void __testListen_Accept_After_Connect()
{
__init_pcap_record(CU_get_current_test()->pName);
int err = 0;
int ret = 0;
my_context server_socket = __target->open(__target, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_PTR_NOT_NULL_FATAL(server_socket);
struct sockaddr_in addr;
socklen_t len = sizeof(addr);
memset(&addr, 0, len);
addr.sin_family = AF_INET;
addr.sin_addr.s_addr = htonl(INADDR_ANY);
addr.sin_port = htons(10000);
ret = __target->bind(__target, server_socket, (struct sockaddr*)&addr, len, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_TRUE_FATAL(ret);
ret = __target->listen(__target, server_socket, 3, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_TRUE_FATAL(ret);
addr.sin_addr.s_addr = inet_addr("10.0.0.100");
my_context client = __reference->open(__reference, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_PTR_NOT_NULL_FATAL(client);
// printf("aaaaaaaaaaaaaaaaaaaaa\n");
ret = __reference->connect(__reference, client, (struct sockaddr*)&addr, len, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_TRUE_FATAL(ret);
// printf("aaaaaaaaaaaaaaa\n");
__flush_packets(100);
ret = __target->accept(__target, server_socket, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_TRUE_FATAL(ret);
// printf("bbbbbbbbbbbbbbbb\n");
application* clientApp = __find_app(__reference, client);
CU_ASSERT_EQUAL(clientApp->active_open_calls, 1);
application* serverApp = __find_app(__target, server_socket);
CU_ASSERT_EQUAL(serverApp->active_open_calls, 0);
CU_ASSERT_EQUAL(list_get_count(serverApp->passive_open_calls), 1);
// printf("cccccccccccccc\n");
__pcap_close();
}
void testCheckDuplicates2(void) {
bson b, b2;
bson_iterator it, sit;
bson_type bt;
bson_init(&b);
bson_append_start_array(&b, "array");
bson_append_int(&b, "0", 1);
bson_append_finish_array(&b);
bson_append_start_array(&b, "array");
bson_append_int(&b, "0", 3);
bson_append_int(&b, "1", 4);
bson_append_finish_array(&b);
bson_finish(&b);
CU_ASSERT_FALSE_FATAL(b.err);
CU_ASSERT_TRUE_FATAL(bson_check_duplicate_keys(&b));
bson_init(&b2);
bson_fix_duplicate_keys(&b, &b2);
bson_finish(&b2);
CU_ASSERT_FALSE_FATAL(b2.err);
CU_ASSERT_FALSE_FATAL(bson_check_duplicate_keys(&b2));
BSON_ITERATOR_INIT(&it, &b2);
bt = bson_iterator_next(&it);
CU_ASSERT_EQUAL_FATAL(bt, BSON_ARRAY);
CU_ASSERT_STRING_EQUAL_FATAL(BSON_ITERATOR_KEY(&it), "array");
BSON_ITERATOR_SUBITERATOR(&it, &sit);
bt = bson_iterator_next(&sit);
CU_ASSERT_STRING_EQUAL_FATAL(BSON_ITERATOR_KEY(&sit), "0");
CU_ASSERT_TRUE_FATAL(BSON_IS_NUM_TYPE(bt));
CU_ASSERT_EQUAL_FATAL(bson_iterator_int(&sit), 1);
bt = bson_iterator_next(&sit);
CU_ASSERT_STRING_EQUAL_FATAL(BSON_ITERATOR_KEY(&sit), "1");
CU_ASSERT_TRUE_FATAL(BSON_IS_NUM_TYPE(bt));
CU_ASSERT_EQUAL_FATAL(bson_iterator_int(&sit), 3);
bt = bson_iterator_next(&sit);
CU_ASSERT_STRING_EQUAL_FATAL(BSON_ITERATOR_KEY(&sit), "2");
CU_ASSERT_TRUE_FATAL(BSON_IS_NUM_TYPE(bt));
CU_ASSERT_EQUAL_FATAL(bson_iterator_int(&sit), 4);
bt = bson_iterator_next(&sit);
CU_ASSERT_EQUAL_FATAL(bt, BSON_EOO);
bson_destroy(&b2);
bson_destroy(&b);
}
void test_addPattern(void)
{
HObs hObs = NULL;
RU8 pattern[] = { 0x01, 0x02, 0x03, 0x04 };
RU32 context = 0;
hObs = obsLib_new( 0, 0 );
CU_ASSERT_TRUE_FATAL( rpal_memory_isValid( hObs ) );
CU_ASSERT_TRUE_FATAL( obsLib_addPattern( hObs, (RPU8)&pattern, sizeof( pattern ), &context ) );
obsLib_free( hObs );
}
static void test_raw_expected(const char * uriStr,
const char * testBuf,
size_t testLen,
const char * expectBuf,
size_t expectLen,
lwm2m_media_type_t format,
const char * id)
{
lwm2m_data_t * tlvP;
lwm2m_uri_t uri;
int size;
if (uriStr != NULL)
{
lwm2m_stringToUri(uriStr, strlen(uriStr), &uri);
}
size = lwm2m_data_parse((uriStr != NULL) ? &uri : NULL, (uint8_t *)testBuf, testLen, format, &tlvP);
CU_ASSERT_TRUE_FATAL(size>0);
// Serialize to the same format and compare to the input buffer
test_data_and_compare(uriStr, format, tlvP, size, id, (uint8_t*)expectBuf, expectLen);
// Serialize to the other format respectivly.
if (format == LWM2M_CONTENT_TLV)
test_data(uriStr, LWM2M_CONTENT_JSON, tlvP, size, id);
else if (format == LWM2M_CONTENT_JSON)
test_data(uriStr, LWM2M_CONTENT_TLV, tlvP, size, id);
}
static LinphoneCore* configure_lc_from(LinphoneCoreVTable* v_table, const char* path, const char* file, void* user_data) {
LinphoneCore* lc;
char filepath[256]={0};
char ringpath[256]={0};
char ringbackpath[256]={0};
char rootcapath[256]={0};
char dnsuserhostspath[256]={0};
char nowebcampath[256]={0};
if (path==NULL) path=".";
if (file){
sprintf(filepath, "%s/%s", path, file);
CU_ASSERT_TRUE_FATAL(ortp_file_exist(filepath)==0);
}
lc = linphone_core_new(v_table,NULL,*filepath!='\0' ? filepath : NULL, user_data);
sal_enable_test_features(lc->sal,TRUE);
snprintf(rootcapath, sizeof(rootcapath), "%s/certificates/cn/cafile.pem", path);
linphone_core_set_root_ca(lc,rootcapath);
sprintf(dnsuserhostspath, "%s/%s", path, userhostsfile);
sal_set_dns_user_hosts_file(lc->sal, dnsuserhostspath);
snprintf(ringpath,sizeof(ringpath), "%s/sounds/oldphone.wav",path);
snprintf(ringbackpath,sizeof(ringbackpath), "%s/sounds/ringback.wav", path);
linphone_core_set_ring(lc, ringpath);
linphone_core_set_ringback(lc, ringbackpath);
snprintf(nowebcampath, sizeof(nowebcampath), "%s/images/nowebcamCIF.jpg", path);
linphone_core_set_static_picture(lc,nowebcampath);
return lc;
}
/**
* @brief Parses the testBuf to an array of lwm2m_data_t objects and serializes the result
* to TLV and JSON and if applicable compares it to the original testBuf.
