "%s Invalid version (%u) found, parse failed.", sdp_p->debug_str, (unsigned)sdp_p->version); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse version line successful, version %u", sdp_p->debug_str, (unsigned)sdp_p->version); } return (SDP_SUCCESS); } sdp_result_e sdp_build_version (sdp_t *sdp_p, uint16_t level, flex_string *fs) { if (sdp_p->version == SDP_INVALID_VALUE) { if (sdp_p->conf_p->version_reqd == TRUE) { SDPLogError(logTag, "%s Invalid version for v= line, " "build failed.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } else { /* v= line is not required. */ return (SDP_SUCCESS); } } flex_string_sprintf(fs, "v=%u\r\n", (unsigned)sdp_p->version); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built v= version line", sdp_p->debug_str); } return (SDP_SUCCESS); } static sdp_result_e sdp_verify_unsigned(const char *ptr, uint64_t max_value) { uint64_t numeric_value; /* Checking for only numbers since PR_sscanf will ignore trailing characters */ size_t end = strspn(ptr, "0123456789"); if (ptr[end] != '\0') return SDP_INVALID_PARAMETER; if (PR_sscanf(ptr, "%llu", &numeric_value) != 1) return SDP_INVALID_PARAMETER; if (numeric_value > max_value) return SDP_INVALID_PARAMETER; return SDP_SUCCESS; } sdp_result_e sdp_parse_owner (sdp_t *sdp_p, uint16_t level, const char *ptr) { int i; sdp_result_e result; char tmp[SDP_MAX_STRING_LEN]; /* The spec says this: The numeric value of the session id and version in the o line MUST be representable with a 64 bit signed integer. The initial value of the version MUST be less than (2**62)-1, to avoid rollovers. */ const uint64_t max_value_sessid = ((((uint64_t) 1) << 63) - 1); /* Do not check that this is 2^62 - 1; that's just the limit on * the initial version, not every version number. */ const uint64_t max_value_version = ((((uint64_t) 1) << 63) - 1); if (sdp_p->owner_name[0] != '\0') { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: More than one o= line specified.", sdp_p->debug_str); } /* Find the owner name. */ ptr = sdp_getnextstrtok(ptr, sdp_p->owner_name, sizeof(sdp_p->owner_name), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No owner name specified for o=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* Find the owner session id. This is a numeric field but is * stored as a string since it may be 64 bit. */ ptr = sdp_getnextstrtok(ptr, sdp_p->owner_sessid, sizeof(sdp_p->owner_sessid), " \t", &result); if (result == SDP_SUCCESS) { /* Make sure the sessid is numeric, even though we store it as * a string. */ result = sdp_verify_unsigned(sdp_p->owner_sessid, max_value_sessid); } if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s Invalid owner session id specified for o=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* Find the owner version. */ ptr = sdp_getnextstrtok(ptr, sdp_p->owner_version, sizeof(sdp_p->owner_version), " \t", &result); if (result == SDP_SUCCESS) { /* Make sure the version is numeric, even though we store it as * a string. */ result = sdp_verify_unsigned(sdp_p->owner_version, max_value_version); } if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s Invalid owner version specified for o=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* Find the owner network type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No owner network type specified for o=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } sdp_p->owner_network_type = SDP_NT_UNSUPPORTED; for (i=0; i < SDP_MAX_NETWORK_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_nettype[i].name, sdp_nettype[i].strlen) == 0) { if (sdp_p->conf_p->nettype_supported[i] == TRUE) { sdp_p->owner_network_type = (sdp_nettype_e)i; } } } if (sdp_p->owner_network_type == SDP_NT_UNSUPPORTED) { sdp_parse_error(sdp_p, "%s Owner network type unsupported (%s)", sdp_p->debug_str, tmp); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* Find the owner address type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No owner address type specified for o=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } sdp_p->owner_addr_type = SDP_AT_UNSUPPORTED; for (i=0; i < SDP_MAX_ADDR_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_addrtype[i].name, sdp_addrtype[i].strlen) == 0) { if (sdp_p->conf_p->addrtype_supported[i] == TRUE) { sdp_p->owner_addr_type = (sdp_addrtype_e)i; } } } if ((sdp_p->owner_addr_type == SDP_AT_UNSUPPORTED) && (sdp_p->owner_network_type != SDP_NT_ATM)) { sdp_parse_error(sdp_p, "%s Owner address type unsupported (%s)", sdp_p->debug_str, tmp); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* Find the owner address. */ ptr = sdp_getnextstrtok(ptr, sdp_p->owner_addr, sizeof(sdp_p->owner_addr), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No owner address specified.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse owner: name %s, session id %s, version %s", sdp_p->debug_str, sdp_p->owner_name, sdp_p->owner_sessid, sdp_p->owner_version); SDP_PRINT("%s network %s, address type %s, " "address %s", sdp_p->debug_str, sdp_get_network_name(sdp_p->owner_network_type), sdp_get_address_name(sdp_p->owner_addr_type), sdp_p->owner_addr); } return (SDP_SUCCESS); } sdp_result_e sdp_build_owner (sdp_t *sdp_p, uint16_t level, flex_string *fs) { if ((sdp_p->owner_name[0] == '\0') || (sdp_p->owner_network_type >= SDP_MAX_NETWORK_TYPES) || (sdp_p->owner_addr_type >= SDP_MAX_ADDR_TYPES) || (sdp_p->owner_addr[0] == '\0')) { if((sdp_p->owner_network_type == SDP_NT_ATM) && (sdp_p->owner_addr_type == SDP_AT_INVALID)) { flex_string_sprintf(fs, "o=%s %s %s %s - -\r\n", sdp_p->owner_name, sdp_p->owner_sessid, sdp_p->owner_version, sdp_get_network_name(sdp_p->owner_network_type)); } if (sdp_p->conf_p->owner_reqd == TRUE) { SDPLogError(logTag, "%s Invalid params for o= owner line, " "build failed.