p2p/base/fake_ice_transport.h - src - Git at Google

 /*
  *  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_ICE_TRANSPORT_H_
 #define P2P_BASE_FAKE_ICE_TRANSPORT_H_

 #include <map>
 #include <memory>
 #include <string>
 #include <utility>

 #include "absl/algorithm/container.h"
 #include "absl/types/optional.h"
 #include "api/ice_transport_interface.h"
 #include "p2p/base/ice_transport_internal.h"
 #include "rtc_base/async_invoker.h"
 #include "rtc_base/copy_on_write_buffer.h"

 namespace cricket {

 class FakeIceTransport : public IceTransportInternal {
  public:
   explicit FakeIceTransport(const std::string& name,
                             int component,
                             rtc::Thread* network_thread = nullptr)
       : name_(name),
         component_(component),
         network_thread_(network_thread ? network_thread
                                        : rtc::Thread::Current()) {}
   ~FakeIceTransport() override {
     if (dest_ && dest_->dest_ == this) {
       dest_->dest_ = nullptr;
     }
   }

   // If async, will send packets by "Post"-ing to message queue instead of
   // synchronously "Send"-ing.
   void SetAsync(bool async) { async_ = async; }
   void SetAsyncDelay(int delay_ms) { async_delay_ms_ = 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) { set_writable(writable); }
   void SetReceiving(bool receiving) { set_receiving(receiving); }

   // Simulates the two transports connecting to each other.
   // If |asymmetric| is true this method only affects this FakeIceTransport.
   // If false, it affects |dest| as well.
   void SetDestination(FakeIceTransport* dest, bool asymmetric = false) {
     if (dest == dest_) {
       return;
     }
     RTC_DCHECK(!dest || !dest_)
         << "Changing fake destination from one to another is not supported.";
     if (dest) {
       // This simulates the delivery of candidates.
       dest_ = dest;
       set_writable(true);
       if (!asymmetric) {
         dest->SetDestination(this, true);
       }
     } else {
       // Simulates loss of connectivity, by asymmetrically forgetting dest_.
       dest_ = nullptr;
       set_writable(false);
     }
   }

   void SetTransportState(webrtc::IceTransportState state,
                          IceTransportState legacy_state) {
     transport_state_ = state;
     legacy_transport_state_ = legacy_state;
     SignalIceTransportStateChanged(this);
   }

   void SetConnectionCount(size_t connection_count) {
     size_t old_connection_count = connection_count_;
     connection_count_ = connection_count;
     if (connection_count) {
       had_connection_ = true;
     }
     // In this fake transport channel, |connection_count_| determines the
     // transport state.
     if (connection_count_ < old_connection_count) {
       SignalStateChanged(this);
     }
   }

   void SetCandidatesGatheringComplete() {
     if (gathering_state_ != kIceGatheringComplete) {
       gathering_state_ = kIceGatheringComplete;
       SignalGatheringState(this);
     }
   }

   // Convenience functions for accessing ICE config and other things.
   int receiving_timeout() const {
     return ice_config_.receiving_timeout_or_default();
   }
   bool gather_continually() const { return ice_config_.gather_continually(); }
   const Candidates& remote_candidates() const { return remote_candidates_; }

   // Fake IceTransportInternal implementation.
   const std::string& transport_name() const override { return name_; }
   int component() const override { return component_; }
   uint64_t IceTiebreaker() const { return tiebreaker_; }
   IceMode remote_ice_mode() const { return remote_ice_mode_; }
   const std::string& ice_ufrag() const { return ice_parameters_.ufrag; }
   const std::string& ice_pwd() const { return ice_parameters_.pwd; }
   const std::string& remote_ice_ufrag() const {
     return remote_ice_parameters_.ufrag;
   }
   const std::string& remote_ice_pwd() const {
     return remote_ice_parameters_.pwd;
   }
   const IceParameters& ice_parameters() const { return ice_parameters_; }
   const IceParameters& remote_ice_parameters() const {
     return remote_ice_parameters_;
   }

