#include "v2/Signaling.h" #include "third-party/json11.hpp" #include "rtc_base/checks.h" #include "rtc_base/logging.h" #include namespace tgcalls { namespace signaling { static std::string uint32ToString(uint32_t value) { std::ostringstream stringStream; stringStream << value; return stringStream.str(); } static uint32_t stringToUInt32(std::string const &string) { std::stringstream stringStream(string); uint32_t value = 0; stringStream >> value; return value; } json11::Json::object SsrcGroup_serialize(SsrcGroup const &ssrcGroup) { json11::Json::object object; json11::Json::array ssrcs; for (auto ssrc : ssrcGroup.ssrcs) { ssrcs.push_back(json11::Json(uint32ToString(ssrc))); } object.insert(std::make_pair("semantics", json11::Json(ssrcGroup.semantics))); object.insert(std::make_pair("ssrcs", json11::Json(std::move(ssrcs)))); return object; } absl::optional SsrcGroup_parse(json11::Json::object const &object) { SsrcGroup result; const auto semantics = object.find("semantics"); if (semantics == object.end() || !semantics->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: semantics must be a string"; return absl::nullopt; } result.semantics = semantics->second.string_value(); const auto ssrcs = object.find("ssrcs"); if (ssrcs == object.end() || !ssrcs->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: ssrcs must be an array"; return absl::nullopt; } for (const auto &ssrc : ssrcs->second.array_items()) { if (ssrc.is_string()) { uint32_t parsedSsrc = stringToUInt32(ssrc.string_value()); if (parsedSsrc == 0) { RTC_LOG(LS_ERROR) << "Signaling: parsedSsrc must not be 0"; return absl::nullopt; } result.ssrcs.push_back(parsedSsrc); } else if (ssrc.is_number()) { uint32_t parsedSsrc = (uint32_t)ssrc.number_value(); result.ssrcs.push_back(parsedSsrc); } else { RTC_LOG(LS_ERROR) << "Signaling: ssrcs item must be a string or a number"; return absl::nullopt; } } return result; } json11::Json::object FeedbackType_serialize(FeedbackType const &feedbackType) { json11::Json::object object; object.insert(std::make_pair("type", json11::Json(feedbackType.type))); object.insert(std::make_pair("subtype", json11::Json(feedbackType.subtype))); return object; } absl::optional FeedbackType_parse(json11::Json::object const &object) { FeedbackType result; const auto type = object.find("type"); if (type == object.end() || !type->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: type must be a string"; return absl::nullopt; } result.type = type->second.string_value(); const auto subtype = object.find("subtype"); if (subtype == object.end() || !subtype->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: subtype must be a string"; return absl::nullopt; } result.subtype = subtype->second.string_value(); return result; } json11::Json::object RtpExtension_serialize(webrtc::RtpExtension const &rtpExtension) { json11::Json::object object; object.insert(std::make_pair("id", json11::Json(rtpExtension.id))); object.insert(std::make_pair("uri", json11::Json(rtpExtension.uri))); return object; } absl::optional RtpExtension_parse(json11::Json::object const &object) { const auto id = object.find("id"); if (id == object.end() || !id->second.is_number()) { RTC_LOG(LS_ERROR) << "Signaling: id must be a number"; return absl::nullopt; } const auto uri = object.find("uri"); if (uri == object.end() || !uri->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: uri must be a string"; return absl::nullopt; } return webrtc::RtpExtension(uri->second.string_value(), id->second.int_value()); } json11::Json::object PayloadType_serialize(PayloadType const &payloadType) { json11::Json::object object; object.insert(std::make_pair("id", json11::Json((int)payloadType.id))); object.insert(std::make_pair("name", json11::Json(payloadType.name))); object.insert(std::make_pair("clockrate", json11::Json((int)payloadType.clockrate))); object.insert(std::make_pair("channels", json11::Json((int)payloadType.channels))); json11::Json::array feedbackTypes; for (const auto &feedbackType : payloadType.feedbackTypes) { feedbackTypes.push_back(FeedbackType_serialize(feedbackType)); } object.insert(std::make_pair("feedbackTypes", json11::Json(std::move(feedbackTypes)))); json11::Json::object parameters; for (auto it : payloadType.parameters) { parameters.insert(std::make_pair(it.first, json11::Json(it.second))); } object.insert(std::make_pair("parameters", json11::Json(std::move(parameters)))); return