/* * Copyright 2010 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_PORT_ALLOCATOR_H_ #define P2P_BASE_FAKE_PORT_ALLOCATOR_H_ #include #include #include #include #include "absl/strings/string_view.h" #include "p2p/base/basic_packet_socket_factory.h" #include "p2p/base/port_allocator.h" #include "p2p/base/udp_port.h" #include "rtc_base/memory/always_valid_pointer.h" #include "rtc_base/net_helpers.h" #include "rtc_base/task_queue_for_test.h" #include "rtc_base/thread.h" #include "test/scoped_key_value_config.h" namespace rtc { class SocketFactory; } namespace cricket { class TestUDPPort : public UDPPort { public: static TestUDPPort* Create(rtc::Thread* thread, rtc::PacketSocketFactory* factory, const rtc::Network* network, uint16_t min_port, uint16_t max_port, absl::string_view username, absl::string_view password, bool emit_localhost_for_anyaddress, const webrtc::FieldTrialsView* field_trials) { TestUDPPort* port = new TestUDPPort(thread, factory, network, min_port, max_port, username, password, emit_localhost_for_anyaddress, field_trials); if (!port->Init()) { delete port; port = nullptr; } return port; } protected: TestUDPPort(rtc::Thread* thread, rtc::PacketSocketFactory* factory, const rtc::Network* network, uint16_t min_port, uint16_t max_port, absl::string_view username, absl::string_view password, bool emit_localhost_for_anyaddress, const webrtc::FieldTrialsView* field_trials) : UDPPort(thread, factory, network, min_port, max_port, username, password, emit_localhost_for_anyaddress, field_trials) {} }; // A FakePortAllocatorSession can be used with either a real or fake socket // factory. It gathers a single loopback port, using IPv6 if available and // not disabled. class FakePortAllocatorSession : public PortAllocatorSession { public: FakePortAllocatorSession(PortAllocator* allocator, rtc::Thread* network_thread, rtc::PacketSocketFactory* factory, absl::string_view content_name, int component, absl::string_view ice_ufrag, absl::string_view ice_pwd, const webrtc::FieldTrialsView& field_trials) : PortAllocatorSession(content_name, component, ice_ufrag, ice_pwd, allocator->flags()), network_thread_(network_thread), factory_(factory), ipv4_network_("network", "unittest", rtc::IPAddress(INADDR_LOOPBACK), 32), ipv6_network_("network", "unittest", rtc::IPAddress(in6addr_loopback), 64), port_(), port_config_count_(0), stun_servers_(allocator->stun_servers()), turn_servers_(allocator->turn_servers()), field_trials_(field_trials) { ipv4_network_.AddIP(rtc::IPAddress(INADDR_LOOPBACK)); ipv6_network_.AddIP(rtc::IPAddress(in6addr_loopback)); set_ice_tiebreaker(/*kTiebreakerDefault = */ 44444); } void SetCandidateFilter(uint32_t filter) override { candidate_filter_ = filter; } void StartGettingPorts() override { if (!port_) { rtc::Network& network = (rtc::HasIPv6Enabled() && (flags() & PORTALLOCATOR_ENABLE_IPV6)) ? ipv6_network_ : ipv4_network_; port_.reset(TestUDPPort::Create(network_thread_, factory_, &network, 0, 0, username(), password(), false, &field_trials_)); RTC_DCHECK(port_); port_->SetIceTiebreaker(ice_tiebreaker()); port_->SubscribePortDestroyed( [this](PortInterface* port) { OnPortDestroyed(port); }); AddPort(port_.get()); } ++port_config_count_; running_ = true; } void StopGettingPorts() override { running_ = false; } bool IsGettingPorts() override { return running_; } void ClearGettingPorts() override { is_cleared = true; } bool IsCleared() const override { return is_cleared; } void RegatherOnFailedNetworks() override { SignalIceRegathering(this, IceRegatheringReason::NETWORK_FAILURE); } std::vector ReadyPorts() const override { return ready_ports_; } std::vector ReadyCandidates() const override { return candidates_; } void PruneAllPorts() override { port_->Prune(); } bool CandidatesAllocationDone() const override { return allocation_done_; } int port_config_count() { return port_config_count_; } const ServerAddresses& stun_servers() const { return stun_servers_; } const std::vector& turn_servers() const { return turn_servers_; } uint32_t candidate_filter() const { return candidate_filter_; } int transport_info_update_count() const { return transport_info_update_count_; } protected: void UpdateIceParametersInternal() override { // Since this class is a fake and this method only is overridden for tests, // we don't need to actually update the transport info. ++transport_info_update_count_; } private: void AddPort(cricket::Port* port) { port->set_component(component()); port->set_generation(generation()); port->SignalPortComplete.connect(this, &FakePortAllocatorSession::OnPortComplete); port->PrepareAddress(); ready_ports_.push_back(port); SignalPortReady(this, port); port->KeepAliveUntilPruned(); } void OnPortComplete(cricket::Port* port) { const std::vector& candidates = port->Candidates(); candidates_.insert(candidates_.end(), candidates.begin(), candidates.end()); SignalCandidatesReady(this, candidates); allocation_done_ = true; SignalCandidatesAllocationDone(this); } void OnPortDestroyed(cricket::PortInterface* port) { // Don't want to double-delete port if it deletes itself. port_.release(); } rtc::Thread* network_thread_; rtc::PacketSocketFactory* factory_; rtc::Network ipv4_network_; rtc::Network ipv6_network_; std::unique_ptr port_; int port_config_count_; std::vector candidates_; std::vector ready_ports_; bool allocation_done_ = false; bool is_cleared = false; ServerAddresses stun_servers_; std::vector turn_servers_; uint32_t candidate_filter_ = CF_ALL; int transport_info_update_count_ = 0; bool running_ = false; const webrtc::FieldTrialsView& field_trials_; }; class FakePortAllocator : public cricket::PortAllocator { public: FakePortAllocator(rtc::Thread* network_thread, rtc::PacketSocketFactory* factory) : FakePortAllocator(network_thread, factory, nullptr) {} FakePortAllocator(rtc::Thread* network_thread, std::unique_ptr factory) : FakePortAllocator(network_thread, nullptr, std::move(factory)) {} void SetNetworkIgnoreMask(int network_ignore_mask) override {} cricket::PortAllocatorSession* CreateSessionInternal( absl::string_view content_name, int component, absl::string_view ice_ufrag, absl::string_view ice_pwd) override { return new FakePortAllocatorSession( this, network_thread_, factory_.get(), std::string(content_name), component, std::string(ice_ufrag), std::string(ice_pwd), field_trials_); } bool initialized() const { return initialized_; } // For testing: Manipulate MdnsObfuscationEnabled() bool MdnsObfuscationEnabled() const override { return mdns_obfuscation_enabled_; } void SetMdnsObfuscationEnabledForTesting(bool enabled) { mdns_obfuscation_enabled_ = enabled; } private: FakePortAllocator(rtc::Thread* network_thread, rtc::PacketSocketFactory* factory, std::unique_ptr owned_factory) : network_thread_(network_thread), factory_(std::move(owned_factory), factory) { if (network_thread_ == nullptr) { network_thread_ = rtc::Thread::Current(); Initialize(); return; } SendTask(network_thread_, [this] { Initialize(); }); } webrtc::test::ScopedKeyValueConfig field_trials_; rtc::Thread* network_thread_; const webrtc::AlwaysValidPointerNoDefault factory_; bool mdns_obfuscation_enabled_ = false; }; } // namespace cricket #endif // P2P_BASE_FAKE_PORT_ALLOCATOR_H_