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } else { /* o= line is not required. */ return (SDP_SUCCESS); } } flex_string_sprintf(fs, "o=%s %s %s %s %s %s\r\n", sdp_p->owner_name, sdp_p->owner_sessid, sdp_p->owner_version, sdp_get_network_name(sdp_p->owner_network_type), sdp_get_address_name(sdp_p->owner_addr_type), sdp_p->owner_addr); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built o= owner line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_parse_sessname (sdp_t *sdp_p, uint16_t level, const char *ptr) { int str_len; char *endptr; if (sdp_p->sessname[0] != '\0') { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: More than one s= line specified.", sdp_p->debug_str); } endptr = sdp_findchar(ptr, "\r\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No session name specified.", sdp_p->debug_str); } str_len = MIN(endptr - ptr, SDP_MAX_STRING_LEN); sstrncpy(sdp_p->sessname, ptr, str_len+1); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse session name, %s", sdp_p->debug_str, sdp_p->sessname); } return (SDP_SUCCESS); } sdp_result_e sdp_build_sessname (sdp_t *sdp_p, uint16_t level, flex_string *fs) { if (sdp_p->sessname[0] == '\0') { if (sdp_p->conf_p->session_name_reqd == TRUE) { SDPLogError(logTag, "%s No param defined for s= session name line, " "build failed.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } else { /* s= line is not required. */ return (SDP_SUCCESS); } } flex_string_sprintf(fs, "s=%s\r\n", sdp_p->sessname); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built s= session name line", sdp_p->debug_str); } return (SDP_SUCCESS); } /* We don't want to store the session info, but we do want to validate * that at most one i= line exists at each level and if the line exists * there should be a parameter. */ sdp_result_e sdp_parse_sessinfo (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *endptr; sdp_mca_t *mca_p; if (level == SDP_SESSION_LEVEL) { if (sdp_p->sessinfo_found == TRUE) { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: More than one i= line specified.", sdp_p->debug_str); } sdp_p->sessinfo_found = TRUE; } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } if (mca_p->sessinfo_found == TRUE) { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: More than one i= line specified" " for media line %u.", sdp_p->debug_str, (unsigned)level); } mca_p->sessinfo_found = TRUE; } endptr = sdp_findchar(ptr, "\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No session info specified.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parsed session info line.", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_sessinfo (sdp_t *sdp_p, uint16_t level, flex_string *fs) { /* Build session info line not supported. */ return (SDP_SUCCESS); } sdp_result_e sdp_parse_uri (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *endptr; if (sdp_p->uri_found == TRUE) { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s Warning: More than one u= line specified.", sdp_p->debug_str); } sdp_p->uri_found = TRUE; endptr = sdp_findchar(ptr, "\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No URI info specified.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parsed URI line.", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_uri (sdp_t *sdp_p, uint16_t level, flex_string *fs) { /* Build URI line not supported. */ return (SDP_SUCCESS); } sdp_result_e sdp_parse_email (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *endptr; endptr = sdp_findchar(ptr, "\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No email info specified.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse email line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_email (sdp_t *sdp_p, uint16_t level, flex_string *fs) { /* Build email line not supported. */ return (SDP_SUCCESS); } sdp_result_e sdp_parse_phonenum (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *endptr; endptr = sdp_findchar(ptr, "\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No phone number info specified.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse phone number line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_phonenum (sdp_t *sdp_p, uint16_t level, flex_string *fs) { /* Build phone number line not supported. */ return (SDP_SUCCESS); } sdp_result_e sdp_parse_connection (sdp_t *sdp_p, uint16_t level, const char *ptr) { int i; const char *slash_ptr; sdp_result_e result; sdp_conn_t *conn_p; sdp_mca_t *mca_p; char tmp[SDP_MAX_STRING_LEN]; char mcast_str[MCAST_STRING_LEN]; int mcast_bits; unsigned long strtoul_result; char *strtoul_end; if (level == SDP_SESSION_LEVEL) { conn_p = &(sdp_p->default_conn); } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } conn_p = &(mca_p->conn); } /* See if the c= line is already defined at this level. We don't * currently support multihoming and so we only support one c= at * each level. */ if (conn_p->nettype != SDP_NT_INVALID) { sdp_p->conf_p->num_invalid_token_order++; sdp_parse_error(sdp_p, "%s c= line specified twice at same level, " "parse failed.", sdp_p->debug_str); return (SDP_INVALID_TOKEN_ORDERING); } /* Find the connection network type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No connection network type