/* * Copyright 2004 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 RTC_BASE_VIRTUAL_SOCKET_SERVER_H_ #define RTC_BASE_VIRTUAL_SOCKET_SERVER_H_ #include #include #include #include "rtc_base/checks.h" #include "rtc_base/event.h" #include "rtc_base/fake_clock.h" #include "rtc_base/message_handler.h" #include "rtc_base/socket_server.h" #include "rtc_base/synchronization/mutex.h" namespace rtc { class Packet; class VirtualSocketServer; class SocketAddressPair; // Implements the socket interface using the virtual network. Packets are // passed as messages using the message queue of the socket server. class VirtualSocket : public Socket, public MessageHandler, public sigslot::has_slots<> { public: VirtualSocket(VirtualSocketServer* server, int family, int type); ~VirtualSocket() override; SocketAddress GetLocalAddress() const override; SocketAddress GetRemoteAddress() const override; int Bind(const SocketAddress& addr) override; int Connect(const SocketAddress& addr) override; int Close() override; int Send(const void* pv, size_t cb) override; int SendTo(const void* pv, size_t cb, const SocketAddress& addr) override; int Recv(void* pv, size_t cb, int64_t* timestamp) override; int RecvFrom(void* pv, size_t cb, SocketAddress* paddr, int64_t* timestamp) override; int Listen(int backlog) override; VirtualSocket* Accept(SocketAddress* paddr) override; int GetError() const override; void SetError(int error) override; ConnState GetState() const override; int GetOption(Option opt, int* value) override; int SetOption(Option opt, int value) override; void OnMessage(Message* pmsg) override; size_t recv_buffer_size() const { return recv_buffer_size_; } size_t send_buffer_size() const { return send_buffer_.size(); } const char* send_buffer_data() const { return send_buffer_.data(); } // Used by server sockets to set the local address without binding. void SetLocalAddress(const SocketAddress& addr); bool was_any() { return was_any_; } void set_was_any(bool was_any) { was_any_ = was_any; } void SetToBlocked(); void UpdateRecv(size_t data_size); void UpdateSend(size_t data_size); void MaybeSignalWriteEvent(size_t capacity); // Adds a packet to be sent. Returns delay, based on network_size_. uint32_t AddPacket(int64_t cur_time, size_t packet_size); int64_t UpdateOrderedDelivery(int64_t ts); // Removes stale packets from the network. Returns current size. size_t PurgeNetworkPackets(int64_t cur_time); private: struct NetworkEntry { size_t size; int64_t done_time; }; typedef std::deque ListenQueue; typedef std::deque NetworkQueue; typedef std::vector SendBuffer; typedef std::list RecvBuffer; typedef std::map OptionsMap; int InitiateConnect(const SocketAddress& addr, bool use_delay); void CompleteConnect(const SocketAddress& addr); int SendUdp(const void* pv, size_t cb, const SocketAddress& addr); int SendTcp(const void* pv, size_t cb); void OnSocketServerReadyToSend(); VirtualSocketServer* const server_; const int type_; ConnState state_; int error_; SocketAddress local_addr_; SocketAddress remote_addr_; // Pending sockets which can be Accepted std::unique_ptr listen_queue_ RTC_GUARDED_BY(mutex_) RTC_PT_GUARDED_BY(mutex_); // Data which tcp has buffered for sending SendBuffer send_buffer_; // Set to false if the last attempt to send resulted in EWOULDBLOCK. // Set back to true when the socket can send again. bool ready_to_send_ = true; // Mutex to protect the recv_buffer and listen_queue_ webrtc::Mutex mutex_; // Network model that enforces bandwidth and capacity constraints NetworkQueue network_; size_t network_size_; // The scheduled delivery time of the last packet sent on this socket. // It is used to ensure ordered delivery of packets sent on this socket. int64_t last_delivery_time_ = 0; // Data which has been received from the network RecvBuffer recv_buffer_ RTC_GUARDED_BY(mutex_); // The amount of data which is in flight or in recv_buffer_ size_t recv_buffer_size_; // Is this socket bound? bool bound_; // When we bind a socket to Any, VSS's Bind gives it another address. For // dual-stack sockets, we want to distinguish between sockets that were // explicitly given a particular address and sockets that had one picked // for them by VSS. bool was_any_; // Store the options that are set OptionsMap options_map_; }; // Simulates a network in the same manner as a loopback interface. The // interface can create as many addresses as you want. All of the sockets // created by this network will be able to communicate with one another, unless // they are bound to addresses from incompatible families. class VirtualSocketServer : public SocketServer { public: VirtualSocketServer(); // This constructor needs to be used if the test uses a fake clock and // ProcessMessagesUntilIdle, since ProcessMessagesUntilIdle needs a way of // advancing time. explicit VirtualSocketServer(ThreadProcessingFakeClock* fake_clock); ~VirtualSocketServer() override; VirtualSocketServer(const VirtualSocketServer&) = delete; VirtualSocketServer& operator=(const