From 6bf0a5cb5034a7e684dcc3500e841785237ce2dd Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 19:32:43 +0200 Subject: Adding upstream version 1:115.7.0. Signed-off-by: Daniel Baumann --- dom/media/webrtc/jsapi/MediaTransportHandler.cpp | 1727 ++++++++++++++++++++++ 1 file changed, 1727 insertions(+) create mode 100644 dom/media/webrtc/jsapi/MediaTransportHandler.cpp (limited to 'dom/media/webrtc/jsapi/MediaTransportHandler.cpp') diff --git a/dom/media/webrtc/jsapi/MediaTransportHandler.cpp b/dom/media/webrtc/jsapi/MediaTransportHandler.cpp new file mode 100644 index 0000000000..3ee95f36f6 --- /dev/null +++ b/dom/media/webrtc/jsapi/MediaTransportHandler.cpp @@ -0,0 +1,1727 @@ +/* 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 "MediaTransportHandler.h" +#include "MediaTransportHandlerIPC.h" +#include "transport/nricemediastream.h" +#include "transport/nriceresolver.h" +#include "transport/transportflow.h" +#include "transport/transportlayerice.h" +#include "transport/transportlayerdtls.h" +#include "transport/transportlayersrtp.h" + +// Config stuff +#include "mozilla/dom/RTCConfigurationBinding.h" +#include "mozilla/Preferences.h" +#include "mozilla/StaticPrefs_network.h" + +// Parsing STUN/TURN URIs +#include "nsIURI.h" +#include "nsNetUtil.h" +#include "nsURLHelper.h" +#include "nsIURLParser.h" + +// Logging stuff +#include "common/browser_logging/CSFLog.h" + +// For fetching ICE logging +#include "transport/rlogconnector.h" + +// DTLS +#include "sdp/SdpAttribute.h" + +#include "transport/runnable_utils.h" + +#include "mozilla/Algorithm.h" +#include "mozilla/Telemetry.h" + +#include "mozilla/dom/RTCStatsReportBinding.h" + +#include "nss.h" // For NSS_NoDB_Init +#include "mozilla/PublicSSL.h" // For psm::InitializeCipherSuite + +#include "nsISocketTransportService.h" +#include "nsDNSService2.h" + +#include +#include +#include + +#ifdef MOZ_GECKO_PROFILER +# include "mozilla/ProfilerMarkers.h" + +# define MEDIA_TRANSPORT_HANDLER_PACKET_RECEIVED(aPacket) \ + PROFILER_MARKER_TEXT("WebRTC Packet Received", MEDIA_RT, {}, \ + ProfilerString8View::WrapNullTerminatedString( \ + PacketTypeToString((aPacket).type()))); +#else +# define MEDIA_TRANSPORT_HANDLER_PACKET_RECEIVED(aPacket) +#endif + +namespace mozilla { + +static const char* mthLogTag = "MediaTransportHandler"; +#ifdef LOGTAG +# undef LOGTAG +#endif +#define LOGTAG mthLogTag + +class MediaTransportHandlerSTS : public MediaTransportHandler, + public sigslot::has_slots<> { + public: + explicit MediaTransportHandlerSTS(nsISerialEventTarget* aCallbackThread); + + RefPtr GetIceLog(const nsCString& aPattern) override; + void ClearIceLog() override; + void EnterPrivateMode() override; + void ExitPrivateMode() override; + + void CreateIceCtx(const std::string& aName) override; + + nsresult SetIceConfig(const nsTArray& aIceServers, + dom::RTCIceTransportPolicy aIcePolicy) override; + + // We will probably be able to move the proxy lookup stuff into + // this class once we move mtransport to its own process. + void SetProxyConfig(NrSocketProxyConfig&& aProxyConfig) override; + + void EnsureProvisionalTransport(const std::string& aTransportId, + const std::string& aUfrag, + const std::string& aPwd, + int aComponentCount) override; + + void SetTargetForDefaultLocalAddressLookup(const std::string& aTargetIp, + uint16_t aTargetPort) override; + + // We set default-route-only as late as possible because it depends on what + // capture permissions have been granted on the window, which could easily + // change between Init (ie; when the PC is created) and StartIceGathering + // (ie; when we set the local description). + void StartIceGathering(bool aDefaultRouteOnly, bool aObfuscateHostAddresses, + // This will go away once mtransport moves to its + // own process, because we won't need to get this + // via IPC anymore + const nsTArray& aStunAddrs) override; + + void ActivateTransport( + const std::string& aTransportId, const std::string& aLocalUfrag, + const std::string& aLocalPwd, size_t aComponentCount, + const std::string& aUfrag, const std::string& aPassword, + const nsTArray& aKeyDer, const nsTArray& aCertDer, + SSLKEAType aAuthType, bool aDtlsClient, const DtlsDigestList& aDigests, + bool aPrivacyRequested) override; + + void RemoveTransportsExcept( + const std::set& aTransportIds) override; + + void StartIceChecks(bool aIsControlling, + const std::vector& aIceOptions) override; + + void AddIceCandidate(const std::string& aTransportId, + const std::string& aCandidate, const std::string& aUfrag, + const std::string& aObfuscatedAddress) override; + + void UpdateNetworkState(bool aOnline) override; + + void SendPacket(const std::string& aTransportId, + MediaPacket&& aPacket) override; + + RefPtr GetIceStats(const std::string& aTransportId, + DOMHighResTimeStamp aNow) override; + + void Shutdown(); + + private: + void Destroy() override; + void Destroy_s(); + void DestroyFinal(); + void Shutdown_s(); + RefPtr CreateTransportFlow( + const std::string& aTransportId, bool aIsRtcp, + const RefPtr& aDtlsIdentity, bool aDtlsClient, + const DtlsDigestList& aDigests, bool aPrivacyRequested); + + struct Transport { + RefPtr mFlow; + RefPtr mRtcpFlow; + }; + + using MediaTransportHandler::OnAlpnNegotiated; + using MediaTransportHandler::OnCandidate; + using MediaTransportHandler::OnConnectionStateChange; + using MediaTransportHandler::OnEncryptedSending; + using MediaTransportHandler::OnGatheringStateChange; + using MediaTransportHandler::OnPacketReceived; + using MediaTransportHandler::OnRtcpStateChange; + using MediaTransportHandler::OnStateChange; + + void OnGatheringStateChange(NrIceCtx* aIceCtx, + NrIceCtx::GatheringState aState); + void OnConnectionStateChange(NrIceCtx* aIceCtx, + NrIceCtx::ConnectionState aState); + void OnCandidateFound(NrIceMediaStream* aStream, + const std::string& aCandidate, + const std::string& aUfrag, const std::string& aMDNSAddr, + const std::string& aActualAddr); + void OnStateChange(TransportLayer* aLayer, TransportLayer::State); + void OnRtcpStateChange(TransportLayer* aLayer, TransportLayer::State); + void PacketReceived(TransportLayer* aLayer, MediaPacket& aPacket); + void EncryptedPacketSending(TransportLayer* aLayer, MediaPacket& aPacket); + RefPtr GetTransportFlow(const std::string& aTransportId, + bool aIsRtcp) const; + void GetIceStats(const NrIceMediaStream& aStream, DOMHighResTimeStamp aNow, + dom::RTCStatsCollection* aStats) const; + + virtual ~MediaTransportHandlerSTS() = default; + nsCOMPtr mStsThread; + RefPtr mIceCtx; + RefPtr mDNSResolver; + std::map