* @param testBuf The input buffer.
* @param testLen The length of the input buffer.
* @param format The format of the testBuf. Maybe LWM2M_CONTENT_TLV or LWM2M_CONTENT_JSON at the moment.
* @param id The test object id for debug out.
*/
static void test_raw(const char * uriStr,
const char * testBuf,
size_t testLen,
lwm2m_media_type_t format,
const char * id)
{
lwm2m_data_t * tlvP;
lwm2m_uri_t uri;
int size;
if (uriStr != NULL)
{
lwm2m_stringToUri(uriStr, strlen(uriStr), &uri);
}
size = lwm2m_data_parse((uriStr != NULL) ? &uri : NULL, (uint8_t *)testBuf, testLen, format, &tlvP);
CU_ASSERT_TRUE_FATAL(size>0);
// Serialize to the same format and compare to the input buffer
test_data_and_compare(uriStr, format, tlvP, size, id, (uint8_t*)testBuf, testLen);
// Serialize to the TLV format
// the reverse is not possible as TLV format loses the data type information
if (format == LWM2M_CONTENT_JSON)
{
test_data(uriStr, LWM2M_CONTENT_TLV, tlvP, size, id);
}
}
void test_cancel()
{
T1 t1, t2;
CU_ASSERT_TRUE_FATAL(t1.cancel());
t2.start();
CU_ASSERT_FALSE_FATAL(t2.cancel());
t2.stop();
}
void testTicket53(void) {
EJDB *jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_53", JBOWRITER | JBOCREAT));
ejdbclose(jb);
ejdbdel(jb);
jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_53", JBOWRITER));
EJCOLL *coll = ejdbcreatecoll(jb, "mycoll", NULL);
if (!coll) {
eprint(jb, __LINE__, "testTicket53");
}
CU_ASSERT_TRUE(coll != NULL);
ejdbclose(jb);
ejdbdel(jb);
}
LinphoneCore* configure_lc_from(LinphoneCoreVTable* v_table, const char* path, const char* file, void* user_data) {
LinphoneCore* lc;
LpConfig* config = NULL;
char *filepath = NULL;
char *ringpath = NULL;
char *ringbackpath = NULL;
char *rootcapath = NULL;
char *dnsuserhostspath = NULL;
char *nowebcampath = NULL;
if (path==NULL) path=".";
if (file){
filepath = ms_strdup_printf("%s/%s", path, file);
CU_ASSERT_TRUE_FATAL(ortp_file_exist(filepath)==0);
config = lp_config_new_with_factory(NULL,filepath);
}
// setup dynamic-path assets
ringpath = ms_strdup_printf("%s/sounds/oldphone.wav",path);
ringbackpath = ms_strdup_printf("%s/sounds/ringback.wav", path);
nowebcampath = ms_strdup_printf("%s/images/nowebcamCIF.jpg", path);
rootcapath = ms_strdup_printf("%s/certificates/cn/cafile.pem", path);
dnsuserhostspath = ms_strdup_printf( "%s/%s", path, userhostsfile);
if( config != NULL ) {
lp_config_set_string(config, "sound", "remote_ring", ringbackpath);
lp_config_set_string(config, "sound", "local_ring" , ringpath);
lp_config_set_string(config, "sip", "root_ca" , rootcapath);
lc = linphone_core_new_with_config(v_table, config, user_data);
} else {
lc = linphone_core_new(v_table,NULL,(filepath!=NULL&&filepath[0]!='\0') ? filepath : NULL, user_data);
linphone_core_set_ring(lc, ringpath);
linphone_core_set_ringback(lc, ringbackpath);
linphone_core_set_root_ca(lc,rootcapath);
}
sal_enable_test_features(lc->sal,TRUE);
sal_set_dns_user_hosts_file(lc->sal, dnsuserhostspath);
linphone_core_set_static_picture(lc,nowebcampath);
linphone_core_enable_ipv6(lc, liblinphone_tester_ipv6_enabled);
ms_free(ringpath);
ms_free(ringbackpath);
ms_free(nowebcampath);
ms_free(rootcapath);
ms_free(dnsuserhostspath);
if( filepath ) ms_free(filepath);
if( config ) lp_config_unref(config);
return lc;
}
static void
sender_insertProducts(void)
{
pqueue* pq;
int status = pq_open(UP7_PQ_PATHNAME, 0, &pq);
CU_ASSERT_EQUAL_FATAL(status, 0);
product prod;
prod_info* info = &prod.info;
char ident[80];
void* data = NULL;
unsigned short xsubi[3] = {(unsigned short)1234567890,
(unsigned short)9876543210,
(unsigned short)1029384756
};
info->feedtype = EXP;
info->ident = ident;
info->origin = "localhost";
(void)memset(info->signature, 0, sizeof(info->signature));
for (int i = 0; i < NUM_PRODS; i++) {
const unsigned size = MAX_PROD_SIZE*erand48(xsubi) + 0.5;
const ssize_t nbytes = snprintf(ident, sizeof(ident), "%d", i);
CU_ASSERT_TRUE_FATAL(nbytes >= 0 && nbytes < sizeof(ident));
status = set_timestamp(&info->arrival);
CU_ASSERT_EQUAL_FATAL(status, 0);
info->seqno = i;
uint32_t signet = htonl(i);
(void)memcpy(info->signature+sizeof(signaturet)-sizeof(signet), &signet,
sizeof(signet));
info->sz = size;
data = realloc(data, size);
CU_ASSERT_PTR_NOT_NULL(data);
prod.data = data;
status = pq_insert(pq, &prod);
CU_ASSERT_EQUAL_FATAL(status, 0);
char buf[LDM_INFO_MAX];
LOG_ADD1("Inserted: prodInfo=\"%s\"",
s_prod_info(buf, sizeof(buf), info, 1));
log_log(LOG_INFO);
struct timespec duration;
duration.tv_sec = 0;
duration.tv_nsec = 5000000; // 5 ms
status = nanosleep(&duration, NULL);
CU_ASSERT_EQUAL_FATAL(status, 0);
}
free(data);
status = pq_close(pq);
CU_ASSERT_EQUAL_FATAL(status, 0);
}
static void test_open_on_dev_null_if_closed(
void)
{