   IceTransportState GetState() const override {
     if (legacy_transport_state_) {
       return *legacy_transport_state_;
     }

     if (connection_count_ == 0) {
       return had_connection_ ? IceTransportState::STATE_FAILED
                              : IceTransportState::STATE_INIT;
     }

     if (connection_count_ == 1) {
       return IceTransportState::STATE_COMPLETED;
     }

     return IceTransportState::STATE_CONNECTING;
   }

   webrtc::IceTransportState GetIceTransportState() const override {
     if (transport_state_) {
       return *transport_state_;
     }

     if (connection_count_ == 0) {
       return had_connection_ ? webrtc::IceTransportState::kFailed
                              : webrtc::IceTransportState::kNew;
     }

     if (connection_count_ == 1) {
       return webrtc::IceTransportState::kCompleted;
     }

     return webrtc::IceTransportState::kConnected;
   }

   void SetIceRole(IceRole role) override { role_ = role; }
   IceRole GetIceRole() const override { return role_; }
   void SetIceTiebreaker(uint64_t tiebreaker) override {
     tiebreaker_ = tiebreaker;
   }
   void SetIceParameters(const IceParameters& ice_params) override {
     ice_parameters_ = ice_params;
   }
   void SetRemoteIceParameters(const IceParameters& params) override {
     remote_ice_parameters_ = params;
   }

   void SetRemoteIceMode(IceMode mode) override { remote_ice_mode_ = mode; }

   void MaybeStartGathering() override {
     if (gathering_state_ == kIceGatheringNew) {
       gathering_state_ = kIceGatheringGathering;
       SignalGatheringState(this);
     }
   }

   IceGatheringState gathering_state() const override {
     return gathering_state_;
   }

   void SetIceConfig(const IceConfig& config) override { ice_config_ = config; }

   void AddRemoteCandidate(const Candidate& candidate) override {
     remote_candidates_.push_back(candidate);
   }
   void RemoveRemoteCandidate(const Candidate& candidate) override {
     auto it = absl::c_find(remote_candidates_, candidate);
     if (it == remote_candidates_.end()) {
       RTC_LOG(LS_INFO) << "Trying to remove a candidate which doesn't exist.";
       return;
     }

     remote_candidates_.erase(it);
   }

   void RemoveAllRemoteCandidates() override { remote_candidates_.clear(); }

   bool GetStats(IceTransportStats* ice_transport_stats) override {
     CandidateStats candidate_stats;
     ConnectionInfo candidate_pair_stats;
     ice_transport_stats->candidate_stats_list.clear();
     ice_transport_stats->candidate_stats_list.push_back(candidate_stats);
     ice_transport_stats->connection_infos.clear();
     ice_transport_stats->connection_infos.push_back(candidate_pair_stats);
     return true;
   }

   absl::optional<int> GetRttEstimate() override { return absl::nullopt; }

   const Connection* selected_connection() const override { return nullptr; }
   absl::optional<const CandidatePair> GetSelectedCandidatePair()
       const override {
     return absl::nullopt;
   }

   // Fake PacketTransportInternal implementation.
   bool writable() const override { return writable_; }
   bool receiving() const override { return receiving_; }
   // If combine is enabled, every two consecutive packets to be sent with
   // "SendPacket" will be combined into one outgoing packet.
   void combine_outgoing_packets(bool combine) {
     combine_outgoing_packets_ = combine;
   }
   int SendPacket(const char* data,
                  size_t len,
                  const rtc::PacketOptions& options,
                  int flags) override {
     if (!dest_) {
       return -1;
     }

     send_packet_.AppendData(data, len);
     if (!combine_outgoing_packets_ || send_packet_.size() > len) {
       rtc::CopyOnWriteBuffer packet(std::move(send_packet_));
       if (async_) {
         invoker_.AsyncInvokeDelayed<void>(
             RTC_FROM_HERE, rtc::Thread::Current(),
             rtc::Bind(&FakeIceTransport::SendPacketInternal, this, packet),
             async_delay_ms_);
       } else {
         SendPacketInternal(packet);
       }
     }
     rtc::SentPacket sent_packet(options.packet_id, rtc::TimeMillis());
     SignalSentPacket(this, sent_packet);
     return static_cast<int>(len);
   }

   int SetOption(rtc::Socket::Option opt, int value) override {
     socket_options_[opt] = value;
     return true;
   }
   bool GetOption(rtc::Socket::Option opt, int* value) override {
     auto it = socket_options_.find(opt);
     if (it != socket_options_.end()) {
       *value = it->second;
       return true;
     } else {
       return false;
     }
   }

   int GetError() override { return 0; }

   rtc::CopyOnWriteBuffer last_sent_packet() { return last_sent_packet_; }

   absl::optional<rtc::NetworkRoute> network_route() const override {
     return network_route_;
   }
   void SetNetworkRoute(absl::optional<rtc::NetworkRoute> network_route) {
     network_route_ = network_route;
     network_thread_->Invoke<void>(
         RTC_FROM_HERE, [this] { SignalNetworkRouteChanged(network_route_); });
   }