mTransports; + bool mObfuscateHostAddresses = false; + bool mTurnDisabled = false; + uint32_t mMinDtlsVersion = 0; + uint32_t mMaxDtlsVersion = 0; + bool mForceNoHost = false; + Maybe mNatConfig; + + std::set mSignaledAddresses; + + // Init can only be done on main, but we want this to be usable on any thread + using InitPromise = MozPromise; + RefPtr mInitPromise; +}; + +/* static */ +already_AddRefed MediaTransportHandler::Create( + nsISerialEventTarget* aCallbackThread) { + RefPtr result; + if (XRE_IsContentProcess() && + Preferences::GetBool("media.peerconnection.mtransport_process") && + StaticPrefs::network_process_enabled()) { + result = new MediaTransportHandlerIPC(aCallbackThread); + } else { + result = new MediaTransportHandlerSTS(aCallbackThread); + } + result->Initialize(); + return result.forget(); +} + +class STSShutdownHandler : public nsISTSShutdownObserver { + public: + NS_DECL_ISUPPORTS + + // Lazy singleton + static RefPtr& Instance() { + MOZ_ASSERT(NS_IsMainThread()); + static RefPtr sHandler(new STSShutdownHandler); + return sHandler; + } + + void Shutdown() { + MOZ_ASSERT(NS_IsMainThread()); + for (const auto& handler : mHandlers) { + handler->Shutdown(); + } + mHandlers.clear(); + } + + STSShutdownHandler() { + CSFLogDebug(LOGTAG, "%s", __func__); + nsresult res; + nsCOMPtr sts = + do_GetService(NS_SOCKETTRANSPORTSERVICE_CONTRACTID, &res); + MOZ_RELEASE_ASSERT(NS_SUCCEEDED(res)); + MOZ_RELEASE_ASSERT(sts); + sts->AddShutdownObserver(this); + } + + NS_IMETHOD Observe() override { + CSFLogDebug(LOGTAG, "%s", __func__); + Shutdown(); + nsresult res; + nsCOMPtr sts = + do_GetService(NS_SOCKETTRANSPORTSERVICE_CONTRACTID, &res); + MOZ_RELEASE_ASSERT(NS_SUCCEEDED(res)); + MOZ_RELEASE_ASSERT(sts); + sts->RemoveShutdownObserver(this); + Instance() = nullptr; + return NS_OK; + } + + void Register(MediaTransportHandlerSTS* aHandler) { + MOZ_ASSERT(NS_IsMainThread()); + mHandlers.insert(aHandler); + } + + void Deregister(MediaTransportHandlerSTS* aHandler) { + MOZ_ASSERT(NS_IsMainThread()); + mHandlers.erase(aHandler); + } + + private: + virtual ~STSShutdownHandler() = default; + + // Raw ptrs, registered on init, deregistered on destruction, all on main + std::set mHandlers; +}; + +NS_IMPL_ISUPPORTS(STSShutdownHandler, nsISTSShutdownObserver); + +MediaTransportHandlerSTS::MediaTransportHandlerSTS( + nsISerialEventTarget* aCallbackThread) + : MediaTransportHandler(aCallbackThread) { + nsresult rv; + mStsThread = do_GetService(NS_SOCKETTRANSPORTSERVICE_CONTRACTID, &rv); + if (!mStsThread) { + MOZ_CRASH(); + } + + RLogConnector::CreateInstance(); + + CSFLogDebug(LOGTAG, "%s done %p", __func__, this); + + // We do not set up mDNSService here, because we are not running on main (we + // use PBackground), and the DNS service asserts. +} + +static NrIceCtx::Policy toNrIcePolicy(dom::RTCIceTransportPolicy aPolicy) { + switch (aPolicy) { + case dom::RTCIceTransportPolicy::Relay: + return NrIceCtx::ICE_POLICY_RELAY; + case dom::RTCIceTransportPolicy::All: + return NrIceCtx::ICE_POLICY_ALL; + default: + MOZ_CRASH(); + } + return NrIceCtx::ICE_POLICY_ALL; +} + +// list of known acceptable ports for webrtc +int16_t gGoodWebrtcPortList[] = { + 53, // Some deplyoments use DNS port to punch through overzealous NATs + 3478, // stun or turn + 5349, // stuns or turns + 0, // Sentinel value: This MUST be zero +}; + +static nsresult addNrIceServer(const nsString& aIceUrl, + const dom::RTCIceServer& aIceServer, + std::vector* aStunServersOut, + std::vector* aTurnServersOut) { + // Without STUN/TURN handlers, NS_NewURI returns nsSimpleURI rather than + // nsStandardURL. To parse STUN/TURN URI's to spec + // http://tools.ietf.org/html/draft-nandakumar-rtcweb-stun-uri-02#section-3 + // http://tools.ietf.org/html/draft-petithuguenin-behave-turn-uri-03#section-3 + // we parse out the query-string, and use ParseAuthority() on the rest + RefPtr url; + nsresult rv = NS_NewURI(getter_AddRefs(url), aIceUrl); + NS_ENSURE_SUCCESS(rv, rv); + bool isStun = url->SchemeIs("stun"); + bool isStuns = url->SchemeIs("stuns"); + bool isTurn = url->SchemeIs("turn"); + bool isTurns = url->SchemeIs("turns"); + if (!(isStun || isStuns || isTurn || isTurns)) { + return NS_ERROR_FAILURE; + } + if (isStuns) { + return NS_OK; // TODO: Support STUNS (Bug 1056934) + } + + nsAutoCString spec; + rv = url->GetSpec(spec); + NS_ENSURE_SUCCESS(rv, rv); + + // TODO(jib@mozilla.com): Revisit once nsURI supports STUN/TURN (Bug 833509) + int32_t port; + nsAutoCString host; + nsAutoCString transport; + { + uint32_t hostPos; + int32_t hostLen; + nsAutoCString path; + rv = url->GetPathQueryRef(path); + NS_ENSURE_SUCCESS(rv, rv); + + // Tolerate query-string + parse 'transport=[udp|tcp]' by hand. + int32_t questionmark = path.FindChar('?'); + if (questionmark >= 0) { + const nsCString match = "transport="_ns; + + for (int32_t i = questionmark, endPos; i >= 0; i = endPos) { + endPos = path.FindCharInSet("&", i + 1); + const nsDependentCSubstring fieldvaluepair = + Substring(path, i + 1, endPos); + if (StringBeginsWith(fieldvaluepair, match)) { + transport = Substring(fieldvaluepair, match.Length()); + ToLowerCase(transport); + } + } + path.SetLength(questionmark); + } + + rv = net_GetAuthURLParser()->ParseAuthority( + path.get(), static_cast(path.Length()), nullptr, nullptr, nullptr, + nullptr, &hostPos, &hostLen, &port); + NS_ENSURE_SUCCESS(rv, rv); + if (!hostLen) { + return NS_ERROR_FAILURE; + } + if (hostPos > 1) { + /* The username was removed */ + return NS_ERROR_FAILURE; + } + path.Mid(host, hostPos, hostLen); + // Strip off brackets around IPv6 literals + host.Trim("[]"); + } + if (port == -1) port = (isStuns || isTurns) ? 