object; } absl::optional PayloadType_parse(json11::Json::object const &object) { PayloadType result; const auto id = object.find("id"); if (id == object.end() || !id->second.is_number()) { RTC_LOG(LS_ERROR) << "Signaling: id must be a number"; return absl::nullopt; } result.id = id->second.int_value(); const auto name = object.find("name"); if (name == object.end() || !name->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: name must be a string"; return absl::nullopt; } result.name = name->second.string_value(); const auto clockrate = object.find("clockrate"); if (clockrate == object.end() || !clockrate->second.is_number()) { RTC_LOG(LS_ERROR) << "Signaling: clockrate must be a number"; return absl::nullopt; } result.clockrate = clockrate->second.int_value(); const auto channels = object.find("channels"); if (channels != object.end()) { if (!channels->second.is_number()) { RTC_LOG(LS_ERROR) << "Signaling: channels must be a number"; return absl::nullopt; } result.channels = channels->second.int_value(); } const auto feedbackTypes = object.find("feedbackTypes"); if (feedbackTypes != object.end()) { if (!feedbackTypes->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: feedbackTypes must be an array"; return absl::nullopt; } for (const auto &feedbackType : feedbackTypes->second.array_items()) { if (!feedbackType.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: feedbackTypes items must be objects"; return absl::nullopt; } if (const auto parsedFeedbackType = FeedbackType_parse(feedbackType.object_items())) { result.feedbackTypes.push_back(parsedFeedbackType.value()); } else { RTC_LOG(LS_ERROR) << "Signaling: could not parse FeedbackType"; return absl::nullopt; } } } const auto parameters = object.find("parameters"); if (parameters != object.end()) { if (!parameters->second.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: parameters must be an object"; return absl::nullopt; } for (const auto &item : parameters->second.object_items()) { if (!item.second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: parameters items must be strings"; return absl::nullopt; } result.parameters.push_back(std::make_pair(item.first, item.second.string_value())); } } return result; } json11::Json::object MediaContent_serialize(MediaContent const &mediaContent) { json11::Json::object object; std::string mappedType; switch (mediaContent.type) { case MediaContent::Type::Audio: { mappedType = "audio"; break; } case MediaContent::Type::Video: { mappedType = "video"; break; } default: { RTC_FATAL() << "Unknown media type"; break; } } object.insert(std::make_pair("type", mappedType)); object.insert(std::make_pair("ssrc", json11::Json(uint32ToString(mediaContent.ssrc)))); if (mediaContent.ssrcGroups.size() != 0) { json11::Json::array ssrcGroups; for (const auto &group : mediaContent.ssrcGroups) { ssrcGroups.push_back(SsrcGroup_serialize(group)); } object.insert(std::make_pair("ssrcGroups", json11::Json(std::move(ssrcGroups)))); } if (mediaContent.payloadTypes.size() != 0) { json11::Json::array payloadTypes; for (const auto &payloadType : mediaContent.payloadTypes) { payloadTypes.push_back(PayloadType_serialize(payloadType)); } object.insert(std::make_pair("payloadTypes", json11::Json(std::move(payloadTypes)))); } json11::Json::array rtpExtensions; for (const auto &rtpExtension : mediaContent.rtpExtensions) { rtpExtensions.push_back(RtpExtension_serialize(rtpExtension)); } object.insert(std::make_pair("rtpExtensions", json11::Json(std::move(rtpExtensions)))); return object; } absl::optional MediaContent_parse(json11::Json::object const &object) { MediaContent result; const auto type = object.find("type"); if (type == object.end() || !type->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: type must be a string"; return absl::nullopt; } if (type->second.string_value() == "audio") { result.type = MediaContent::Type::Audio; } else if (type->second.string_value() == "video") { result.type = MediaContent::Type::Video; } else { RTC_LOG(LS_ERROR) << "Signaling: type must be one of [\"audio\", \"video\"]"; return absl::nullopt; } const auto ssrc = object.find("ssrc"); if (ssrc == object.end()) { RTC_LOG(LS_ERROR) << "Signaling: ssrc must be present"; return absl::nullopt; } if (ssrc->second.is_string()) { result.ssrc = stringToUInt32(ssrc->second.string_value()); } else if (ssrc->second.is_number()) { result.ssrc = (uint32_t)ssrc->second.number_value(); } else { RTC_LOG(LS_ERROR) << "Signaling: ssrc must be a string or a number"; return absl::nullopt; } const auto ssrcGroups = object.find("ssrcGroups"); if (ssrcGroups != object.end()) { if (!ssrcGroups->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: ssrcGroups must be an array"; return absl::nullopt; } for (const auto &ssrcGroup : ssrcGroups->second.array_items()) { if (!ssrcGroup.