// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // Copyright (c) 2001-2009 XORP, Inc. // // This program is free software; you can redistribute it and/or modify // it under the terms of the GNU General Public License, Version 2, June // 1991 as published by the Free Software Foundation. Redistribution // and/or modification of this program under the terms of any other // version of the GNU General Public License is not permitted. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For more details, // see the GNU General Public License, Version 2, a copy of which can be // found in the XORP LICENSE.gpl file. // // XORP Inc, 2953 Bunker Hill Lane, Suite 204, Santa Clara, CA 95054, USA; // http://xorp.net // $XORP: xorp/bgp/socket.hh,v 1.25 2009/01/05 18:30:43 jtc Exp $ #ifndef __BGP_SOCKET_HH__ #define __BGP_SOCKET_HH__ // #define DEBUG_PEERNAME #include "libxorp/xorp.h" #include "libxorp/debug.h" #include "libxorp/exceptions.hh" #include "libxorp/xorpfd.hh" #include "libxorp/eventloop.hh" #include "libxorp/asyncio.hh" #include "libxorp/callback.hh" #ifdef HAVE_NETDB_H #include <netdb.h> #endif #ifdef HAVE_SYS_SOCKET_H #include <sys/socket.h> #endif #ifdef HAVE_SYS_UN_H #include <sys/un.h> #endif #ifdef HAVE_NETINET_IN_H #include <netinet/in.h> #endif #include "packet.hh" #include "iptuple.hh" /* **************** BGPSocket *********************** */ class Socket { public: static const int MAX_LISTEN_QUEUE = 5; Socket(const Iptuple& iptuple, EventLoop& e); /** * Given an address (IPv4 or IPv6) symbolic or numeric fill in the * provided structure. * * Note: This method is provided as a service to other code and is * no longer used by this class. Don't remove it as the test code * uses it. */ static void init_sockaddr(string addr, uint16_t local_port, struct sockaddr_storage& ss, size_t& len); // void set_eventloop(EventLoop *evt) {_eventloop = evt;} EventLoop& eventloop() {return _eventloop;} XorpFd get_sock() { return _s; } void create_listener(); /* Intended for debugging use only */ void set_remote_host(const char *s) {_remote_host = s;} const char *get_remote_host() {return _remote_host.c_str();} protected: void set_sock(XorpFd s) { _s = s; } void close_socket(); void create_socket(const struct sockaddr *sin, int is_blocking); const struct sockaddr *get_local_socket(size_t& len) { return _iptuple.get_local_socket(len); } string get_local_addr() {return _iptuple.get_local_addr();} uint16_t get_local_port() {return _iptuple.get_local_port();} const struct sockaddr *get_bind_socket(size_t& len) { return _iptuple.get_bind_socket(len); } const struct sockaddr *get_remote_socket(size_t& len) { return _iptuple.get_peer_socket(len); } string get_remote_addr() {return _iptuple.get_peer_addr();} uint16_t get_remote_port() {return _iptuple.get_peer_port();} private: XorpFd _s; /* ** All in network byte order. */ const Iptuple _iptuple; EventLoop& _eventloop; /* ** Remote host. For debugging only */ string _remote_host; }; class SocketClient : public Socket { public: /** * @param iptuple specification of the connection endpoints. */ SocketClient(const Iptuple& iptuple, EventLoop& e, bool md5sig = false); ~SocketClient(); /** * Callback for connection attempts. */ typedef XorpCallback1<void, bool>::RefPtr ConnectCallback; /** * Asynchronously connect. * * @param cb is called when connection suceeds or fails. */ void connect(ConnectCallback cb); /** * Break asynchronous connect attempt. * * Each instance of the this class has a single connection * associated with it. If while we are attemping to connect to a * peer (using connect()), the peer connects to us. It is * necessary to stop the outgoing connect. */ void connect_break(); /** * The peer has initiated the connection so form an association. * * @param s incoming socket file descriptor */ void connected(XorpFd s); /** * Throw away all the data that is queued to be sent on this socket. */ void flush_transmit_queue(); /** * Stop reading data on this socket. */ void stop_reader() {async_remove_reader();} /** * Disconnect this socket. */ void disconnect(); /** * @return Are we currrent disconecting. */ bool disconnecting() {return _disconnecting;} /** * Callback for incoming data. * * @param const uint8_t* pointer to data. * @param size_t length of data. */ typedef XorpCallback4<bool,BGPPacket::Status,const uint8_t*,size_t, SocketClient*>::RefPtr MessageCallback; /** * Set the callback for incoming data. */ void set_callback(const MessageCallback& cb) {_callback = cb;} enum Event { DATA = AsyncFileWriter::DATA, FLUSHING = AsyncFileWriter::FLUSHING, ERROR = AsyncFileWriter::OS_ERROR }; /** * Callback for data transmission. * * @param Event status of the send. * @param const uint8_t* pointer to the transmitted data. Allows * caller to free the data. */ typedef XorpCallback2<void,Event,const uint8_t*>::RefPtr SendCompleteCallback; /** * Asynchronously Send a message. * * @param buf pointer to data buffer. * @param cnt length of data buffer. * @param cb notification of success or failure. * * @return true if the message is accepted. * */ bool send_message(const uint8_t* buf, size_t cnt, SendCompleteCallback cb); /** * Flow control signal. * * Data will be queued for transmission until a resource such as * memory is exceeded. A correctly written client should stop * sending messages if the output queue is not draining. * * @return true if its time to stop sending messages. */ bool output_queue_busy() const; /** * @return number of messages in the output queue. */ int output_queue_size() const; /** * @return true if a session exists. */ bool is_connected(); /** * @return true if we are still reading. */ bool still_reading(); protected: private: void connect_socket(XorpFd sock, string raddr, uint16_t port, string laddr, ConnectCallback cb); void connect_socket_complete(XorpFd fd, IoEventType type, ConnectCallback cb); void connect_socket_break(); void async_add(XorpFd sock); void async_remove(); void async_remove_reader(); void read_from_server(XorpFd sock); void write_to_server(XorpFd sock); void send_message_complete(AsyncFileWriter::Event e, const uint8_t* buf, const size_t buf_bytes, const size_t offset, SendCompleteCallback cb); void async_read_start(size_t cnt = BGPPacket::COMMON_HEADER_LEN, size_t ofset = 0); void async_read_message(AsyncFileWriter::Event ev, const uint8_t *buf, const size_t buf_bytes, const size_t offset); MessageCallback _callback; AsyncFileWriter *_async_writer; AsyncFileReader *_async_reader; bool _disconnecting; bool _connecting; bool _md5sig; uint8_t _read_buf[BGPPacket::MAXPACKETSIZE]; // Maximum allowed BGP message }; class SocketServer : public Socket { public: SocketServer(EventLoop& e); SocketServer(const Iptuple& iptuple, EventLoop& e); }; #endif // __BGP_SOCKET_HH__