mirror of
https://github.com/zeromq/libzmq.git
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1daf83079a
Solution: replace by "routing id"
616 lines
21 KiB
C++
616 lines
21 KiB
C++
/*
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Copyright (c) 2007-2017 Contributors as noted in the AUTHORS file
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This file is part of libzmq, the ZeroMQ core engine in C++.
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libzmq is free software; you can redistribute it and/or modify it under
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the terms of the GNU Lesser General Public License (LGPL) as published
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by the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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As a special exception, the Contributors give you permission to link
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this library with independent modules to produce an executable,
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regardless of the license terms of these independent modules, and to
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copy and distribute the resulting executable under terms of your choice,
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provided that you also meet, for each linked independent module, the
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terms and conditions of the license of that module. An independent
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module is a module which is not derived from or based on this library.
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If you modify this library, you must extend this exception to your
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version of the library.
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libzmq is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
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License for more details.
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You should have received a copy of the GNU Lesser General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef __TESTUTIL_SECURITY_HPP_INCLUDED__
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#define __TESTUTIL_SECURITY_HPP_INCLUDED__
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#include "testutil.hpp"
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// security test utils
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typedef void(socket_config_fn) (void *, void *);
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const char *test_zap_domain = "ZAPTEST";
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// NULL specific functions
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void socket_config_null_client (void *server, void *server_secret)
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{
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LIBZMQ_UNUSED (server);
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LIBZMQ_UNUSED (server_secret);
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}
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void socket_config_null_server (void *server, void *server_secret)
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{
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LIBZMQ_UNUSED (server_secret);
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int rc = zmq_setsockopt (server, ZMQ_ZAP_DOMAIN, test_zap_domain, 7);
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assert (rc == 0);
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}
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// PLAIN specific functions
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const char *test_plain_username = "testuser";
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const char *test_plain_password = "testpass";
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void socket_config_plain_client (void *server, void *server_secret)
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{
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LIBZMQ_UNUSED (server_secret);
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int rc = zmq_setsockopt (server, ZMQ_PLAIN_PASSWORD, test_plain_password, 8);
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assert (rc == 0);
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rc = zmq_setsockopt (server, ZMQ_PLAIN_USERNAME, test_plain_username, 8);
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assert (rc == 0);
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}
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void socket_config_plain_server (void *server, void *server_secret)
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{
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LIBZMQ_UNUSED (server_secret);
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int as_server = 1;
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int rc = zmq_setsockopt (server, ZMQ_PLAIN_SERVER, &as_server, sizeof (int));
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assert (rc == 0);
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}
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// CURVE specific functions
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// We'll generate random test keys at startup
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char valid_client_public[41];
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char valid_client_secret[41];
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char valid_server_public[41];
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char valid_server_secret[41];
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void setup_testutil_security_curve ()
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{
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// Generate new keypairs for these tests
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int rc = zmq_curve_keypair (valid_client_public, valid_client_secret);
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assert (rc == 0);
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rc = zmq_curve_keypair (valid_server_public, valid_server_secret);
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assert (rc == 0);
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}
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void socket_config_curve_server (void *server, void *server_secret)
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{
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int as_server = 1;
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int rc = zmq_setsockopt (server, ZMQ_CURVE_SERVER, &as_server, sizeof (int));
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assert (rc == 0);
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rc = zmq_setsockopt (server, ZMQ_CURVE_SECRETKEY, server_secret, 41);
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assert (rc == 0);
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}
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struct curve_client_data_t
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{
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const char *server_public;
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const char *client_public;
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const char *client_secret;
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};
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void socket_config_curve_client (void *client, void *data)
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{
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curve_client_data_t *curve_client_data =
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static_cast<curve_client_data_t *> (data);
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int rc = zmq_setsockopt (client, ZMQ_CURVE_SERVERKEY,
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curve_client_data->server_public, 41);
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assert (rc == 0);
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rc = zmq_setsockopt (client, ZMQ_CURVE_PUBLICKEY,
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curve_client_data->client_public, 41);
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assert (rc == 0);
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rc = zmq_setsockopt (client, ZMQ_CURVE_SECRETKEY,
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curve_client_data->client_secret, 41);
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assert (rc == 0);
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}
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// --------------------------------------------------------------------------
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// This methods receives and validates ZAP requests (allowing or denying
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// each client connection).
