Vergil Cola
/
MQTTGatewayK64
Fork of my MQTTGateway
MQTTSManager/MQTTPacket/test/test1.txt
- Committer:
- vpcola
- Date:
- 2017-04-08
- Revision:
- 0:f1d3878b8dd9
File content as of revision 0:f1d3878b8dd9:
/******************************************************************************* * Copyright (c) 2014 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 API and implementation and/or initial documentation *******************************************************************************/ #include "MQTTPacket.h" #include <string.h> #include <stdlib.h> #include <stdio.h> #if !defined(_WINDOWS) #include <sys/time.h> #include <sys/socket.h> #include <unistd.h> #include <errno.h> #else #include <winsock2.h> #include <ws2tcpip.h> #define MAXHOSTNAMELEN 256 #define EAGAIN WSAEWOULDBLOCK #define EINTR WSAEINTR #define EINPROGRESS WSAEINPROGRESS #define EWOULDBLOCK WSAEWOULDBLOCK #define ENOTCONN WSAENOTCONN #define ECONNRESET WSAECONNRESET #endif #define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0])) struct Options { char* connection; /**< connection to system under test. */ char** haconnections; int hacount; int verbose; int test_no; } options = { "tcp://m2m.eclipse.org:1883", NULL, 0, 0, 0, }; void usage() { } 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], "--connection") == 0) { if (++count < argc) { options.connection = argv[count]; printf("\nSetting connection to %s\n", options.connection); } else usage(); } else if (strcmp(argv[count], "--haconnections") == 0) { if (++count < argc) { char* tok = strtok(argv[count], " "); options.hacount = 0; options.haconnections = malloc(sizeof(char*) * 5); while (tok) { options.haconnections[options.hacount] = malloc(strlen(tok) + 1); strcpy(options.haconnections[options.hacount], tok); options.hacount++; tok = strtok(NULL, " "); } } 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 <stdarg.h> #include <time.h> #include <sys/timeb.h> void MyLog(int LOGA_level, 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() { 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, "</testcase>\n"); } void myassert(char* filename, int lineno, char* description, int value, char* format, ...) { ++tests; if (!value) { va_list args; ++failures; printf("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, "<failure type=\"%s\">file %s, line %d </failure>\n", description, filename, lineno); } else MyLog(LOGA_DEBUG, "Assertion succeeded, file %s, line %d, description: %s", filename, lineno, description); } #define min(a, b) ((a < b) ? a : b) int checkMQTTStrings(MQTTString a, MQTTString b) { if (!a.lenstring.data) { a.lenstring.data = a.cstring; if (a.cstring) a.lenstring.len = strlen(a.cstring); } if (!b.lenstring.data) { b.lenstring.data = b.cstring; if (b.cstring) b.lenstring.len = strlen(b.cstring); } return memcmp(a.lenstring.data, b.lenstring.data, min(a.lenstring.len, b.lenstring.len)) == 0; } int checkConnectPackets(MQTTPacket_connectData* before, MQTTPacket_connectData* after) { int rc = 0; int start_failures = failures; assert("struct_ids should be the same", memcmp(before->struct_id, after->struct_id, 4) == 0, "struct_ids were different %.4s\n", after->struct_id); assert("struct_versions should be the same", before->struct_version == after->struct_version, "struct_versions were different\n", rc); assert("MQTT versions should be the same", before->MQTTVersion == after->MQTTVersion, "MQTT versions were different\n", rc); assert("ClientIDs should be the same", checkMQTTStrings(before->clientID, after->clientID), "ClientIDs were different\n", rc); assert("keepAliveIntervals should be the same", before->keepAliveInterval == after->keepAliveInterval, "keepAliveIntervals were different %d\n", after->keepAliveInterval); assert("cleansessions should be the same", before->cleansession == after->cleansession, "cleansessions were different\n", rc); assert("willFlags should be the same", before->willFlag == after->willFlag, "willFlags were different\n", rc); if (before->willFlag) { assert("will struct_ids should be the same", memcmp(before->will.struct_id, after->will.struct_id, 4) == 0, "will struct_ids were different %.4s\n", after->struct_id); assert("will struct_versions should be the same", before->will.struct_version == after->will.struct_version, "will struct_versions were different\n", rc); assert("topic names should be the same", checkMQTTStrings(before->will.topicName, after->will.topicName), "topic names were different\n", rc); assert("messages should be the same", checkMQTTStrings(before->will.message, after->will.message), "messages were different\n", rc); assert("retained flags should be the same", before->will.retained == after->will.retained, "retained flags were