VirtualSocketServer&) = delete; // The default source address specifies which local address to use when a // socket is bound to the 'any' address, e.g. 0.0.0.0. (If not set, the 'any' // address is used as the source address on outgoing virtual packets, exposed // to recipient's RecvFrom). IPAddress GetDefaultSourceAddress(int family); void SetDefaultSourceAddress(const IPAddress& from_addr); // Limits the network bandwidth (maximum bytes per second). Zero means that // all sends occur instantly. Defaults to 0. void set_bandwidth(uint32_t bandwidth) RTC_LOCKS_EXCLUDED(mutex_); // Limits the amount of data which can be in flight on the network without // packet loss (on a per sender basis). Defaults to 64 KB. void set_network_capacity(uint32_t capacity) RTC_LOCKS_EXCLUDED(mutex_); // The amount of data which can be buffered by tcp on the sender's side uint32_t send_buffer_capacity() const RTC_LOCKS_EXCLUDED(mutex_); void set_send_buffer_capacity(uint32_t capacity) RTC_LOCKS_EXCLUDED(mutex_); // The amount of data which can be buffered by tcp on the receiver's side uint32_t recv_buffer_capacity() const RTC_LOCKS_EXCLUDED(mutex_); void set_recv_buffer_capacity(uint32_t capacity) RTC_LOCKS_EXCLUDED(mutex_); // Controls the (transit) delay for packets sent in the network. This does // not inclue the time required to sit in the send queue. Both of these // values are measured in milliseconds. Defaults to no delay. void set_delay_mean(uint32_t delay_mean) RTC_LOCKS_EXCLUDED(mutex_); void set_delay_stddev(uint32_t delay_stddev) RTC_LOCKS_EXCLUDED(mutex_); void set_delay_samples(uint32_t delay_samples) RTC_LOCKS_EXCLUDED(mutex_); // If the (transit) delay parameters are modified, this method should be // called to recompute the new distribution. void UpdateDelayDistribution() RTC_LOCKS_EXCLUDED(mutex_); // Controls the (uniform) probability that any sent packet is dropped. This // is separate from calculations to drop based on queue size. void set_drop_probability(double drop_prob) RTC_LOCKS_EXCLUDED(mutex_); // Controls the maximum UDP payload for the networks simulated // by this server. Any UDP payload sent that is larger than this will // be dropped. void set_max_udp_payload(size_t payload_size) RTC_LOCKS_EXCLUDED(mutex_); // If `blocked` is true, subsequent attempts to send will result in -1 being // returned, with the socket error set to EWOULDBLOCK. // // If this method is later called with `blocked` set to false, any sockets // that previously failed to send with EWOULDBLOCK will emit SignalWriteEvent. // // This can be used to simulate the send buffer on a network interface being // full, and test functionality related to EWOULDBLOCK/SignalWriteEvent. void SetSendingBlocked(bool blocked) RTC_LOCKS_EXCLUDED(mutex_); // SocketFactory: VirtualSocket* CreateSocket(int family, int type) override; // SocketServer: void SetMessageQueue(Thread* queue) override; bool Wait(int cms, bool process_io) override; void WakeUp() override; void SetDelayOnAddress(const rtc::SocketAddress& address, int delay_ms) { delay_by_ip_[address.ipaddr()] = delay_ms; } // Used by TurnPortTest and TcpPortTest (for example), to mimic a case where // a proxy returns the local host address instead of the original one the // port was bound against. Please see WebRTC issue 3927 for more detail. // // If SetAlternativeLocalAddress(A, B) is called, then when something // attempts to bind a socket to address A, it will get a socket bound to // address B instead. void SetAlternativeLocalAddress(const rtc::IPAddress& address, const rtc::IPAddress& alternative); typedef std::pair Point; typedef std::vector Function; static std::unique_ptr CreateDistribution(uint32_t mean, uint32_t stddev, uint32_t samples); // Similar to Thread::ProcessMessages, but it only processes messages until // there are no immediate messages or pending network traffic. Returns false // if Thread::Stop() was called. bool ProcessMessagesUntilIdle(); // Sets the next port number to use for testing. void SetNextPortForTesting(uint16_t port); // Close a pair of Tcp connections by addresses. Both connections will have // its own OnClose invoked. bool CloseTcpConnections(const SocketAddress& addr_local, const SocketAddress& addr_remote); // Number of packets that clients have attempted to send through this virtual // socket server. Intended to be used for test assertions. uint32_t sent_packets() const RTC_LOCKS_EXCLUDED(mutex_); // Assign IP and Port if application's address is unspecified. Also apply // `alternative_address_mapping_`. SocketAddress AssignBindAddress(const SocketAddress& app_addr); // Binds the given socket to the given (fully-defined) address. int Bind(VirtualSocket* socket, const SocketAddress& addr); int Unbind(const SocketAddress& addr, VirtualSocket* socket); // Adds a mapping between this socket pair and the socket. void AddConnection(const SocketAddress& client, const SocketAddress& server, VirtualSocket* socket); // Connects the given socket to