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enum zap_protocol_t
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{
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zap_ok,
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// ZAP-compliant non-standard cases
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zap_status_temporary_failure,
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zap_status_internal_error,
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// ZAP protocol errors
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zap_wrong_version,
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zap_wrong_request_id,
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zap_status_invalid,
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zap_too_many_parts
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};
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void *zap_requests_handled;
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void zap_handler_generic (void *ctx,
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zap_protocol_t zap_protocol,
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const char *expected_identity = "IDENT")
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{
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void *control = zmq_socket (ctx, ZMQ_REQ);
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assert (control);
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int rc = zmq_connect (control, "inproc://handler-control");
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assert (rc == 0);
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void *handler = zmq_socket (ctx, ZMQ_REP);
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assert (handler);
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rc = zmq_bind (handler, "inproc://zeromq.zap.01");
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assert (rc == 0);
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// Signal main thread that we are ready
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rc = s_send (control, "GO");
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assert (rc == 2);
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zmq_pollitem_t items[] = {
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{control, 0, ZMQ_POLLIN, 0}, {handler, 0, ZMQ_POLLIN, 0},
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};
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// Process ZAP requests forever
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while (zmq_poll (items, 2, -1) >= 0) {
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if (items[0].revents & ZMQ_POLLIN) {
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char *buf = s_recv (control);
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assert (buf);
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assert (streq (buf, "STOP"));
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free (buf);
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break; // Terminating - main thread signal
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}
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if (!(items[1].revents & ZMQ_POLLIN))
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continue;
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char *version = s_recv (handler);
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if (!version)
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break; // Terminating - peer's socket closed
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char *sequence = s_recv (handler);
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char *domain = s_recv (handler);
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char *address = s_recv (handler);
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char *identity = s_recv (handler);
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char *mechanism = s_recv (handler);
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bool authentication_succeeded = false;
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if (streq (mechanism, "CURVE")) {
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uint8_t client_key[32];
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int size = zmq_recv (handler, client_key, 32, 0);
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assert (size == 32);
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char client_key_text[41];
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zmq_z85_encode (client_key_text, client_key, 32);
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authentication_succeeded =
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streq (client_key_text, valid_client_public);
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}
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else if (streq(mechanism, "PLAIN"))
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{
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char client_username[32];
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int size = zmq_recv (handler, client_username, 32, 0);
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assert (size > 0);
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client_username [size] = 0;
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char client_password[32];
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size = zmq_recv (handler, client_password, 32, 0);
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assert (size > 0);
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client_password [size] = 0;
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authentication_succeeded =
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streq (test_plain_username, client_username)
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&& streq (test_plain_password, client_password);
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}
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else if (streq(mechanism, "NULL"))
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{
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authentication_succeeded = true;
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}
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else
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{
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fprintf (stderr, "Unsupported mechanism: %s\n", mechanism);
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assert (false);
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}
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assert (streq (version, "1.0"));
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assert (streq (identity, expected_identity));
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s_sendmore (handler, zap_protocol == zap_wrong_version
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? "invalid_version"
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: version);
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s_sendmore (handler, zap_protocol == zap_wrong_request_id
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? "invalid_request_id"
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: sequence);
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if (authentication_succeeded) {
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const char *status_code;
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switch (zap_protocol) {