specified for c=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } conn_p->nettype = SDP_NT_UNSUPPORTED; for (i=0; i < SDP_MAX_NETWORK_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_nettype[i].name, sdp_nettype[i].strlen) == 0) { if (sdp_p->conf_p->nettype_supported[i] == TRUE) { conn_p->nettype = (sdp_nettype_e)i; } } } if (conn_p->nettype == SDP_NT_UNSUPPORTED) { sdp_parse_error(sdp_p, "%s Warning: Connection network type unsupported " "(%s) for c=.", sdp_p->debug_str, tmp); } /* Find the connection address type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { if (conn_p->nettype == SDP_NT_ATM) { /* If the nettype is ATM, addr type and addr are not reqd */ if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse connection: network %s", sdp_p->debug_str, sdp_get_network_name(conn_p->nettype)); } return (SDP_SUCCESS); } else { sdp_parse_error(sdp_p, "%s No connection address type specified for " "c=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } } conn_p->addrtype = SDP_AT_UNSUPPORTED; for (i=0; i < SDP_MAX_ADDR_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_addrtype[i].name, sdp_addrtype[i].strlen) == 0) { if (sdp_p->conf_p->addrtype_supported[i] == TRUE) { conn_p->addrtype = (sdp_addrtype_e)i; } } } if (conn_p->addrtype == SDP_AT_UNSUPPORTED) { sdp_parse_error(sdp_p, "%s Warning: Connection address type unsupported " "(%s) for c=.", sdp_p->debug_str, tmp); } /* Find the connection address. */ ptr = sdp_getnextstrtok(ptr, conn_p->conn_addr, sizeof(conn_p->conn_addr), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No connection address specified for c=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* We currently only support addrs containing '/'s for EPN addrs. * For other addrs this would indicate multicast addrs. */ /* Multicast host group addresses are defined to be the IP addresses * whose high-order four bits are 1110, giving an address range from * 224.0.0.0 through 239.255.255.255 */ /* multicast addr check */ sstrncpy (mcast_str, conn_p->conn_addr, MCAST_STRING_LEN); if (conn_p->addrtype == SDP_AT_IP4) { errno = 0; strtoul_result = strtoul(mcast_str, &strtoul_end, 10); if (errno || mcast_str == strtoul_end || strtoul_result > 255) { sdp_parse_error(sdp_p, "%s Error parsing address %s for mcast.", sdp_p->debug_str, mcast_str); sdp_p->conf_p->num_invalid_param++; return SDP_INVALID_PARAMETER; } mcast_bits = (int) strtoul_result; if ((mcast_bits >= SDP_MIN_MCAST_ADDR_HI_BIT_VAL ) && (mcast_bits <= SDP_MAX_MCAST_ADDR_HI_BIT_VAL)) { SDP_PRINT("%s Parsed to be a multicast address with mcast bits %d", sdp_p->debug_str, mcast_bits); conn_p->is_multicast = TRUE; } } if (conn_p->addrtype != SDP_AT_EPN) { slash_ptr = sdp_findchar(conn_p->conn_addr, "/"); if (slash_ptr[0] != '\0') { /* this used to rely on the above busted multicast check */ SDP_PRINT("%s An address with slash %s", sdp_p->debug_str, conn_p->conn_addr); conn_p->conn_addr[slash_ptr - conn_p->conn_addr] = '\0'; slash_ptr++; slash_ptr = sdp_getnextstrtok(slash_ptr, tmp, sizeof(tmp), "/", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No ttl value specified for this multicast addr with a slash", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } errno = 0; strtoul_result = strtoul(tmp, &strtoul_end, 10); if (errno || tmp == strtoul_end || conn_p->ttl > SDP_MAX_TTL_VALUE) { sdp_parse_error(sdp_p, "%s Invalid TTL: Value must be in the range 0-255 ", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } conn_p->ttl = (int) strtoul_result; /* search for num of addresses */ /*sa_ignore NO_NULL_CHK {ptr is valid since the pointer was checked earlier and the function would have exited if NULL.}*/ slash_ptr = sdp_findchar(slash_ptr, "/"); if (slash_ptr != NULL && slash_ptr[0] != '\0') { SDP_PRINT("%s Found a num addr field for multicast addr %s ", sdp_p->debug_str,slash_ptr); slash_ptr++; errno = 0; strtoul_result = strtoul(slash_ptr, &strtoul_end, 10); if (errno || slash_ptr == strtoul_end || strtoul_result == 0) { sdp_parse_error(sdp_p, "%s Invalid Num of addresses: Value must be > 0 ", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return SDP_INVALID_PARAMETER; } conn_p->num_of_addresses = (int) strtoul_result; } } } /* See if the address is the choose param and if it's allowed. */ if ((sdp_p->conf_p->allow_choose[SDP_CHOOSE_CONN_ADDR] == FALSE) && (strcmp(conn_p->conn_addr, "$") == 0)) { sdp_parse_error(sdp_p, "%s Warning: Choose parameter for connection " "address specified but not allowed.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse connection: network %s, address type %s, " "address %s ttl= %u num of addresses = %u", sdp_p->debug_str, sdp_get_network_name(conn_p->nettype), sdp_get_address_name(conn_p->addrtype), conn_p->conn_addr, (unsigned)conn_p->ttl, (unsigned)conn_p->num_of_addresses); } return (SDP_SUCCESS); } sdp_result_e sdp_build_connection (sdp_t *sdp_p, uint16_t level, flex_string *fs) { sdp_mca_t *mca_p; sdp_conn_t *conn_p; if (level == SDP_SESSION_LEVEL) { conn_p = &(sdp_p->default_conn); } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } conn_p = &(mca_p->conn); } if((conn_p->nettype == SDP_NT_ATM ) && (conn_p->addrtype == SDP_AT_INVALID)) { /*allow c= line to be built without address type and address fields * This is a special case for ATM PVC*/ flex_string_sprintf(fs, "c=%s\r\n", sdp_get_network_name(conn_p->nettype)); return SDP_SUCCESS; } if ((conn_p->nettype >= SDP_MAX_NETWORK_TYPES) || (conn_p->addrtype >= SDP_MAX_ADDR_TYPES) || (conn_p->conn_addr[0] == '\0')) { /* Connection info isn't set - don't need to build the token. */ return (SDP_SUCCESS); } if (conn_p->is_multicast) { if (conn_p->num_of_addresses > 1) { flex_string_sprintf(fs, "c=%s %s %s/%u/%u\r\n", sdp_get_network_name(conn_p->nettype), sdp_get_address_name(conn_p->addrtype), conn_p->conn_addr, (unsigned)conn_p->ttl, (unsigned)conn_p->num_of_addresses); } else { flex_string_sprintf(fs, "c=%s %s %s/%u\r\n", sdp_get_network_name(conn_p->nettype), sdp_get_address_name(conn_p->addrtype), conn_p->conn_addr, (unsigned)conn_p->ttl); } } else { flex_string_sprintf(fs, "c=%s %s %s\r\n", sdp_get_network_name(conn_p->nettype), sdp_get_address_name(conn_p->addrtype), conn_p->conn_addr); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built c= connection line", sdp_p->debug_str); } return (SDP_SUCCESS); } /* * sdp_parse_bandwidth * * This function parses a bandwidth field. The parsing is done in accordance * to the following ABNF: * * bandwidth-fields = *("b=" bwtype ":" bandwidth CRLF) * bwtype = 1*(alpha-numeric) * bandwidth = 1*(DIGIT) * * It currently supports three types of valid bwtypes - AS, CT and TIAS */ sdp_result_e sdp_parse_bandwidth (sdp_t *sdp_p, uint16_t level, const char *ptr) { int i; sdp_mca_t *mca_p; sdp_bw_t *bw_p; sdp_bw_data_t *bw_data_p; sdp_bw_data_t *new_bw_data_p; sdp_result_e result; char tmp[SDP_MAX_STRING_LEN]; sdp_bw_modifier_e bw_modifier = SDP_BW_MODIFIER_UNSUPPORTED; int bw_val = 0; if (level == SDP_SESSION_LEVEL) { bw_p = &(sdp_p->bw); } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } bw_p = &(mca_p->bw); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse bandwidth line", sdp_p->debug_str); } /* Find the bw type (AS, CT or TIAS) */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), ":", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No bandwidth type specified for b= ", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } for (i=0; i < SDP_MAX_BW_MODIFIER_VAL; i++) { if (cpr_strncasecmp(tmp, sdp_bw_modifier_val[i].name, sdp_bw_modifier_val[i].strlen) == 0) { bw_modifier = (sdp_bw_modifier_e)i; break; } } if (bw_modifier == SDP_BW_MODIFIER_UNSUPPORTED) { /* We don't understand this parameter, so according to RFC4566 sec 5.8 * ignore it. */ return (SDP_SUCCESS); } /* Find the BW type value */ /*sa_ignore NO_NULL_CHK {ptr is valid since the pointer was checked earlier and the function would have exited if NULL.}*/ if (*ptr == ':') { ptr++; bw_val = sdp_getnextnumtok(ptr, &ptr, " \t", &result); if ((result != SDP_SUCCESS)) { sdp_parse_error(sdp_p, "%s Error: No BW Value specified ", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } } /* * Allocate a new sdp_bw_data_t instance and set it's values from the * input parameters. */ new_bw_data_p = (sdp_bw_data_t*)SDP_MALLOC(sizeof(sdp_bw_data_t)); if (new_bw_data_p == NULL) { sdp_p->conf_p->num_invalid_param++; return (SDP_NO_RESOURCE); } new_bw_data_p->next_p = NULL; new_bw_data_p->bw_modifier = bw_modifier; new_bw_data_p->bw_val = bw_val; /* * Enqueue the sdp_bw_data_t instance at the end of the list of * sdp_bw_data_t instances. */ if (bw_p->bw_data_list == NULL) { bw_p->bw_data_list = new_bw_data_p; } else { for (bw_data_p = bw_p->bw_data_list; bw_data_p->next_p != NULL; bw_data_p = bw_data_p->next_p) { ; // Empty For } bw_data_p->next_p = new_bw_data_p; } bw_p->bw_data_count++; if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parsed bw type %s, value %d", sdp_p->debug_str, sdp_get_bw_modifier_name(new_bw_data_p->bw_modifier), new_bw_data_p->bw_val); } return (SDP_SUCCESS); } /* * sdp_build_bandwidth * * Builds *all* the bandwith lines for the specified level. */ sdp_result_e sdp_build_bandwidth (sdp_t *sdp_p, uint16_t level, flex_string *fs) { sdp_bw_t *bw_p; sdp_bw_data_t *bw_data_p; sdp_mca_t *mca_p; if (level == SDP_SESSION_LEVEL) { bw_p = &(sdp_p->bw); } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } bw_p = &(mca_p->bw); } bw_data_p = bw_p->bw_data_list; while (bw_data_p) { flex_string_sprintf(fs, "b=%s:%d\r\n", sdp_get_bw_modifier_name(bw_data_p->bw_modifier), bw_data_p->bw_val); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built b=%s:%d bandwidth line", sdp_p->debug_str, sdp_get_bw_modifier_name(bw_data_p->bw_modifier), bw_data_p->bw_val); } bw_data_p = bw_data_p->next_p; } return (SDP_SUCCESS); } sdp_result_e sdp_parse_timespec (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *tmpptr; sdp_result_e result; sdp_timespec_t *timespec_p; sdp_timespec_t *next_timespec_p; timespec_p = (sdp_timespec_t *)SDP_MALLOC(sizeof(sdp_timespec_t)); if (timespec_p == NULL) { sdp_p->conf_p->num_no_resource++; return (SDP_NO_RESOURCE); } /* Validate start and stop times. */ ptr = sdp_getnextstrtok(ptr, timespec_p->start_time, sizeof(timespec_p->start_time), " \t", &result); if (result == SDP_SUCCESS) { /* Make sure the start_time is numeric, even though we store it as * a string. */ (void)sdp_getnextnumtok(timespec_p->start_time, (const char **)&tmpptr, " \t", &result); } if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s Invalid timespec start time specified.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; SDP_FREE(timespec_p); return (SDP_INVALID_PARAMETER); } ptr = sdp_getnextstrtok(ptr, timespec_p->stop_time, sizeof(timespec_p->stop_time), " \t", &result); if (result == SDP_SUCCESS) { /* Make sure the start_time is numeric, even though we store it as * a string. */ (void)sdp_getnextnumtok(timespec_p->stop_time, (const char **)&tmpptr, " \t", &result); } if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s Invalid timespec stop time specified.