the socket at the given address int Connect(VirtualSocket* socket, const SocketAddress& remote_addr, bool use_delay); // Sends a disconnect message to the socket at the given address bool Disconnect(VirtualSocket* socket); // Lookup address, and disconnect corresponding socket. bool Disconnect(const SocketAddress& addr); // Lookup connection, close corresponding socket. bool Disconnect(const SocketAddress& local_addr, const SocketAddress& remote_addr); // Sends the given packet to the socket at the given address (if one exists). int SendUdp(VirtualSocket* socket, const char* data, size_t data_size, const SocketAddress& remote_addr); // Moves as much data as possible from the sender's buffer to the network void SendTcp(VirtualSocket* socket) RTC_LOCKS_EXCLUDED(mutex_); // Like above, but lookup sender by address. void SendTcp(const SocketAddress& addr) RTC_LOCKS_EXCLUDED(mutex_); // Computes the number of milliseconds required to send a packet of this size. uint32_t SendDelay(uint32_t size) RTC_LOCKS_EXCLUDED(mutex_); // Cancel attempts to connect to a socket that is being closed. void CancelConnects(VirtualSocket* socket); // Clear incoming messages for a socket that is being closed. void Clear(VirtualSocket* socket); void PostSignalReadEvent(VirtualSocket* socket); // Sending was previously blocked, but now isn't. sigslot::signal0<> SignalReadyToSend; protected: // Returns a new IP not used before in this network. IPAddress GetNextIP(int family); // Find the socket bound to the given address VirtualSocket* LookupBinding(const SocketAddress& addr); private: uint16_t GetNextPort(); // Find the socket pair corresponding to this server address. VirtualSocket* LookupConnection(const SocketAddress& client, const SocketAddress& server); void RemoveConnection(const SocketAddress& client, const SocketAddress& server); // Places a packet on the network. void AddPacketToNetwork(VirtualSocket* socket, VirtualSocket* recipient, int64_t cur_time, const char* data, size_t data_size, size_t header_size, bool ordered); // If the delay has been set for the address of the socket, returns the set // delay. Otherwise, returns a random transit delay chosen from the // appropriate distribution. uint32_t GetTransitDelay(Socket* socket); // Basic operations on functions. static std::unique_ptr Accumulate(std::unique_ptr f); static std::unique_ptr Invert(std::unique_ptr f); static std::unique_ptr Resample(std::unique_ptr f, double x1, double x2, uint32_t samples); static double Evaluate(const Function* f, double x); // Determine if two sockets should be able to communicate. // We don't (currently) specify an address family for sockets; instead, // the currently bound address is used to infer the address family. // Any socket that is not explicitly bound to an IPv4 address is assumed to be // dual-stack capable. // This function tests if two addresses can communicate, as well as the // sockets to which they may be bound (the addresses may or may not yet be // bound to the sockets). // First the addresses are tested (after normalization): // If both have the same family, then communication is OK. // If only one is IPv4 then false, unless the other is bound to ::. // This applies even if the IPv4 address is 0.0.0.0. // The socket arguments are optional; the sockets are checked to see if they // were explicitly bound to IPv6-any ('::'), and if so communication is // permitted. // NB: This scheme doesn't permit non-dualstack IPv6 sockets. static bool CanInteractWith(VirtualSocket* local, VirtualSocket* remote); typedef std::map AddressMap; typedef std::map ConnectionMap; // May be null if the test doesn't use a fake clock, or it does but doesn't // use ProcessMessagesUntilIdle. ThreadProcessingFakeClock* fake_clock_ = nullptr; // Used to implement Wait/WakeUp. Event wakeup_; Thread* msg_queue_; bool stop_on_idle_; in_addr next_ipv4_; in6_addr next_ipv6_; uint16_t next_port_; AddressMap* bindings_; ConnectionMap* connections_; IPAddress default_source_address_v4_; IPAddress default_source_address_v6_; mutable webrtc::Mutex mutex_; uint32_t bandwidth_ RTC_GUARDED_BY(mutex_); uint32_t network_capacity_ RTC_GUARDED_BY(mutex_); uint32_t send_buffer_capacity_ RTC_GUARDED_BY(mutex_); uint32_t recv_buffer_capacity_ RTC_GUARDED_BY(mutex_); uint32_t delay_mean_ RTC_GUARDED_BY(mutex_); uint32_t delay_stddev_ RTC_GUARDED_BY(mutex_); uint32_t delay_samples_ RTC_GUARDED_BY(mutex_); // Used for testing. uint32_t sent_packets_ RTC_GUARDED_BY(mutex_) = 0; std::map delay_by_ip_; std::map alternative_address_mapping_; std::unique_ptr delay_dist_; double drop_prob_ RTC_GUARDED_BY(mutex_); // The largest UDP payload permitted on this virtual socket server. // The default is the max size of IPv4 fragmented UDP packet payload: // 65535 bytes - 8 bytes UDP header - 20 bytes IP header. size_t max_udp_payload_ RTC_GUARDED_BY(mutex_) = 65507; bool sending_blocked_ RTC_GUARDED_BY(mutex_) = false; }; } // namespace rtc #endif // RTC_BASE_VIRTUAL_SOCKET_SERVER_H_