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case zap_status_internal_error:
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status_code = "500";
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break;
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case zap_status_temporary_failure:
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status_code = "300";
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break;
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case zap_status_invalid:
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status_code = "invalid_status";
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break;
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default:
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status_code = "200";
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}
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s_sendmore (handler, status_code);
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s_sendmore (handler, "OK");
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s_sendmore (handler, "anonymous");
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if (zap_protocol == zap_too_many_parts) {
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s_sendmore (handler, "");
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}
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s_send (handler, "");
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} else {
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s_sendmore (handler, "400");
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s_sendmore (handler, "Invalid client public key");
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s_sendmore (handler, "");
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s_send (handler, "");
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}
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free (version);
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free (sequence);
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free (domain);
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free (address);
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free (identity);
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free (mechanism);
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zmq_atomic_counter_inc (zap_requests_handled);
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}
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rc = zmq_unbind (handler, "inproc://zeromq.zap.01");
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assert (rc == 0);
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close_zero_linger (handler);
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rc = s_send (control, "STOPPED");
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assert (rc == 7);
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close_zero_linger (control);
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}
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void zap_handler (void *ctx)
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{
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zap_handler_generic (ctx, zap_ok);
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}
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void setup_handshake_socket_monitor (void *ctx,
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void *server,
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void **server_mon,
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const char *monitor_endpoint)
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{
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#ifdef ZMQ_BUILD_DRAFT_API
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// Monitor handshake events on the server
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int rc = zmq_socket_monitor (server, monitor_endpoint,
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ZMQ_EVENT_HANDSHAKE_SUCCEEDED
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| ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL
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| ZMQ_EVENT_HANDSHAKE_FAILED_AUTH
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| ZMQ_EVENT_HANDSHAKE_FAILED_PROTOCOL);
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assert (rc == 0);
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// Create socket for collecting monitor events
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*server_mon = zmq_socket (ctx, ZMQ_PAIR);
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assert (*server_mon);
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// Connect it to the inproc endpoints so they'll get events
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rc = zmq_connect (*server_mon, monitor_endpoint);
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assert (rc == 0);
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#endif
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}
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void setup_context_and_server_side (
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void **ctx,
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void **handler,
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void **zap_thread,
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void **server,
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void **server_mon,
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char *my_endpoint,
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zmq_thread_fn zap_handler_ = &zap_handler,
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socket_config_fn socket_config_ = &socket_config_curve_server,
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void *socket_config_data_ = valid_server_secret,
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const char *identity = "IDENT")
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{
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*ctx = zmq_ctx_new ();
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assert (*ctx);
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// Spawn ZAP handler
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zap_requests_handled = zmq_atomic_counter_new ();
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assert (zap_requests_handled != NULL);
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*handler = zmq_socket (*ctx, ZMQ_REP);
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assert (*handler);
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int rc = zmq_bind (*handler, "inproc://handler-control");
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assert (rc == 0);
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*zap_thread = zmq_threadstart (zap_handler_, *ctx);
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char *buf = s_recv (*handler);
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assert (buf);
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assert (streq (buf, "GO"));
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free (buf);
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// Server socket will accept connections
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*server = zmq_socket (*ctx, ZMQ_DEALER);
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assert (*server);
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socket_config_ (*server, socket_config_data_);
