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/*
Copyright (c) 2007-2010 iMatix Corporation
This file is part of 0MQ.
0MQ is free software; you can redistribute it and/or modify it under
the terms of the Lesser GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
0MQ 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
Lesser GNU General Public License for more details.
You should have received a copy of the Lesser GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __ZMQ_CTX_HPP_INCLUDED__
#define __ZMQ_CTX_HPP_INCLUDED__
#include <vector>
#include <set>
#include <map>
#include <string>
#include "signaler.hpp"
#include "semaphore.hpp"
#include "ypipe.hpp"
#include "yarray.hpp"
#include "config.hpp"
#include "mutex.hpp"
#include "stdint.hpp"
#include "thread.hpp"
namespace zmq
{
// Context object encapsulates all the global state associated with
// the library.
class ctx_t
{
public:
// Create the context object. The argument specifies the size
// of I/O thread pool to create.
ctx_t (uint32_t io_threads_);
// This function is called when user invokes zmq_term. If there are
// no more sockets open it'll cause all the infrastructure to be shut
// down. If there are open sockets still, the deallocation happens
// after the last one is closed.
int term ();
// Create a socket.
class socket_base_t *create_socket (int type_);
// Make socket a zombie.
void zombify (socket_base_t *socket_);
// Send command to the destination slot.
void send_command (uint32_t slot_, const command_t &command_);
// Receive command from the source slot.
bool recv_command (uint32_t slot_, command_t *command_, bool block_);
// Returns the I/O thread that is the least busy at the moment.
// Taskset specifies which I/O threads are eligible (0 = all).
class io_thread_t *choose_io_thread (uint64_t taskset_);
// Management of inproc endpoints.
int register_endpoint (const char *addr_, class socket_base_t *socket_);
void unregister_endpoints (class socket_base_t *socket_);
class socket_base_t *find_endpoint (const char *addr_);
private:
~ctx_t ();
// Sockets belonging to this context.
typedef yarray_t <socket_base_t> sockets_t;
sockets_t sockets;
// Array of sockets that were already closed but not yet deallocated.
// These sockets still have some pipes and I/O objects attached.
typedef yarray_t <socket_base_t> zombies_t;
zombies_t zombies;
// List of unused slots.
typedef std::vector <uint32_t> emtpy_slots_t;
emtpy_slots_t empty_slots;
// If true, shutdown thread wants to be informed when there are no
// more open sockets. Do so by posting no_sockets_sync semaphore.
// Note that this variable is synchronised by slot_sync mutex.
bool no_sockets_notify;
// Object used by zmq_term to wait while all the sockets are closed
// by different application threads.
semaphore_t no_sockets_sync;
// Synchronisation of accesses to global slot-related data:
// sockets, zombies, empty_slots, terminated. It also synchronises
// access to zombie sockets as such (as oposed to slots) and provides
// a memory barrier to ensure that all CPU cores see the same data.
mutex_t slot_sync;
// This function attempts to deallocate as many zombie sockets as
// possible. It must be called within a slot_sync critical section.
void dezombify ();
// I/O threads.
typedef std::vector <class io_thread_t*> io_threads_t;
io_threads_t io_threads;
// Array of pointers to signalers for both application and I/O threads.
uint32_t slot_count;
signaler_t **slots;
// List of inproc endpoints within this context.
typedef std::map <std::string, class socket_base_t*> endpoints_t;
endpoints_t endpoints;
// Synchronisation of access to the list of inproc endpoints.
mutex_t endpoints_sync;
ctx_t (const ctx_t&);
void operator = (const ctx_t&);
};
}
#endif
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