5349 : 3478; + + // First check the known good ports for webrtc + bool goodPort = false; + for (int i = 0; !goodPort && gGoodWebrtcPortList[i]; i++) { + if (port == gGoodWebrtcPortList[i]) { + goodPort = true; + } + } + + // if not in the list of known good ports for webrtc, check + // the generic block list using NS_CheckPortSafety. + if (!goodPort) { + rv = NS_CheckPortSafety(port, nullptr); + NS_ENSURE_SUCCESS(rv, rv); + } + + if (isStuns || isTurns) { + // Should we barf if transport is set to udp or something? + transport = kNrIceTransportTls; + } + + if (transport.IsEmpty()) { + transport = kNrIceTransportUdp; + } + + if (isTurn || isTurns) { + std::string pwd( + NS_ConvertUTF16toUTF8(aIceServer.mCredential.Value()).get()); + std::string username( + NS_ConvertUTF16toUTF8(aIceServer.mUsername.Value()).get()); + + std::vector password(pwd.begin(), pwd.end()); + + UniquePtr server(NrIceTurnServer::Create( + host.get(), port, username, password, transport.get())); + if (!server) { + return NS_ERROR_FAILURE; + } + if (server->HasFqdn()) { + // Add an IPv4 entry, then an IPv6 entry + aTurnServersOut->push_back(*server); + server->SetUseIPv6IfFqdn(); + } + aTurnServersOut->emplace_back(std::move(*server)); + } else { + UniquePtr server( + NrIceStunServer::Create(host.get(), port, transport.get())); + if (!server) { + return NS_ERROR_FAILURE; + } + if (server->HasFqdn()) { + // Add an IPv4 entry, then an IPv6 entry + aStunServersOut->push_back(*server); + server->SetUseIPv6IfFqdn(); + } + aStunServersOut->emplace_back(std::move(*server)); + } + return NS_OK; +} + +/* static */ +nsresult MediaTransportHandler::ConvertIceServers( + const nsTArray& aIceServers, + std::vector* aStunServers, + std::vector* aTurnServers) { + for (const auto& iceServer : aIceServers) { + NS_ENSURE_STATE(iceServer.mUrls.WasPassed()); + NS_ENSURE_STATE(iceServer.mUrls.Value().IsStringSequence()); + for (const auto& iceUrl : iceServer.mUrls.Value().GetAsStringSequence()) { + nsresult rv = + addNrIceServer(iceUrl, iceServer, aStunServers, aTurnServers); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "%s: invalid STUN/TURN server: %s", __FUNCTION__, + NS_ConvertUTF16toUTF8(iceUrl).get()); + return rv; + } + } + } + + return NS_OK; +} + +static NrIceCtx::GlobalConfig GetGlobalConfig() { + NrIceCtx::GlobalConfig config; + config.mAllowLinkLocal = + Preferences::GetBool("media.peerconnection.ice.link_local", false); + config.mAllowLoopback = + Preferences::GetBool("media.peerconnection.ice.loopback", false); + config.mTcpEnabled = + Preferences::GetBool("media.peerconnection.ice.tcp", false); + config.mStunClientMaxTransmits = Preferences::GetInt( + "media.peerconnection.ice.stun_client_maximum_transmits", + config.mStunClientMaxTransmits); + config.mTrickleIceGracePeriod = + Preferences::GetInt("media.peerconnection.ice.trickle_grace_period", + config.mTrickleIceGracePeriod); + config.mIceTcpSoSockCount = Preferences::GetInt( + "media.peerconnection.ice.tcp_so_sock_count", config.mIceTcpSoSockCount); + config.mIceTcpListenBacklog = + Preferences::GetInt("media.peerconnection.ice.tcp_listen_backlog", + config.mIceTcpListenBacklog); + (void)Preferences::GetCString("media.peerconnection.ice.force_interface", + config.mForceNetInterface); + return config; +} + +static Maybe GetNatConfig() { + bool block_tcp = Preferences::GetBool( + "media.peerconnection.nat_simulator.block_tcp", false); + bool block_udp = Preferences::GetBool( + "media.peerconnection.nat_simulator.block_udp", false); + bool block_tls = Preferences::GetBool( + "media.peerconnection.nat_simulator.block_tls", false); + int error_code_for_drop = Preferences::GetInt( + "media.peerconnection.nat_simulator.error_code_for_drop", 0); + nsAutoCString mapping_type; + (void)Preferences::GetCString( + "media.peerconnection.nat_simulator.mapping_type", mapping_type); + nsAutoCString filtering_type; + (void)Preferences::GetCString( + "media.peerconnection.nat_simulator.filtering_type", filtering_type); + nsAutoCString redirect_address; + (void)Preferences::GetCString( + "media.peerconnection.nat_simulator.redirect_address", redirect_address); + nsAutoCString redirect_targets; + (void)Preferences::GetCString( + "media.peerconnection.nat_simulator.redirect_targets", redirect_targets); + + if (block_udp || block_tcp || block_tls || !mapping_type.IsEmpty() || + !filtering_type.IsEmpty() || !redirect_address.IsEmpty()) { + CSFLogDebug(LOGTAG, "NAT filtering type: %s", filtering_type.get()); + CSFLogDebug(LOGTAG, "NAT mapping type: %s", mapping_type.get()); + NrIceCtx::NatSimulatorConfig natConfig; + natConfig.mBlockUdp = block_udp; + natConfig.mBlockTcp = block_tcp; + natConfig.mBlockTls = block_tls; + natConfig.mErrorCodeForDrop = error_code_for_drop; + natConfig.mFilteringType = filtering_type; + natConfig.mMappingType = mapping_type; + if (redirect_address.Length()) { + CSFLogDebug(LOGTAG, "Redirect address: %s", redirect_address.get()); + CSFLogDebug(LOGTAG, "Redirect targets: %s", redirect_targets.get()); + natConfig.mRedirectAddress = redirect_address; + std::stringstream str(redirect_targets.Data()); + std::string target; + while (getline(str, target, ',')) { + CSFLogDebug(LOGTAG, "Adding target: %s", target.c_str()); + natConfig.mRedirectTargets.AppendElement(target); + } + } + return Some(natConfig); + } + return Nothing(); +} + +void MediaTransportHandlerSTS::CreateIceCtx(const std::string& aName) { + mInitPromise = InvokeAsync( + GetMainThreadSerialEventTarget(), __func__, + [=, self = RefPtr(this)]() { + CSFLogDebug(LOGTAG, "%s starting", __func__); + if (!NSS_IsInitialized()) { + if (NSS_NoDB_Init(nullptr) != SECSuccess) { + MOZ_CRASH(); + return InitPromise::CreateAndReject("NSS_NoDB_Init failed", + __func__); + } + + if (NS_FAILED(mozilla::psm::InitializeCipherSuite())) { + MOZ_CRASH(); + return InitPromise::CreateAndReject("InitializeCipherSuite failed", + __func__); + } + + mozilla::psm::DisableMD5(); + } + + static bool globalInitDone = false; + if (!globalInitDone) { + // Ensure the DNS service is initted for the first time on main + DebugOnly> dnsService = + RefPtr(nsDNSService::GetXPCOMSingleton()); + MOZ_ASSERT(dnsService.value); + mStsThread->Dispatch( + WrapRunnableNM(&NrIceCtx::InitializeGlobals, GetGlobalConfig()), + NS_DISPATCH_NORMAL); + globalInitDone = true; + } + + // Give us a way to globally turn off TURN support + mTurnDisabled = + Preferences::GetBool("media.peerconnection.turn.disable", false); + // We are reading these here, because when we setup the DTLS transport + // we are on the wrong thread to read prefs + mMinDtlsVersion = + Preferences::GetUint("media.peerconnection.dtls.version.min"); + mMaxDtlsVersion = + Preferences::GetUint("media.peerconnection.dtls.version.max"); + mForceNoHost = + Preferences::GetBool("media.peerconnection.ice.no_host", false); + mNatConfig = GetNatConfig(); + + MOZ_RELEASE_ASSERT(STSShutdownHandler::Instance()); + STSShutdownHandler::Instance()->Register(this); + + return InvokeAsync( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + mIceCtx = NrIceCtx::Create(aName); + if (!mIceCtx) { + return InitPromise::CreateAndReject("NrIceCtx::Create failed", + __func__); + } + + mIceCtx->SignalGatheringStateChange.connect( + this, &MediaTransportHandlerSTS::OnGatheringStateChange); + mIceCtx->SignalConnectionStateChange.connect( + this, &MediaTransportHandlerSTS::OnConnectionStateChange); + + mDNSResolver = new