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rc = zmq_setsockopt (*server, ZMQ_ROUTING_ID, identity, strlen(identity));
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assert (rc == 0);
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rc = zmq_bind (*server, "tcp://127.0.0.1:*");
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assert (rc == 0);
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size_t len = MAX_SOCKET_STRING;
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rc = zmq_getsockopt (*server, ZMQ_LAST_ENDPOINT, my_endpoint, &len);
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assert (rc == 0);
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const char server_monitor_endpoint [] = "inproc://monitor-server";
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setup_handshake_socket_monitor (*ctx, *server, server_mon,
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server_monitor_endpoint);
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}
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void shutdown_context_and_server_side (void *ctx,
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void *zap_thread,
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void *server,
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void *server_mon,
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void *handler)
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{
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int rc = s_send (handler, "STOP");
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assert (rc == 4);
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char *buf = s_recv (handler);
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assert (buf);
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assert (streq (buf, "STOPPED"));
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free (buf);
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rc = zmq_unbind (handler, "inproc://handler-control");
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assert (rc == 0);
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close_zero_linger (handler);
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#ifdef ZMQ_BUILD_DRAFT_API
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close_zero_linger (server_mon);
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#endif
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close_zero_linger (server);
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// Wait until ZAP handler terminates
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zmq_threadclose (zap_thread);
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rc = zmq_ctx_term (ctx);
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assert (rc == 0);
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zmq_atomic_counter_destroy (&zap_requests_handled);
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}
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void *create_and_connect_client (void *ctx,
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char *my_endpoint,
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socket_config_fn socket_config_,
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void *socket_config_data_,
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void **client_mon = NULL)
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{
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void *client = zmq_socket (ctx, ZMQ_DEALER);
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assert (client);
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socket_config_ (client, socket_config_data_);
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int rc = zmq_connect (client, my_endpoint);
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assert (rc == 0);
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if (client_mon)
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{
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setup_handshake_socket_monitor (ctx, client, client_mon,
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"inproc://client-monitor");
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}
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return client;
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}
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void expect_new_client_bounce_fail (void *ctx,
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char *my_endpoint,
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void *server,
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socket_config_fn socket_config_,
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void *socket_config_data_,
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void **client_mon = NULL)
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{
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void *client = create_and_connect_client (ctx, my_endpoint, socket_config_,
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socket_config_data_, client_mon);
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expect_bounce_fail (server, client);
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close_zero_linger (client);
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}
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// Monitor event utilities
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// Read one event off the monitor socket; return value and address
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// by reference, if not null, and event number by value. Returns -1
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// in case of error.
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static int
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get_monitor_event_internal (void *monitor, int *value, char **address, int recv_flag)
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{
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// First frame in message contains event number and value
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zmq_msg_t msg;
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zmq_msg_init (&msg);
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if (zmq_msg_recv (&msg, monitor, recv_flag) == -1) {
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assert (errno == EAGAIN);
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return -1; // timed out or no message available
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}
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assert (zmq_msg_more (&msg));
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uint8_t *data = (uint8_t *) zmq_msg_data (&msg);
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uint16_t event = *(uint16_t *) (data);
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if (value)
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*value = *(uint32_t *) (data + 2);
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// Second frame in message contains event address
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zmq_msg_init (&msg);
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int res = zmq_msg_recv (&msg, monitor, recv_flag) == -1;
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assert (res != -1);
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assert (!zmq_msg_more (&msg));
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if (address) {