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: ssrcsGroups items must be objects"; return absl::nullopt; } if (const auto parsedSsrcGroup = SsrcGroup_parse(ssrcGroup.object_items())) { result.ssrcGroups.push_back(parsedSsrcGroup.value()); } else { RTC_LOG(LS_ERROR) << "Signaling: could not parse SsrcGroup"; return absl::nullopt; } } } const auto payloadTypes = object.find("payloadTypes"); if (payloadTypes != object.end()) { if (!payloadTypes->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: payloadTypes must be an array"; return absl::nullopt; } for (const auto &payloadType : payloadTypes->second.array_items()) { if (!payloadType.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: payloadTypes items must be objects"; return absl::nullopt; } if (const auto parsedPayloadType = PayloadType_parse(payloadType.object_items())) { result.payloadTypes.push_back(parsedPayloadType.value()); } else { RTC_LOG(LS_ERROR) << "Signaling: could not parse PayloadType"; return absl::nullopt; } } } const auto rtpExtensions = object.find("rtpExtensions"); if (rtpExtensions != object.end()) { if (!rtpExtensions->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: rtpExtensions must be an array"; return absl::nullopt; } for (const auto &rtpExtension : rtpExtensions->second.array_items()) { if (!rtpExtension.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: rtpExtensions items must be objects"; return absl::nullopt; } if (const auto parsedRtpExtension = RtpExtension_parse(rtpExtension.object_items())) { result.rtpExtensions.push_back(parsedRtpExtension.value()); } else { RTC_LOG(LS_ERROR) << "Signaling: could not parse RtpExtension"; return absl::nullopt; } } } return result; } std::vector InitialSetupMessage_serialize(const InitialSetupMessage * const message) { json11::Json::object object; object.insert(std::make_pair("@type", json11::Json("InitialSetup"))); object.insert(std::make_pair("ufrag", json11::Json(message->ufrag))); object.insert(std::make_pair("pwd", json11::Json(message->pwd))); object.insert(std::make_pair("renomination", json11::Json(message->supportsRenomination))); json11::Json::array jsonFingerprints; for (const auto &fingerprint : message->fingerprints) { json11::Json::object jsonFingerprint; jsonFingerprint.insert(std::make_pair("hash", json11::Json(fingerprint.hash))); jsonFingerprint.insert(std::make_pair("setup", json11::Json(fingerprint.setup))); jsonFingerprint.insert(std::make_pair("fingerprint", json11::Json(fingerprint.fingerprint))); jsonFingerprints.emplace_back(std::move(jsonFingerprint)); } object.insert(std::make_pair("fingerprints", json11::Json(std::move(jsonFingerprints)))); auto json = json11::Json(std::move(object)); std::string result = json.dump(); return std::vector(result.begin(), result.end()); } absl::optional InitialSetupMessage_parse(json11::Json::object const &object) { const auto ufrag = object.find("ufrag"); if (ufrag == object.end() || !ufrag->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: ufrag must be a string"; return absl::nullopt; } const auto pwd = object.find("pwd"); if (pwd == object.end() || !pwd->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: pwd must be a string"; return absl::nullopt; } const auto renomination = object.find("renomination"); bool renominationValue = false; if (renomination != object.end() && renomination->second.is_bool()) { renominationValue = renomination->second.bool_value(); } const auto fingerprints = object.find("fingerprints"); if (fingerprints == object.end() || !fingerprints->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: fingerprints must be an array"; return absl::nullopt; } std::vector parsedFingerprints; for (const auto &fingerprintObject : fingerprints->second.array_items()) { if (!fingerprintObject.