NrIceResolver; + nsresult rv; + if (NS_FAILED(rv = mDNSResolver->Init())) { + CSFLogError(LOGTAG, "%s: Failed to initialize dns resolver", + __FUNCTION__); + return InitPromise::CreateAndReject( + "Failed to initialize dns resolver", __func__); + } + if (NS_FAILED(rv = mIceCtx->SetResolver( + mDNSResolver->AllocateResolver()))) { + CSFLogError(LOGTAG, "%s: Failed to get dns resolver", + __FUNCTION__); + return InitPromise::CreateAndReject( + "Failed to get dns resolver", __func__); + } + + CSFLogDebug(LOGTAG, "%s done", __func__); + return InitPromise::CreateAndResolve(true, __func__); + }); + }); +} + +nsresult MediaTransportHandlerSTS::SetIceConfig( + const nsTArray& aIceServers, + dom::RTCIceTransportPolicy aIcePolicy) { + // We rely on getting an error when this happens, so do it up front. + std::vector stunServers; + std::vector turnServers; + nsresult rv = ConvertIceServers(aIceServers, &stunServers, &turnServers); + if (NS_FAILED(rv)) { + return rv; + } + + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + CSFLogError(LOGTAG, "%s: mIceCtx is null", __FUNCTION__); + return; + } + NrIceCtx::Config config; + config.mPolicy = toNrIcePolicy(aIcePolicy); + if (config.mPolicy == NrIceCtx::ICE_POLICY_ALL && mForceNoHost) { + config.mPolicy = NrIceCtx::ICE_POLICY_NO_HOST; + } + config.mNatSimulatorConfig = mNatConfig; + + nsresult rv; + + if (NS_FAILED(rv = mIceCtx->SetStunServers(stunServers))) { + CSFLogError(LOGTAG, "%s: Failed to set stun servers", __FUNCTION__); + return; + } + if (!mTurnDisabled) { + if (NS_FAILED(rv = mIceCtx->SetTurnServers(turnServers))) { + CSFLogError(LOGTAG, "%s: Failed to set turn servers", __FUNCTION__); + return; + } + } else if (!turnServers.empty()) { + CSFLogError(LOGTAG, "%s: Setting turn servers disabled", + __FUNCTION__); + } + if (NS_FAILED(rv = mIceCtx->SetIceConfig(config))) { + CSFLogError(LOGTAG, "%s: Failed to set config", __FUNCTION__); + } + }); + + return NS_OK; +} + +void MediaTransportHandlerSTS::Shutdown() { + CSFLogDebug(LOGTAG, "%s", __func__); + MOZ_ASSERT(NS_IsMainThread()); + mStsThread->Dispatch(NewNonOwningRunnableMethod( + __func__, this, &MediaTransportHandlerSTS::Shutdown_s)); +} + +void MediaTransportHandlerSTS::Shutdown_s() { + CSFLogDebug(LOGTAG, "%s", __func__); + disconnect_all(); + // Clear the transports before destroying the ice ctx so that + // the close_notify alerts have a chance to be sent as the + // TransportFlow destructors execute. + mTransports.clear(); + if (mIceCtx) { + NrIceStats stats = mIceCtx->Destroy(); + CSFLogDebug(LOGTAG, + "Ice Telemetry: stun (retransmits: %d)" + " turn (401s: %d 403s: %d 438s: %d)", + stats.stun_retransmits, stats.turn_401s, stats.turn_403s, + stats.turn_438s); + } + mIceCtx = nullptr; + mDNSResolver = nullptr; +} + +void MediaTransportHandlerSTS::Destroy() { + CSFLogDebug(LOGTAG, "%s %p", __func__, this); + // Our "destruction tour" starts on main, because we need to deregister. + if (!NS_IsMainThread()) { + GetMainThreadSerialEventTarget()->Dispatch( + NewNonOwningRunnableMethod("MediaTransportHandlerSTS::Destroy", this, + &MediaTransportHandlerSTS::Destroy)); + return; + } + + MOZ_ASSERT(NS_IsMainThread()); + if (STSShutdownHandler::Instance()) { + STSShutdownHandler::Instance()->Deregister(this); + Shutdown(); + } + + // mIceCtx still has a reference to us via sigslot! We must dispach to STS, + // and clean up there. However, by the time _that_ happens, we may have + // dispatched a signal callback to mCallbackThread, so we have to dispatch + // the final destruction to mCallbackThread. + nsresult rv = mStsThread->Dispatch( + NewNonOwningRunnableMethod("MediaTransportHandlerSTS::Destroy_s", this, + &MediaTransportHandlerSTS::Destroy_s)); + if (NS_WARN_IF(NS_FAILED(rv))) { + CSFLogError(LOGTAG, + "Unable to dispatch to STS: why has the XPCOM shutdown handler " + "not been invoked?"); + delete this; + } +} + +void MediaTransportHandlerSTS::Destroy_s() { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + nsresult rv = mCallbackThread->Dispatch(NewNonOwningRunnableMethod( + __func__, this, &MediaTransportHandlerSTS::DestroyFinal)); + if (NS_SUCCEEDED(rv)) { + return; + } + } + + DestroyFinal(); +} + +void MediaTransportHandlerSTS::DestroyFinal() { delete this; } + +void MediaTransportHandlerSTS::SetProxyConfig( + NrSocketProxyConfig&& aProxyConfig) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [this, self = RefPtr(this), + aProxyConfig = std::move(aProxyConfig)]() mutable { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + mIceCtx->SetProxyConfig(std::move(aProxyConfig)); + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::EnsureProvisionalTransport( + const std::string& aTransportId, const std::string& aUfrag, + const std::string& aPwd, int aComponentCount) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + RefPtr stream(mIceCtx->GetStream(aTransportId)); + if (!stream) { + CSFLogDebug(LOGTAG, "%s: Creating ICE media stream=%s components=%d", + mIceCtx->name().c_str(), aTransportId.c_str(), + aComponentCount); + + std::ostringstream os; + os << mIceCtx->name() << " transport-id=" << aTransportId; + stream = + mIceCtx->CreateStream(aTransportId, os.str(), aComponentCount); + + if (!stream) { + CSFLogError(LOGTAG, "Failed to create ICE stream."); + return; + } + + stream->SignalCandidate.connect( + this, &MediaTransportHandlerSTS::OnCandidateFound); + } + + // Begins an ICE restart if this stream has a different ufrag/pwd + stream->SetIceCredentials(aUfrag, aPwd); + + // Make sure there's an entry in mTransports + mTransports[aTransportId]; + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::ActivateTransport( + const std::string& aTransportId, const std::string& aLocalUfrag, + const std::string& aLocalPwd, size_t aComponentCount, + const std::string& aUfrag, const std::string& aPassword, + const nsTArray& aKeyDer, const nsTArray& aCertDer, + SSLKEAType aAuthType, bool aDtlsClient, const DtlsDigestList& aDigests, + bool aPrivacyRequested) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, keyDer = aKeyDer.Clone(), certDer = aCertDer.Clone(), + self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + MOZ_ASSERT(aComponentCount); + RefPtr dtlsIdentity( + DtlsIdentity::Deserialize(keyDer, certDer, aAuthType)); + if (!dtlsIdentity) { + MOZ_ASSERT(false); + return; + } + + RefPtr stream(mIceCtx->GetStream(aTransportId)); + if (!stream) { + MOZ_ASSERT(false); + return; + } + + CSFLogDebug(LOGTAG, "%s: Activating ICE media stream=%s components=%u", + mIceCtx->name().c_str(), aTransportId.c_str(), + static_cast(aComponentCount)); + + std::vector