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path: root/dom/media/webrtc/sdp/SipccSdpMediaSection.cpp
blob: 4304ca541eac342d74201afae498bcb729ab4841 (plain)
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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=2 et sw=2 tw=80: */
/* 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/SipccSdpMediaSection.h"

#include <ostream>
#include "sdp/SdpParser.h"

extern "C" {
#include "sipcc_sdp.h"
}

#ifdef CRLF
#  undef CRLF
#endif
#define CRLF "\r\n"

namespace mozilla {

SipccSdpMediaSection::SipccSdpMediaSection(
    const SipccSdpMediaSection& aOrig,
    const SipccSdpAttributeList* sessionLevel)
    : SdpMediaSection(aOrig),
      mMediaType(aOrig.mMediaType),
      mPort(aOrig.mPort),
      mPortCount(aOrig.mPortCount),
      mProtocol(aOrig.mProtocol),
      mFormats(aOrig.mFormats),
      mConnection(new SdpConnection(*aOrig.mConnection)),
      mBandwidths(aOrig.mBandwidths),
      mAttributeList(aOrig.mAttributeList, sessionLevel) {}

unsigned int SipccSdpMediaSection::GetPort() const { return mPort; }

void SipccSdpMediaSection::SetPort(unsigned int port) { mPort = port; }

unsigned int SipccSdpMediaSection::GetPortCount() const { return mPortCount; }

SdpMediaSection::Protocol SipccSdpMediaSection::GetProtocol() const {
  return mProtocol;
}

const SdpConnection& SipccSdpMediaSection::GetConnection() const {
  return *mConnection;
}

SdpConnection& SipccSdpMediaSection::GetConnection() { return *mConnection; }

uint32_t SipccSdpMediaSection::GetBandwidth(const std::string& type) const {
  auto found = mBandwidths.find(type);
  if (found == mBandwidths.end()) {
    return 0;
  }
  return found->second;
}

const std::vector<std::string>& SipccSdpMediaSection::GetFormats() const {
  return mFormats;
}

const SdpAttributeList& SipccSdpMediaSection::GetAttributeList() const {
  return mAttributeList;
}

SdpAttributeList& SipccSdpMediaSection::GetAttributeList() {
  return mAttributeList;
}

SdpDirectionAttribute SipccSdpMediaSection::GetDirectionAttribute() const {
  return SdpDirectionAttribute(mAttributeList.GetDirection());
}

bool SipccSdpMediaSection::Load(sdp_t* sdp, uint16_t level,
                                InternalResults& results) {
  switch (sdp_get_media_type(sdp, level)) {
    case SDP_MEDIA_AUDIO:
      mMediaType = kAudio;
      break;
    case SDP_MEDIA_VIDEO:
      mMediaType = kVideo;
      break;
    case SDP_MEDIA_APPLICATION:
      mMediaType = kApplication;
      break;
    case SDP_MEDIA_TEXT:
      mMediaType = kText;
      break;

    default:
      results.AddParseError(sdp_get_media_line_number(sdp, level),
                            "Unsupported media section type");
      return false;
  }

  mPort = sdp_get_media_portnum(sdp, level);
  int32_t pc = sdp_get_media_portcount(sdp, level);
  if (pc == SDP_INVALID_VALUE) {
    // SDP_INVALID_VALUE (ie; -2) is used when there is no port count. :(
    mPortCount = 0;
  } else if (pc > static_cast<int32_t>(UINT16_MAX) || pc < 0) {
    results.AddParseError(sdp_get_media_line_number(sdp, level),
                          "Invalid port count");
    return false;
  } else {
    mPortCount = pc;
  }

  if (!LoadProtocol(sdp, level, results)) {
    return false;
  }

  if (!LoadFormats(sdp, level, results)) {
    return false;
  }

  if (!mAttributeList.Load(sdp, level, results)) {
    return false;
  }

  if (!ValidateSimulcast(sdp, level, results)) {
    return false;
  }

  if (!mBandwidths.Load(sdp, level, results)) {
    return false;
  }

  return LoadConnection(sdp, level, results);
}

bool SipccSdpMediaSection::LoadProtocol(sdp_t* sdp, uint16_t level,
                                        InternalResults& results) {
  switch (sdp_get_media_transport(sdp, level)) {
    case SDP_TRANSPORT_RTPAVP:
      mProtocol = kRtpAvp;
      break;
    case SDP_TRANSPORT_RTPSAVP:
      mProtocol = kRtpSavp;
      break;
    case SDP_TRANSPORT_RTPAVPF:
      mProtocol = kRtpAvpf;
      break;
    case SDP_TRANSPORT_RTPSAVPF:
      mProtocol = kRtpSavpf;
      break;
    case SDP_TRANSPORT_UDPTLSRTPSAVP:
      mProtocol = kUdpTlsRtpSavp;
      break;
    case SDP_TRANSPORT_UDPTLSRTPSAVPF:
      mProtocol = kUdpTlsRtpSavpf;
      break;
    case SDP_TRANSPORT_TCPDTLSRTPSAVP:
      mProtocol = kTcpDtlsRtpSavp;
      break;
    case SDP_TRANSPORT_TCPDTLSRTPSAVPF:
      mProtocol = kTcpDtlsRtpSavpf;
      break;
    case SDP_TRANSPORT_DTLSSCTP:
      mProtocol = kDtlsSctp;
      break;
    case SDP_TRANSPORT_UDPDTLSSCTP:
      mProtocol = kUdpDtlsSctp;
      break;
    case SDP_TRANSPORT_TCPDTLSSCTP:
      mProtocol = kTcpDtlsSctp;
      break;