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: fingerprints items must be objects"; return absl::nullopt; } const auto hash = fingerprintObject.object_items().find("hash"); if (hash == fingerprintObject.object_items().end() || !hash->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: hash must be a string"; return absl::nullopt; } const auto setup = fingerprintObject.object_items().find("setup"); if (setup == fingerprintObject.object_items().end() || !setup->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: setup must be a string"; return absl::nullopt; } const auto fingerprint = fingerprintObject.object_items().find("fingerprint"); if (fingerprint == fingerprintObject.object_items().end() || !fingerprint->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: fingerprint must be a string"; return absl::nullopt; } DtlsFingerprint parsedFingerprint; parsedFingerprint.hash = hash->second.string_value(); parsedFingerprint.setup = setup->second.string_value(); parsedFingerprint.fingerprint = fingerprint->second.string_value(); parsedFingerprints.push_back(std::move(parsedFingerprint)); } InitialSetupMessage message; message.ufrag = ufrag->second.string_value(); message.pwd = pwd->second.string_value(); message.supportsRenomination = renominationValue; message.fingerprints = std::move(parsedFingerprints); return message; } std::vector NegotiateChannelsMessage_serialize(const NegotiateChannelsMessage * const message) { json11::Json::object object; object.insert(std::make_pair("@type", json11::Json("NegotiateChannels"))); object.insert(std::make_pair("exchangeId", json11::Json(uint32ToString(message->exchangeId)))); json11::Json::array contents; for (const auto &content : message->contents) { contents.push_back(json11::Json(MediaContent_serialize(content))); } object.insert(std::make_pair("contents", std::move(contents))); auto json = json11::Json(std::move(object)); std::string result = json.dump(); return std::vector(result.begin(), result.end()); } absl::optional NegotiateChannelsMessage_parse(json11::Json::object const &object) { NegotiateChannelsMessage message; const auto exchangeId = object.find("exchangeId"); if (exchangeId == object.end()) { RTC_LOG(LS_ERROR) << "Signaling: exchangeId must be present"; return absl::nullopt; } else if (exchangeId->second.is_string()) { message.exchangeId = stringToUInt32(exchangeId->second.string_value()); } else if (exchangeId->second.is_number()) { message.exchangeId = (uint32_t)exchangeId->second.number_value(); } else { RTC_LOG(LS_ERROR) << "Signaling: exchangeId must be a string or a number"; return absl::nullopt; } const auto contents = object.find("contents"); if (contents != object.end()) { if (!contents->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: contents must be an array"; return absl::nullopt; } for (const auto &content : contents->second.array_items()) { if (!content.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: contents items must be objects"; return absl::nullopt; } if (auto parsedContent = MediaContent_parse(content.object_items())) { message.contents.push_back(std::move(parsedContent.value())); } else { RTC_LOG(LS_ERROR) << "Signaling: could not parse MediaContent"; return absl::nullopt; } } } return message; } json11::Json::object ConnectionAddress_serialize(ConnectionAddress const &connectionAddress) { json11::Json::object object; object.insert(std::make_pair("ip", json11::Json(connectionAddress.ip))); object.insert(std::make_pair("port", json11::Json(connectionAddress.port))); return object; } absl::optional ConnectionAddress_parse(json11::Json::object const &object) { const auto ip = object.find("ip"); if (ip == object.end() || !ip->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: ip must be a string"; return absl::nullopt; } const auto port = object.find("port"); if (port == object.end() || !port->second.is_number()) { RTC_LOG(LS_ERROR) << "Signaling: port must be a number"; return absl::nullopt; } ConnectionAddress address; address.ip = ip->second.string_value(); address.port = port->second.int_value(); return address; } std::vector CandidatesMessage_serialize(const CandidatesMessage * const message) { json11::Json::array candidates; for (const auto &candidate : message->iceCandidates) { json11::Json::object candidateObject; candidateObject.insert(std::make_pair("sdpString", json11::Json(candidate.sdpString))); candidates.emplace_back(std::move(candidateObject)); } json11::Json::object object; object.insert(std::make_pair("@type", json11::Json("Candidates"))); object.insert(std::make_pair("candidates", json11::Json(std::move(candidates)))); auto json = json11::Json(std::move(object)); std::string result = json.dump(); return std::vector(result.begin(), result.end()); } absl::optional CandidatesMessage_parse(json11::Json::object const &object) { const auto candidates = object.find("candidates"); if (candidates == object.end() || !candidates->second.is_array()) { RTC_LOG(LS_ERROR) << "Signaling: candidates must be an array"; return absl::nullopt; } std::vector parsedCandidates; for (const auto &candidateObject : candidates->second.array_items()) { if (!candidateObject.is_object()) { RTC_LOG(LS_ERROR) << "Signaling: candidates items must be objects"; return absl::nullopt; } IceCandidate candidate; const auto sdpString = candidateObject.object_items().find("sdpString"); if (sdpString == candidateObject.object_items().end() || !sdpString->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: sdpString must be a string"; return absl::nullopt; } candidate.sdpString = sdpString->second.string_value(); parsedCandidates.push_back(std::move(candidate)); } CandidatesMessage message; message.iceCandidates = std::move(parsedCandidates); return message; } std::vector MediaStateMessage_serialize(const MediaStateMessage * const message) { json11::Json::object object; object.insert(std::make_pair("@type", json11::Json("MediaState"))); object.insert(std::make_pair("muted", json11::Json(message->isMuted))); object.insert(std::make_pair("lowBattery", json11::Json(message->isBatteryLow))); std::string videoStateValue; switch (message->videoState) { case MediaStateMessage::VideoState::Inactive: { videoStateValue = "inactive"; break; } case MediaStateMessage::VideoState::Suspended: { videoStateValue = "suspended"; break; } case MediaStateMessage::VideoState::Active: { videoStateValue = "active"; break; } default: { RTC_FATAL() << "Unknown videoState"; break; } } object.insert(std::make_pair("videoState", json11::Json(videoStateValue))); int videoRotationValue = 0; switch (message->videoRotation) { case MediaStateMessage::VideoRotation::Rotation0: { videoRotationValue = 0; break; } case MediaStateMessage::VideoRotation::Rotation90: { videoRotationValue = 90; break; } case MediaStateMessage::VideoRotation::Rotation180: { videoRotationValue = 180; break; } case MediaStateMessage::VideoRotation::Rotation270: { videoRotationValue = 270; break; } default: { RTC_FATAL() << "Unknown videoRotation"; break; } } object.insert(std::make_pair("videoRotation", json11::Json(videoRotationValue))); std::string screencastStateValue; switch (message->screencastState) { case MediaStateMessage::VideoState::Inactive: { screencastStateValue = "inactive"; break; } case MediaStateMessage::VideoState::Suspended: { screencastStateValue = "suspended"; break; } case MediaStateMessage::VideoState::Active: { screencastStateValue = "active"; break; } default: { RTC_FATAL() << "Unknown videoState"; break; } } object.insert(std::make_pair("screencastState", json11::Json(screencastStateValue))); auto json = json11::Json(std::move(object)); std::string result = json.dump(); return std::vector(result.begin(), result.end()); } absl::optional MediaStateMessage_parse(json11::Json::object const &object) { MediaStateMessage message; const auto muted = object.find("muted"); if (muted != object.end()) { if (!muted->second.is_bool()) { RTC_LOG(LS_ERROR) << "Signaling: muted must be a bool"; return absl::nullopt; } message.isMuted = muted->second.bool_value(); } const auto lowBattery = object.find("lowBattery"); if (lowBattery != object.end()) { if (!lowBattery->second.is_bool()) { RTC_LOG(LS_ERROR) << "Signaling: lowBattery must be a bool"; return absl::nullopt; } message.isBatteryLow = lowBattery->second.bool_value(); } const auto videoState = object.find("videoState"); if (videoState != object.end()) { if (!videoState->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: videoState must be a string"; return absl::nullopt; } if (videoState->second.string_value() == "inactive") { message.videoState = MediaStateMessage::VideoState::Inactive; } else if (videoState->second.string_value() == "suspended") { message.videoState = MediaStateMessage::VideoState::Suspended; } else if (videoState->second.string_value() == "active") { message.videoState = MediaStateMessage::VideoState::Active; } else { RTC_LOG(LS_ERROR) << "videoState must be one of [\"inactive\", \"suspended\", \"active\"]"; } } else { message.videoState = MediaStateMessage::VideoState::Inactive; } const