attrs; + attrs.reserve(2 /* ufrag + pwd */); + attrs.push_back("ice-ufrag:" + aUfrag); + attrs.push_back("ice-pwd:" + aPassword); + + // If we started an ICE restart in EnsureProvisionalTransport, this is + // where we decide whether to commit or rollback. + nsresult rv = stream->ConnectToPeer(aLocalUfrag, aLocalPwd, attrs); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "Couldn't parse ICE attributes, rv=%u", + static_cast(rv)); + MOZ_ASSERT(false); + return; + } + + Transport transport = mTransports[aTransportId]; + if (!transport.mFlow) { + transport.mFlow = + CreateTransportFlow(aTransportId, false, dtlsIdentity, + aDtlsClient, aDigests, aPrivacyRequested); + if (!transport.mFlow) { + return; + } + TransportLayer* dtls = + transport.mFlow->GetLayer(TransportLayerDtls::ID()); + dtls->SignalStateChange.connect( + this, &MediaTransportHandlerSTS::OnStateChange); + if (aComponentCount < 2) { + dtls->SignalStateChange.connect( + this, &MediaTransportHandlerSTS::OnRtcpStateChange); + } + } + + if (aComponentCount == 2) { + if (!transport.mRtcpFlow) { + transport.mRtcpFlow = + CreateTransportFlow(aTransportId, true, dtlsIdentity, + aDtlsClient, aDigests, aPrivacyRequested); + if (!transport.mRtcpFlow) { + return; + } + TransportLayer* dtls = + transport.mRtcpFlow->GetLayer(TransportLayerDtls::ID()); + dtls->SignalStateChange.connect( + this, &MediaTransportHandlerSTS::OnRtcpStateChange); + } + } else { + transport.mRtcpFlow = nullptr; + // components are 1-indexed + stream->DisableComponent(2); + } + + mTransports[aTransportId] = transport; + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::SetTargetForDefaultLocalAddressLookup( + const std::string& aTargetIp, uint16_t aTargetPort) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + mIceCtx->SetTargetForDefaultLocalAddressLookup(aTargetIp, aTargetPort); + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::StartIceGathering( + bool aDefaultRouteOnly, bool aObfuscateHostAddresses, + const nsTArray& aStunAddrs) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, stunAddrs = aStunAddrs.Clone(), + self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + mObfuscateHostAddresses = aObfuscateHostAddresses; + + // Belt and suspenders - in e10s mode, the call below to SetStunAddrs + // needs to have the proper flags set on ice ctx. For non-e10s, + // setting those flags happens in StartGathering. We could probably + // just set them here, and only do it here. + mIceCtx->SetCtxFlags(aDefaultRouteOnly); + + if (stunAddrs.Length()) { + mIceCtx->SetStunAddrs(stunAddrs); + } + + // Start gathering, but only if there are streams + if (!mIceCtx->GetStreams().empty()) { + mIceCtx->StartGathering(aDefaultRouteOnly, aObfuscateHostAddresses); + } + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::StartIceChecks( + bool aIsControlling, const std::vector& aIceOptions) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + nsresult rv = mIceCtx->ParseGlobalAttributes(aIceOptions); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "%s: couldn't parse global parameters", + __FUNCTION__); + return; + } + + rv = mIceCtx->SetControlling(aIsControlling ? NrIceCtx::ICE_CONTROLLING + : NrIceCtx::ICE_CONTROLLED); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "%s: couldn't set controlling to %d", + __FUNCTION__, aIsControlling); + return; + } + + rv = mIceCtx->StartChecks(); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "%s: couldn't start checks", __FUNCTION__); + return; + } + }, + [](const std::string& aError) {}); +} + +void TokenizeCandidate(const std::string& aCandidate, + std::vector& aTokens) { + aTokens.clear(); + + std::istringstream iss(aCandidate); + std::string token; + while (std::getline(iss, token, ' ')) { + aTokens.push_back(token); + } +} + +void MediaTransportHandlerSTS::AddIceCandidate( + const std::string& aTransportId, const std::string& aCandidate, + const std::string& aUfrag, const std::string& aObfuscatedAddress) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + std::vector tokens; + TokenizeCandidate(aCandidate, tokens); + + RefPtr stream(mIceCtx->GetStream(aTransportId)); + if (!stream) { + CSFLogError(LOGTAG, + "No ICE stream for candidate with transport id %s: %s", + aTransportId.c_str(), aCandidate.c_str()); + return; + } + + nsresult rv = stream->ParseTrickleCandidate(aCandidate, aUfrag, + aObfuscatedAddress); + if (NS_SUCCEEDED(rv)) { + // If the address is not obfuscated, we want to track it as + // explicitly signaled so that we know it is fine to reveal + // the address later on. + if (mObfuscateHostAddresses && tokens.size() > 4 && + aObfuscatedAddress.empty()) { + mSignaledAddresses.insert(tokens[4]); + } + } else { + CSFLogError(LOGTAG, + "Couldn't process ICE candidate with transport id %s: " + "%s", + aTransportId.c_str(), aCandidate.c_str()); + } + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::UpdateNetworkState(bool aOnline) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + mIceCtx->UpdateNetworkState(aOnline); + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::RemoveTransportsExcept( + const std::set& aTransportIds) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [=, self = RefPtr(this)]() { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + for (auto it = mTransports.begin(); it != mTransports.end();) { + const std::string transportId(it->first); + if (!aTransportIds.count(transportId)) { + if (it->second.mFlow) { + OnStateChange(transportId, TransportLayer::TS_NONE); + OnRtcpStateChange(transportId, TransportLayer::TS_NONE); + } + // Erase the transport before destroying the ice stream so that + // the close_notify alerts have a chance to be sent as the + // TransportFlow destructors execute. + it = mTransports.erase(it); + // We're already on the STS thread, but the TransportFlow + // destructor executed when mTransports.erase(it) is called + // above dispatches the call to DestroyFinal to the STS thread. If + // we don't also dispatch the call to destroy the NrIceMediaStream + // to the STS thread, it will tear down the NrIceMediaStream + // before the TransportFlow is destroyed. Without a valid + // NrIceMediaStream the close_notify alert cannot be sent. + mStsThread->Dispatch(NS_NewRunnableFunction( + __func__, [iceCtx = RefPtr(mIceCtx), transportId] { + iceCtx->DestroyStream(transportId); + })); + } else { + MOZ_ASSERT(it->second.mFlow); + ++it; + } + } + }, + [](const std::string& aError) {}); +} + +void MediaTransportHandlerSTS::SendPacket(const