different\n", rc); assert("will qos should be the same", before->will.qos == after->will.qos, "will qos were different\n", rc); } assert("usernames should be the same", checkMQTTStrings(before->clientID, after->clientID), "usernames were different\n", rc); assert("passwords should be the same", checkMQTTStrings(before->password, after->password), "passwords were different\n", rc); return failures == start_failures; } int test1(struct Options options) { MQTTPacket_connectData data = MQTTPacket_connectData_initializer; MQTTPacket_connectData data_after = MQTTPacket_connectData_initializer; int rc = 0; char buf[100]; int buflen = sizeof(buf); fprintf(xml, "<testcase classname=\"test1\" name=\"de/serialization\""); global_start_time = start_clock(); failures = 0; MyLog(LOGA_INFO, "Starting test 1 - serialization of connect and back"); data.clientID.cstring = "me"; data.keepAliveInterval = 20; data.cleansession = 1; data.username.cstring = "testuser"; data.password.cstring = "testpassword"; data.willFlag = 1; data.will.message.cstring = "will message"; data.will.qos = 1; data.will.retained = 0; data.will.topicName.cstring = "will topic"; rc = MQTTSerialize_connect(buf, buflen, &data); assert("good rc from serialize connect", rc > 0, "rc was %d\n", rc); rc = MQTTDeserialize_connect(&data_after, buf, buflen); assert("good rc from deserialize connect", rc == 1, "rc was %d\n", rc); /* data after should be the same as data before */ rc = checkConnectPackets(&data, &data_after); assert("packets should be the same", rc == 1, "packets were different\n", rc); /* exit: */ MyLog(LOGA_INFO, "TEST1: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } int test2(struct Options options) { int rc = 0; char buf[100]; int buflen = sizeof(buf); unsigned char dup = 0; int qos = 2; unsigned char retained = 0; int msgid = 23; MQTTString topicString = MQTTString_initializer; char *payload = "kkhkhkjkj jkjjk jk jk "; int payloadlen = strlen(payload); unsigned char dup2 = 1; int qos2 = 1; unsigned char retained2 = 1; int msgid2 = 3243; MQTTString topicString2 = MQTTString_initializer; char *payload2 = NULL; int payloadlen2 = 0; fprintf(xml, "<testcase classname=\"test1\" name=\"de/serialization\""); global_start_time = start_clock(); failures = 0; MyLog(LOGA_INFO, "Starting test 2 - serialization of publish and back"); topicString.cstring = "mytopic"; rc = MQTTSerialize_publish(buf, buflen, dup, qos, retained, msgid, topicString, payload, payloadlen); assert("good rc from serialize publish", rc > 0, "rc was %d\n", rc); rc = MQTTDeserialize_publish(&dup2, &qos2, &retained2, &msgid2, &topicString2, &payload2, &payloadlen2, buf, buflen); assert("good rc from deserialize publish", rc == 1, "rc was %d\n", rc); /* data after should be the same as data before */ assert("dups should be the same", dup == dup2, "dups were different %d\n", dup2); assert("qoss should be the same", qos == qos2, "qoss were different %d\n", qos2); assert("retaineds should be the same", retained == retained2, "retaineds were different %d\n", retained2); assert("msgids should be the same", msgid == msgid2, "msgids were different %d\n", msgid2); assert("topics should be the same", checkMQTTStrings(topicString, topicString2), "topics were different %s\n", ""); //topicString2); assert("payload lengths should be the same", payloadlen == payloadlen2, "payload lengths were different %d\n", payloadlen2); assert("payloads should be the same", memcmp(payload, payload2, payloadlen) == 0, "payloads were different %s\n", ""); /*exit:*/ MyLog(LOGA_INFO, "TEST2: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } int test3(struct Options options) { int i = 0; int rc = 0; char buf[100]; int buflen = sizeof(buf); #define TOPIC_COUNT 2 int dup = 0; int msgid = 23; int count = TOPIC_COUNT; MQTTString topicStrings[TOPIC_COUNT] = { MQTTString_initializer, MQTTString_initializer }; int req_qoss[TOPIC_COUNT] = {2, 1}; int dup2 = 1; int msgid2 = 2223; int count2 = 0; MQTTString topicStrings2[TOPIC_COUNT] = { MQTTString_initializer, MQTTString_initializer }; int req_qoss2[TOPIC_COUNT] = {0, 0}; fprintf(xml, "<testcase classname=\"test1\" name=\"de/serialization\""); global_start_time = start_clock(); failures = 0; MyLog(LOGA_INFO, "Starting test 2 - serialization of subscribe and back"); topicStrings[0].cstring = "mytopic"; topicStrings[1].cstring = "mytopic2"; rc = MQTTSerialize_subscribe(buf, buflen, dup, msgid, count, topicStrings, req_qoss); assert("good rc from serialize subscribe", rc > 0, "rc was %d\n", rc); rc = MQTTDeserialize_subscribe(&dup2, &msgid2, 2, &count2, topicStrings2, req_qoss2, buf, buflen); assert("good rc from deserialize subscribe", rc == 1, "rc was %d\n", rc); /* data after