/* * Copyright 2017 The WebRTC Project Authors. All rights reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef P2P_BASE_FAKE_DTLS_TRANSPORT_H_ #define P2P_BASE_FAKE_DTLS_TRANSPORT_H_ #include #include #include #include #include "api/crypto/crypto_options.h" #include "p2p/base/dtls_transport_internal.h" #include "p2p/base/fake_ice_transport.h" #include "rtc_base/fake_ssl_identity.h" #include "rtc_base/rtc_certificate.h" namespace cricket { // Fake DTLS transport which is implemented by wrapping a fake ICE transport. // Doesn't interact directly with fake ICE transport for anything other than // sending packets. class FakeDtlsTransport : public DtlsTransportInternal { public: explicit FakeDtlsTransport(FakeIceTransport* ice_transport) : ice_transport_(ice_transport), transport_name_(ice_transport->transport_name()), component_(ice_transport->component()), dtls_fingerprint_("", nullptr) { RTC_DCHECK(ice_transport_); ice_transport_->SignalReadPacket.connect( this, &FakeDtlsTransport::OnIceTransportReadPacket); ice_transport_->SignalNetworkRouteChanged.connect( this, &FakeDtlsTransport::OnNetworkRouteChanged); } explicit FakeDtlsTransport(std::unique_ptr ice) : owned_ice_transport_(std::move(ice)), transport_name_(owned_ice_transport_->transport_name()), component_(owned_ice_transport_->component()), dtls_fingerprint_("", rtc::ArrayView()) { ice_transport_ = owned_ice_transport_.get(); ice_transport_->SignalReadPacket.connect( this, &FakeDtlsTransport::OnIceTransportReadPacket); ice_transport_->SignalNetworkRouteChanged.connect( this, &FakeDtlsTransport::OnNetworkRouteChanged); } // If this constructor is called, a new fake ICE transport will be created, // and this FakeDtlsTransport will take the ownership. explicit FakeDtlsTransport(const std::string& name, int component) : FakeDtlsTransport(std::make_unique(name, component)) { } ~FakeDtlsTransport() override { if (dest_ && dest_->dest_ == this) { dest_->dest_ = nullptr; } } // Get inner fake ICE transport. FakeIceTransport* fake_ice_transport() { return ice_transport_; } // If async, will send packets by "Post"-ing to message queue instead of // synchronously "Send"-ing. void SetAsync(bool async) { ice_transport_->SetAsync(async); } void SetAsyncDelay(int delay_ms) { ice_transport_->SetAsyncDelay(delay_ms); } // SetWritable, SetReceiving and SetDestination are the main methods that can // be used for testing, to simulate connectivity or lack thereof. void SetWritable(bool writable) { ice_transport_->SetWritable(writable); set_writable(writable); } void SetReceiving(bool receiving) { ice_transport_->SetReceiving(receiving); set_receiving(receiving); } void SetDtlsState(DtlsTransportState state) { dtls_state_ = state; SignalDtlsState(this, dtls_state_); } // Simulates the two DTLS transports connecting to each other. // If |asymmetric| is true this method only affects this FakeDtlsTransport. // If false, it affects |dest| as well. void SetDestination(FakeDtlsTransport* dest, bool asymmetric = false) { if (dest == dest_) { return; } RTC_DCHECK(!dest || !dest_) << "Changing fake destination from one to another is not supported."; if (dest && !dest_) { // This simulates the DTLS handshake. dest_ = dest; if (local_cert_ && dest_->local_cert_) { do_dtls_ = true; RTC_LOG(LS_INFO) << "FakeDtlsTransport is doing DTLS"; } else { do_dtls_ = false; RTC_LOG(LS_INFO) << "FakeDtlsTransport is not doing DTLS"; } SetWritable(true); if (!asymmetric) { dest->SetDestination(this, true); } // If the |dtls_role_| is unset, set it to SSL_CLIENT by default. if (!dtls_role_) { dtls_role_ = std::move(rtc::SSL_CLIENT); } SetDtlsState(DTLS_TRANSPORT_CONNECTED); ice_transport_->SetDestination( static_cast(dest->ice_transport()), asymmetric); } else { // Simulates loss of connectivity, by asymmetrically forgetting dest_. dest_ = nullptr; SetWritable(false); ice_transport_->SetDestination(nullptr, asymmetric); } } // Fake DtlsTransportInternal implementation. DtlsTransportState dtls_state() const override { return dtls_state_; } const std::string& transport_name() const override { return transport_name_; } int component() const override { return component_; } const rtc::SSLFingerprint& dtls_fingerprint() const { return dtls_fingerprint_; } bool SetRemoteFingerprint(const std::string& alg, const uint8_t* digest, size_t digest_len) override { dtls_fingerprint_ = rtc::SSLFingerprint(alg, rtc::MakeArrayView(digest, digest_len)); return true; } bool SetSslMaxProtocolVersion(rtc::SSLProtocolVersion version) override { return true; } bool SetDtlsRole(rtc::SSLRole role) override { dtls_role_ = std::move(role); return true; } bool GetDtlsRole(rtc::SSLRole* role) const override { if (!dtls_role_) { return false; } *role = *dtls_role_; return true; } const webrtc::CryptoOptions& crypto_options() const override { return crypto_options_; } void SetCryptoOptions(const webrtc::CryptoOptions& crypto_options) { crypto_options_ = crypto_options; } bool SetLocalCertificate( const rtc::scoped_refptr& certificate) override { do_dtls_ = true; local_cert_ = certificate; return true; } void SetRemoteSSLCertificate(rtc::FakeSSLCertificate* cert) { remote_cert_ = cert; } bool IsDtlsActive() const override { return do_dtls_; } bool GetSslVersionBytes(int* version) const override { if (!do_dtls_) { return false; } *version = 0x0102; return true; } bool GetSrtpCryptoSuite(int* crypto_suite) override { if (!do_dtls_) { return false; } *crypto_suite = crypto_suite_; return true; } void SetSrtpCryptoSuite(int crypto_suite) { crypto_suite_ = crypto_suite; } bool GetSslCipherSuite(int* cipher_suite) override { if (ssl_cipher_suite_) { *cipher_suite = *ssl_cipher_suite_; return true; } return false; } void SetSslCipherSuite(absl::optional cipher_suite) { ssl_cipher_suite_ = cipher_suite; } rtc::scoped_refptr GetLocalCertificate() const override { return local_cert_; } std::unique_ptr GetRemoteSSLCertChain() const override { if (!remote_cert_) { return nullptr; } return std::make_unique(remote_cert_->Clone()); } bool ExportKeyingMaterial(const std::string& label, const uint8_t* context, size_t context_len, bool use_context, uint8_t* result, size_t result_len) override { if (!do_dtls_) { return false; } memset(result, 0xff, result_len); return true; } void set_ssl_max_protocol_version(rtc::SSLProtocolVersion version) { ssl_max_version_ = version; } rtc::SSLProtocolVersion ssl_max_protocol_version() const { return ssl_max_version_; } IceTransportInternal* ice_transport() override { return ice_transport_; } // PacketTransportInternal implementation, which passes through to fake ICE // transport for sending actual packets. bool writable() const override { return writable_; } bool receiving() const override { return receiving_; } int SendPacket(const char* data, size_t len, const rtc::PacketOptions& options, int flags) override { // We expect only SRTP packets to be sent through this interface. if (flags != PF_SRTP_BYPASS && flags != 0) { return -1; } return ice_transport_->SendPacket(data, len, options, flags); } int SetOption(rtc::Socket::Option opt, int value) override { return ice_transport_->SetOption(opt, value); } bool GetOption(rtc::Socket::Option opt, int* value) override { return ice_transport_->GetOption(opt, value); } int GetError() override { return ice_transport_->GetError(); } absl::optional network_route() const override { return ice_transport_->network_route(); } private: void OnIceTransportReadPacket(PacketTransportInternal* ice_, const char* data, size_t len, const int64_t& packet_time_us, int flags) { SignalReadPacket(this, data, len, packet_time_us, flags); } void set_receiving(bool receiving) { if (receiving_ == receiving) { return; } receiving_ = receiving; SignalReceivingState(this); } void set_writable(bool writable) { if (writable_ == writable) { return; } writable_ = writable; if (writable_) { SignalReadyToSend(this); } SignalWritableState(this); } void OnNetworkRouteChanged(absl::optional network_route) { SignalNetworkRouteChanged(network_route); } FakeIceTransport* ice_transport_; std::unique_ptr owned_ice_transport_; std::string transport_name_; int component_; FakeDtlsTransport* dest_ = nullptr; rtc::scoped_refptr local_cert_; rtc::FakeSSLCertificate* remote_cert_ = nullptr; bool do_dtls_ = false; rtc::SSLProtocolVersion ssl_max_version_ = rtc::SSL_PROTOCOL_DTLS_12; rtc::SSLFingerprint dtls_fingerprint_; absl::optional dtls_role_; int crypto_suite_ = rtc::SRTP_AES128_CM_SHA1_80; absl::optional ssl_cipher_suite_; webrtc::CryptoOptions crypto_options_; DtlsTransportState dtls_state_ = DTLS_TRANSPORT_NEW; bool receiving_ = false; bool writable_ = false; }; } // namespace cricket #endif // P2P_BASE_FAKE_DTLS_TRANSPORT_H_