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; SDP_FREE(timespec_p); return (SDP_INVALID_PARAMETER); } /* Link the new timespec in to the end of the list. */ if (sdp_p->timespec_p == NULL) { sdp_p->timespec_p = timespec_p; } else { next_timespec_p = sdp_p->timespec_p; while (next_timespec_p->next_p != NULL) { next_timespec_p = next_timespec_p->next_p; } next_timespec_p->next_p = timespec_p; } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parsed timespec line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_timespec (sdp_t *sdp_p, uint16_t level, flex_string *fs) { if ((sdp_p->timespec_p == NULL) || (sdp_p->timespec_p->start_time[0] == '\0') || (sdp_p->timespec_p->stop_time[0] == '\0')) { if (sdp_p->conf_p->timespec_reqd == TRUE) { SDPLogError(logTag, "%s Invalid params for t= time spec line, " "build failed.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } else { /* t= line not required. */ return (SDP_SUCCESS); } } /* Note: We only support one t= line currently. */ flex_string_sprintf(fs, "t=%s %s\r\n", sdp_p->timespec_p->start_time, sdp_p->timespec_p->stop_time); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built t= timespec line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_parse_repeat_time (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *endptr; endptr = sdp_findchar(ptr, "\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No repeat time parameters " "specified.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parsed repeat time line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_repeat_time (sdp_t *sdp_p, uint16_t level, flex_string *fs) { /* Build repeat time line not supported. */ return (SDP_SUCCESS); } sdp_result_e sdp_parse_timezone_adj (sdp_t *sdp_p, uint16_t level, const char *ptr) { char *endptr; endptr = sdp_findchar(ptr, "\n"); if (ptr == endptr) { sdp_parse_error(sdp_p, "%s Warning: No timezone parameters specified.", sdp_p->debug_str); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse timezone adustment line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_build_timezone_adj (sdp_t *sdp_p, uint16_t level, flex_string *fs) { /* Build timezone adjustment line not supported. */ return (SDP_SUCCESS); } sdp_result_e sdp_parse_encryption (sdp_t *sdp_p, uint16_t level, const char *ptr) { int i; sdp_result_e result; sdp_encryptspec_t *encrypt_p; sdp_mca_t *mca_p; char tmp[SDP_MAX_STRING_LEN]; if (level == SDP_SESSION_LEVEL) { encrypt_p = &(sdp_p->encrypt); } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } encrypt_p = &(mca_p->encrypt); } encrypt_p->encrypt_key[0] = '\0'; /* Find the encryption type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), ":", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No encryption type specified for k=.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } encrypt_p->encrypt_type = SDP_ENCRYPT_UNSUPPORTED; for (i=0; i < SDP_MAX_ENCRYPT_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_encrypt[i].name, sdp_encrypt[i].strlen) == 0) { encrypt_p->encrypt_type = (sdp_encrypt_type_e)i; break; } } if (encrypt_p->encrypt_type == SDP_ENCRYPT_UNSUPPORTED) { sdp_parse_error(sdp_p, "%s Warning: Encryption type unsupported (%s).", sdp_p->debug_str, tmp); } /* Find the encryption key. */ encrypt_p->encrypt_key[0] = '\0'; /*sa_ignore NO_NULL_CHK {ptr is valid since the pointer was checked earlier and the function would have exited if NULL.}*/ if (*ptr == ':') ptr++; if (encrypt_p->encrypt_type != SDP_ENCRYPT_PROMPT) { ptr = sdp_getnextstrtok(ptr, encrypt_p->encrypt_key, sizeof(encrypt_p->encrypt_key), " \t", &result); if ((result != SDP_SUCCESS) && ((encrypt_p->encrypt_type == SDP_ENCRYPT_CLEAR) || (encrypt_p->encrypt_type == SDP_ENCRYPT_BASE64) || (encrypt_p->encrypt_type == SDP_ENCRYPT_URI))) { sdp_parse_error(sdp_p, "%s Warning: No encryption key specified " "as required.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parse encryption type %s, key %s", sdp_p->debug_str, sdp_get_encrypt_name(encrypt_p->encrypt_type), encrypt_p->encrypt_key); } return (SDP_SUCCESS); } /* If the encryption info is valid, we build it. Else skip it. */ sdp_result_e sdp_build_encryption (sdp_t *sdp_p, uint16_t level, flex_string *fs) { sdp_encryptspec_t *encrypt_p; sdp_mca_t *mca_p; if (level == SDP_SESSION_LEVEL) { encrypt_p = &(sdp_p->encrypt); } else { mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } encrypt_p = &(mca_p->encrypt); } if ((encrypt_p->encrypt_type >= SDP_MAX_ENCRYPT_TYPES) || ((encrypt_p->encrypt_type != SDP_ENCRYPT_PROMPT) && (encrypt_p->encrypt_key[0] == '\0'))) { /* Encryption info isn't set - don't need to build the token. */ return (SDP_SUCCESS); } flex_string_sprintf(fs, "k=%s", sdp_get_encrypt_name(encrypt_p->encrypt_type)); if (encrypt_p->encrypt_type == SDP_ENCRYPT_PROMPT) { /* There is no key to print. */ flex_string_sprintf(fs, "\r\n"); } else { flex_string_sprintf(fs, ":%s\r\n", encrypt_p->encrypt_key); } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built k= encryption line", sdp_p->debug_str); } return (SDP_SUCCESS); } sdp_result_e sdp_parse_media (sdp_t *sdp_p, uint16_t level, const char *ptr) { uint16_t i; uint16_t num_port_params=0; int32_t num[SDP_MAX_PORT_PARAMS]; tinybool valid_param = FALSE; sdp_result_e result; sdp_mca_t *mca_p; sdp_mca_t *next_mca_p; char tmp[SDP_MAX_STRING_LEN]; char port[SDP_MAX_STRING_LEN]; const char *port_ptr; int32_t sctp_port; /* Allocate resource for new media stream. */ mca_p = sdp_alloc_mca(sdp_p->parse_line); if (mca_p == NULL) { sdp_p->conf_p->num_no_resource++; return (SDP_NO_RESOURCE); } /* Find the media type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No media type specified, parse failed.", sdp_p->debug_str); SDP_FREE(mca_p); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } mca_p->media = SDP_MEDIA_UNSUPPORTED; for (i=0; i < SDP_MAX_MEDIA_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_media[i].name, sdp_media[i].strlen) == 0) { mca_p->media = (sdp_media_e)i; } } if (mca_p->media == SDP_MEDIA_UNSUPPORTED) { sdp_parse_error(sdp_p, "%s Warning: Media type unsupported (%s).", sdp_p->debug_str, tmp); } /* Find the port token parameters, but don't process it until * we determine the transport protocol as that determines what * port number formats are valid. */ ptr = sdp_getnextstrtok(ptr, port, sizeof(port), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No port specified in m= media line, " "parse failed.", sdp_p->debug_str); SDP_FREE(mca_p); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } port_ptr = port; for (i=0; i < SDP_MAX_PORT_PARAMS; i++) { num[i] = sdp_getnextnumtok(port_ptr, (const char **)&port_ptr, "/ \t", &result); if (result != SDP_SUCCESS) { break; } num_port_params++; } /* Find the transport protocol type. */ ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No transport protocol type specified, " "parse failed.", sdp_p->debug_str); SDP_FREE(mca_p); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } mca_p->transport = SDP_TRANSPORT_UNSUPPORTED; for (i=0; i < SDP_MAX_TRANSPORT_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_transport[i].name, sdp_transport[i].strlen) == 0) { mca_p->transport = (sdp_transport_e)i; break; } } if (mca_p->transport == SDP_TRANSPORT_UNSUPPORTED) { /* If we don't recognize or don't support the transport type, * just store the first num as the port. */ mca_p->port = num[0]; sdp_parse_error(sdp_p, "%s Warning: Transport protocol type unsupported " "(%s).", sdp_p->debug_str, tmp); } /* Check for each of the possible port formats according to the * type of transport protocol specified. */ valid_param = FALSE; switch (num_port_params) { case 1: if ((mca_p->transport == SDP_TRANSPORT_RTPAVP) || (mca_p->transport == SDP_TRANSPORT_RTPSAVP) || (mca_p->transport == SDP_TRANSPORT_RTPSAVPF) || (mca_p->transport == SDP_TRANSPORT_UDPTLSRTPSAVP) || (mca_p->transport == SDP_TRANSPORT_UDPTLSRTPSAVPF) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSRTPSAVP) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSRTPSAVPF) || (mca_p->transport == SDP_TRANSPORT_UDP) || (mca_p->transport == SDP_TRANSPORT_TCP) || (mca_p->transport == SDP_TRANSPORT_UDPTL) || (mca_p->transport == SDP_TRANSPORT_UDPSPRT) || (mca_p->transport == SDP_TRANSPORT_LOCAL) || (mca_p->transport == SDP_TRANSPORT_DTLSSCTP) || (mca_p->transport == SDP_TRANSPORT_UDPDTLSSCTP) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSSCTP)) { /* Port format is simply . Make sure that either * the choose param is allowed or that the choose value * wasn't specified. */ if ((sdp_p->conf_p->allow_choose[SDP_CHOOSE_PORTNUM]) || (num[0] != SDP_CHOOSE_PARAM)) { mca_p->port = num[0]; mca_p->port_format = SDP_PORT_NUM_ONLY; valid_param = TRUE; } } else if (mca_p->transport == SDP_TRANSPORT_AAL1AVP) { /* Port format is simply , choose param is not allowed. */ if (num[0] != SDP_CHOOSE_PARAM) { mca_p->vcci = num[0]; mca_p->port_format = SDP_PORT_VCCI; valid_param = TRUE; } } else if ((mca_p->transport == SDP_TRANSPORT_AAL2_ITU) || (mca_p->transport == SDP_TRANSPORT_AAL2_ATMF) || (mca_p->transport == SDP_TRANSPORT_AAL2_CUSTOM)) { /* Port format is simply , and choose param is allowed, * according to AAL2 definitions. */ mca_p->port = num[0]; mca_p->port_format = SDP_PORT_NUM_ONLY; valid_param = TRUE; } break; case 2: if ((mca_p->transport == SDP_TRANSPORT_RTPAVP) || (mca_p->transport == SDP_TRANSPORT_RTPSAVP) || (mca_p->transport == SDP_TRANSPORT_RTPSAVPF) || (mca_p->transport == SDP_TRANSPORT_UDPTLSRTPSAVP) || (mca_p->transport == SDP_TRANSPORT_UDPTLSRTPSAVPF) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSRTPSAVP) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSRTPSAVPF) || (mca_p->transport == SDP_TRANSPORT_UDP) || (mca_p->transport == SDP_TRANSPORT_LOCAL)) { /* Port format is /. Make sure choose * params were not specified. */ if ((num[0] != SDP_CHOOSE_PARAM) && (num[1] != SDP_CHOOSE_PARAM)) { mca_p->port = num[0]; mca_p->num_ports = num[1]; mca_p->port_format = SDP_PORT_NUM_COUNT; valid_param = TRUE; } } else if (mca_p->transport == SDP_TRANSPORT_UDPTL) { /* Port format is /. Make sure choose * params were not specified. For UDPTL, only "1" may * be specified for number of ports. */ if ((num[0] != SDP_CHOOSE_PARAM) && (num[1] == 1)) { mca_p->port = num[0]; mca_p->num_ports = 1; mca_p->port_format = SDP_PORT_NUM_COUNT; valid_param = TRUE; } } else if (mca_p->transport == SDP_TRANSPORT_CES10) { /* Port format is /. Make sure choose * params were not specified. */ if ((num[0] != SDP_CHOOSE_PARAM) && (num[1] != SDP_CHOOSE_PARAM)) { mca_p->vpi = num[0]; mca_p->vci = num[1]; mca_p->port_format = SDP_PORT_VPI_VCI; valid_param = TRUE; } } else if ((mca_p->transport == SDP_TRANSPORT_AAL2_ITU) || (mca_p->transport == SDP_TRANSPORT_AAL2_ATMF) || (mca_p->transport == SDP_TRANSPORT_AAL2_CUSTOM)) { /* Port format is either / or $/$. If one * param is '$' the