diff options
Diffstat (limited to 'src/socket_base.cpp')
-rw-r--r-- | src/socket_base.cpp | 460 |
1 files changed, 124 insertions, 336 deletions
diff --git a/src/socket_base.cpp b/src/socket_base.cpp index bb8e7c9..c669e04 100644 --- a/src/socket_base.cpp +++ b/src/socket_base.cpp @@ -27,7 +27,6 @@ #include "dispatcher.hpp" #include "zmq_listener.hpp" #include "zmq_connecter.hpp" -#include "msg_content.hpp" #include "io_thread.hpp" #include "session.hpp" #include "config.hpp" @@ -42,145 +41,28 @@ zmq::socket_base_t::socket_base_t (app_thread_t *parent_, int type_) : object_t (parent_), type (type_), - current (0), - active (0), pending_term_acks (0), ticks (0), app_thread (parent_), - shutting_down (false), - index (-1) + shutting_down (false) { } zmq::socket_base_t::~socket_base_t () { - shutting_down = true; - - // Ask all pipes to terminate. - for (in_pipes_t::iterator it = in_pipes.begin (); - it != in_pipes.end (); it++) - (*it)->term (); - in_pipes.clear (); - for (out_pipes_t::iterator it = out_pipes.begin (); - it != out_pipes.end (); it++) - (*it)->term (); - out_pipes.clear (); - - while (true) { - - // On third pass of the loop there should be no more I/O objects - // because all connecters and listerners were destroyed during - // the first pass and all engines delivered by delayed 'own' commands - // are destroyed during the second pass. - if (io_objects.empty () && !pending_term_acks) - break; - - // Send termination request to all associated I/O objects. - for (io_objects_t::iterator it = io_objects.begin (); - it != io_objects.end (); it++) - send_term (*it); - - // Move the objects to the list of pending term acks. - pending_term_acks += io_objects.size (); - io_objects.clear (); - - // Process commands till we get all the termination acknowledgements. - while (pending_term_acks) - app_thread->process_commands (true, false); - } - - // Check whether there are no session leaks. - sessions_sync.lock (); - zmq_assert (sessions.empty ()); - sessions_sync.unlock (); } int zmq::socket_base_t::setsockopt (int option_, const void *optval_, size_t optvallen_) { - switch (option_) { - - case ZMQ_HWM: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - options.hwm = *((int64_t*) optval_); - return 0; - - case ZMQ_LWM: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - options.lwm = *((int64_t*) optval_); - return 0; - - case ZMQ_SWAP: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - options.swap = *((int64_t*) optval_); - return 0; - - case ZMQ_AFFINITY: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - options.affinity = (uint64_t) *((int64_t*) optval_); - return 0; - - case ZMQ_IDENTITY: - options.identity.assign ((const char*) optval_, optvallen_); - return 0; - - case ZMQ_SUBSCRIBE: - case ZMQ_UNSUBSCRIBE: - errno = EFAULT; - return -1; - - case ZMQ_RATE: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - options.rate = (uint32_t) *((int64_t*) optval_); - return 0; - - case ZMQ_RECOVERY_IVL: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - options.recovery_ivl = (uint32_t) *((int64_t*) optval_); - return 0; - - case ZMQ_MCAST_LOOP: - if (optvallen_ != sizeof (int64_t)) { - errno = EINVAL; - return -1; - } - - if ((int64_t) *((int64_t*) optval_) == 0) { - - options.use_multicast_loop = false; - - } else if ((int64_t) *((int64_t*) optval_) == 1) { - - options.use_multicast_loop = true; - - } else { - errno = EINVAL; - return -1; - } - return 0; - - default: - errno = EINVAL; - return -1; - } + // First, check whether specific socket type overloads the option. + int rc = xsetsockopt (option_, optval_, optvallen_); + if (rc == 0 || errno != EINVAL) + return rc; + + // If the socket type doesn't support the option, pass it to + // the generic option parser. + return options.setsockopt (option_, optval_, optvallen_); } int zmq::socket_base_t::bind (const char *addr_) @@ -251,23 +133,29 @@ int zmq::socket_base_t::connect (const char *addr_) options, true); zmq_assert (session); - // Create inbound pipe. - pipe_t *in_pipe = new pipe_t (this, session, options.hwm, options.lwm); - zmq_assert (in_pipe); - in_pipe->reader.set_endpoint (this); - session->attach_outpipe (&in_pipe->writer); - in_pipes.push_back (&in_pipe->reader); - in_pipes.back ()->set_index (active); - in_pipes [active]->set_index (in_pipes.size () - 1); - std::swap (in_pipes.back (), in_pipes [active]); - active++; - - // Create outbound pipe. - pipe_t *out_pipe = new pipe_t (session, this, options.hwm, options.lwm); - zmq_assert (out_pipe); - out_pipe->writer.set_endpoint (this); - session->attach_inpipe (&out_pipe->reader); - out_pipes.push_back (&out_pipe->writer); + pipe_t *in_pipe = NULL; + pipe_t *out_pipe = NULL; + + // Create inbound pipe, if required. + if (xrequires_in ()) { + in_pipe = new pipe_t (this, session, options.hwm, options.lwm); + zmq_assert (in_pipe); + + } + + // Create outbound pipe, if required. + if (xrequires_out ()) { + out_pipe = new pipe_t (session, this, options.hwm, options.lwm); + zmq_assert (out_pipe); + } + + // Attach the pipes to the socket object. + attach_pipes (in_pipe ? &in_pipe->reader : NULL, + out_pipe ? &out_pipe->writer : NULL); + + // Attach the pipes to the session object. + session->attach_pipes (out_pipe ? &out_pipe->reader : NULL, + in_pipe ? &in_pipe->writer : NULL); // Activate the session. send_plug (session); @@ -294,6 +182,13 @@ int zmq::socket_base_t::connect (const char *addr_) #if defined ZMQ_HAVE_OPENPGM if (addr_type == "pgm" || addr_type == "udp") { + // If the socket type requires bi-directional communication + // multicast is not an option (it is uni-directional). + if (xrequires_in () && xrequires_out ()) { + errno = EFAULT; + return -1; + } + // For udp, pgm transport with udp encapsulation is used. bool udp_encapsulation = false; if (addr_type == "udp") @@ -365,56 +260,61 @@ int zmq::socket_base_t::send (::zmq_msg_t *msg_, int flags_) app_thread->process_commands (false, true); // Try to send the message. - bool sent = distribute (msg_, !(flags_ & ZMQ_NOFLUSH)); - - if (!(flags_ & ZMQ_NOBLOCK)) { + int rc = xsend (msg_, flags_); + if (rc == 0) + return 0; - // Oops, we couldn't send the message. Wait for the next - // command, process it and try to send the message again. - while (!sent) { - app_thread->process_commands (true, false); - sent = distribute (msg_, !(flags_ & ZMQ_NOFLUSH)); - } - } - else if (!sent) { - errno = EAGAIN; + // In case of non-blocking send we'll simply propagate + // the error - including EAGAIN - upwards. + if (flags_ & ZMQ_NOBLOCK) return -1; - } + // Oops, we couldn't send the message. Wait for the next + // command, process it and try to send the message again. + while (rc != 0) { + if (errno != EAGAIN) + return -1; + app_thread->process_commands (true, false); + rc = xsend (msg_, flags_); + } return 0; } int zmq::socket_base_t::flush () { - for (out_pipes_t::iterator it = out_pipes.begin (); it != out_pipes.end (); - it++) - (*it)->flush (); - - return 0; + return xflush (); } int zmq::socket_base_t::recv (::zmq_msg_t *msg_, int flags_) { + // Get the message and return immediately if successfull. + int rc = xrecv (msg_, flags_); + if (rc == 0) + return 0; + // If the message cannot be fetched immediately, there are two scenarios. - // For non-blocking recv, commands are processed in case there's a message - // already waiting we don't know about. If it's not, return EAGAIN. + // For non-blocking recv, commands are processed in case there's a revive + // command already waiting int a command pipe. If it's not, return EAGAIN. // In blocking scenario, commands are processed over and over again until // we are able to fetch a message. - bool fetched = fetch (msg_); - if (!fetched) { - if (flags_ & ZMQ_NOBLOCK) { - app_thread->process_commands (false, false); - fetched = fetch (msg_); - } - else { - while (!fetched) { - app_thread->process_commands (true, false); - ticks = 0; - fetched = fetch (msg_); - } + if (flags_ & ZMQ_NOBLOCK) { + if (errno != EAGAIN) + return -1; + app_thread->process_commands (false, false); + ticks = 0; + rc = xrecv (msg_, flags_); + } + else { + while (rc != 0) { + if (errno != EAGAIN) + return -1; + app_thread->process_commands (true, false); + ticks = 0; + rc = xrecv (msg_, flags_); } } + // Once every inbound_poll_rate messages check for signals and process // incoming commands. This happens only if we are not polling altogether // because there are messages available all the time. If poll occurs, @@ -428,12 +328,7 @@ int zmq::socket_base_t::recv (::zmq_msg_t *msg_, int flags_) ticks = 0; } - if (!fetched) { - errno = EAGAIN; - return -1; - } - - return 0; + return rc; } int zmq::socket_base_t::close () @@ -443,6 +338,37 @@ int zmq::socket_base_t::close () // Pointer to the dispatcher must be retrieved before the socket is // deallocated. Afterwards it is not available. dispatcher_t *dispatcher = get_dispatcher (); + + shutting_down = true; + + while (true) { + + // On third pass of the loop there should be no more I/O objects + // because all connecters and listerners were destroyed during + // the first pass and all engines delivered by delayed 'own' commands + // are destroyed during the second pass. + if (io_objects.empty () && !pending_term_acks) + break; + + // Send termination request to all associated I/O objects. + for (io_objects_t::iterator it = io_objects.begin (); + it != io_objects.end (); it++) + send_term (*it); + + // Move the objects to the list of pending term acks. + pending_term_acks += io_objects.size (); + io_objects.clear (); + + // Process commands till we get all the termination acknowledgements. + while (pending_term_acks) + app_thread->process_commands (true, false); + } + + // Check whether there are no session leaks. + sessions_sync.lock (); + zmq_assert (sessions.empty ()); + sessions_sync.unlock (); + delete this; // This function must be called after the socket is completely deallocated @@ -488,68 +414,36 @@ zmq::session_t *zmq::socket_base_t::find_session (const char *name_) return it->second; } -void zmq::socket_base_t::attach_inpipe (class reader_t *pipe_) +void zmq::socket_base_t::kill (reader_t *pipe_) { - pipe_->set_endpoint (this); - in_pipes.push_back (pipe_); - in_pipes.back ()->set_index (active); - in_pipes [active]->set_index (in_pipes.size () - 1); - std::swap (in_pipes.back (), in_pipes [active]); - active++; + xkill (pipe_); } -void zmq::socket_base_t::attach_outpipe (class writer_t *pipe_) +void zmq::socket_base_t::revive (reader_t *pipe_) { - pipe_->set_endpoint (this); - out_pipes.push_back (pipe_); - pipe_->set_index (out_pipes.size () - 1); + xrevive (pipe_); } -void zmq::socket_base_t::revive (reader_t *pipe_) +void zmq::socket_base_t::attach_pipes (class reader_t *inpipe_, + class writer_t *outpipe_) { - // Move the pipe to the list of active pipes. - in_pipes_t::size_type index = (in_pipes_t::size_type) pipe_->get_index (); - in_pipes [index]->set_index (active); - in_pipes [active]->set_index (index); - std::swap (in_pipes [index], in_pipes [active]); - active++; + if (inpipe_) + inpipe_->set_endpoint (this); + if (outpipe_) + outpipe_->set_endpoint (this); + xattach_pipes (inpipe_, outpipe_); } void zmq::socket_base_t::detach_inpipe (class reader_t *pipe_) { - // Remove the pipe from the list of inbound pipes. - in_pipes_t::size_type index = (in_pipes_t::size_type) pipe_->get_index (); - if (index < active) { - in_pipes [index]->set_index (active - 1); - in_pipes [active - 1]->set_index (index); - std::swap (in_pipes [index], in_pipes [active - 1]); - active--; - index = active; - } - in_pipes [index]->set_index (in_pipes.size () - 1); - in_pipes [in_pipes.size () - 1]->set_index (index); - std::swap (in_pipes [index], in_pipes [in_pipes.size () - 