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uint8_t *data = (uint8_t *) zmq_msg_data (&msg);
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size_t size = zmq_msg_size (&msg);
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*address = (char *) malloc (size + 1);
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memcpy (*address, data, size);
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*address [size] = 0;
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}
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return event;
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}
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int get_monitor_event_with_timeout (void *monitor,
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int *value,
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char **address,
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int timeout)
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{
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int res;
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if (timeout == -1) {
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// process infinite timeout in small steps to allow the user
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// to see some information on the console
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int timeout_step = 250;
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int wait_time = 0;
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zmq_setsockopt (monitor, ZMQ_RCVTIMEO, &timeout_step,
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sizeof (timeout_step));
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while ((res = get_monitor_event_internal (monitor, value, address, 0))
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== -1) {
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wait_time += timeout_step;
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fprintf (stderr, "Still waiting for monitor event after %i ms\n",
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wait_time);
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}
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} else {
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zmq_setsockopt (monitor, ZMQ_RCVTIMEO, &timeout, sizeof (timeout));
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res = get_monitor_event_internal (monitor, value, address, 0);
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}
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int timeout_infinite = -1;
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zmq_setsockopt (monitor, ZMQ_RCVTIMEO, &timeout_infinite,
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sizeof (timeout_infinite));
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return res;
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}
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int get_monitor_event (void *monitor, int *value, char **address)
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{
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return get_monitor_event_with_timeout (monitor, value, address, -1);
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}
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void expect_monitor_event (void *monitor, int expected_event)
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{
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int event = get_monitor_event (monitor, NULL, NULL);
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if (event != expected_event)
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{
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fprintf (stderr, "Expected monitor event %x but received %x\n",
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expected_event, event);
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assert (event == expected_event);
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}
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}
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#ifdef ZMQ_BUILD_DRAFT_API
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void print_unexpected_event (int event,
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int err,
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int expected_event,
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int expected_err)
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{
|
|
fprintf(
|
|
stderr,
|
|
"Unexpected event: 0x%x, value = %i/0x%x (expected: 0x%x, value "
|
|
"= %i/0x%x)\n",
|
|
event, err, err, expected_event, expected_err, expected_err);
|
|
}
|
|
|
|
// expects that one or more occurrences of the expected event are received
|
|
// via the specified socket monitor
|
|
// returns the number of occurrences of the expected event
|
|
// interrupts, if a ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL with EPIPE, ECONNRESET
|
|
// or ECONNABORTED occurs; in this case, 0 is returned
|
|
// this should be investigated further, see
|
|
// https://github.com/zeromq/libzmq/issues/2644
|
|
int expect_monitor_event_multiple (void *server_mon,
|
|
int expected_event,
|
|
int expected_err = -1,
|
|
bool optional = false)
|
|
{
|
|
int count_of_expected_events = 0;
|
|
int client_closed_connection = 0;
|
|
int timeout = 250;
|
|
int wait_time = 0;
|
|
|
|
int event;
|
|
int err;
|
|
while (
|
|
(event = get_monitor_event_with_timeout (server_mon, &err, NULL, timeout))
|
|
!= -1 || !count_of_expected_events) {
|
|
if (event == -1) {
|
|
if (optional)
|
|
break;
|
|
wait_time += timeout;
|
|
fprintf (stderr,
|
|
"Still waiting for first event after %ims (expected event "
|
|
"%x (value %i/%x))\n",
|
|
wait_time, expected_event, expected_err, expected_err);
|
|
continue;
|
|
}
|
|
// ignore errors with EPIPE/ECONNRESET/ECONNABORTED, which can happen
|
|
// ECONNRESET can happen on very slow machines, when the engine writes
|
|
// to the peer and then tries to read the socket before the peer reads
|
|
// ECONNABORTED happens when a client aborts a connection via RST/timeout
|
|
if (event == ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL &&
|
|
(err == EPIPE || err == ECONNRESET || err == ECONNABORTED)) {
|
|
fprintf (
|
|
stderr,
|
|
"Ignored event (skipping any further events): %x (err = %i)\n",
|
|
event, err);
|
|
client_closed_connection = 1;
|
|
break;
|
|
}
|
|
if (event != expected_event
|
|
|| (-1 != expected_err && err != expected_err)) {
|
|
print_unexpected_event (event, err, expected_event, expected_err);
|
|
assert (false);
|
|
}
|
|
++count_of_expected_events;
|
|
}
|
|
assert (optional || count_of_expected_events > 0 || client_closed_connection);
|
|
|
|
return count_of_expected_events;
|
|
}
|
|
|
|
// assert_* are macros rather than functions, to allow assertion failures be
|
|
// attributed to the causing source code line
|
|
#define assert_no_more_monitor_events_with_timeout(monitor, timeout) \
|
|
{ \
|
|
int event_count = 0; \
|
|
int event, err; \
|
|
while ((event = get_monitor_event_with_timeout ((monitor), &err, NULL, \
|
|
(timeout))) \
|
|
!= -1) { \
|
|
if (event == ZMQ_EVENT_HANDSHAKE_FAILED_NO_DETAIL \
|
|
&& (err == EPIPE || err == ECONNRESET \
|
|
|| err == ECONNABORTED)) { \
|
|
fprintf (stderr, \
|
|
"Ignored event (skipping any further events): %x " \
|
|
"(err = %i)\n", \
|
|
event, err); \
|
|
continue; \
|
|
} \
|
|
++event_count; \
|
|
print_unexpected_event (event, err, 0, 0); \
|
|
} \
|
|
assert (event_count == 0); \
|
|
}
|
|
|
|
#endif
|
|
|
|
#endif
|