/* 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 . */ #include "../include/zmq.h" #include "rep.hpp" #include "err.hpp" #include "pipe.hpp" zmq::rep_t::rep_t (class app_thread_t *parent_) : socket_base_t (parent_), active (0), current (0), sending_reply (false), more (false), reply_pipe (NULL) { options.requires_in = true; options.requires_out = true; // We don't need immediate connect. We'll be able to send messages // (replies) only when connection is established and thus requests // can arrive anyway. options.immediate_connect = false; } zmq::rep_t::~rep_t () { } void zmq::rep_t::xattach_pipes (class reader_t *inpipe_, class writer_t *outpipe_, const blob_t &peer_identity_) { zmq_assert (inpipe_ && outpipe_); zmq_assert (in_pipes.size () == out_pipes.size ()); in_pipes.push_back (inpipe_); in_pipes.swap (active, in_pipes.size () - 1); out_pipes.push_back (outpipe_); out_pipes.swap (active, out_pipes.size () - 1); active++; } void zmq::rep_t::xdetach_inpipe (class reader_t *pipe_) { zmq_assert (sending_reply || !more || in_pipes [current] != pipe_); zmq_assert (pipe_); zmq_assert (in_pipes.size () == out_pipes.size ()); in_pipes_t::size_type index = in_pipes.index (pipe_); if (index < active) { active--; if (current == active) current = 0; } if (out_pipes [index]) out_pipes [index]->term (); in_pipes.erase (index); out_pipes.erase (index); } void zmq::rep_t::xdetach_outpipe (class writer_t *pipe_) { zmq_assert (pipe_); zmq_assert (in_pipes.size () == out_pipes.size ()); out_pipes_t::size_type index = out_pipes.index (pipe_); // If the connection we've got the request from disconnects, // there's nowhere to send the reply. Forget about the reply pipe. // Once the reply is sent it will be dropped. if (sending_reply && pipe_ == reply_pipe) reply_pipe = NULL; if (out_pipes.index (pipe_) < active) { active--; if (current == active) current = 0; } if (in_pipes [index]) in_pipes [index]->term (); in_pipes.erase (index); out_pipes.erase (index); } void zmq::rep_t::xkill (class reader_t *pipe_) { // Move the pipe to the list of inactive pipes. in_pipes_t::size_type index = in_pipes.index (pipe_); active--; in_pipes.swap (index, active); out_pipes.swap (index, active); } void zmq::rep_t::xrevive (class reader_t *pipe_) { // Move the pipe to the list of active pipes. in_pipes_t::size_type index = in_pipes.index (pipe_); in_pipes.swap (index, active); out_pipes.swap (index, active); active++; } void zmq::rep_t::xrevive (class writer_t *pipe_) { } int zmq::rep_t::xsetsockopt (int option_, const void *optval_, size_t optvallen_) { errno = EINVAL; return -1; } int zmq::rep_t::xsend (zmq_msg_t *msg_, int flags_) { if (!sending_reply) { errno = EFSM; return -1; } if (reply_pipe) { // Push message to the reply pipe. bool written = reply_pipe->write (msg_); zmq_assert (!more || written); // The pipe is full... // When this happens, we simply return an error. // This makes REP sockets vulnerable to DoS attack when // misbehaving requesters stop collecting replies. // TODO: Tear down the underlying connection (?) if (!written) { errno = EAGAIN; return -1; } more = msg_->flags & ZMQ_MSG_MORE; } else { // If the requester have disconnected in the meantime, drop the reply. more = msg_->flags & ZMQ_MSG_MORE; zmq_msg_close (msg_); } // Flush the reply to the requester. if (!more) { if (reply_pipe) reply_pipe->flush (); sending_reply = false; reply_pipe = NULL; } // Detach the message from the data buffer. int rc = zmq_msg_init (msg_); zmq_assert (rc == 0); return 0; } int zmq::rep_t::xrecv (zmq_msg_t *msg_, int flags_) { // If we are in middle of sending a reply, we cannot receive next request. if (sending_reply) { errno = EFSM; return -1; } // Deallocate old content of the message. zmq_msg_close (msg_); // We haven't started reading a request yet... if (!more) { // Round-robin over the pipes to get next message. int count; for (count = active; count != 0; count--) { if (in_pipes [current]->read (msg_)) break; current++; if (current >= active) current = 0; } // No message is available. Initialise the output parameter // to be a 0-byte message. if (count == 0) { zmq_msg_init (msg_); errno = EAGAIN; return -1; } // We are aware of a new message now. Setup the reply pipe. reply_pipe = out_pipes [current]; // Copy the routing info to the reply pipe. while (true) { // Push message to the reply pipe. // TODO: What if the pipe is full? // Tear down the underlying connection? bool written = reply_pipe->write (msg_); zmq_assert (written); // Message part of zero size delimits the traceback stack. if (zmq_msg_size (msg_) == 0) break; // Get next part of the message. bool fetched = in_pipes [current]->read (msg_); zmq_assert (fetched); } } // Now the routing info is processed. Get the first part // of the message payload and exit. bool fetched = in_pipes [current]->read (msg_); zmq_assert (fetched); more = msg_->flags & ZMQ_MSG_MORE; if (!more) { current++; if (current >= active) current = 0; sending_reply = true; } return 0; } bool zmq::rep_t::xhas_in () { if (sending_reply) return false; if (more) return true; for (int count = active; count != 0; count--) { if (in_pipes [current]->check_read ()) return !sending_reply; current++; if (current >= active) current = 0; } return false; } bool zmq::rep_t::xhas_out () { if (!sending_reply) return false; if (more) return true; // TODO: No check for write here... return sending_reply; }