  private:
   void set_writable(bool writable) {
     if (writable_ == writable) {
       return;
     }
     RTC_LOG(INFO) << "Change writable_ to " << writable;
     writable_ = writable;
     if (writable_) {
       SignalReadyToSend(this);
     }
     SignalWritableState(this);
   }

   void set_receiving(bool receiving) {
     if (receiving_ == receiving) {
       return;
     }
     receiving_ = receiving;
     SignalReceivingState(this);
   }

   void SendPacketInternal(const rtc::CopyOnWriteBuffer& packet) {
     if (dest_) {
       last_sent_packet_ = packet;
       dest_->SignalReadPacket(dest_, packet.data<char>(), packet.size(),
                               rtc::TimeMicros(), 0);
     }
   }

   rtc::AsyncInvoker invoker_;
   std::string name_;
   int component_;
   FakeIceTransport* dest_ = nullptr;
   bool async_ = false;
   int async_delay_ms_ = 0;
   Candidates remote_candidates_;
   IceConfig ice_config_;
   IceRole role_ = ICEROLE_UNKNOWN;
   uint64_t tiebreaker_ = 0;
   IceParameters ice_parameters_;
   IceParameters remote_ice_parameters_;
   IceMode remote_ice_mode_ = ICEMODE_FULL;
   size_t connection_count_ = 0;
   absl::optional<webrtc::IceTransportState> transport_state_;
   absl::optional<IceTransportState> legacy_transport_state_;
   IceGatheringState gathering_state_ = kIceGatheringNew;
   bool had_connection_ = false;
   bool writable_ = false;
   bool receiving_ = false;
   bool combine_outgoing_packets_ = false;
   rtc::CopyOnWriteBuffer send_packet_;
   absl::optional<rtc::NetworkRoute> network_route_;
   std::map<rtc::Socket::Option, int> socket_options_;
   rtc::CopyOnWriteBuffer last_sent_packet_;
   rtc::Thread* const network_thread_;
 };

 class FakeIceTransportWrapper : public webrtc::IceTransportInterface {
  public:
   explicit FakeIceTransportWrapper(
       std::unique_ptr<cricket::FakeIceTransport> internal)
       : internal_(std::move(internal)) {}

   cricket::IceTransportInternal* internal() override { return internal_.get(); }

  private:
   std::unique_ptr<cricket::FakeIceTransport> internal_;
 };

 }  // namespace cricket

 #endif  // P2P_BASE_FAKE_ICE_TRANSPORT_H_
	/*
	* 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_ICE_TRANSPORT_H_
	#define P2P_BASE_FAKE_ICE_TRANSPORT_H_

	#include <map>
	#include <memory>
	#include <string>
	#include <utility>

	#include "absl/algorithm/container.h"
	#include "absl/types/optional.h"
	#include "api/ice_transport_interface.h"
	#include "p2p/base/ice_transport_internal.h"
	#include "rtc_base/async_invoker.h"
	#include "rtc_base/copy_on_write_buffer.h"

	namespace cricket {

	class FakeIceTransport : public IceTransportInternal {
	public:
	explicit FakeIceTransport(const std::string& name,
	int component,
	rtc::Thread* network_thread = nullptr)
	: name_(name),
	component_(component),
	network_thread_(network_thread ? network_thread
	: rtc::Thread::Current()) {}
	~FakeIceTransport() override {
	if (dest_ && dest_->dest_ == this) {
	dest_->dest_ = nullptr;
	}
	}

	// If async, will send packets by "Post"-ing to message queue instead of
	// synchronously "Send"-ing.
	void SetAsync(bool async) { async_ = async; }
	void SetAsyncDelay(int delay_ms) { async_delay_ms_ = 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) { set_writable(writable); }
	void SetReceiving(bool receiving) { set_receiving(receiving); }

	// Simulates the two transports connecting to each other.
	// If \|asymmetric\| is true this method only affects this FakeIceTransport.
	// If false, it affects \|dest\| as well.
	void SetDestination(FakeIceTransport* dest, bool asymmetric = false) {
	if (dest == dest_) {
	return;
	}
	RTC_DCHECK(!dest \|\| !dest_)
	<< "Changing fake destination from one to another is not supported.";
	if (dest) {
	// This simulates the delivery of candidates.
	dest_ = dest;
	set_writable(true);
	if (!asymmetric) {
	dest->SetDestination(this, true);
	}
	} else {
	// Simulates loss of connectivity, by asymmetrically forgetting dest_.
	dest_ = nullptr;
	set_writable(false);
	}
	}

	void SetTransportState(webrtc::IceTransportState state,
	IceTransportState legacy_state) {
	transport_state_ = state;
	legacy_transport_state_ = legacy_state;
	SignalIceTransportStateChanged(this);
	}

	void SetConnectionCount(size_t connection_count) {
	size_t old_connection_count = connection_count_;
	connection_count_ = connection_count;
	if (connection_count) {
	had_connection_ = true;
	}
	// In this fake transport channel, \|connection_count_\| determines the
	// transport state.
	if (connection_count_ < old_connection_count) {
	SignalStateChanged(this);
	}
	}

	void SetCandidatesGatheringComplete() {
	if (gathering_state_ != kIceGatheringComplete) {
	gathering_state_ = kIceGatheringComplete;
	SignalGatheringState(this);
	}
	}