other must be also. The choose params * are allowed by default and don't need to be allowed * through the appl config. */ if (((num[0] != SDP_CHOOSE_PARAM) && (num[1] != SDP_CHOOSE_PARAM)) || ((num[0] == SDP_CHOOSE_PARAM) && (num[1] == SDP_CHOOSE_PARAM))) { mca_p->vcci = num[0]; mca_p->cid = num[1]; mca_p->port_format = SDP_PORT_VCCI_CID; valid_param = TRUE; } } break; case 3: if (mca_p->transport == SDP_TRANSPORT_AAL1AVP) { /* Port format is //. Make sure choose * params were not specified. */ if ((num[0] != SDP_CHOOSE_PARAM) && (num[1] != SDP_CHOOSE_PARAM) && (num[2] != SDP_CHOOSE_PARAM)) { mca_p->port = num[0]; mca_p->vpi = num[1]; mca_p->vci = num[2]; mca_p->port_format = SDP_PORT_NUM_VPI_VCI; valid_param = TRUE; } } break; case 4: if ((mca_p->transport == SDP_TRANSPORT_AAL2_ITU) || (mca_p->transport == SDP_TRANSPORT_AAL2_ATMF) || (mca_p->transport == SDP_TRANSPORT_AAL2_CUSTOM)) { /* Port format is ///. Make sure choose * params were not specified. */ if ((num[0] != SDP_CHOOSE_PARAM) && (num[1] != SDP_CHOOSE_PARAM) && (num[2] != SDP_CHOOSE_PARAM) && (num[3] != SDP_CHOOSE_PARAM)) { mca_p->port = num[0]; mca_p->vpi = num[1]; mca_p->vci = num[2]; mca_p->cid = num[3]; mca_p->port_format = SDP_PORT_NUM_VPI_VCI_CID; valid_param = TRUE; } } break; } if (valid_param == FALSE) { sdp_parse_error(sdp_p, "%s Invalid port format (%s) specified for transport " "protocol (%s), parse failed.", sdp_p->debug_str, port, sdp_get_transport_name(mca_p->transport)); sdp_p->conf_p->num_invalid_param++; SDP_FREE(mca_p); return (SDP_INVALID_PARAMETER); } if ((mca_p->transport == SDP_TRANSPORT_DTLSSCTP) || (mca_p->transport == SDP_TRANSPORT_UDPDTLSSCTP) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSSCTP)) { ptr = sdp_getnextstrtok(ptr, port, sizeof(port), " \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No sctp port specified in m= media line, " "parse failed.", sdp_p->debug_str); SDP_FREE(mca_p); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } port_ptr = port; if ((mca_p->transport == SDP_TRANSPORT_UDPDTLSSCTP) || (mca_p->transport == SDP_TRANSPORT_TCPDTLSSCTP)) { if (cpr_strncasecmp(port_ptr, "webrtc-datachannel", sizeof("webrtc-datachannel")) != 0) { sdp_parse_error(sdp_p, "%s No webrtc-datachannel token in m= media line, " "parse failed.", sdp_p->debug_str); SDP_FREE(mca_p); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } mca_p->sctp_fmt = SDP_SCTP_MEDIA_FMT_WEBRTC_DATACHANNEL; } else { sctp_port = sdp_getnextnumtok(port_ptr, (const char **)&port_ptr, "/ \t", &result); if (result != SDP_SUCCESS) { sdp_parse_error(sdp_p, "%s No sctp port specified in m= media line, " "parse failed.", sdp_p->debug_str); SDP_FREE(mca_p); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } mca_p->sctpport = sctp_port; } } else { /* Transport is a non-AAL2 type and not SCTP. Parse payloads normally. */ sdp_parse_payload_types(sdp_p, mca_p, ptr); } /* Media line params are valid. Add it into the SDP. */ sdp_p->mca_count++; if (sdp_p->mca_p == NULL) { sdp_p->mca_p = mca_p; } else { for (next_mca_p = sdp_p->mca_p; next_mca_p->next_p != NULL; next_mca_p = next_mca_p->next_p) { ; // Empty For } next_mca_p->next_p = mca_p; } if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Parsed media type %s, ", sdp_p->debug_str, sdp_get_media_name(mca_p->media)); switch (mca_p->port_format) { case SDP_PORT_NUM_ONLY: SDP_PRINT("Port num %d, ", mca_p->port); break; case SDP_PORT_NUM_COUNT: SDP_PRINT("Port num %d, count %d, ", mca_p->port, mca_p->num_ports); break; case SDP_PORT_VPI_VCI: SDP_PRINT("VPI/VCI %d/%u, ", mca_p->vpi, mca_p->vci); break; case SDP_PORT_VCCI: SDP_PRINT("VCCI %d, ", mca_p->vcci); break; case SDP_PORT_NUM_VPI_VCI: SDP_PRINT("Port %d, VPI/VCI %d/%u, ", mca_p->port, mca_p->vpi, mca_p->vci); break; case SDP_PORT_VCCI_CID: SDP_PRINT("VCCI %d, CID %d, ", mca_p->vcci, mca_p->cid); break; case SDP_PORT_NUM_VPI_VCI_CID: SDP_PRINT("Port %d, VPI/VCI %d/%u, CID %d, ", mca_p->port, mca_p->vpi, mca_p->vci, mca_p->cid); break; default: SDP_PRINT("Port format not valid, "); break; } if ((mca_p->transport >= SDP_TRANSPORT_AAL2_ITU) && (mca_p->transport <= SDP_TRANSPORT_AAL2_CUSTOM)) { for (i=0; i < mca_p->media_profiles_p->num_profiles; i++) { SDP_PRINT("Profile %s, Num payloads %u ", sdp_get_transport_name(mca_p->media_profiles_p->profile[i]), (unsigned)mca_p->media_profiles_p->num_payloads[i]); } } else { SDP_PRINT("Transport %s, Num payloads %u", sdp_get_transport_name(mca_p->transport), (unsigned)mca_p->num_payloads); } } return (SDP_SUCCESS); } sdp_result_e sdp_build_media (sdp_t *sdp_p, uint16_t level, flex_string *fs) { int i, j; sdp_mca_t *mca_p; tinybool invalid_params=FALSE; sdp_media_profiles_t *profile_p; /* Find the right media line */ mca_p = sdp_find_media_level(sdp_p, level); if (mca_p == NULL) { return (SDP_FAILURE); } /* Validate params for this media line */ if ((mca_p->media >= SDP_MAX_MEDIA_TYPES) || (mca_p->port_format >= SDP_MAX_PORT_FORMAT_TYPES) || (mca_p->transport >= SDP_MAX_TRANSPORT_TYPES)) { invalid_params = TRUE; } if (invalid_params == TRUE) { SDPLogError(logTag, "%s Invalid params for m= media line, " "build failed.