1]); - in_pipes.pop_back (); + xdetach_inpipe (pipe_); + pipe_->set_endpoint (NULL); // ? } void zmq::socket_base_t::detach_outpipe (class writer_t *pipe_) { - out_pipes_t::size_type index = (out_pipes_t::size_type) pipe_->get_index (); - out_pipes [index]->set_index (out_pipes.size () - 1); - out_pipes [out_pipes.size () - 1]->set_index (index); - std::swap (out_pipes [index], out_pipes [out_pipes.size () - 1]); - out_pipes.pop_back (); -} - -void zmq::socket_base_t::set_index (int index_) -{ - index = index_; -} - -int zmq::socket_base_t::get_index () -{ - zmq_assert (index != -1); - return index; + xdetach_outpipe (pipe_); + pipe_->set_endpoint (NULL); // ? } void zmq::socket_base_t::process_own (owned_t *object_) @@ -560,10 +454,7 @@ void zmq::socket_base_t::process_own (owned_t *object_) void zmq::socket_base_t::process_bind (owned_t *session_, reader_t *in_pipe_, writer_t *out_pipe_) { - zmq_assert (in_pipe_); - attach_inpipe (in_pipe_); - zmq_assert (out_pipe_); - attach_outpipe (out_pipe_); + attach_pipes (in_pipe_, out_pipe_); } void zmq::socket_base_t::process_term_req (owned_t *object_) @@ -593,106 +484,3 @@ void zmq::socket_base_t::process_term_ack () pending_term_acks--; } -bool zmq::socket_base_t::distribute (zmq_msg_t *msg_, bool flush_) -{ - int pipes_count = out_pipes.size (); - - // If there are no pipes available, simply drop the message. - if (pipes_count == 0) { - int rc = zmq_msg_close (msg_); - zmq_assert (rc == 0); - rc = zmq_msg_init (msg_); - zmq_assert (rc == 0); - return true; - } - - // First check whether all pipes are available for writing. - for (out_pipes_t::iterator it = out_pipes.begin (); it != out_pipes.end (); - it++) - if (!(*it)->check_write (zmq_msg_size (msg_))) - return false; - - msg_content_t *content = (msg_content_t*) msg_->content; - - // For VSMs the copying is straighforward. - if (content == (msg_content_t*) ZMQ_VSM) { - for (out_pipes_t::iterator it = out_pipes.begin (); - it != out_pipes.end (); it++) { - (*it)->write (msg_); - if (flush_) - (*it)->flush (); - } - int rc = zmq_msg_init (msg_); - zmq_assert (rc == 0); - return true; - } - - // Optimisation for the case when there's only a single pipe - // to send the message to - no refcount adjustment i.e. no atomic - // operations are needed. - if (pipes_count == 1) { - (*out_pipes.begin ())->write (msg_); - if (flush_) - (*out_pipes.begin ())->flush (); - int rc = zmq_msg_init (msg_); - zmq_assert (rc == 0); - return true; - } - - // There are at least 2 destinations for the message. That means we have - // to deal with reference counting. First add N-1 references to - // the content (we are holding one reference anyway, that's why -1). - if (msg_->shared) - content->refcnt.add (pipes_count - 1); - else { - content->refcnt.set (pipes_count); - msg_->shared = true; - } - - // Push the message to all destinations. - for (out_pipes_t::iterator it = out_pipes.begin (); it != out_pipes.end (); - it++) { - (*it)->write (msg_); - if (flush_) - (*it)->flush (); - } - - // Detach the original message from the data buffer. - int rc = zmq_msg_init (msg_); - zmq_assert (rc == 0); - - return true; -} - -bool zmq::socket_base_t::fetch (zmq_msg_t *msg_) -{ - // Deallocate old content of the message. - zmq_msg_close (msg_); - - // Round-robin over the pipes to get next message. - for (int count = active; count != 0; count--) { - - bool fetched = in_pipes [current]->read (msg_); - - // If there's no message in the pipe, move it to the list of - // non-active pipes. - if (!fetched) { - in_pipes [current]->set_index (active - 1); - in_pipes [active - 1]->set_index (current); - std::swap (in_pipes [current], in_pipes [active - 1]); - active--; - } - - current ++; - if (current >= active) - current = 0; - - if (fetched) - return true; - } - - // No message is available. Initialise the output parameter - // to be a 0-byte message. - zmq_msg_init (msg_); - return false; -} |