    default:
      results.AddParseError(sdp_get_media_line_number(sdp, level),
                            "Unsupported media transport type");
      return false;
  }
  return true;
}

bool SipccSdpMediaSection::LoadFormats(sdp_t* sdp, uint16_t level,
                                       InternalResults& results) {
  sdp_media_e mtype = sdp_get_media_type(sdp, level);

  if (mtype == SDP_MEDIA_APPLICATION) {
    sdp_transport_e ttype = sdp_get_media_transport(sdp, level);
    if ((ttype == SDP_TRANSPORT_UDPDTLSSCTP) ||
        (ttype == SDP_TRANSPORT_TCPDTLSSCTP)) {
      if (sdp_get_media_sctp_fmt(sdp, level) ==
          SDP_SCTP_MEDIA_FMT_WEBRTC_DATACHANNEL) {
        mFormats.push_back("webrtc-datachannel");
      }
    } else {
      uint32_t ptype = sdp_get_media_sctp_port(sdp, level);
      std::ostringstream osPayloadType;
      osPayloadType << ptype;
      mFormats.push_back(osPayloadType.str());
    }
  } else if (mtype == SDP_MEDIA_AUDIO || mtype == SDP_MEDIA_VIDEO) {
    uint16_t count = sdp_get_media_num_payload_types(sdp, level);
    for (uint16_t i = 0; i < count; ++i) {
      sdp_payload_ind_e indicator;  // we ignore this, which is fine
      uint32_t ptype =
          sdp_get_media_payload_type(sdp, level, i + 1, &indicator);

      if (GET_DYN_PAYLOAD_TYPE_VALUE(ptype) > UINT8_MAX) {
        results.AddParseError(sdp_get_media_line_number(sdp, level),
                              "Format is too large");
        return false;
      }

      std::ostringstream osPayloadType;
      // sipcc stores payload types in a funny way. When sipcc and the SDP it
      // parsed differ on what payload type number should be used for a given
      // codec, sipcc's value goes in the lower byte, and the SDP's value in
      // the upper byte. When they do not differ, only the lower byte is used.
      // We want what was in the SDP, verbatim.
      osPayloadType << GET_DYN_PAYLOAD_TYPE_VALUE(ptype);
      mFormats.push_back(osPayloadType.str());
    }
  }

  return true;
}

bool SipccSdpMediaSection::ValidateSimulcast(sdp_t* sdp, uint16_t level,
                                             InternalResults& results) const {
  if (!GetAttributeList().HasAttribute(SdpAttribute::kSimulcastAttribute)) {
    return true;
  }

  const SdpSimulcastAttribute& simulcast(GetAttributeList().GetSimulcast());
  if (!ValidateSimulcastVersions(sdp, level, simulcast.sendVersions, sdp::kSend,
                                 results)) {
    return false;
  }
  if (!ValidateSimulcastVersions(sdp, level, simulcast.recvVersions, sdp::kRecv,
                                 results)) {
    return false;
  }
  return true;
}

bool SipccSdpMediaSection::ValidateSimulcastVersions(
    sdp_t* sdp, uint16_t level, const SdpSimulcastAttribute::Versions& versions,
    sdp::Direction direction, InternalResults& results) const {
  for (const SdpSimulcastAttribute::Version& version : versions) {
    for (const SdpSimulcastAttribute::Encoding& encoding : version.choices) {
      const SdpRidAttributeList::Rid* ridAttr = FindRid(encoding.rid);
      if (!ridAttr || (ridAttr->direction != direction)) {
        std::ostringstream os;
        os << "No rid attribute for \'" << encoding.rid << "\'";
        results.AddParseError(sdp_get_media_line_number(sdp, level), os.str());
        results.AddParseError(sdp_get_media_line_number(sdp, level), os.str());
        return false;
      }
    }
  }
  return true;
}

bool SipccSdpMediaSection::LoadConnection(sdp_t* sdp, uint16_t level,
                                          InternalResults& results) {
  if (!sdp_connection_valid(sdp, level)) {
    level = SDP_SESSION_LEVEL;
    if (!sdp_connection_valid(sdp, level)) {
      results.AddParseError(sdp_get_media_line_number(sdp, level),
                            "Missing c= line");
      return false;
    }
  }