int status = close(STDERR_FILENO);
CU_ASSERT_EQUAL_FATAL(status, 0);
status = open_on_dev_null_if_closed(STDERR_FILENO, O_RDWR);
CU_ASSERT_EQUAL_FATAL(status, 0);
CU_ASSERT_FALSE_FATAL(log_is_stderr_useful());
CU_ASSERT_TRUE_FATAL(fcntl(STDERR_FILENO, F_GETFD) >= 0);
}
void test_CreateAndDestroy(void)
{
HObs hObs = NULL;
hObs = obsLib_new( 0, 0 );
CU_ASSERT_TRUE_FATAL( rpal_memory_isValid( hObs ) );
obsLib_free( hObs );
}
void test_local_no_start()
{
T2 t2(false);
t2.start();
USLEEP(100);
USLEEP(100);
CU_ASSERT_TRUE_FATAL(
RThreadState::state_is(t2, T2::terminatedState));
t2.stop();
}
static void test_1(void)
{
const char buffer[] = {0x03, 0x0A, 0xC1, 0x01, 0x14, 0x03, 0x0B, 0xC1, 0x01, 0x15, 0x03, 0x0C, 0xC1, 0x01, 0x16};
int testLen = sizeof(buffer);
lwm2m_media_type_t format = LWM2M_CONTENT_TLV;
lwm2m_data_t * tlvP;
int size = lwm2m_data_parse(NULL, (uint8_t *)buffer, testLen, format, &tlvP);
CU_ASSERT_TRUE_FATAL(size>0);
// Serialize to the same format and compare to the input buffer
test_data_and_compare(NULL, format, tlvP, size, "1", (uint8_t*)buffer, testLen);
}
void test_current()
{
StdThreadRepository& tr =
StdThreadRepository::instance();
// this thread is not registered;
CU_ASSERT_PTR_NULL_FATAL(RT::current());
CU_ASSERT_EQUAL_FATAL(tr.size(), 0);
T1* thread1 = T1::create<T1>("thread1");
T1* thread2 = T1::create<T1>("thread2");
thread1->start();
thread2->start();
thread1->is_terminal_state().wait();
thread2->is_terminal_state().wait();
CU_ASSERT_TRUE_FATAL(thread1->is_check_passed().signalled());
CU_ASSERT_FALSE_FATAL(thread1->is_check_failed().signalled());
CU_ASSERT_TRUE_FATAL(thread2->is_check_passed().signalled());
CU_ASSERT_FALSE_FATAL(thread2->is_check_failed().signalled());
thread1->remove(); // implies stop()
thread2->remove();
}
static int numLines(
const char* const pathname)
{
FILE* stream = fopen(pathname, "r");
CU_ASSERT_PTR_NOT_NULL_FATAL(stream);
int n = 0;
char line[_POSIX_MAX_INPUT];
for (; fgets(line, sizeof(line), stream) != NULL; ++n)
;
CU_ASSERT_TRUE_FATAL(feof(stream));
CU_ASSERT_FALSE_FATAL(ferror(stream));
CU_ASSERT_EQUAL_FATAL(fclose(stream), 0);
return n;
}
/**
* @retval 0 Success.
* @retval LDM7_INVAL No multicast sender child process exists.
*/
static int
terminateMcastSender(void)
{
int status;
/*
* Terminate the multicast sender process by sending a SIGTERM to the
* process group.
*/
{
struct sigaction oldSigact;
struct sigaction newSigact;
status = sigemptyset(&newSigact.sa_mask);
CU_ASSERT_EQUAL_FATAL(status, 0);
udebug("Setting SIGTERM action to ignore");
newSigact.sa_flags = 0;
newSigact.sa_handler = SIG_IGN;
status = sigaction(SIGTERM, &newSigact, &oldSigact);
CU_ASSERT_EQUAL_FATAL(status, 0);
udebug("Sending SIGTERM to process group");
status = kill(0, SIGTERM);
CU_ASSERT_EQUAL_FATAL(status, 0);
udebug("Restoring SIGTERM action");
status = sigaction(SIGTERM, &oldSigact, NULL);
CU_ASSERT_EQUAL(status, 0);
}
/* Reap the terminated multicast sender. */
{
udebug("Reaping multicast sender child process");
const pid_t wpid = wait(&status);
if (wpid == (pid_t)-1) {
CU_ASSERT_EQUAL(errno, ECHILD);
status = LDM7_INVAL;
}
else {
CU_ASSERT_TRUE_FATAL(wpid > 0);
CU_ASSERT_TRUE(WIFEXITED(status));
CU_ASSERT_EQUAL(WEXITSTATUS(status), 0);
status = mlsm_terminated(wpid);
CU_ASSERT_EQUAL(status, 0);
}
}
return status;
}
void test_local_block()
{
{
T1 t1;
t1.start();
}
{
T2 t2(true);
t2.start();
USLEEP(100);
USLEEP(100);
CU_ASSERT_TRUE_FATAL(
RThreadState::state_is(t2, T2::terminatedState));
}
}
void test_ssm_src_sess_create(void)
{
rtp_config_t config;
rtp_init_config(&config, RTPAPP_VAMRTP);
config.senders_cached = 1;
config.rtcp_bw_cfg.media_as_bw = RTCP_DFLT_AS_BW;
/* Use the fatal form; no use proceeding if we can't create a session. */
CU_ASSERT_TRUE_FATAL(rtp_create_session_ssm_rsi_source(&config,
&p_rtp_ssm_src,
TRUE));
/* KK!! Should beat on the session creation some more! */
}
void test_ptp_sess_create(void)
{
rtp_config_t config;
rtp_init_config(&config, RTPAPP_DEFAULT);
config.senders_cached = 1;
/* assume only one sender and one receiver */
config.rtcp_bw_cfg.media_rr_bw = RTCP_DFLT_PER_RCVR_BW;
config.rtcp_bw_cfg.media_rs_bw = RTCP_DFLT_PER_SNDR_BW;
/* Use the fatal form; no use proceeding if we can't create a session. */
CU_ASSERT_TRUE_FATAL(rtp_create_session_ptp(&config, &p_rtp_ptp, TRUE));
/* KK!! Should beat on the session creation some more! */
}
static int setup_timerfd(uint32_t delay, uint32_t period)
{
int res = 0;
int tfd = -1;
struct itimerspec newval, oldval;
tfd = timerfd_create(CLOCK_MONOTONIC, TFD_CLOEXEC | TFD_NONBLOCK);
CU_ASSERT_TRUE_FATAL(tfd >= 0);
/* Setup timeout */
newval.it_interval.tv_sec = (time_t)(period / 1000);
newval.it_interval.tv_nsec = (long int)((period % 1000) * 1000 * 1000);