should be the same as data before */ assert("dups should be the same", dup == dup2, "dups were different %d\n", dup2); assert("msgids should be the same", msgid == msgid2, "msgids were different %d\n", msgid2); assert("count should be the same", count == count2, "counts were different %d\n", count2); for (i = 0; i < count2; ++i) { assert("topics should be the same", checkMQTTStrings(topicStrings[i], topicStrings2[i]), "topics were different %s\n", ""); assert("qoss should be the same", req_qoss[i] == req_qoss2[i], "qoss were different %d\n", req_qoss2[i]); } /*exit:*/ MyLog(LOGA_INFO, "TEST3: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } int test4(struct Options options) { int i = 0; int rc = 0; char buf[100]; int buflen = sizeof(buf); #define TOPIC_COUNT 2 int msgid = 23; int count = TOPIC_COUNT; int granted_qoss[TOPIC_COUNT] = {2, 1}; ; int msgid2 = 2223; int count2 = 0; int granted_qoss2[TOPIC_COUNT] = {0, 0}; fprintf(xml, "<testcase classname=\"test1\" name=\"de/serialization\""); global_start_time = start_clock(); failures = 0; MyLog(LOGA_INFO, "Starting test 4 - serialization of suback and back"); rc = MQTTSerialize_suback(buf, buflen, msgid, count, granted_qoss); assert("good rc from serialize suback", rc > 0, "rc was %d\n", rc); rc = MQTTDeserialize_suback(&msgid2, 2, &count2, granted_qoss2, buf, buflen); assert("good rc from deserialize suback", rc == 1, "rc was %d\n", rc); /* data after should be the same as data before */ assert("msgids should be the same", msgid == msgid2, "msgids were different %d\n", msgid2); assert("count should be the same", count == count2, "counts were different %d\n", count2); for (i = 0; i < count2; ++i) assert("qoss should be the same", granted_qoss[i] == granted_qoss2[i], "qoss were different %d\n", granted_qoss2[i]); /* exit: */ MyLog(LOGA_INFO, "TEST4: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } int test5(struct Options options) { int i = 0; int rc = 0; char buf[100]; int buflen = sizeof(buf); #define TOPIC_COUNT 2 int dup = 0; int msgid = 23; int count = TOPIC_COUNT; MQTTString topicStrings[TOPIC_COUNT] = { MQTTString_initializer, MQTTString_initializer }; int dup2 = 1; int msgid2 = 2223; int count2 = 0; MQTTString topicStrings2[TOPIC_COUNT] = { MQTTString_initializer, MQTTString_initializer }; fprintf(xml, "<testcase classname=\"test1\" name=\"de/serialization\""); global_start_time = start_clock(); failures = 0; MyLog(LOGA_INFO, "Starting test 2 - serialization of unsubscribe and back"); topicStrings[0].cstring = "mytopic"; topicStrings[1].cstring = "mytopic2"; rc = MQTTSerialize_unsubscribe(buf, buflen, dup, msgid, count, topicStrings); assert("good rc from serialize unsubscribe", rc > 0, "rc was %d\n", rc); rc = MQTTDeserialize_unsubscribe(&dup2, &msgid2, 2, &count2, topicStrings2, buf, buflen); assert("good rc from deserialize unsubscribe", rc == 1, "rc was %d\n", rc); /* data after should be the same as data before */ assert("dups should be the same", dup == dup2, "dups were different %d\n", dup2); assert("msgids should be the same", msgid == msgid2, "msgids were different %d\n", msgid2); assert("count should be the same", count == count2, "counts were different %d\n", count2); for (i = 0; i < count2; ++i) assert("topics should be the same", checkMQTTStrings(topicStrings[i], topicStrings2[i]), "topics were different %s\n", ""); /* exit: */ MyLog(LOGA_INFO, "TEST5: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } int test6(struct Options options) { int rc = 0; char buf[100]; int buflen = sizeof(buf); int connack_rc = 77; int connack_rc2 = 0; fprintf(xml, "<testcase classname=\"test1\" name=\"de/serialization\""); global_start_time = start_clock(); failures = 0; MyLog(LOGA_INFO, "Starting test 2 - serialization of connack and back"); rc = MQTTSerialize_connack(buf, buflen, connack_rc); assert("good rc from serialize connack", rc > 0, "rc was %d\n", rc); rc = MQTTDeserialize_connack(&connack_rc2, buf, buflen); assert("good rc from deserialize connack", rc == 1, "rc was %d\n", rc); /* data after should be the same as data before */ assert("dups should be the same", connack_rc == connack_rc2, "dups were different %d\n", connack_rc2); /* exit: */ MyLog(LOGA_INFO, "TEST6: test %s. %d tests run, %d failures.", (failures == 0) ? "passed" : "failed", tests, failures); write_test_result(); return failures; } int main(int argc, char** argv) { int rc = 0; int (*tests[])() = {NULL, test1, test2, test3, test4, test5, test6}; xml = fopen("TEST-test1.xml", "w"); fprintf(xml, "<testsuite name=\"test1\" tests=\"%d\">\n", (int)(ARRAY_SIZE(tests) - 1)); getopts(argc, argv); 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, "</testsuite>\n"); fclose(xml); return rc; }