std::string& aTransportId, + MediaPacket&& aPacket) { + MOZ_RELEASE_ASSERT(mInitPromise); + + mInitPromise->Then( + mStsThread, __func__, + [this, self = RefPtr(this), aTransportId, + aPacket = std::move(aPacket)]() mutable { + if (!mIceCtx) { + return; // Probably due to XPCOM shutdown + } + + MOZ_ASSERT(aPacket.type() != MediaPacket::UNCLASSIFIED); + RefPtr flow = + GetTransportFlow(aTransportId, aPacket.type() == MediaPacket::RTCP); + + if (!flow) { + CSFLogError(LOGTAG, + "%s: No such transport flow (%s) for outgoing packet", + mIceCtx->name().c_str(), aTransportId.c_str()); + return; + } + + TransportLayer* layer = nullptr; + switch (aPacket.type()) { + case MediaPacket::SCTP: + layer = flow->GetLayer(TransportLayerDtls::ID()); + break; + case MediaPacket::RTP: + case MediaPacket::RTCP: + layer = flow->GetLayer(TransportLayerSrtp::ID()); + break; + default: + // Maybe it would be useful to allow the injection of other packet + // types for testing? + MOZ_ASSERT(false); + return; + } + + MOZ_ASSERT(layer); + + if (layer->SendPacket(aPacket) < 0) { + CSFLogError(LOGTAG, "%s: Transport flow (%s) failed to send packet", + mIceCtx->name().c_str(), aTransportId.c_str()); + } + }, + [](const std::string& aError) {}); +} + +TransportLayer::State MediaTransportHandler::GetState( + const std::string& aTransportId, bool aRtcp) const { + // TODO Bug 1520692: we should allow Datachannel to connect without + // DTLS SRTP keys + if (mCallbackThread) { + MOZ_ASSERT(mCallbackThread->IsOnCurrentThread()); + } + + const std::map* cache = nullptr; + if (aRtcp) { + cache = &mRtcpStateCache; + } else { + cache = &mStateCache; + } + + auto it = cache->find(aTransportId); + if (it != cache->end()) { + return it->second; + } + return TransportLayer::TS_NONE; +} + +void MediaTransportHandler::OnCandidate(const std::string& aTransportId, + const CandidateInfo& aCandidateInfo) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnCandidate, aTransportId, + aCandidateInfo), + NS_DISPATCH_NORMAL); + return; + } + + SignalCandidate(aTransportId, aCandidateInfo); +} + +void MediaTransportHandler::OnAlpnNegotiated(const std::string& aAlpn) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnAlpnNegotiated, aAlpn), + NS_DISPATCH_NORMAL); + return; + } + + const bool privacyRequested = aAlpn == "c-webrtc"; + SignalAlpnNegotiated(aAlpn, privacyRequested); +} + +void MediaTransportHandler::OnGatheringStateChange( + dom::RTCIceGatheringState aState) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnGatheringStateChange, + aState), + NS_DISPATCH_NORMAL); + return; + } + + SignalGatheringStateChange(aState); +} + +void MediaTransportHandler::OnConnectionStateChange( + dom::RTCIceConnectionState aState) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnConnectionStateChange, + aState), + NS_DISPATCH_NORMAL); + return; + } + + SignalConnectionStateChange(aState); +} + +void MediaTransportHandler::OnPacketReceived(const std::string& aTransportId, + const MediaPacket& aPacket) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnPacketReceived, + aTransportId, aPacket.Clone()), + NS_DISPATCH_NORMAL); + return; + } + + SignalPacketReceived(aTransportId, aPacket); +} + +void MediaTransportHandler::OnEncryptedSending(const std::string& aTransportId, + const MediaPacket& aPacket) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnEncryptedSending, + aTransportId, aPacket.Clone()), + NS_DISPATCH_NORMAL); + return; + } + + SignalEncryptedSending(aTransportId, aPacket); +} + +void MediaTransportHandler::OnStateChange(const std::string& aTransportId, + TransportLayer::State aState) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnStateChange, aTransportId, + aState), + NS_DISPATCH_NORMAL); + return; + } + + if (aState == TransportLayer::TS_NONE) { + mStateCache.erase(aTransportId); + } else { + mStateCache[aTransportId] = aState; + } + SignalStateChange(aTransportId, aState); +} + +void MediaTransportHandler::OnRtcpStateChange(const std::string& aTransportId, + TransportLayer::State aState) { + if (mCallbackThread && !mCallbackThread->IsOnCurrentThread()) { + mCallbackThread->Dispatch( + // This is being called from sigslot, which does not hold a strong ref. + WrapRunnable(this, &MediaTransportHandler::OnRtcpStateChange, + aTransportId, aState), + NS_DISPATCH_NORMAL); + return; + } + + if (aState == TransportLayer::TS_NONE) { + mRtcpStateCache.erase(aTransportId); + } else { + mRtcpStateCache[aTransportId] = aState; + } + SignalRtcpStateChange(aTransportId, aState); +} + +RefPtr MediaTransportHandlerSTS::GetIceStats( + const std::string& aTransportId, DOMHighResTimeStamp aNow) { + MOZ_RELEASE_ASSERT(mInitPromise); + + return mInitPromise->Then(mStsThread, __func__, [=, self = RefPtr(this)]() { + UniquePtr stats(new dom::RTCStatsCollection); + if (mIceCtx) { + for (const auto& stream : mIceCtx->GetStreams()) { + if (aTransportId.empty() || aTransportId == stream->GetId()) { + GetIceStats(*stream, aNow, stats.get()); + } + } + } + return dom::RTCStatsPromise::CreateAndResolve(std::move(stats), __func__); + }); +} + +RefPtr +MediaTransportHandlerSTS::GetIceLog(const nsCString& aPattern) { + return InvokeAsync( + mStsThread, __func__, [=, self = RefPtr(this)] { + dom::Sequence converted; + RLogConnector* logs = RLogConnector::GetInstance(); + std::deque result; + // Might not exist yet. + if (logs) { + logs->Filter(aPattern.get(), 0, &result); + } + /// XXX(Bug 1631386) Check if we should reject the promise instead of + /// crashing in an OOM situation. + if (!converted.SetCapacity(result.size(), fallible)) { + mozalloc_handle_oom(sizeof(nsString) * result.size()); + } + for (auto& line : result) { + // Cannot fail, SetCapacity was called before. + (void)converted.AppendElement(NS_ConvertUTF8toUTF16(line.c_str()), + fallible); + } + return IceLogPromise::CreateAndResolve(std::move(converted), __func__); + }); +} + +void MediaTransportHandlerSTS::ClearIceLog() { + if (!mStsThread->IsOnCurrentThread()) { + mStsThread->Dispatch(WrapRunnable(RefPtr(this), + &MediaTransportHandlerSTS::ClearIceLog), + NS_DISPATCH_NORMAL); + return; + } + + RLogConnector* logs = RLogConnector::GetInstance(); + if (logs) { + logs->Clear(); + } +} + +void MediaTransportHandlerSTS::EnterPrivateMode() { + if (!mStsThread->IsOnCurrentThread()) { + mStsThread->Dispatch( + WrapRunnable(RefPtr(this), + &MediaTransportHandlerSTS::EnterPrivateMode), + NS_DISPATCH_NORMAL); + return; + } + + RLogConnector::GetInstance()->EnterPrivateMode(); +} + +void MediaTransportHandlerSTS::ExitPrivateMode() { + if (!mStsThread->IsOnCurrentThread()) { + mStsThread->Dispatch( + WrapRunnable(RefPtr(this), + &MediaTransportHandlerSTS::ExitPrivateMode), + NS_DISPATCH_NORMAL); + return; + } + + auto* log = RLogConnector::GetInstance(); + MOZ_ASSERT(log); + if (log) { + log->ExitPrivateMode(); + } +} + +static void ToRTCIceCandidateStats( + const std::vector& candidates, + dom::RTCStatsType candidateType, const nsString& transportId, + DOMHighResTimeStamp now, dom::RTCStatsCollection* stats, + bool obfuscateHostAddresses, + const std::set& signaledAddresses) { + MOZ_ASSERT(stats); + for (const auto& candidate : candidates) { + dom::RTCIceCandidateStats cand; + cand.mType.Construct(candidateType); + NS_ConvertASCIItoUTF16 codeword(candidate.codeword.c_str()); + cand.mTransportId.Construct(transportId); + cand.mId.Construct(codeword); + cand.mTimestamp.Construct(now); + cand.mCandidateType.Construct(dom::RTCIceCandidateType(candidate.type)); + cand.mPriority.Construct(candidate.priority); + // https://tools.ietf.org/html/draft-ietf-rtcweb-mdns-ice-candidates-03#section-3.3.1 + // This obfuscates the address with the mDNS address if one exists + if (!candidate.mdns_addr.empty()) { + cand.mAddress.Construct( + NS_ConvertASCIItoUTF16(candidate.mdns_addr.c_str())); + } else if (obfuscateHostAddresses && + candidate.type == NrIceCandidate::ICE_PEER_REFLEXIVE && + signaledAddresses.find(candidate.cand_addr.host) == + signaledAddresses.end()) { + cand.mAddress.Construct(NS_ConvertASCIItoUTF16("(redacted)")); + } else { + cand.mAddress.Construct( + NS_ConvertASCIItoUTF16(candidate.cand_addr.host.c_str())); + } + cand.mPort.Construct(candidate.cand_addr.port); + cand.mProtocol.Construct( + NS_ConvertASCIItoUTF16(candidate.cand_addr.transport.c_str())); + if (candidateType == dom::RTCStatsType::Local_candidate && + dom::RTCIceCandidateType(candidate.type) == + dom::RTCIceCandidateType::Relay) { + cand.mRelayProtocol.Construct( + NS_ConvertASCIItoUTF16(candidate.local_addr.transport.c_str())); + } + cand.mProxied.Construct(NS_ConvertASCIItoUTF16( + candidate.is_proxied ? "proxied" : "non-proxied")); + if (!stats->mIceCandidateStats.AppendElement(cand, fallible)) { + // XXX(Bug 1632090) Instead of extending the array 1-by-1 (which might + // involve multiple reallocations) and potentially crashing here, + // SetCapacity could be called outside the loop once. + mozalloc_handle_oom(0); + } + if (candidate.trickled) { + if (!stats->mTrickledIceCandidateStats.AppendElement(cand, fallible)) { + mozalloc_handle_oom(0); + } + } + } +} + +void MediaTransportHandlerSTS::GetIceStats( + const NrIceMediaStream& aStream, DOMHighResTimeStamp aNow, + dom::RTCStatsCollection* aStats) const { + MOZ_ASSERT(mStsThread->IsOnCurrentThread()); + + NS_ConvertASCIItoUTF16 transportId(aStream.GetId().c_str()); + + std::vector candPairs; + nsresult res = aStream.GetCandidatePairs(&candPairs); + if (NS_FAILED(res)) { + CSFLogError(LOGTAG, + "%s: Error getting candidate pairs for transport id \"%s\"", + __FUNCTION__, aStream.GetId().c_str()); + return; + } + + for (auto& candPair : candPairs) { + NS_ConvertASCIItoUTF16 codeword(candPair.codeword.c_str()); + NS_ConvertASCIItoUTF16 localCodeword(candPair.local.codeword.c_str()); + NS_ConvertASCIItoUTF16 remoteCodeword(candPair.remote.codeword.c_str()); + // Only expose candidate-pair statistics to chrome, until we've thought + // through the implications of exposing it to content. + + dom::RTCIceCandidatePairStats s; + s.mId.Construct(codeword); + s.mTransportId.Construct(transportId); + s.mTimestamp.Construct(aNow); + s.mType.Construct(dom::RTCStatsType::Candidate_pair); + s.mLocalCandidateId.Construct(localCodeword); + s.mRemoteCandidateId.Construct(remoteCodeword); + s.mNominated.Construct(candPair.nominated); + s.mWritable.Construct(candPair.writable); + s.mReadable.Construct(candPair.readable); + s.mPriority.Construct(candPair.priority); + s.mSelected.Construct(candPair.selected); + s.mBytesSent.Construct(candPair.bytes_sent); + s.mBytesReceived.Construct(candPair.bytes_recvd); + s.mLastPacketSentTimestamp.Construct(candPair.ms_since_last_send); + s.mLastPacketReceivedTimestamp.Construct(candPair.ms_since_last_recv); + s.mState.Construct(dom::RTCStatsIceCandidatePairState(candPair.state)); + s.mComponentId.Construct(candPair.component_id); + if (!aStats->mIceCandidatePairStats.AppendElement(s, fallible)) { + // XXX(Bug 1632090) Instead of extending the array 1-by-1 (which might + // involve multiple reallocations) and potentially crashing here, + // SetCapacity could be called outside the loop once. + mozalloc_handle_oom(0); + } + } + + std::vector candidates; + if (NS_SUCCEEDED(aStream.GetLocalCandidates(&candidates))) { + ToRTCIceCandidateStats(candidates, dom::RTCStatsType::Local_candidate, + transportId, aNow, aStats, mObfuscateHostAddresses, + mSignaledAddresses); + // add the local candidates unparsed string to a sequence + for (const auto& candidate : candidates) { + if (!aStats->mRawLocalCandidates.AppendElement( + NS_ConvertASCIItoUTF16(candidate.label.c_str()), fallible)) { + // XXX(Bug 1632090) Instead of extending the array 1-by-1 (which might + // involve multiple reallocations) and potentially crashing here, + // SetCapacity could be called outside the loop once. + mozalloc_handle_oom(0); + } + } + } + candidates.clear(); + + if (NS_SUCCEEDED(aStream.GetRemoteCandidates(&candidates))) { + ToRTCIceCandidateStats(candidates, dom::RTCStatsType::Remote_candidate, + transportId, aNow, aStats, mObfuscateHostAddresses, + mSignaledAddresses); + // add the remote candidates unparsed string to a sequence + for (const auto& candidate : candidates) { + if (!aStats->mRawRemoteCandidates.AppendElement( + NS_ConvertASCIItoUTF16(candidate.label.c_str()), fallible)) { + // XXX(Bug 1632090) Instead of extending the array 1-by-1 (which might + // involve multiple reallocations) and potentially crashing here, + // SetCapacity could be called outside the loop once. + mozalloc_handle_oom(0); + } + } + } +} + +RefPtr MediaTransportHandlerSTS::GetTransportFlow( + const std::string& aTransportId, bool aIsRtcp) const { + auto it = mTransports.find(aTransportId); + if (it == mTransports.end()) { + return nullptr; + } + + if (aIsRtcp) { + return it->second.mRtcpFlow ? it->second.mRtcpFlow : it->second.mFlow; + ; + } + + return it->second.mFlow; +} + +RefPtr MediaTransportHandlerSTS::CreateTransportFlow( + const std::string& aTransportId, bool aIsRtcp, + const RefPtr& aDtlsIdentity, bool aDtlsClient, + const DtlsDigestList& aDigests, bool aPrivacyRequested) { + nsresult rv; + RefPtr