newval.it_value.tv_sec = (time_t)(delay / 1000);
newval.it_value.tv_nsec = (long int)((delay % 1000) * 1000 * 1000);
res = timerfd_settime(tfd, 0, &newval, &oldval);
CU_ASSERT_EQUAL_FATAL(res, 0);
return tfd;
}
void test_singlePattern(void)
{
HObs hObs = NULL;
RU8 pattern[] = { 0x01, 0x02, 0x03, 0x04 };
RU8 buffer1[] = { 0x02, 0x04, 0xFF, 0xEF, 0x01, 0x02, 0x03, 0x04 };
RU8 buffer2[] = { 0x02, 0x04, 0xFF, 0xEF, 0x01, 0x02, 0x03, 0x04, 0xEE, 0x6F };
RU8 buffer3[] = { 0x02, 0x04, 0xFF, 0xEF, 0x01, 0x02, 0x01, 0x04, 0xEE, 0x6F };
RU8 buffer4[] = { 0x02, 0x04, 0xFF, 0xEF, 0x01, 0x02, 0x03, 0x04, 0xEE, 0x6F, 0x01, 0x02, 0x03, 0x04 };
RU32 context = 0;
PVOID hitCtx = NULL;
RU8* hitLoc = NULL;
hObs = obsLib_new( 0, 0 );
CU_ASSERT_TRUE_FATAL( rpal_memory_isValid( hObs ) );
CU_ASSERT_TRUE_FATAL( obsLib_addPattern( hObs, (RPU8)&pattern, sizeof( pattern ), &context ) );
// 1 pattern found end of buffer
CU_ASSERT_TRUE_FATAL( obsLib_setTargetBuffer( hObs, buffer1, sizeof( buffer1 ) ) );
CU_ASSERT_TRUE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
CU_ASSERT_EQUAL( hitCtx, &context );
CU_ASSERT_EQUAL( hitLoc, buffer1 + sizeof( buffer1 ) - 4 );
CU_ASSERT_FALSE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
// 1 pattern found middle of buffer
CU_ASSERT_TRUE_FATAL( obsLib_setTargetBuffer( hObs, buffer2, sizeof( buffer2 ) ) );
CU_ASSERT_TRUE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
CU_ASSERT_EQUAL( hitCtx, &context );
CU_ASSERT_EQUAL( hitLoc, buffer2 + sizeof( buffer2 ) - 6 );
CU_ASSERT_FALSE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
// 0 pattern found
CU_ASSERT_TRUE_FATAL( obsLib_setTargetBuffer( hObs, buffer3, sizeof( buffer3 ) ) );
CU_ASSERT_FALSE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
// 2 pattern found end and middle of buffer
CU_ASSERT_TRUE_FATAL( obsLib_setTargetBuffer( hObs, buffer4, sizeof( buffer4 ) ) );
CU_ASSERT_TRUE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
CU_ASSERT_EQUAL( hitCtx, &context );
CU_ASSERT_EQUAL( hitLoc, buffer4 + sizeof( buffer4 ) - 10 );
CU_ASSERT_TRUE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
CU_ASSERT_EQUAL( hitCtx, &context );
CU_ASSERT_EQUAL( hitLoc, buffer4 + sizeof( buffer4 ) - 4 );
CU_ASSERT_FALSE( obsLib_nextHit( hObs, &hitCtx, &hitLoc ) );
obsLib_free( hObs );
}
static void process_response_event(void *user_ctx, const belle_sip_response_event_t *event){
int status;
belle_sip_request_t* request;
BELLESIP_UNUSED(user_ctx);
CU_ASSERT_PTR_NOT_NULL_FATAL(belle_sip_response_event_get_response(event));
belle_sip_message("process_response_event [%i] [%s]"
,status=belle_sip_response_get_status_code(belle_sip_response_event_get_response(event))
,belle_sip_response_get_reason_phrase(belle_sip_response_event_get_response(event)));
if (status==401){
belle_sip_header_cseq_t* cseq;
belle_sip_client_transaction_t *t;
belle_sip_uri_t *dest;
// CU_ASSERT_NOT_EQUAL_FATAL(number_of_challenge,2);
CU_ASSERT_PTR_NOT_NULL_FATAL(belle_sip_response_event_get_client_transaction(event)); /*require transaction mode*/
dest=belle_sip_client_transaction_get_route(belle_sip_response_event_get_client_transaction(event));
request=belle_sip_transaction_get_request(BELLE_SIP_TRANSACTION(belle_sip_response_event_get_client_transaction(event)));
cseq=(belle_sip_header_cseq_t*)belle_sip_message_get_header(BELLE_SIP_MESSAGE(request),BELLE_SIP_CSEQ);
belle_sip_header_cseq_set_seq_number(cseq,belle_sip_header_cseq_get_seq_number(cseq)+1);
belle_sip_message_remove_header(BELLE_SIP_MESSAGE(request),BELLE_SIP_AUTHORIZATION);
belle_sip_message_remove_header(BELLE_SIP_MESSAGE(request),BELLE_SIP_PROXY_AUTHORIZATION);
CU_ASSERT_TRUE_FATAL(belle_sip_provider_add_authorization(prov,request,belle_sip_response_event_get_response(event),NULL,NULL,auth_domain));
t=belle_sip_provider_create_client_transaction(prov,request);
belle_sip_client_transaction_send_request_to(t,dest);
number_of_challenge++;
authorized_request=request;
belle_sip_object_ref(authorized_request);
} else {
CU_ASSERT_EQUAL(status,200);
is_register_ok=1;
using_transaction=belle_sip_response_event_get_client_transaction(event)!=NULL;
belle_sip_main_loop_quit(belle_sip_stack_get_main_loop(stack));
}
}
/**
* Closes the socket on failure.
*
* @param[in] up7 The upstream LDM-7 to be initialized.
* @param[in] sock The socket for the upstream LDM-7.
* @param[in] termFd Termination file-descriptor.
* @retval 0 Success.
*/
static int
up7_init(
Up7* const up7,
const int sock)
{
/*
* 0 => use default read/write buffer sizes.
* `sock` will be closed by `svc_destroy()`.
*/
SVCXPRT* const xprt = svcfd_create(sock, 0, 0);
CU_ASSERT_PTR_NOT_EQUAL_FATAL(xprt, NULL);
/*
* Set the remote address of the RPC server-side transport because
* `svcfd_create()` doesn't.