	// Convenience functions for accessing ICE config and other things.
	int receiving_timeout() const {
	return ice_config_.receiving_timeout_or_default();
	}
	bool gather_continually() const { return ice_config_.gather_continually(); }
	const Candidates& remote_candidates() const { return remote_candidates_; }

	// Fake IceTransportInternal implementation.
	const std::string& transport_name() const override { return name_; }
	int component() const override { return component_; }
	uint64_t IceTiebreaker() const { return tiebreaker_; }
	IceMode remote_ice_mode() const { return remote_ice_mode_; }
	const std::string& ice_ufrag() const { return ice_parameters_.ufrag; }
	const std::string& ice_pwd() const { return ice_parameters_.pwd; }
	const std::string& remote_ice_ufrag() const {
	return remote_ice_parameters_.ufrag;
	}
	const std::string& remote_ice_pwd() const {
	return remote_ice_parameters_.pwd;
	}
	const IceParameters& ice_parameters() const { return ice_parameters_; }
	const IceParameters& remote_ice_parameters() const {
	return remote_ice_parameters_;
	}

	IceTransportState GetState() const override {
	if (legacy_transport_state_) {
	return *legacy_transport_state_;
	}

	if (connection_count_ == 0) {
	return had_connection_ ? IceTransportState::STATE_FAILED
	: IceTransportState::STATE_INIT;
	}

	if (connection_count_ == 1) {
	return IceTransportState::STATE_COMPLETED;
	}

	return IceTransportState::STATE_CONNECTING;
	}

	webrtc::IceTransportState GetIceTransportState() const override {
	if (transport_state_) {
	return *transport_state_;
	}

	if (connection_count_ == 0) {
	return had_connection_ ? webrtc::IceTransportState::kFailed
	: webrtc::IceTransportState::kNew;
	}

	if (connection_count_ == 1) {
	return webrtc::IceTransportState::kCompleted;
	}

	return webrtc::IceTransportState::kConnected;
	}

	void SetIceRole(IceRole role) override { role_ = role; }
	IceRole GetIceRole() const override { return role_; }
	void SetIceTiebreaker(uint64_t tiebreaker) override {
	tiebreaker_ = tiebreaker;
	}
	void SetIceParameters(const IceParameters& ice_params) override {
	ice_parameters_ = ice_params;
	}
	void SetRemoteIceParameters(const IceParameters& params) override {
	remote_ice_parameters_ = params;
	}

	void SetRemoteIceMode(IceMode mode) override { remote_ice_mode_ = mode; }

	void MaybeStartGathering() override {
	if (gathering_state_ == kIceGatheringNew) {
	gathering_state_ = kIceGatheringGathering;
	SignalGatheringState(this);
	}
	}

	IceGatheringState gathering_state() const override {
	return gathering_state_;
	}

	void SetIceConfig(const IceConfig& config) override { ice_config_ = config; }

	void AddRemoteCandidate(const Candidate& candidate) override {
	remote_candidates_.push_back(candidate);
	}
	void RemoveRemoteCandidate(const Candidate& candidate) override {
	auto it = absl::c_find(remote_candidates_, candidate);
	if (it == remote_candidates_.end()) {
	RTC_LOG(LS_INFO) << "Trying to remove a candidate which doesn't exist.";
	return;
	}

	remote_candidates_.erase(it);
	}

	void RemoveAllRemoteCandidates() override { remote_candidates_.clear(); }

	bool GetStats(IceTransportStats* ice_transport_stats) override {
	CandidateStats candidate_stats;
	ConnectionInfo candidate_pair_stats;
	ice_transport_stats->candidate_stats_list.clear();
	ice_transport_stats->candidate_stats_list.push_back(candidate_stats);
	ice_transport_stats->connection_infos.clear();
	ice_transport_stats->connection_infos.push_back(candidate_pair_stats);
	return true;
	}

	absl::optional<int> GetRttEstimate() override { return absl::nullopt; }

	const Connection* selected_connection() const override { return nullptr; }
	absl::optional<const CandidatePair> GetSelectedCandidatePair()
	const override {
	return absl::nullopt;
	}

