/* Copyright (c) 2009-2012 250bpm s.r.o. Copyright (c) 2007-2009 iMatix Corporation Copyright (c) 2007-2011 Other contributors as noted in the AUTHORS file This file is part of Crossroads I/O project. Crossroads I/O is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Crossroads 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. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see . */ #ifndef __XS_OBJECT_HPP_INCLUDED__ #define __XS_OBJECT_HPP_INCLUDED__ #include "../include/xs/xs.h" #include "stdint.hpp" namespace xs { struct i_engine; struct endpoint_t; struct command_t; class ctx_t; class pipe_t; class socket_base_t; class session_base_t; class io_thread_t; class own_t; // Base class for all objects that participate in inter-thread // communication. class object_t { public: object_t (xs::ctx_t *ctx_, uint32_t tid_); object_t (object_t *parent_); virtual ~object_t (); uint32_t get_tid (); ctx_t *get_ctx (); void process_command (xs::command_t &cmd_); protected: // Using following function, socket is able to access global // repository of inproc endpoints. int register_endpoint (const char *addr_, xs::endpoint_t &endpoint_); void unregister_endpoints (xs::socket_base_t *socket_); xs::endpoint_t find_endpoint (const char *addr_); void destroy_socket (xs::socket_base_t *socket_); // Chooses least loaded I/O thread. xs::io_thread_t *choose_io_thread (uint64_t affinity_); // Functions related to extensions. xs_filter_t *get_filter (int filter_id_); // Derived object can use these functions to send commands // to other objects. void send_stop (); void send_plug (xs::own_t *destination_, bool inc_seqnum_ = true); void send_attach (xs::session_base_t *destination_, xs::i_engine *engine_, bool inc_seqnum_ = true); void send_bind (xs::own_t *destination_, xs::pipe_t *pipe_, bool inc_seqnum_ = true); void send_activate_read (xs::pipe_t *destination_); void send_activate_write (xs::pipe_t *destination_, uint64_t msgs_read_); void send_hiccup (xs::pipe_t *destination_, void *pipe_); void send_pipe_term (xs::pipe_t *destination_); void send_pipe_term_ack (xs::pipe_t *destination_); void send_term_req (xs::own_t *destination_, xs::own_t *object_); void send_term (xs::own_t *destination_, int linger_); void send_term_ack (xs::own_t *destination_); void send_reap (xs::socket_base_t *socket_); void send_reaped (); void send_done (); // These handlers can be overloaded by the derived objects. They are // called when command arrives from another thread. virtual void process_stop (); virtual void process_plug (); virtual void process_attach (xs::i_engine *engine_); virtual void process_bind (xs::pipe_t *pipe_); virtual void process_activate_read (); virtual void process_activate_write (uint64_t msgs_read_); virtual void process_hiccup (void *pipe_); virtual void process_pipe_term (); virtual void process_pipe_term_ack (); virtual void process_term_req (xs::own_t *object_); virtual void process_term (int linger_); virtual void process_term_ack (); virtual void process_reap (xs::socket_base_t *socket_); virtual void process_reaped (); // Special handler called after a command that requires a seqnum // was processed. The implementation should catch up with its counter // of processed commands here. virtual void process_seqnum (); private: // Context provides access to the global state. xs::ctx_t *ctx; // Thread ID of the thread the object belongs to. uint32_t tid; void send_command (command_t &cmd_); object_t (const object_t&); const object_t &operator = (const object_t&); }; } #endif