*/
{
struct sockaddr_in addr;
socklen_t addrLen = sizeof(addr);
int status = getpeername(sock, &addr, &addrLen);
CU_ASSERT_EQUAL_FATAL(status, 0);
CU_ASSERT_EQUAL_FATAL(addrLen, sizeof(addr));
CU_ASSERT_EQUAL_FATAL(addr.sin_family, AF_INET);
xprt->xp_raddr = addr;
xprt->xp_addrlen = addrLen;
}
// Last argument == 0 => don't register with portmapper
bool success = svc_register(xprt, LDMPROG, SEVEN, ldmprog_7, 0);
CU_ASSERT_TRUE_FATAL(success);
up7->xprt = xprt;
return 0;
}
void testBSONExportImport(void) {
EJDB *jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_export", JBOWRITER | JBOCREAT | JBOTRUNC));
EJCOLL *coll = ejdbcreatecoll(jb, "col1", NULL);
if (!coll) {
eprint(jb, __LINE__, "testBSONExportImport");
}
CU_ASSERT_TRUE(coll != NULL);
bson_oid_t oid;
bson bv1;
bson_init(&bv1);
bson_append_int(&bv1, "a", 1);
bson_append_string(&bv1, "c", "d");
bson_finish(&bv1);
ejdbsavebson(coll, &bv1, &oid);
bson_destroy(&bv1);
EJCOLLOPTS copts = {0};
copts.large = true;
copts.records = 200000;
coll = ejdbcreatecoll(jb, "col2", &copts);
if (!coll) {
eprint(jb, __LINE__, "testBSONExportImport");
}
CU_ASSERT_TRUE(coll != NULL);
CU_ASSERT_TRUE(ejdbsetindex(coll, "f", JBIDXSTR | JBIDXNUM));
bson_init(&bv1);
bson_append_int(&bv1, "e", 1);
bson_append_string(&bv1, "f", "g");
bson_finish(&bv1);
ejdbsavebson(coll, &bv1, &oid);
bson_destroy(&bv1);
bson_init(&bv1);
bson_append_int(&bv1, "e", 2);
bson_append_string(&bv1, "f", "g2");
bson_finish(&bv1);
ejdbsavebson(coll, &bv1, &oid);
bson_destroy(&bv1);
TCXSTR *log = tcxstrnew();
TCLIST *cnames = tclistnew();
tclistpush2(cnames, "col1");
tclistpush2(cnames, "col2");
bool rv = ejdbexport(jb, "testBSONExportImport", NULL, 0, log);
if (!rv) {
eprint(jb, __LINE__, "testBSONExportImport");
}
CU_ASSERT_TRUE(rv);
bson *ometa = ejdbmeta(jb);
CU_ASSERT_TRUE_FATAL(ometa != NULL);
ejdbclose(jb);
ejdbdel(jb);
//Restore data:
jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_export", JBOWRITER | JBOCREAT));
coll = ejdbgetcoll(jb, "col1");
CU_ASSERT_PTR_NOT_NULL_FATAL(coll);
bson_init(&bv1);
bson_append_int(&bv1, "e", 2);
bson_finish(&bv1);
CU_ASSERT_TRUE(ejdbsavebson(coll, &bv1, &oid));
bson_destroy(&bv1);
rv = ejdbimport(jb, "testBSONExportImport", cnames, JBIMPORTREPLACE, log);
CU_ASSERT_TRUE(rv);
//fprintf(stderr, "\n\n%s", TCXSTRPTR(log));
CU_ASSERT_PTR_NOT_NULL(strstr(TCXSTRPTR(log), "Replacing all data in 'col1'"));
CU_ASSERT_PTR_NOT_NULL(strstr(TCXSTRPTR(log), "1 objects imported into 'col1'"));
CU_ASSERT_PTR_NOT_NULL(strstr(TCXSTRPTR(log), "2 objects imported into 'col2'"));
bson *nmeta = ejdbmeta(jb);
CU_ASSERT_TRUE_FATAL(nmeta != NULL);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.0.name", strlen("collections.0.name")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.0.records", strlen("collections.0.records")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.name", strlen("collections.1.name")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.records", strlen("collections.1.records")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.options.buckets", strlen("collections.1.options.buckets")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.options.large", strlen("collections.1.options.large")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.0.field", strlen("collections.1.indexes.0.field")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.0.type", strlen("collections.1.indexes.0.type")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.0.records", strlen("collections.1.indexes.0.records")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.1.field", strlen("collections.1.indexes.1.field")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.1.type", strlen("collections.1.indexes.1.type")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.1.records", strlen("collections.1.indexes.1.records")) == 0);
ejdbclose(jb);
ejdbdel(jb);
jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_export", JBOWRITER | JBOCREAT | JBOTRUNC));
coll = ejdbcreatecoll(jb, "col1", NULL);
CU_ASSERT_PTR_NOT_NULL_FATAL(coll);
bson_init(&bv1);
bson_append_int(&bv1, "e", 2);
bson_finish(&bv1);
CU_ASSERT_TRUE(ejdbsavebson(coll, &bv1, &oid));
EJQ *q = ejdbcreatequery(jb, &bv1, NULL, 0, NULL);
CU_ASSERT_PTR_NOT_NULL_FATAL(q);
uint32_t count = 0;
ejdbqryexecute(coll, q, &count, JBQRYCOUNT, NULL);
CU_ASSERT_EQUAL(count, 1);
rv = ejdbimport(jb, "testBSONExportImport", NULL, JBIMPORTUPDATE, NULL);
CU_ASSERT_TRUE(rv);
coll = ejdbcreatecoll(jb, "col1", NULL);
ejdbqryexecute(coll, q, &count, JBQRYCOUNT, NULL);
CU_ASSERT_EQUAL(count, 1);
ejdbquerydel(q);
bson_destroy(&bv1);
ejdbclose(jb);
ejdbdel(jb);
bson_del(ometa);
bson_del(nmeta);
tcxstrdel(log);
tclistdel(cnames);
}
void testBSONExportImport2(void) {
EJDB *jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_export", JBOWRITER | JBOCREAT | JBOTRUNC));
EJCOLL *coll = ejdbcreatecoll(jb, "col1", NULL);
if (!coll) {
eprint(jb, __LINE__, "testBSONExportImport2");
}
CU_ASSERT_TRUE(coll != NULL);
bson_oid_t oid;
const char *log = NULL;
bson bv1;
bson_init(&bv1);
bson_append_int(&bv1, "a", 1);
bson_append_string(&bv1, "c", "d");
bson_finish(&bv1);
ejdbsavebson(coll, &bv1, &oid);
bson_destroy(&bv1);
EJCOLLOPTS copts = {0};
copts.large = true;
copts.records = 200000;
coll = ejdbcreatecoll(jb, "col2", &copts);
if (!coll) {
eprint(jb, __LINE__, "testBSONExportImport2");
}
CU_ASSERT_TRUE(coll != NULL);
CU_ASSERT_TRUE(ejdbsetindex(coll, "f", JBIDXSTR | JBIDXNUM));
bson_init(&bv1);
bson_append_int(&bv1, "e", 1);
