/******************************************************************************* * Copyright (c) 2009, 2017 IBM Corp. * * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * and Eclipse Distribution License v1.0 which accompany this distribution. * * The Eclipse Public License is available at * http://www.eclipse.org/legal/epl-v10.html * and the Eclipse Distribution License is available at * http://www.eclipse.org/org/documents/edl-v10.php. * * Contributors: * Ian Craggs - initial implementation for embedded C client *******************************************************************************/ /** * @file * Tests for the Paho embedded C "high" level client */ #include #include #include //#define MQTT_DEBUG #include "MQTTClient.h" #define DEFAULT_STACK_SIZE -1 #include "linux.cpp" #include #include #define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0])) void usage(void) { printf("help!!\n"); exit(EXIT_FAILURE); } struct Options { char* host; /**< connection to system under test. */ int port; char* proxy_host; int proxy_port; int verbose; int test_no; int MQTTVersion; int iterations; } options = { (char*)"localhost", 1883, (char*)"localhost", 1885, 0, 0, 4, 1, }; void getopts(int argc, char** argv) { int count = 1; while (count < argc) { if (strcmp(argv[count], "--test_no") == 0) { if (++count < argc) options.test_no = atoi(argv[count]); else usage(); } else if (strcmp(argv[count], "--host") == 0) { if (++count < argc) { options.host = argv[count]; printf("\nSetting host to %s\n", options.host); } else usage(); } else if (strcmp(argv[count], "--port") == 0) { if (++count < argc) { options.port = atoi(argv[count]); printf("\nSetting port to %d\n", options.port); } else usage(); } else if (strcmp(argv[count], "--proxy_host") == 0) { if (++count < argc) options.proxy_host = argv[count]; else usage(); } else if (strcmp(argv[count], "--proxy_port") == 0) { if (++count < argc) { options.proxy_port = atoi(argv[count]); printf("\nSetting proxy port to %d\n", options.proxy_port); } else usage(); } else if (strcmp(argv[count], "--MQTTversion") == 0) { if (++count < argc) { options.MQTTVersion = atoi(argv[count]); printf("setting MQTT version to %d\n", options.MQTTVersion); } else usage(); } else if (strcmp(argv[count], "--iterations") == 0) { if (++count < argc) options.iterations = atoi(argv[count]); else usage(); } else if (strcmp(argv[count], "--verbose") == 0) { options.verbose = 1; printf("\nSetting verbose on\n"); } count++; } } #define LOGA_DEBUG 0 #define LOGA_INFO 1 #include #include #include void MyLog(int LOGA_level, const char* format, ...) { static char msg_buf[256]; va_list args; struct timeb ts; struct tm *timeinfo; if (LOGA_level == LOGA_DEBUG && options.verbose == 0) return; ftime(&ts); timeinfo = localtime(&ts.time); strftime(msg_buf, 80, "%Y%m%d %H%M%S", timeinfo); sprintf(&msg_buf[strlen(msg_buf)], ".%.3hu ", ts.millitm); va_start(args, format); vsnprintf(&msg_buf[strlen(msg_buf)], sizeof(msg_buf) - strlen(msg_buf), format, args); va_end(args); printf("%s\n", msg_buf); fflush(stdout); } #if defined(WIN32) || defined(_WINDOWS) #define mqsleep(A) Sleep(1000*A) #define START_TIME_TYPE DWORD static DWORD start_time = 0; START_TIME_TYPE start_clock(void) { return GetTickCount(); } #elif defined(AIX) #define mqsleep sleep #define START_TIME_TYPE struct timespec START_TIME_TYPE start_clock(void) { static struct timespec start; clock_gettime(CLOCK_REALTIME, &start); return start; } #else #define mqsleep sleep #define START_TIME_TYPE struct timeval /* TODO - unused - remove? static struct timeval start_time; */ START_TIME_TYPE start_clock(void) { struct timeval start_time; gettimeofday(&start_time, NULL); return start_time; } #endif #if defined(WIN32) long elapsed(START_TIME_TYPE start_time) { return GetTickCount() - start_time; } #elif defined(AIX) #define assert(a) long elapsed(struct timespec start) { struct timespec now, res; clock_gettime(CLOCK_REALTIME, &now); ntimersub(now, start, res); return (res.tv_sec)*1000L + (res.tv_nsec)/1000000L; } #else long elapsed(START_TIME_TYPE start_time) { struct timeval now, res; gettimeofday(&now, NULL); timersub(&now, &start_time, &res); return (res.tv_sec)*1000 + (res.tv_usec)/1000; } #endif #define assert(a, b, c, d) myassert(__FILE__, __LINE__, a, b, c, d) #define assert1(a, b, c, d, e) myassert(__FILE__, __LINE__, a, b, c, d, e) int tests = 0; int failures = 0; FILE* xml; START_TIME_TYPE global_start_time; char output[3000]; char* cur_output = output; void write_test_result(void) { long duration = elapsed(global_start_time); fprintf(xml, " time=\"%ld.%.3ld\" >\n", duration / 1000, duration % 1000); if (cur_output != output) { fprintf(xml, "%s", output); cur_output = output; } fprintf(xml, "\n"); } void myassert(const char* filename, int lineno, const char* description, int value, const char* format, ...) { ++tests; if (!value) { va_list args; ++failures; MyLog(LOGA_INFO, (char*)"Assertion failed, file %s, line %d, description: %s\n", filename, lineno, description); va_start(args, format); vprintf(format, args); va_end(args); cur_output += sprintf(cur_output, "file %s, line %d \n", description, filename, lineno); } else MyLog(LOGA_DEBUG, "Assertion succeeded, file %s, line %d, description: %s", filename, lineno, description); } static volatile MQTT::MessageData* test1_message_data = NULL; static MQTT::Message pubmsg; void messageArrived(MQTT::MessageData& md) { test1_message_data = &md; MQTT::Message &m = md.message; assert("Good message lengths", pubmsg.payloadlen == m.payloadlen, "payloadlen was %d", m.payloadlen); if (pubmsg.payloadlen == m.payloadlen) assert("Good message contents", memcmp(m.payload, pubmsg.payload, m.payloadlen) == 0, "payload was %s", m.payload); } /********************************************************************* Test1: single-threaded client *********************************************************************/ void test1_sendAndReceive(MQTT::Client& client, int qos, const char* test_topic) { char* topicName = NULL; int topicLen; int i = 0; int iterations = 50; int rc; int wait_seconds; MyLog(LOGA_DEBUG, "%d messages at QoS %d", iterations, qos); memset(&pubmsg, '\0', sizeof(pubmsg)); pubmsg.payload = (void*)"a much longer message that we can shorten to the extent that we need to payload up to 11"; pubmsg.payloadlen = 11; pubmsg.qos = (MQTT::QoS)qos; pubmsg.retained = false; pubmsg.dup = false; for (i = 0; i < iterations; ++i) { test1_message_data = NULL; rc = client.publish(test_topic, pubmsg); assert("Good rc from publish", rc == MQTT::SUCCESS, "rc was %d", rc); /* wait for the message to be received */ wait_seconds = 10; while ((test1_message_data == NULL) && (wait_seconds-- > 0)) { client.yield(100); } assert("Message Arrived", wait_seconds > 0, "Time out waiting for message %d\n", i); if (!test1_message_data) printf("No message received within timeout period\n"); } /* wait to receive any outstanding messages */ wait_seconds = 2; while (wait_seconds-- > 0) { client.yield(1000); } } int test1(struct Options options) { MQTT::QoS subsqos = MQTT::QOS2; int rc = 0; const char* test_topic = "C client test1"; fprintf(xml, " client = MQTT::Client(ipstack); MQTTPacket_connectData data = MQTTPacket_connectData_initializer; data.willFlag = 1; data.MQTTVersion = options.MQTTVersion; data.clientID.cstring = (char*)"single-threaded-test"; data.username.cstring = (char*)"testuser"; data.password.cstring = (char*)"testpassword"; data.keepAliveInterval = 20; data.cleansession = 1; data.will.message.cstring = (char*)"will message"; data.will.qos = 1; data.will.retained = 0; data.will.topicName.cstring = (char*)"will topic"; MyLog(LOGA_DEBUG, "Connecting"); rc = ipstack.connect(options.host, options.port); assert("Good rc from TCP connect", rc == MQTT::SUCCESS, "rc was %d", rc); if (rc != MQTT::SUCCESS) goto exit; rc = client.connect(data); assert("Good rc from connect", rc == MQTT::SUCCESS, "rc was %d", rc); if (rc != MQTT::SUCCESS) goto exit; rc = client.subscribe(test_topic, subsqos, messageArrived); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); test1_sendAndReceive(client, 0, test_topic); test1_sendAndReceive(client, 1, test_topic); test1_sendAndReceive(client, 2, test_topic); MyLog(LOGA_DEBUG, "Stopping\n"); rc = client.unsubscribe(test_topic); assert("Unsubscribe successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* Just to make sure we can connect again */ rc = ipstack.connect(options.host, options.port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); exit: MyLog(LOGA_INFO, "TEST1: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } /********************************************************************* Test 2: connack return data *********************************************************************/ int test2(struct Options options) { MQTT::QoS subsqos = MQTT::QOS2; int rc; const char* test_topic = "C client test2"; fprintf(xml, " client = MQTT::Client(ipstack); MQTTPacket_connectData data = MQTTPacket_connectData_initializer; data.willFlag = 1; data.MQTTVersion = options.MQTTVersion; data.clientID.cstring = (char*)"connack-return-data"; data.username.cstring = (char*)"testuser"; data.password.cstring = (char*)"testpassword"; data.keepAliveInterval = 20; data.cleansession = 1; data.will.message.cstring = (char*)"will message"; data.will.qos = 1; data.will.retained = 0; data.will.topicName.cstring = (char*)"will topic"; MyLog(LOGA_DEBUG, "Connecting"); rc = ipstack.connect(options.host, options.port); assert("Good rc from TCP connect", rc == MQTT::SUCCESS, "rc was %d", rc); if (rc != MQTT::SUCCESS) goto exit; MQTT::connackData connack; rc = client.connect(data, connack); assert("Good rc from connect", rc == MQTT::SUCCESS, "rc was %d", rc); if (rc != MQTT::SUCCESS) goto exit; assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 0", connack.sessionPresent == 0, "sessionPresent was %d", connack.sessionPresent); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* reconnect with cleansession false */ data.cleansession = 0; rc = ipstack.connect(options.host, options.port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 0", connack.sessionPresent == 0, "sessionPresent was %d", connack.sessionPresent); MQTT::subackData suback; rc = client.subscribe(test_topic, subsqos, messageArrived, suback); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Granted QoS rc from subscribe", suback.grantedQoS == MQTT::QOS2, "rc was %d", suback.grantedQoS); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* reconnect with cleansession false */ data.cleansession = 0; rc = ipstack.connect(options.host, options.port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 1", connack.sessionPresent == 1, "sessionPresent was %d", connack.sessionPresent); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* reconnect with cleansession true */ data.cleansession = 1; rc = ipstack.connect(options.host, options.port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 0", connack.sessionPresent == 0, "sessionPresent was %d", connack.sessionPresent); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); exit: MyLog(LOGA_INFO, "TEST2: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } /********************************************************************* Test 3: client session state *********************************************************************/ static volatile MQTT::MessageData* test2_message_data = NULL; void messageArrived2(MQTT::MessageData& md) { test2_message_data = &md; MQTT::Message &m = md.message; assert("Good message lengths", pubmsg.payloadlen == m.payloadlen, "payloadlen was %d", m.payloadlen); if (pubmsg.payloadlen == m.payloadlen) assert("Good message contents", memcmp(m.payload, pubmsg.payload, m.payloadlen) == 0, "payload was %s", m.payload); } int check_subs_exist(MQTT::Client& client, const char* test_topic, int which) { int rc = MQTT::FAILURE; int wait_seconds = 