auto screencastState = object.find("screencastState"); if (screencastState != object.end()) { if (!screencastState->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: screencastState must be a string"; return absl::nullopt; } if (screencastState->second.string_value() == "inactive") { message.screencastState = MediaStateMessage::VideoState::Inactive; } else if (screencastState->second.string_value() == "suspended") { message.screencastState = MediaStateMessage::VideoState::Suspended; } else if (screencastState->second.string_value() == "active") { message.screencastState = MediaStateMessage::VideoState::Active; } else { RTC_LOG(LS_ERROR) << "Signaling: screencastState must be one of [\"inactive\", \"suspended\", \"active\"]"; } } else { message.screencastState = MediaStateMessage::VideoState::Inactive; } const auto videoRotation = object.find("videoRotation"); if (videoRotation != object.end()) { if (!videoRotation->second.is_number()) { RTC_LOG(LS_ERROR) << "Signaling: videoRotation must be a number"; return absl::nullopt; } if (videoState->second.int_value() == 0) { message.videoRotation = MediaStateMessage::VideoRotation::Rotation0; } else if (videoState->second.int_value() == 90) { message.videoRotation = MediaStateMessage::VideoRotation::Rotation90; } else if (videoState->second.int_value() == 180) { message.videoRotation = MediaStateMessage::VideoRotation::Rotation180; } else if (videoState->second.int_value() == 270) { message.videoRotation = MediaStateMessage::VideoRotation::Rotation270; } else { RTC_LOG(LS_ERROR) << "Signaling: videoRotation must be one of [0, 90, 180, 270]"; message.videoRotation = MediaStateMessage::VideoRotation::Rotation0; } } else { message.videoRotation = MediaStateMessage::VideoRotation::Rotation0; } return message; } std::vector Message::serialize() const { if (const auto initialSetup = absl::get_if(&data)) { return InitialSetupMessage_serialize(initialSetup); } else if (const auto candidates = absl::get_if(&data)) { return CandidatesMessage_serialize(candidates); } else if (const auto mediaState = absl::get_if(&data)) { return MediaStateMessage_serialize(mediaState); } else if (const auto negotiateChannels = absl::get_if(&data)) { return NegotiateChannelsMessage_serialize(negotiateChannels); } else { return {}; } } absl::optional Message::parse(const std::vector &data) { std::string parsingError; auto json = json11::Json::parse(std::string(data.begin(), data.end()), parsingError); if (json.type() != json11::Json::OBJECT) { RTC_LOG(LS_ERROR) << "Signaling: message must be an object"; return absl::nullopt; } auto type = json.object_items().find("@type"); if (type == json.object_items().end()) { RTC_LOG(LS_ERROR) << "Signaling: message does not contain @type attribute"; return absl::nullopt; } if (!type->second.is_string()) { RTC_LOG(LS_ERROR) << "Signaling: @type attribute must be a string"; return absl::nullopt; } if (type->second.string_value() == "InitialSetup") { auto parsed = InitialSetupMessage_parse(json.object_items()); if (!parsed) { RTC_LOG(LS_ERROR) << "Signaling: could not parse " << type->second.string_value() << " message"; return absl::nullopt; } Message message; message.data = std::move(parsed.value()); return message; } else if (type->second.string_value() == "NegotiateChannels") { auto parsed = NegotiateChannelsMessage_parse(json.object_items()); if (!parsed) { RTC_LOG(LS_ERROR) << "Signaling: could not parse " << type->second.string_value() << " message"; return absl::nullopt; } Message message; message.data = std::move(parsed.value()); return message; } else if (type->second.string_value() == "Candidates") { auto parsed = CandidatesMessage_parse(json.object_items()); if (!parsed) { RTC_LOG(LS_ERROR) << "Signaling: could not parse " << type->second.string_value() << " message"; return absl::nullopt; } Message message; message.data = std::move(parsed.value()); return message; } else if (type->second.string_value() == "MediaState") { auto parsed = MediaStateMessage_parse(json.object_items()); if (!parsed) { RTC_LOG(LS_ERROR) << "Signaling: could not parse " << type->second.string_value() << " message"; return absl::nullopt; } Message message; message.data = std::move(parsed.value()); return message; } else { RTC_LOG(LS_ERROR) << "Signaling: unknown message type " << type->second.string_value(); return absl::nullopt; } } } // namespace signaling } // namespace tgcalls