bson_append_string(&bv1, "f", "g");
bson_finish(&bv1);
ejdbsavebson(coll, &bv1, &oid);
bson_destroy(&bv1);
bson_init(&bv1);
bson_append_int(&bv1, "e", 2);
bson_append_string(&bv1, "f", "g2");
bson_finish(&bv1);
ejdbsavebson(coll, &bv1, &oid);
bson_destroy(&bv1);
bson cmd;
bson_init(&cmd);
bson_append_start_object(&cmd, "export");
bson_append_string(&cmd, "path", "testBSONExportImport2");
bson_append_start_array(&cmd, "cnames");
bson_append_string(&cmd, "0", "col1");
bson_append_string(&cmd, "1", "col2");
bson_append_finish_array(&cmd);
bson_append_finish_object(&cmd);
bson_finish(&cmd);
bson *bret = ejdbcommand(jb, &cmd);
CU_ASSERT_PTR_NOT_NULL_FATAL(bret);
bson_destroy(&cmd);
bson_iterator it;
bson_iterator_init(&it, bret);
CU_ASSERT_TRUE(bson_find_fieldpath_value("error", &it) == BSON_EOO);
bson_iterator_init(&it, bret);
CU_ASSERT_TRUE(bson_compare_long(0, bson_data(bret), "errorCode") == 0);
bson_iterator_init(&it, bret);
CU_ASSERT_TRUE(bson_find_fieldpath_value("log", &it) == BSON_STRING);
bson_del(bret);
bson *ometa = ejdbmeta(jb);
CU_ASSERT_TRUE_FATAL(ometa != NULL);
ejdbclose(jb);
ejdbdel(jb);
//Restore data:
jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_export", JBOWRITER | JBOCREAT));
coll = ejdbgetcoll(jb, "col1");
CU_ASSERT_PTR_NOT_NULL_FATAL(coll);
bson_init(&bv1);
bson_append_int(&bv1, "e", 2);
bson_finish(&bv1);
CU_ASSERT_TRUE(ejdbsavebson(coll, &bv1, &oid));
bson_destroy(&bv1);
bson_init(&cmd);
bson_append_start_object(&cmd, "import");
bson_append_string(&cmd, "path", "testBSONExportImport2");
bson_append_int(&cmd, "mode", JBIMPORTREPLACE);
bson_append_start_array(&cmd, "cnames");
bson_append_string(&cmd, "0", "col1");
bson_append_string(&cmd, "1", "col2");
bson_append_finish_array(&cmd);
bson_append_finish_object(&cmd);
bson_finish(&cmd);
bret = ejdbcommand(jb, &cmd);
CU_ASSERT_PTR_NOT_NULL_FATAL(bret);
bson_destroy(&cmd);
bson_iterator_init(&it, bret);
CU_ASSERT_TRUE_FATAL(bson_find_fieldpath_value("log", &it) == BSON_STRING);
log = bson_iterator_string(&it);
CU_ASSERT_PTR_NOT_NULL(strstr(log, "Replacing all data in 'col1'"));
CU_ASSERT_PTR_NOT_NULL(strstr(log, "1 objects imported into 'col1'"));
CU_ASSERT_PTR_NOT_NULL(strstr(log, "2 objects imported into 'col2'"));
bson_del(bret);
log = NULL;
bson *nmeta = ejdbmeta(jb);
CU_ASSERT_TRUE_FATAL(nmeta != NULL);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.0.name", strlen("collections.0.name")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.0.records", strlen("collections.0.records")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.name", strlen("collections.1.name")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.records", strlen("collections.1.records")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.options.buckets", strlen("collections.1.options.buckets")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.options.large", strlen("collections.1.options.large")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.0.field", strlen("collections.1.indexes.0.field")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.0.type", strlen("collections.1.indexes.0.type")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.0.records", strlen("collections.1.indexes.0.records")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.1.field", strlen("collections.1.indexes.1.field")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.1.type", strlen("collections.1.indexes.1.type")) == 0);
CU_ASSERT_TRUE(bson_compare(bson_data(ometa), bson_data(nmeta), "collections.1.indexes.1.records", strlen("collections.1.indexes.1.records")) == 0);
ejdbclose(jb);
ejdbdel(jb);
jb = ejdbnew();
CU_ASSERT_TRUE_FATAL(ejdbopen(jb, "dbt4_export", JBOWRITER | JBOCREAT | JBOTRUNC));
coll = ejdbcreatecoll(jb, "col1", NULL);
CU_ASSERT_PTR_NOT_NULL_FATAL(coll);
bson_init(&bv1);
bson_append_int(&bv1, "e", 2);
bson_finish(&bv1);
CU_ASSERT_TRUE(ejdbsavebson(coll, &bv1, &oid));
EJQ *q = ejdbcreatequery(jb, &bv1, NULL, 0, NULL);
CU_ASSERT_PTR_NOT_NULL_FATAL(q);
uint32_t count = 0;
ejdbqryexecute(coll, q, &count, JBQRYCOUNT, NULL);
CU_ASSERT_EQUAL(count, 1);
bson_init(&cmd);
bson_append_start_object(&cmd, "import");
bson_append_string(&cmd, "path", "testBSONExportImport2");
bson_append_int(&cmd, "mode", JBIMPORTUPDATE);
bson_append_finish_object(&cmd);
bson_finish(&cmd);
bret = ejdbcommand(jb, &cmd);
CU_ASSERT_PTR_NOT_NULL_FATAL(bret);
bson_destroy(&cmd);
bson_del(bret);
coll = ejdbcreatecoll(jb, "col1", NULL);
ejdbqryexecute(coll, q, &count, JBQRYCOUNT, NULL);
CU_ASSERT_EQUAL(count, 1);
ejdbquerydel(q);
bson_destroy(&bv1);
ejdbclose(jb);
ejdbdel(jb);
bson_del(ometa);
bson_del(nmeta);
}
void __testConnect_Simple_Second_IP()
{
__init_pcap_record(CU_get_current_test()->pName);
int err = 0;
int ret = 0;
my_context server_socket = __reference->open(__reference, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_PTR_NOT_NULL_FATAL(server_socket);
my_context client_socket = __target->open(__target, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_PTR_NOT_NULL_FATAL(client_socket);
struct sockaddr_in server_addr;
memset(&server_addr, 0, sizeof(server_addr));
server_addr.sin_family = AF_INET;
server_addr.sin_addr.s_addr = htonl(INADDR_ANY);
server_addr.sin_port = htons(10000);
ret = __reference->bind(__reference, server_socket, (struct sockaddr*)&server_addr, sizeof(server_addr), &err);
CU_ASSERT_TRUE_FATAL(ret);
CU_ASSERT_EQUAL_FATAL(err, 0);
ret = __reference->listen(__reference, server_socket, 5, &err);
CU_ASSERT_TRUE_FATAL(ret);
CU_ASSERT_EQUAL_FATAL(err, 0);