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } /* Build the media type */ flex_string_sprintf(fs, "m=%s ", sdp_get_media_name(mca_p->media)); /* Build the port based on the specified port format */ if (mca_p->port_format == SDP_PORT_NUM_ONLY) { if (mca_p->port == SDP_CHOOSE_PARAM) { flex_string_sprintf(fs, "$ "); } else { flex_string_sprintf(fs, "%u ", (unsigned)mca_p->port); } } else if (mca_p->port_format == SDP_PORT_NUM_COUNT) { flex_string_sprintf(fs, "%u/%u ", (unsigned)mca_p->port, (unsigned)mca_p->num_ports); } else if (mca_p->port_format == SDP_PORT_VPI_VCI) { flex_string_sprintf(fs, "%u/%u ", (unsigned)mca_p->vpi, (unsigned)mca_p->vci); } else if (mca_p->port_format == SDP_PORT_VCCI) { flex_string_sprintf(fs, "%u ", (unsigned)mca_p->vcci); } else if (mca_p->port_format == SDP_PORT_NUM_VPI_VCI) { flex_string_sprintf(fs, "%u/%u/%u ", (unsigned)mca_p->port, (unsigned)mca_p->vpi, (unsigned)mca_p->vci); } else if (mca_p->port_format == SDP_PORT_VCCI_CID) { if ((mca_p->vcci == SDP_CHOOSE_PARAM) && (mca_p->cid == SDP_CHOOSE_PARAM)) { flex_string_sprintf(fs, "$/$ "); } else if ((mca_p->vcci == SDP_CHOOSE_PARAM) || (mca_p->cid == SDP_CHOOSE_PARAM)) { /* If one is set but not the other, this is an error. */ SDPLogError(logTag, "%s Invalid params for m= port parameter, " "build failed.", sdp_p->debug_str); sdp_p->conf_p->num_invalid_param++; return (SDP_INVALID_PARAMETER); } else { flex_string_sprintf(fs, "%u/%u ", (unsigned)mca_p->vcci, (unsigned)mca_p->cid); } } else if (mca_p->port_format == SDP_PORT_NUM_VPI_VCI_CID) { flex_string_sprintf(fs, "%u/%u/%u/%u ", (unsigned)mca_p->port, (unsigned)mca_p->vpi, (unsigned)mca_p->vci, (unsigned)mca_p->cid); } /* If the media line has AAL2 profiles, build them differently. */ if ((mca_p->transport == SDP_TRANSPORT_AAL2_ITU) || (mca_p->transport == SDP_TRANSPORT_AAL2_ATMF) || (mca_p->transport == SDP_TRANSPORT_AAL2_CUSTOM)) { profile_p = mca_p->media_profiles_p; for (i=0; i < profile_p->num_profiles; i++) { flex_string_sprintf(fs, "%s", sdp_get_transport_name(profile_p->profile[i])); for (j=0; j < profile_p->num_payloads[i]; j++) { flex_string_sprintf(fs, " %u", (unsigned)profile_p->payload_type[i][j]); } flex_string_sprintf(fs, " "); } flex_string_sprintf(fs, "\n"); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built m= media line", sdp_p->debug_str); } return (SDP_SUCCESS); } /* Build the transport name */ flex_string_sprintf(fs, "%s", sdp_get_transport_name(mca_p->transport)); if(mca_p->transport != SDP_TRANSPORT_DTLSSCTP) { /* Build the format lists */ for (i=0; i < mca_p->num_payloads; i++) { if (mca_p->payload_indicator[i] == SDP_PAYLOAD_ENUM) { flex_string_sprintf(fs, " %s", sdp_get_payload_name((sdp_payload_e)mca_p->payload_type[i])); } else { flex_string_sprintf(fs, " %u", (unsigned)mca_p->payload_type[i]); } } } else { /* Add port to SDP if transport is DTLS/SCTP */ flex_string_sprintf(fs, " %u", (unsigned)mca_p->sctpport); } flex_string_sprintf(fs, "\r\n"); if (sdp_p->debug_flag[SDP_DEBUG_TRACE]) { SDP_PRINT("%s Built m= media line", sdp_p->debug_str); } return (SDP_SUCCESS); } /* Function: sdp_parse_payload_types * Description: Parse a list of payload types. The list may be part of * a media line or part of a capability line. * Parameters: sdp_ptr The SDP handle returned by sdp_init_description. * mca_p The mca structure the payload types should be * added to. * ptr The pointer to the list of payloads. * Returns: Nothing. */ void sdp_parse_payload_types (sdp_t *sdp_p, sdp_mca_t *mca_p, const char *ptr) { uint16_t i; uint16_t num_payloads; sdp_result_e result; tinybool valid_payload; char tmp[SDP_MAX_STRING_LEN]; char *tmp2; for (num_payloads = 0; (num_payloads < SDP_MAX_PAYLOAD_TYPES); ) { ptr = sdp_getnextstrtok(ptr, tmp, sizeof(tmp), " \t", &result); if (result != SDP_SUCCESS) { /* If there are no more payload types, we're finished */ break; } mca_p->payload_type[num_payloads] = (uint16_t)sdp_getnextnumtok(tmp, (const char **)&tmp2, " \t", &result); if (result == SDP_SUCCESS) { if ((mca_p->media == SDP_MEDIA_IMAGE) && (mca_p->transport == SDP_TRANSPORT_UDPTL)) { sdp_parse_error(sdp_p, "%s Warning: Numeric payload type not " "valid for media %s with transport %s.", sdp_p->debug_str, sdp_get_media_name(mca_p->media), sdp_get_transport_name(mca_p->transport)); } else { mca_p->payload_indicator[num_payloads] = SDP_PAYLOAD_NUMERIC; mca_p->num_payloads++; num_payloads++; } continue; } valid_payload = FALSE; for (i=0; i < SDP_MAX_STRING_PAYLOAD_TYPES; i++) { if (cpr_strncasecmp(tmp, sdp_payload[i].name, sdp_payload[i].strlen) == 0) { valid_payload = TRUE; break; } } if (valid_payload == TRUE) { /* We recognized the payload type. Make sure it * is valid for this media line. */ valid_payload = FALSE; if ((mca_p->media == SDP_MEDIA_IMAGE) && (mca_p->transport == SDP_TRANSPORT_UDPTL) && (i == SDP_PAYLOAD_T38)) { valid_payload = TRUE; } else if ((mca_p->media == SDP_MEDIA_APPLICATION) && (mca_p->transport == SDP_TRANSPORT_UDP) && (i == SDP_PAYLOAD_XTMR)) { valid_payload = TRUE; } else if ((mca_p->media == SDP_MEDIA_APPLICATION) && (mca_p->transport == SDP_TRANSPORT_TCP) && (i == SDP_PAYLOAD_T120)) { valid_payload = TRUE; } if (valid_payload == TRUE) { mca_p->payload_indicator[num_payloads] = SDP_PAYLOAD_ENUM; mca_p->payload_type[num_payloads] = i; mca_p->num_payloads++; num_payloads++; } else { sdp_parse_error(sdp_p, "%s Warning: Payload type %s not valid for " "media %s with transport %s.", sdp_p->debug_str, sdp_get_payload_name((sdp_payload_e)i), sdp_get_media_name(mca_p->media), sdp_get_transport_name(mca_p->transport)); } } else { /* Payload type wasn't recognized. */ sdp_parse_error(sdp_p, "%s Warning: Payload type " "unsupported (%s).", sdp_p->debug_str, tmp); } } if (mca_p->num_payloads == 0) { sdp_parse_error(sdp_p, "%s Warning: No payload types specified.", sdp_p->debug_str); } }