	// Fake PacketTransportInternal implementation.
	bool writable() const override { return writable_; }
	bool receiving() const override { return receiving_; }
	// If combine is enabled, every two consecutive packets to be sent with
	// "SendPacket" will be combined into one outgoing packet.
	void combine_outgoing_packets(bool combine) {
	combine_outgoing_packets_ = combine;
	}
	int SendPacket(const char* data,
	size_t len,
	const rtc::PacketOptions& options,
	int flags) override {
	if (!dest_) {
	return -1;
	}

	send_packet_.AppendData(data, len);
	if (!combine_outgoing_packets_ \|\| send_packet_.size() > len) {
	rtc::CopyOnWriteBuffer packet(std::move(send_packet_));
	if (async_) {
	invoker_.AsyncInvokeDelayed<void>(
	RTC_FROM_HERE, rtc::Thread::Current(),
	rtc::Bind(&FakeIceTransport::SendPacketInternal, this, packet),
	async_delay_ms_);
	} else {
	SendPacketInternal(packet);
	}
	}
	rtc::SentPacket sent_packet(options.packet_id, rtc::TimeMillis());
	SignalSentPacket(this, sent_packet);
	return static_cast<int>(len);
	}

	int SetOption(rtc::Socket::Option opt, int value) override {
	socket_options_[opt] = value;
	return true;
	}
	bool GetOption(rtc::Socket::Option opt, int* value) override {
	auto it = socket_options_.find(opt);
	if (it != socket_options_.end()) {
	*value = it->second;
	return true;
	} else {
	return false;
	}
	}

	int GetError() override { return 0; }

	rtc::CopyOnWriteBuffer last_sent_packet() { return last_sent_packet_; }

	absl::optional<rtc::NetworkRoute> network_route() const override {
	return network_route_;
	}
	void SetNetworkRoute(absl::optional<rtc::NetworkRoute> network_route) {
	network_route_ = network_route;
	network_thread_->Invoke<void>(
	RTC_FROM_HERE, [this] { SignalNetworkRouteChanged(network_route_); });
	}

	private:
	void set_writable(bool writable) {
	if (writable_ == writable) {
	return;
	}
	RTC_LOG(INFO) << "Change writable_ to " << writable;
	writable_ = writable;
	if (writable_) {
	SignalReadyToSend(this);
	}
	SignalWritableState(this);
	}

	void set_receiving(bool receiving) {
	if (receiving_ == receiving) {
	return;
	}
	receiving_ = receiving;
	SignalReceivingState(this);
	}

	void SendPacketInternal(const rtc::CopyOnWriteBuffer& packet) {
	if (dest_) {
	last_sent_packet_ = packet;
	dest_->SignalReadPacket(dest_, packet.data<char>(), packet.size(),
	rtc::TimeMicros(), 0);
	}
	}

	rtc::AsyncInvoker invoker_;
	std::string name_;
	int component_;
	FakeIceTransport* dest_ = nullptr;
	bool async_ = false;
	int async_delay_ms_ = 0;
	Candidates remote_candidates_;
	IceConfig ice_config_;
	IceRole role_ = ICEROLE_UNKNOWN;
	uint64_t tiebreaker_ = 0;
	IceParameters ice_parameters_;
	IceParameters remote_ice_parameters_;
	IceMode remote_ice_mode_ = ICEMODE_FULL;
	size_t connection_count_ = 0;
	absl::optional<webrtc::IceTransportState> transport_state_;
	absl::optional<IceTransportState> legacy_transport_state_;
	IceGatheringState gathering_state_ = kIceGatheringNew;
	bool had_connection_ = false;
	bool writable_ = false;
	bool receiving_ = false;
	bool combine_outgoing_packets_ = false;
	rtc::CopyOnWriteBuffer send_packet_;
	absl::optional<rtc::NetworkRoute> network_route_;
	std::map<rtc::Socket::Option, int> socket_options_;
	rtc::CopyOnWriteBuffer last_sent_packet_;
	rtc::Thread* const network_thread_;
	};

	class FakeIceTransportWrapper : public webrtc::IceTransportInterface {
	public:
	explicit FakeIceTransportWrapper(
	std::unique_ptr<cricket::FakeIceTransport> internal)
	: internal_(std::move(internal)) {}

	cricket::IceTransportInternal* internal() override { return internal_.get(); }

	private:
	std::unique_ptr<cricket::FakeIceTransport> internal_;
	};

	} // namespace cricket

	#endif // P2P_BASE_FAKE_ICE_TRANSPORT_H_