  sdp_nettype_e type = sdp_get_conn_nettype(sdp, level);
  if (type != SDP_NT_INTERNET) {
    results.AddParseError(sdp_get_media_line_number(sdp, level),
                          "Unsupported network type");
    return false;
  }

  sdp::AddrType addrType;
  switch (sdp_get_conn_addrtype(sdp, level)) {
    case SDP_AT_IP4:
      addrType = sdp::kIPv4;
      break;
    case SDP_AT_IP6:
      addrType = sdp::kIPv6;
      break;
    default:
      results.AddParseError(sdp_get_media_line_number(sdp, level),
                            "Unsupported address type");
      return false;
  }

  std::string address = sdp_get_conn_address(sdp, level);
  int16_t ttl = static_cast<uint16_t>(sdp_get_mcast_ttl(sdp, level));
  if (ttl < 0) {
    ttl = 0;
  }
  int32_t numAddr =
      static_cast<uint32_t>(sdp_get_mcast_num_of_addresses(sdp, level));
  if (numAddr < 0) {
    numAddr = 0;
  }
  mConnection = MakeUnique<SdpConnection>(addrType, address, ttl, numAddr);
  return true;
}

void SipccSdpMediaSection::AddCodec(const std::string& pt,
                                    const std::string& name, uint32_t clockrate,
                                    uint16_t channels) {
  mFormats.push_back(pt);

  SdpRtpmapAttributeList* rtpmap = new SdpRtpmapAttributeList();
  if (mAttributeList.HasAttribute(SdpAttribute::kRtpmapAttribute)) {
    const SdpRtpmapAttributeList& old = mAttributeList.GetRtpmap();
    for (auto it = old.mRtpmaps.begin(); it != old.mRtpmaps.end(); ++it) {
      rtpmap->mRtpmaps.push_back(*it);
    }
  }
  SdpRtpmapAttributeList::CodecType codec = SdpRtpmapAttributeList::kOtherCodec;
  if (name == "opus") {
    codec = SdpRtpmapAttributeList::kOpus;
  } else if (name == "G722") {
    codec = SdpRtpmapAttributeList::kG722;
  } else if (name == "PCMU") {
    codec = SdpRtpmapAttributeList::kPCMU;
  } else if (name == "PCMA") {
    codec = SdpRtpmapAttributeList::kPCMA;
  } else if (name == "VP8") {
    codec = SdpRtpmapAttributeList::kVP8;
  } else if (name == "VP9") {
    codec = SdpRtpmapAttributeList::kVP9;
  } else if (name == "H264") {
    codec = SdpRtpmapAttributeList::kH264;
  }

  rtpmap->PushEntry(pt, codec, name, clockrate, channels);
  mAttributeList.SetAttribute(rtpmap);
}

void SipccSdpMediaSection::ClearCodecs() {
  mFormats.clear();
  mAttributeList.RemoveAttribute(SdpAttribute::kRtpmapAttribute);
  mAttributeList.RemoveAttribute(SdpAttribute::kFmtpAttribute);
  mAttributeList.RemoveAttribute(SdpAttribute::kSctpmapAttribute);
  mAttributeList.RemoveAttribute(SdpAttribute::kRtcpFbAttribute);
}

void SipccSdpMediaSection::AddDataChannel(const std::string& name,
                                          uint16_t port, uint16_t streams,
                                          uint32_t message_size) {
  // Only one allowed, for now. This may change as the specs (and deployments)
  // evolve.
  mFormats.clear();
  if ((mProtocol == kUdpDtlsSctp) || (mProtocol == kTcpDtlsSctp)) {
    // new data channel format according to draft 21
    mFormats.push_back(name);
    mAttributeList.SetAttribute(
        new SdpNumberAttribute(SdpAttribute::kSctpPortAttribute, port));
    if (message_size) {
      mAttributeList.SetAttribute(new SdpNumberAttribute(
          SdpAttribute::kMaxMessageSizeAttribute, message_size));
    }
  } else {
    // old data channels format according to draft 05
    std::string port_str = std::to_string(port);
    mFormats.push_back(port_str);
    SdpSctpmapAttributeList* sctpmap = new SdpSctpmapAttributeList();
    sctpmap->PushEntry(port_str, name, streams);
    mAttributeList.SetAttribute(sctpmap);
    if (message_size) {
      // This is a workaround to allow detecting Firefox's w/o EOR support
      mAttributeList.SetAttribute(new SdpNumberAttribute(
          SdpAttribute::kMaxMessageSizeAttribute, message_size));
    }
  }
}

void SipccSdpMediaSection::Serialize(std::ostream& os) const {
  os << "m=" << mMediaType << " " << mPort;
  if (mPortCount) {
    os << "/" << mPortCount;
  }
  os << " " << mProtocol;
  for (auto i = mFormats.begin(); i != mFormats.end(); ++i) {
    os << " " << (*i);
  }
  os << CRLF;

  // We dont do i=

  if (mConnection) {
    os << *mConnection;
  }

  mBandwidths.Serialize(os);

  // We dont do k= because they're evil

  os << mAttributeList;
}

}  // namespace mozilla