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https://github.com/zeromq/libzmq.git
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9528983d95
Solution: migrate to Unity
334 lines
11 KiB
C++
334 lines
11 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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#include "testutil.hpp"
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#include "testutil_unity.hpp"
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#if defined(ZMQ_HAVE_WINDOWS)
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#include <winsock2.h>
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#include <ws2tcpip.h>
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#include <stdexcept>
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#define close closesocket
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#else
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#include <sys/socket.h>
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#include <netinet/in.h>
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#include <arpa/inet.h>
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#include <unistd.h>
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#endif
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// This test requires a KRB5 environment with the following
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// service principal (substitute your host.domain and REALM):
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//
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// zmqtest2/host.domain@REALM (host.domain should be host running test)
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//
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// Export keys for this principal to a keytab file and set the environment
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// variables KRB5_KTNAME and KRB5_CLIENT_KTNAME to FILE:/path/to/your/keytab.
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// The test will use it both for client and server roles.
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//
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// The test is derived in large part from test_security_curve.cpp
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const char *name = "zmqtest2";
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static volatile int zap_deny_all = 0;
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// --------------------------------------------------------------------------
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// This methods receives and validates ZAP requestes (allowing or denying
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// each client connection).
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// N.B. on failure, each crypto type in keytab will be tried
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static void zap_handler (void *handler_)
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{
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// Process ZAP requests forever
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while (true) {
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char *version = s_recv (handler_);
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if (!version)
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break; // Terminating
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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 *routing_id = s_recv (handler_);
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char *mechanism = s_recv (handler_);
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char *principal = s_recv (handler_);
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TEST_ASSERT_EQUAL_STRING ("1.0", version);
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TEST_ASSERT_EQUAL_STRING ("GSSAPI", mechanism);
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s_sendmore (handler_, version);
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s_sendmore (handler_, sequence);
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if (!zap_deny_all) {
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s_sendmore (handler_, "200");
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s_sendmore (handler_, "OK");
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s_sendmore (handler_, "anonymous");
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s_send (handler_, "");
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//fprintf (stderr, "ALLOW %s\n", principal);
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} else {
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s_sendmore (handler_, "400");
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s_sendmore (handler_, "Denied");
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s_sendmore (handler_, "");
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s_send (handler_, "");
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//fprintf (stderr, "DENY %s\n", principal);
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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 (routing_id);
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free (mechanism);
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free (principal);
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}
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zmq_close (handler_);
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}
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static char my_endpoint[MAX_SOCKET_STRING];
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static void *zap_thread;
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static void *server;
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static void *server_mon;
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void check_krb_available ()
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{
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if (!getenv ("KRB5_KTNAME") || !getenv ("KRB5_CLIENT_KTNAME")) {
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TEST_IGNORE_MESSAGE ("KRB5 environment unavailable, skipping test");
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}
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}
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void setUp ()
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{
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setup_test_context ();
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zap_thread = 0;
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server = NULL;
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server_mon = NULL;
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check_krb_available ();
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// Spawn ZAP handler
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// We create and bind ZAP socket in main thread to avoid case
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// where child thread does not start up fast enough.
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void *handler = zmq_socket (get_test_context (), ZMQ_REP);
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TEST_ASSERT_SUCCESS_ERRNO (zmq_bind (handler, "inproc://zeromq.zap.01"));
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zap_thread = zmq_threadstart (&zap_handler, handler);
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// Server socket will accept connections
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server = test_context_socket (ZMQ_DEALER);
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int as_server = 1;
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (server, ZMQ_GSSAPI_SERVER, &as_server, sizeof (int)));
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (server, ZMQ_GSSAPI_PRINCIPAL, name, strlen (name) + 1));
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int name_type = ZMQ_GSSAPI_NT_HOSTBASED;
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
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server, ZMQ_GSSAPI_PRINCIPAL_NAMETYPE, &name_type, sizeof (name_type)));
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bind_loopback_ipv4 (server, my_endpoint, sizeof my_endpoint);
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// Monitor handshake events on the server
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TEST_ASSERT_SUCCESS_ERRNO (zmq_socket_monitor (
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server, "inproc://monitor-server",
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ZMQ_EVENT_HANDSHAKE_SUCCEEDED | ZMQ_EVENT_HANDSHAKE_FAILED_AUTH
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| ZMQ_EVENT_HANDSHAKE_FAILED_PROTOCOL));
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// Create socket for collecting monitor events
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server_mon = test_context_socket (ZMQ_PAIR);
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// Connect it to the inproc endpoints so they'll get events
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_connect (server_mon, "inproc://monitor-server"));
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}
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void tearDown ()
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{
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// Shutdown
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if (server_mon)
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test_context_socket_close_zero_linger (server_mon);
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if (server)
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test_context_socket_close (server);
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teardown_test_context ();
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// Wait until ZAP handler terminates
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if (zap_thread)
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zmq_threadclose (zap_thread);
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}
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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 get_monitor_event (void *monitor_, int *value_, char **address_)
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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_, 0) == -1)
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return -1; // Interruped, presumably
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TEST_ASSERT_TRUE (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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zmq_msg_close (&msg);
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// Second frame in message contains event address
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zmq_msg_init (&msg);
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if (zmq_msg_recv (&msg, monitor_, 0) == -1)
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return -1; // Interruped, presumably
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TEST_ASSERT_FALSE (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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zmq_msg_close (&msg);
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return event;
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}
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void test_valid_creds ()
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{
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void *client = test_context_socket (ZMQ_DEALER);
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
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client, ZMQ_GSSAPI_SERVICE_PRINCIPAL, name, strlen (name) + 1));
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (client, ZMQ_GSSAPI_PRINCIPAL, name, strlen (name) + 1));
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int name_type = ZMQ_GSSAPI_NT_HOSTBASED;
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
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client, ZMQ_GSSAPI_PRINCIPAL_NAMETYPE, &name_type, sizeof (name_type)));
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TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (client, my_endpoint));
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bounce (server, client);
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test_context_socket_close (client);
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int event = get_monitor_event (server_mon, NULL, NULL);
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TEST_ASSERT_EQUAL_INT (ZMQ_EVENT_HANDSHAKE_SUCCEEDED, event);
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}
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// Check security with valid but unauthorized credentials
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// Note: ZAP may see multiple requests - after a failure, client will
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// fall back to other crypto types for principal, if available.
