/* Copyright (c) 2007-2013 Contributors as noted in the AUTHORS file This file is part of 0MQ. 0MQ 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. 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 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 . */ #include "platform.hpp" #ifdef ZMQ_HAVE_WINDOWS #include "windows.hpp" #endif #include #include #include #include "err.hpp" #include "msg.hpp" #include "session_base.hpp" #include "wire.hpp" #include "null_mechanism.hpp" zmq::null_mechanism_t::null_mechanism_t (session_base_t *session_, const std::string &peer_address_, const options_t &options_) : mechanism_t (options_), session (session_), peer_address (peer_address_), ready_command_sent (false), ready_command_received (false), zap_connected (false), zap_request_sent (false), zap_reply_received (false) { // NULL mechanism only uses ZAP if there's a domain defined // This prevents ZAP requests on naive sockets if (options.zap_domain.size () > 0 && session->zap_connect () == 0) zap_connected = true; } zmq::null_mechanism_t::~null_mechanism_t () { } int zmq::null_mechanism_t::next_handshake_command (msg_t *msg_) { if (ready_command_sent) { errno = EAGAIN; return -1; } if (zap_connected && !zap_reply_received) { if (zap_request_sent) { errno = EAGAIN; return -1; } send_zap_request (); zap_request_sent = true; const int rc = receive_and_process_zap_reply (); if (rc != 0) return -1; zap_reply_received = true; } unsigned char * const command_buffer = (unsigned char *) malloc (512); alloc_assert (command_buffer); unsigned char *ptr = command_buffer; // Add mechanism string memcpy (ptr, "\5READY", 6); ptr += 6; // Add socket type property const char *socket_type = socket_type_string (options.type); ptr += add_property (ptr, "Socket-Type", socket_type, strlen (socket_type)); // Add identity property if (options.type == ZMQ_REQ || options.type == ZMQ_DEALER || options.type == ZMQ_ROUTER) { ptr += add_property (ptr, "Identity", options.identity, options.identity_size); } const size_t command_size = ptr - command_buffer; const int rc = msg_->init_size (command_size); errno_assert (rc == 0); memcpy (msg_->data (), command_buffer, command_size); free (command_buffer); ready_command_sent = true; return 0; } int zmq::null_mechanism_t::process_handshake_command (msg_t *msg_) { if (ready_command_received) { errno = EPROTO; return -1; } const unsigned char *ptr = static_cast (msg_->data ()); size_t bytes_left = msg_->size (); if (bytes_left < 6 || memcmp (ptr, "\5READY", 6)) { errno = EPROTO; return -1; } ptr += 6; bytes_left -= 6; int rc = parse_metadata (ptr, bytes_left); if (rc == 0) { int rc = msg_->close (); errno_assert (rc == 0); rc = msg_->init (); errno_assert (rc == 0); } ready_command_received = true; return rc; } int zmq::null_mechanism_t::zap_msg_available () { if (zap_reply_received) { errno = EFSM; return -1; } const int rc = receive_and_process_zap_reply (); if (rc == 0) zap_reply_received = true; return rc; } bool zmq::null_mechanism_t::is_handshake_complete () const { return ready_command_received && ready_command_sent; } void zmq::null_mechanism_t::send_zap_request () { int rc; msg_t msg; // Address delimiter frame rc = msg.init (); errno_assert (rc == 0); msg.set_flags (msg_t::more); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); // Version frame rc = msg.init_size (3); errno_assert (rc == 0); memcpy (msg.data (), "1.0", 3); msg.set_flags (msg_t::more); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); // Request id frame rc = msg.init_size (1); errno_assert (rc == 0); memcpy (msg.data (), "1", 1); msg.set_flags (msg_t::more); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); // Domain frame rc = msg.init_size (options.zap_domain.length ()); errno_assert (rc == 0); memcpy (msg.data (), options.zap_domain.c_str (), options.zap_domain.length ()); msg.set_flags (msg_t::more); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); // Address frame rc = msg.init_size (peer_address.length ()); errno_assert (rc == 0); memcpy (msg.data (), peer_address.c_str (), peer_address.length ()); msg.set_flags (msg_t::more); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); // Identity frame rc = msg.init_size (options.identity_size); errno_assert (rc == 0); memcpy (msg.data (), options.identity, options.identity_size); msg.set_flags (msg_t::more); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); // Mechanism frame rc = msg.init_size (4); errno_assert (rc == 0); memcpy (msg.data (), "NULL", 4); rc = session->write_zap_msg (&msg); errno_assert (rc == 0); } int zmq::null_mechanism_t::receive_and_process_zap_reply () { int rc = 0; msg_t msg [7]; // ZAP reply consists of 7 frames // Initialize all reply frames for (int i = 0; i < 7; i++) { rc = msg [i].init (); errno_assert (rc == 0); } for (int i = 0; i < 7; i++) { rc = session->read_zap_msg (&msg [i]); if (rc == -1) break; if ((msg [i].flags () & msg_t::more) == (i < 6? 0: msg_t::more)) { errno = EPROTO; rc = -1; break; } } if (rc != 0) goto error; // Address delimiter frame if (msg [0].size () > 0) { rc = -1; errno = EPROTO; goto error; } // Version frame if (msg [1].size () != 3 || memcmp (msg [1].data (), "1.0", 3)) { rc = -1; errno = EPROTO; goto error; } // Request id frame if (msg [2].size () != 1 || memcmp (msg [2].data (), "1", 1)) { rc = -1; errno = EPROTO; goto error; } // Status code frame if (msg [3].size () != 3 || memcmp (msg [3].data (), "200", 3)) { rc = -1; errno = EACCES; goto error; } // Process metadata frame rc = parse_metadata (static_cast (msg [6].data ()), msg [6].size ()); error: for (int i = 0; i < 7; i++) { const int rc2 = msg [i].close (); errno_assert (rc2 == 0); } return rc; }