ret = __reference->accept(__reference, server_socket, &err);
CU_ASSERT_TRUE_FATAL(ret);
CU_ASSERT_EQUAL_FATAL(err, 0);
struct sockaddr_in client_addr;
memset(&client_addr, 0, sizeof(client_addr));
client_addr.sin_family = AF_INET;
client_addr.sin_addr.s_addr = inet_addr("192.168.0.200");
client_addr.sin_port = htons(10000);
socklen_t len = sizeof(client_addr);
ret = __target->connect(__target, client_socket, (struct sockaddr*)&client_addr, len, &err);
CU_ASSERT_TRUE_FATAL(ret);
CU_ASSERT_EQUAL_FATAL(err, 0);
__flush_packets(100);
CU_ASSERT_EQUAL_FATAL(list_get_count(__find_app(__reference, server_socket)->passive_open_calls), 1);
CU_ASSERT_EQUAL_FATAL(__find_app(__target, client_socket)->active_open_calls, 1);
server_addr.sin_addr.s_addr = inet_addr("192.168.0.200");
struct sockaddr_in temp_addr;
memset(&temp_addr, 0, sizeof(temp_addr));
len = sizeof(temp_addr);
__target->getpeername(__target, client_socket, (struct sockaddr*)&temp_addr, &len, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_EQUAL(len, sizeof(temp_addr));
CU_ASSERT_EQUAL(memcmp(&temp_addr, (struct sockaddr*)&server_addr, sizeof(temp_addr)), 0);
memset(&temp_addr, 0, sizeof(temp_addr));
len = sizeof(temp_addr);
__target->getsockname(__target, client_socket, (struct sockaddr*)&temp_addr, &len, &err);
CU_ASSERT_EQUAL_FATAL(err, 0);
CU_ASSERT_EQUAL(len, sizeof(temp_addr));
CU_ASSERT_EQUAL(temp_addr.sin_addr.s_addr, inet_addr("192.168.0.100"));
__pcap_close();
}
static void testInventoryWithTwoDiedAliensOnTheSameGridTile (void)
{
const char *mapName = "test_game";
if (FS_CheckFile("maps/%s.bsp", mapName) != -1) {
edict_t *diedEnt;
edict_t *diedEnt2;
edict_t *ent;
edict_t *floorItems;
invList_t *invlist;
int count;
/* the other tests didn't call the server shutdown function to clean up */
OBJZERO(*sv);
SV_Map(true, mapName, NULL);
level.activeTeam = TEAM_ALIEN;
/* first alien that should die and drop its inventory */
diedEnt = G_EdictsGetNextLivingActorOfTeam(NULL, TEAM_ALIEN);
CU_ASSERT_PTR_NOT_NULL_FATAL(diedEnt);
diedEnt->HP = 0;
G_ActorDieOrStun(diedEnt, NULL);
CU_ASSERT_TRUE_FATAL(G_IsDead(diedEnt));
/* second alien that should die and drop its inventory */
diedEnt2 = G_EdictsGetNextLivingActorOfTeam(NULL, TEAM_ALIEN);
CU_ASSERT_PTR_NOT_NULL_FATAL(diedEnt2);
/* move to the location of the first died alien to drop the inventory into the same floor container */
Player &player = diedEnt2->getPlayer();
CU_ASSERT_TRUE_FATAL(G_IsAIPlayer(&player));
G_ClientMove(player, 0, diedEnt2, diedEnt->pos);
CU_ASSERT_TRUE_FATAL(VectorCompare(diedEnt2->pos, diedEnt->pos));
diedEnt2->HP = 0;
G_ActorDieOrStun(diedEnt2, NULL);
CU_ASSERT_TRUE_FATAL(G_IsDead(diedEnt2));
/* now try to collect the inventory with a third alien */
ent = G_EdictsGetNextLivingActorOfTeam(NULL, TEAM_ALIEN);
CU_ASSERT_PTR_NOT_NULL_FATAL(ent);
player = ent->getPlayer();
CU_ASSERT_TRUE_FATAL(G_IsAIPlayer(&player));
G_ClientMove(player, 0, ent, diedEnt->pos);
CU_ASSERT_TRUE_FATAL(VectorCompare(ent->pos, diedEnt->pos));
floorItems = G_GetFloorItems(ent);
CU_ASSERT_PTR_NOT_NULL_FATAL(floorItems);
CU_ASSERT_PTR_EQUAL(floorItems->getFloor(), ent->getFloor());
/* drop everything to floor to make sure we have space in the backpack */
G_InventoryToFloor(ent);
CU_ASSERT_EQUAL(GAMETEST_GetItemCount(ent, CID_BACKPACK), 0);
invlist = ent->getContainer(CID_BACKPACK);
CU_ASSERT_PTR_NULL_FATAL(invlist);
count = GAMETEST_GetItemCount(ent, CID_FLOOR);
if (count > 0) {
invList_t *entryToMove = ent->getFloor();
int tx, ty;
ent->chr.inv.findSpace(INVDEF(CID_BACKPACK), entryToMove, &tx, &ty, entryToMove);
if (tx != NONE) {
Com_Printf("trying to move item %s from floor into backpack to pos %i:%i\n", entryToMove->def()->name, tx, ty);
CU_ASSERT_TRUE(G_ActorInvMove(ent, INVDEF(CID_FLOOR), entryToMove, INVDEF(CID_BACKPACK), tx, ty, false));
UFO_CU_ASSERT_EQUAL_INT_MSG_FATAL(GAMETEST_GetItemCount(ent, CID_FLOOR), count - 1, va("item %s could not get moved successfully from floor into backpack", entryToMove->def()->name));
Com_Printf("item %s was removed from floor\n", entryToMove->def()->name);
UFO_CU_ASSERT_EQUAL_INT_MSG_FATAL(GAMETEST_GetItemCount(ent, CID_BACKPACK), 1, va("item %s could not get moved successfully from floor into backpack", entryToMove->def()->name));
Com_Printf("item %s was moved successfully into the backpack\n", entryToMove->def()->name);
invlist = ent->getContainer(CID_BACKPACK);
CU_ASSERT_PTR_NOT_NULL_FATAL(invlist);
}
}
SV_ShutdownGameProgs();
} else {
UFO_CU_FAIL_MSG(va("Map resource '%s.bsp' for test is missing.", mapName));
}
}
static void refresher_base_with_body(endpoint_t* client
,endpoint_t *server
, const char* method
, belle_sip_header_content_type_t* content_type
,const char* body) {
belle_sip_request_t* req;
belle_sip_client_transaction_t* trans;
belle_sip_header_route_t* destination_route;
belle_sip_refresher_t* refresher;
const char* identity = "sip:" USERNAME "@" SIPDOMAIN ;
const char* domain="sip:" SIPDOMAIN ;
belle_sip_header_contact_t* contact=belle_sip_header_contact_new();
belle_sip_uri_t *dest_uri;
uint64_t begin;
uint64_t end;
if (client->expire_in_contact) belle_sip_header_contact_set_expires(contact,1);
dest_uri=(belle_sip_uri_t*)belle_sip_object_clone((belle_sip_object_t*)belle_sip_listening_point_get_uri(server->lp));
if (client->connection_family==AF_INET6)
belle_sip_uri_set_host(dest_uri,"::1");
else
belle_sip_uri_set_host(dest_uri,"127.0.0.1");
destination_route=belle_sip_header_route_create(belle_sip_header_address_create(NULL,dest_uri));