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void test_unauth_creds ()
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{
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void *client = test_context_socket (ZMQ_DEALER);
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
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client, ZMQ_GSSAPI_SERVICE_PRINCIPAL, name, strlen (name) + 1));
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (client, ZMQ_GSSAPI_PRINCIPAL, name, strlen (name) + 1));
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int name_type = ZMQ_GSSAPI_NT_HOSTBASED;
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TEST_ASSERT_SUCCESS_ERRNO (zmq_setsockopt (
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client, ZMQ_GSSAPI_PRINCIPAL_NAMETYPE, &name_type, sizeof (name_type)));
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zap_deny_all = 1;
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TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (client, my_endpoint));
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expect_bounce_fail (server, client);
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test_context_socket_close_zero_linger (client);
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int event = get_monitor_event (server_mon, NULL, NULL);
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TEST_ASSERT_EQUAL_INT (ZMQ_EVENT_HANDSHAKE_FAILED_AUTH, event);
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}
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// Check GSSAPI security with NULL client credentials
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// This must be caught by the gssapi_server class, not passed to ZAP
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void test_null_creds ()
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{
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void *client = test_context_socket (ZMQ_DEALER);
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TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (client, my_endpoint));
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expect_bounce_fail (server, client);
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test_context_socket_close_zero_linger (client);
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int error;
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int event = get_monitor_event (server_mon, &error, NULL);
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TEST_ASSERT_EQUAL_INT (ZMQ_EVENT_HANDSHAKE_FAILED_PROTOCOL, event);
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TEST_ASSERT_EQUAL_INT (ZMQ_PROTOCOL_ERROR_ZMTP_MECHANISM_MISMATCH, error);
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}
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// Check GSSAPI security with PLAIN client credentials
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// This must be caught by the curve_server class, not passed to ZAP
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void test_plain_creds ()
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{
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void *client = test_context_socket (ZMQ_DEALER);
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (client, ZMQ_PLAIN_USERNAME, "admin", 5));
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TEST_ASSERT_SUCCESS_ERRNO (
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zmq_setsockopt (client, ZMQ_PLAIN_PASSWORD, "password", 8));
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TEST_ASSERT_SUCCESS_ERRNO (zmq_connect (client, my_endpoint));
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expect_bounce_fail (server, client);
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test_context_socket_close_zero_linger (client);
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}
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// Unauthenticated messages from a vanilla socket shouldn't be received
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void test_vanilla_socket ()
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{
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struct sockaddr_in ip4addr;
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int s;
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unsigned short int port;
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int rc = sscanf (my_endpoint, "tcp://127.0.0.1:%hu", &port);
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TEST_ASSERT_EQUAL_INT (1, rc);
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ip4addr.sin_family = AF_INET;
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ip4addr.sin_port = htons (port);
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#if defined(ZMQ_HAVE_WINDOWS) && (_WIN32_WINNT < 0x0600)
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ip4addr.sin_addr.s_addr = inet_addr ("127.0.0.1");
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#else
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inet_pton (AF_INET, "127.0.0.1", &ip4addr.sin_addr);
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#endif
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s = socket (AF_INET, SOCK_STREAM, IPPROTO_TCP);
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rc = connect (s, (struct sockaddr *) &ip4addr, sizeof (ip4addr));
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TEST_ASSERT_GREATER_THAN (-1, rc);
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// send anonymous ZMTP/1.0 greeting
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send (s, "\x01\x00", 2, 0);
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// send sneaky message that shouldn't be received
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send (s, "\x08\x00sneaky\0", 9, 0);
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int timeout = 250;
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zmq_setsockopt (server, ZMQ_RCVTIMEO, &timeout, sizeof (timeout));
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char *buf = s_recv (server);
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if (buf != NULL) {
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printf ("Received unauthenticated message: %s\n", buf);
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TEST_ASSERT_NULL (buf);
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}
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close (s);
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}
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int main (void)
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{
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// Avoid entanglements with user's credential cache
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setenv ("KRB5CCNAME", "MEMORY", 1);
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setup_test_environment ();
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UNITY_BEGIN ();
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RUN_TEST (test_valid_creds);
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RUN_TEST (test_null_creds);
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RUN_TEST (test_plain_creds);
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RUN_TEST (test_vanilla_socket);
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RUN_TEST (test_unauth_creds);
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return UNITY_END ();
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return 0;
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}
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