flow = new TransportFlow(aTransportId); + + // The media streams are made on STS so we need to defer setup. + auto ice = MakeUnique(); + auto dtls = MakeUnique(); + auto srtp = MakeUnique(*dtls); + dtls->SetRole(aDtlsClient ? TransportLayerDtls::CLIENT + : TransportLayerDtls::SERVER); + + dtls->SetIdentity(aDtlsIdentity); + + dtls->SetMinMaxVersion( + static_cast(mMinDtlsVersion), + static_cast(mMaxDtlsVersion)); + + for (const auto& digest : aDigests) { + rv = dtls->SetVerificationDigest(digest); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "Could not set fingerprint"); + return nullptr; + } + } + + std::vector srtpCiphers = + TransportLayerDtls::GetDefaultSrtpCiphers(); + + rv = dtls->SetSrtpCiphers(srtpCiphers); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "Couldn't set SRTP ciphers"); + return nullptr; + } + + // Always permits negotiation of the confidential mode. + // Only allow non-confidential (which is an allowed default), + // if we aren't confidential. + std::set alpn = {"c-webrtc"}; + std::string alpnDefault; + if (!aPrivacyRequested) { + alpnDefault = "webrtc"; + alpn.insert(alpnDefault); + } + rv = dtls->SetAlpn(alpn, alpnDefault); + if (NS_FAILED(rv)) { + CSFLogError(LOGTAG, "Couldn't set ALPN"); + return nullptr; + } + + ice->SetParameters(mIceCtx->GetStream(aTransportId), aIsRtcp ? 2 : 1); + NS_ENSURE_SUCCESS(ice->Init(), nullptr); + NS_ENSURE_SUCCESS(dtls->Init(), nullptr); + NS_ENSURE_SUCCESS(srtp->Init(), nullptr); + dtls->Chain(ice.get()); + srtp->Chain(ice.get()); + + dtls->SignalPacketReceived.connect(this, + &MediaTransportHandlerSTS::PacketReceived); + srtp->SignalPacketReceived.connect(this, + &MediaTransportHandlerSTS::PacketReceived); + ice->SignalPacketSending.connect( + this, &MediaTransportHandlerSTS::EncryptedPacketSending); + flow->PushLayer(ice.release()); + flow->PushLayer(dtls.release()); + flow->PushLayer(srtp.release()); + return flow; +} + +static mozilla::dom::RTCIceGatheringState toDomIceGatheringState( + NrIceCtx::GatheringState aState) { + switch (aState) { + case NrIceCtx::ICE_CTX_GATHER_INIT: + return dom::RTCIceGatheringState::New; + case NrIceCtx::ICE_CTX_GATHER_STARTED: + return dom::RTCIceGatheringState::Gathering; + case NrIceCtx::ICE_CTX_GATHER_COMPLETE: + return dom::RTCIceGatheringState::Complete; + } + MOZ_CRASH(); +} + +void MediaTransportHandlerSTS::OnGatheringStateChange( + NrIceCtx* aIceCtx, NrIceCtx::GatheringState aState) { + OnGatheringStateChange(toDomIceGatheringState(aState)); +} + +static mozilla::dom::RTCIceConnectionState toDomIceConnectionState( + NrIceCtx::ConnectionState aState) { + switch (aState) { + case NrIceCtx::ICE_CTX_INIT: + return dom::RTCIceConnectionState::New; + case NrIceCtx::ICE_CTX_CHECKING: + return dom::RTCIceConnectionState::Checking; + case NrIceCtx::ICE_CTX_CONNECTED: + return dom::RTCIceConnectionState::Connected; + case NrIceCtx::ICE_CTX_COMPLETED: + return dom::RTCIceConnectionState::Completed; + case NrIceCtx::ICE_CTX_FAILED: + return dom::RTCIceConnectionState::Failed; + case NrIceCtx::ICE_CTX_DISCONNECTED: + return dom::RTCIceConnectionState::Disconnected; + case NrIceCtx::ICE_CTX_CLOSED: + return dom::RTCIceConnectionState::Closed; + } + MOZ_CRASH(); +} + +void MediaTransportHandlerSTS::OnConnectionStateChange( + NrIceCtx* aIceCtx, NrIceCtx::ConnectionState aState) { + OnConnectionStateChange(toDomIceConnectionState(aState)); +} + +// The stuff below here will eventually go into the MediaTransportChild class +void MediaTransportHandlerSTS::OnCandidateFound( + NrIceMediaStream* aStream, const std::string& aCandidate, + const std::string& aUfrag, const std::string& aMDNSAddr, + const std::string& aActualAddr) { + CandidateInfo info; + info.mCandidate = aCandidate; + MOZ_ASSERT(!aUfrag.empty()); + info.mUfrag = aUfrag; + NrIceCandidate defaultRtpCandidate; + NrIceCandidate defaultRtcpCandidate; + nsresult rv = aStream->GetDefaultCandidate(1, &defaultRtpCandidate); + if (NS_SUCCEEDED(rv)) { + if (!defaultRtpCandidate.mdns_addr.empty()) { + info.mDefaultHostRtp = "0.0.0.0"; + info.mDefaultPortRtp = 9; + } else { + info.mDefaultHostRtp = defaultRtpCandidate.cand_addr.host; + info.mDefaultPortRtp = defaultRtpCandidate.cand_addr.port; + } + } else { + CSFLogError(LOGTAG, + "%s: GetDefaultCandidates failed for transport id %s, " + "res=%u", + __FUNCTION__, aStream->GetId().c_str(), + static_cast(rv)); + } + + // Optional; component won't exist if doing rtcp-mux + if (NS_SUCCEEDED(aStream->GetDefaultCandidate(2, &defaultRtcpCandidate))) { + if (!defaultRtcpCandidate.mdns_addr.empty()) { + info.mDefaultHostRtcp = defaultRtcpCandidate.mdns_addr; + } else { + info.mDefaultHostRtcp = defaultRtcpCandidate.cand_addr.host; + } + info.mDefaultPortRtcp = defaultRtcpCandidate.cand_addr.port; + } + + info.mMDNSAddress = aMDNSAddr; + info.mActualAddress = aActualAddr; + + OnCandidate(aStream->GetId(), info); +} + +void MediaTransportHandlerSTS::OnStateChange(TransportLayer* aLayer, + TransportLayer::State aState) { + if (aState == TransportLayer::TS_OPEN) { + MOZ_ASSERT(aLayer->id() == TransportLayerDtls::ID()); + TransportLayerDtls* dtlsLayer = static_cast(aLayer); + OnAlpnNegotiated(dtlsLayer->GetNegotiatedAlpn()); + } + + // DTLS state indicates the readiness of the transport as a whole, because + // SRTP uses the keys from the DTLS handshake. + MediaTransportHandler::OnStateChange(aLayer->flow_id(), aState); +} + +void MediaTransportHandlerSTS::OnRtcpStateChange(TransportLayer* aLayer, + TransportLayer::State aState) { + MediaTransportHandler::OnRtcpStateChange(aLayer->flow_id(), aState); +} + +constexpr static const char* PacketTypeToString(MediaPacket::Type type) { + switch (type) { + case MediaPacket::Type::UNCLASSIFIED: + return "UNCLASSIFIED"; + case MediaPacket::Type::SRTP: + return "SRTP"; + case MediaPacket::Type::SRTCP: + return "SRTCP"; + case MediaPacket::Type::DTLS: + return "DTLS"; + case MediaPacket::Type::RTP: + return "RTP"; + case MediaPacket::Type::RTCP: + return "RTCP"; + case MediaPacket::Type::SCTP: + return "SCTP"; + default: + MOZ_ASSERT(false, "unreached"); + return ""; + } +} + +void MediaTransportHandlerSTS::PacketReceived(TransportLayer* aLayer, + MediaPacket& aPacket) { + MEDIA_TRANSPORT_HANDLER_PACKET_RECEIVED(aPacket); + OnPacketReceived(aLayer->flow_id(), aPacket); +} + +void MediaTransportHandlerSTS::EncryptedPacketSending(TransportLayer* aLayer, + MediaPacket& aPacket) { + OnEncryptedSending(aLayer->flow_id(), aPacket); +} + +} // namespace mozilla + +#undef MEDIA_TRANSPORT_HANDLER_PACKET_RECEIVED -- cgit v1.2.3