0; memset(&pubmsg, '\0', sizeof(pubmsg)); pubmsg.payload = (void*)"a much longer message that we can shorten to the extent that we need to payload up to 11"; pubmsg.payloadlen = 11; pubmsg.qos = MQTT::QOS2; pubmsg.retained = false; pubmsg.dup = false; test1_message_data = test2_message_data = NULL; rc = client.publish(test_topic, pubmsg); assert("Good rc from publish", rc == MQTT::SUCCESS, "rc was %d", rc); /* wait for the message to be received */ wait_seconds = 10; while (wait_seconds-- > 0) { client.yield(100); } rc = (((which == 1 || which == 3) && test1_message_data) || (which == 2 && test1_message_data == NULL)) ? MQTT::SUCCESS : MQTT::FAILURE; assert("test1 subscription", rc == MQTT::SUCCESS, "test1_message_data %p\n", test1_message_data); rc = (((which == 2 || which == 3) && test2_message_data) || (which == 1 && test2_message_data == NULL)) ? MQTT::SUCCESS : MQTT::FAILURE; assert("test2 subscription", rc == MQTT::SUCCESS, "test2_message_data %p\n", test2_message_data); return rc; } int test3(struct Options options) { MQTT::QoS subsqos = MQTT::QOS2; int rc; const char* test_topic = "C client test3"; int wait_seconds = 0; fprintf(xml, " client = MQTT::Client(ipstack); MQTTPacket_connectData data = MQTTPacket_connectData_initializer; data.willFlag = 1; data.MQTTVersion = options.MQTTVersion; data.clientID.cstring = (char*)"connack-return-data"; data.username.cstring = (char*)"testuser"; data.password.cstring = (char*)"testpassword"; data.keepAliveInterval = 10; data.cleansession = 1; data.will.message.cstring = (char*)"will message"; data.will.qos = 1; data.will.retained = 0; data.will.topicName.cstring = (char*)"will topic"; assert("Good rc in connack", client.isConnected() == false, "isconnected was %d", client.isConnected()); MyLog(LOGA_DEBUG, "Connecting"); rc = ipstack.connect(options.host, options.port); assert("Good rc from TCP connect", rc == MQTT::SUCCESS, "rc was %d", rc); if (rc != MQTT::SUCCESS) goto exit; MQTT::connackData connack; rc = client.connect(data, connack); assert("Good rc from connect", rc == MQTT::SUCCESS, "rc was %d", rc); if (rc != MQTT::SUCCESS) goto exit; assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 0", connack.sessionPresent == 0, "sessionPresent was %d", connack.sessionPresent); assert("Good rc in connack", client.isConnected() == true, "isconnected was %d", client.isConnected()); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* reconnect with cleansession false */ data.cleansession = 0; rc = ipstack.connect(options.proxy_host, options.proxy_port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 0", connack.sessionPresent == 0, "sessionPresent was %d", connack.sessionPresent); MQTT::subackData suback; rc = client.subscribe(test_topic, subsqos, messageArrived, suback); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Granted QoS rc from subscribe", suback.grantedQoS == MQTT::QOS2, "rc was %d", suback.grantedQoS); check_subs_exist(client, test_topic, 1); rc = client.subscribe(test_topic, subsqos, messageArrived2, suback); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Granted QoS rc from subscribe", suback.grantedQoS == MQTT::QOS2, "rc was %d", suback.grantedQoS); check_subs_exist(client, test_topic, 2); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* reconnect with cleansession false */ data.cleansession = 0; rc = ipstack.connect(options.proxy_host, options.proxy_port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 1", connack.sessionPresent == 1, "sessionPresent was %d", connack.sessionPresent); check_subs_exist(client, test_topic, 2); rc = client.subscribe(test_topic, subsqos, messageArrived, suback); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Granted QoS rc from subscribe", suback.grantedQoS == MQTT::QOS2, "rc was %d", suback.grantedQoS); check_subs_exist(client, test_topic, 1); // cause a connection FAILURE memset(&pubmsg, '\0', sizeof(pubmsg)); pubmsg.payload = (void*)"TERMINATE"; pubmsg.payloadlen = strlen((char*)pubmsg.payload); pubmsg.qos = MQTT::QOS0; pubmsg.retained = false; pubmsg.dup = false; rc = client.publish("MQTTSAS topic", pubmsg); assert("Good rc from publish", rc == MQTT::SUCCESS, "rc was %d", rc); // wait for failure to be noticed by keepalive wait_seconds = 20; while (client.isConnected() && (wait_seconds-- > 0)) { client.yield(1000); } assert("Disconnected", !client.isConnected(), "isConnected was %d", client.isConnected()); ipstack.disconnect(); /* reconnect with cleansession false */ data.cleansession = 0; rc = ipstack.connect(options.host, options.port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 1", connack.sessionPresent == 1, "sessionPresent was %d", connack.sessionPresent); check_subs_exist(client, test_topic, 1); rc = client.subscribe(test_topic, subsqos, messageArrived2, suback); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Granted QoS rc from subscribe", suback.grantedQoS == MQTT::QOS2, "rc was %d", suback.grantedQoS); check_subs_exist(client, test_topic, 2); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); /* reconnect with cleansession true to clean up both server and client state */ data.cleansession = 1; rc = ipstack.connect(options.host, options.port); assert("TCP connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); rc = client.connect(data, connack); assert("Connect successful", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Good rc in connack", connack.rc == 0, "rc was %d", connack.rc); assert("Session present is 0", connack.sessionPresent == 0, "sessionPresent was %d", connack.sessionPresent); rc = client.subscribe(test_topic, subsqos, messageArrived2, suback); assert("Good rc from subscribe", rc == MQTT::SUCCESS, "rc was %d", rc); assert("Granted QoS rc from subscribe", suback.grantedQoS == MQTT::QOS2, "rc was %d", suback.grantedQoS); check_subs_exist(client, test_topic, 2); rc = client.disconnect(); assert("Disconnect successful", rc == MQTT::SUCCESS, "rc was %d", rc); ipstack.disconnect(); exit: MyLog(LOGA_INFO, "TEST2: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } #if 0 /********************************************************************* Test 4: connectionLost and will message *********************************************************************/ MQTTClient test6_c1, test6_c2; volatile int test6_will_message_arrived = 0; volatile int test6_connection_lost_called = 0; void test6_connectionLost(void* context, char* cause) { MQTTClient c = (MQTTClient)context; printf("%s -> Callback: connection lost\n", (c == test6_c1) ? "Client-1" : "Client-2"); test6_connection_lost_called = 1; } void test6_deliveryComplete(void* context, MQTTClient_deliveryToken token) { printf("Client-2 -> Callback: publish complete for token %d\n", token); } char* test6_will_topic = "C Test 2: will topic"; char* test6_will_message = "will message from Client-1"; int test6_messageArrived(void* context, char* topicName, int topicLen, MQTTClient_message* m) { MQTTClient c = (MQTTClient)context; printf("%s -> Callback: message received on topic '%s' is '%.*s'.\n", (c == test6_c1) ? "Client-1" : "Client-2", topicName, m->payloadlen, (char*)(m->payload)); if (c == test6_c2 && strcmp(topicName, test6_will_topic) == 0 && memcmp(m->payload, test6_will_message, m->payloadlen) == 0) test6_will_message_arrived = 1; MQTTClient_free(topicName); MQTTClient_freeMessage(&m); return 1; } int test6(struct Options options) { char* testname = "test6"; MQTTClient_connectOptions opts = MQTTClient_connectOptions_initializer; MQTTClient_willOptions wopts = MQTTClient_willOptions_initializer; MQTTClient_connectOptions opts2 = MQTTClient_connectOptions_initializer; int rc, count; char* mqttsas_topic = "MQTTSAS topic"; failures = 0; MyLog(LOGA_INFO, "Starting test 6 - connectionLost and will messages"); fprintf(xml, "message = test6_will_message; opts.will->qos = 1; opts.will->retained = 0; opts.will->topicName = test6_will_topic; if (options.haconnections != NULL) { opts.serverURIs = options.haconnections; opts.serverURIcount = options.hacount; } /* Client-1 with Will options */ rc = MQTTClient_create(&test6_c1, options.proxy_connection, "Client_1", MQTTCLIENT_PERSISTENCE_DEFAULT, NULL); assert("good rc from create", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); if (rc != MQTTCLIENT_SUCCESS) goto exit; rc = MQTTClient_setCallbacks(test6_c1, (void*)test6_c1, test6_connectionLost, test6_messageArrived, test6_deliveryComplete); assert("good rc from setCallbacks", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); if (rc != MQTTCLIENT_SUCCESS) goto exit; /* Connect to the broker */ rc = MQTTClient_connect(test6_c1, &opts); assert("good rc from connect", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); if (rc != MQTTCLIENT_SUCCESS) goto exit; /* Client - 2 (multi-threaded) */ rc = MQTTClient_create(&test6_c2, options.connection, "Client_2", MQTTCLIENT_PERSISTENCE_DEFAULT, NULL); assert("good rc from create", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); /* Set the callback functions for the client */ rc = MQTTClient_setCallbacks(test6_c2, (void*)test6_c2, test6_connectionLost, test6_messageArrived, test6_deliveryComplete); assert("good rc from setCallbacks", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); /* Connect to the broker */ opts2.keepAliveInterval = 20; opts2.cleansession = 1; MyLog(LOGA_INFO, "Connecting Client_2 ..."); rc = MQTTClient_connect(test6_c2, &opts2); assert("Good rc from connect", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); rc = MQTTClient_subscribe(test6_c2, test6_will_topic, 2); assert("Good rc from subscribe", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); /* now send the command which will break the connection and cause the will message to be sent */ rc = MQTTClient_publish(test6_c1, mqttsas_topic, (int)strlen("TERMINATE"), "TERMINATE", 0, 0, NULL); assert("Good rc from publish", rc == MQTTCLIENT_SUCCESS, "rc was %d\n", rc); MyLog(LOGA_INFO, "Waiting to receive the will message"); count = 0; while (++count < 40) { #if defined(WIN32) Sleep(1000L); #else sleep(1); #endif if (test6_will_message_arrived == 1 && test6_connection_lost_called == 1) break; } assert("will message arrived", test6_will_message_arrived == 1, "will_message_arrived was %d\n", test6_will_message_arrived); assert("connection lost called", test6_connection_lost_called == 1, "connection_lost_called %d\n", test6_connection_lost_called); rc = MQTTClient_unsubscribe(test6_c2, test6_will_topic); assert("Good rc from unsubscribe", rc == MQTTCLIENT_SUCCESS, "rc was %d", rc); rc = MQTTClient_isConnected(test6_c2); assert("Client-2 still connected", rc == 1, "isconnected is %d", rc); rc = MQTTClient_isConnected(test6_c1); assert("Client-1 not connected", rc == 0, "isconnected is %d", rc); rc = MQTTClient_disconnect(test6_c2, 100L); assert("Good rc from disconnect", rc == MQTTCLIENT_SUCCESS, "rc was %d", rc); MQTTClient_destroy(&test6_c1); MQTTClient_destroy(&test6_c2); exit: MyLog(LOGA_INFO, "%s: test %s. %d tests run, %d failures.\n", (failures == 0) ? "passed" : "failed", testname, tests, failures); write_test_result(); return failures; } #endif int main(int argc, char** argv) { int rc = 0; int (*tests[])(Options) = {NULL, test1, test2, test3, /*test4, test5, test6, test6a*/}; int i; xml = fopen("TEST-test1.xml", "w"); fprintf(xml, "\n", (int)(ARRAY_SIZE(tests) - 1)); //setenv("MQTT_C_CLIENT_TRACE", "ON", 1); //setenv("MQTT_C_CLIENT_TRACE_LEVEL", "ERROR", 0); getopts(argc, argv); for (i = 0; i < options.iterations; ++i) { if (options.test_no == 0) { /* run all the tests */ for (options.test_no = 1; options.test_no < ARRAY_SIZE(tests); ++options.test_no) rc += tests[options.test_no](options); /* return number of failures. 0 = test succeeded */ } else rc = tests[options.test_no](options); /* run just the selected test */ } if (rc == 0) MyLog(LOGA_INFO, "verdict pass"); else MyLog(LOGA_INFO, "verdict fail"); fprintf(xml, "\n"); fclose(xml); return rc; }