req=belle_sip_request_create(
belle_sip_uri_parse(domain),
method,
belle_sip_provider_create_call_id(client->provider),
belle_sip_header_cseq_create(20,method),
belle_sip_header_from_create2(identity,BELLE_SIP_RANDOM_TAG),
belle_sip_header_to_create2(identity,NULL),
belle_sip_header_via_new(),
70);
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(contact));
if (!client->expire_in_contact)
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(belle_sip_header_expires_create(1)));
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(destination_route));
if (content_type && body) {
size_t body_lenth=strlen(body);
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(content_type));
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(belle_sip_header_content_length_create(body_lenth)));
belle_sip_message_set_body(BELLE_SIP_MESSAGE(req),body,body_lenth);
}
trans=belle_sip_provider_create_client_transaction(client->provider,req);
belle_sip_object_ref(trans);/*to avoid trans from being deleted before refresher can use it*/
belle_sip_client_transaction_send_request(trans);
if (client->early_refresher) {
client->refresher= refresher = belle_sip_client_transaction_create_refresher(trans);
} else {
if (server->auth == none) {
CU_ASSERT_TRUE(wait_for(server->stack,client->stack,&client->stat.twoHundredOk,1,1000));
} else {
CU_ASSERT_TRUE(wait_for(server->stack,client->stack,&client->stat.fourHundredOne,1,1000));
/*update cseq*/
req=belle_sip_client_transaction_create_authenticated_request(trans,NULL,NULL);
belle_sip_object_unref(trans);
trans=belle_sip_provider_create_client_transaction(client->provider,req);
belle_sip_object_ref(trans);
belle_sip_client_transaction_send_request(trans);
CU_ASSERT_TRUE_FATAL(wait_for(server->stack,client->stack,&client->stat.twoHundredOk,1,1000));
}
client->refresher= refresher = belle_sip_client_transaction_create_refresher(trans);
}
CU_ASSERT_TRUE_FATAL(refresher!=NULL);
belle_sip_object_unref(trans);
belle_sip_refresher_set_listener(refresher,belle_sip_refresher_listener,client);
begin = belle_sip_time_ms();
CU_ASSERT_TRUE(wait_for(server->stack,client->stack,&client->stat.refreshOk,client->register_count+(client->early_refresher?1:0),client->register_count*1000 + 1000));
end = belle_sip_time_ms();
CU_ASSERT_TRUE(end-begin>=client->register_count*1000*.9); /*because refresh is at 90% of expire*/
CU_ASSERT_TRUE(end-begin<(client->register_count*1000 + 2000));
/*unregister twice to make sure refresh operation can be safely cascaded*/
belle_sip_refresher_refresh(refresher,0);
belle_sip_refresher_refresh(refresher,0);
CU_ASSERT_TRUE(wait_for(server->stack,client->stack,&client->stat.refreshOk,client->register_count+1,1000));
CU_ASSERT_EQUAL(client->stat.refreshOk,client->register_count+1);
belle_sip_refresher_stop(refresher);
belle_sip_object_unref(refresher);
}
static void subscribe_test(void) {
belle_sip_listener_callbacks_t client_callbacks;
belle_sip_listener_callbacks_t server_callbacks;
belle_sip_request_t* req;
belle_sip_client_transaction_t* trans;
belle_sip_header_route_t* destination_route;
const char* identity = "sip:" USERNAME "@" SIPDOMAIN ;
const char* domain="sip:" SIPDOMAIN ;
endpoint_t* client,*server;
belle_sip_uri_t *dest_uri;
belle_sip_refresher_t* refresher;
belle_sip_header_contact_t* contact=belle_sip_header_contact_new();
uint64_t begin;
uint64_t end;
memset(&client_callbacks,0,sizeof(belle_sip_listener_callbacks_t));
memset(&server_callbacks,0,sizeof(belle_sip_listener_callbacks_t));
client_callbacks.process_response_event=client_process_response_event;
client_callbacks.process_auth_requested=client_process_auth_requested;
server_callbacks.process_request_event=server_process_request_event;
client = create_udp_endpoint(3452,&client_callbacks);
server = create_udp_endpoint(6788,&server_callbacks);
server->expire_in_contact=0;
server->auth=digest_auth;
dest_uri=(belle_sip_uri_t*)belle_sip_object_clone((belle_sip_object_t*)belle_sip_listening_point_get_uri(server->lp));
belle_sip_uri_set_host(dest_uri,"127.0.0.1");
destination_route=belle_sip_header_route_create(belle_sip_header_address_create(NULL,dest_uri));
req=belle_sip_request_create(
belle_sip_uri_parse(domain),
"SUBSCRIBE",
belle_sip_provider_create_call_id(client->provider),
belle_sip_header_cseq_create(20,"SUBSCRIBE"),
belle_sip_header_from_create2(identity,BELLE_SIP_RANDOM_TAG),
belle_sip_header_to_create2(identity,NULL),
belle_sip_header_via_new(),
70);
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(contact));
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(belle_sip_header_expires_create(1)));
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(belle_sip_header_create("Event","Presence")));
belle_sip_message_add_header(BELLE_SIP_MESSAGE(req),BELLE_SIP_HEADER(destination_route));
trans=belle_sip_provider_create_client_transaction(client->provider,req);
belle_sip_object_ref(trans);/*to avoid trans from being deleted before refresher can use it*/
belle_sip_client_transaction_send_request(trans);
CU_ASSERT_TRUE(wait_for(server->stack,client->stack,&client->stat.fourHundredOne,1,1000));
req=belle_sip_client_transaction_create_authenticated_request(trans,NULL,NULL);
belle_sip_object_unref(trans);
trans=belle_sip_provider_create_client_transaction(client->provider,req);
belle_sip_object_ref(trans);
belle_sip_client_transaction_send_request(trans);
CU_ASSERT_TRUE_FATAL(wait_for(server->stack,client->stack,&client->stat.twoHundredOk,1,1000));
/*maybe dialog should be automatically created*/
CU_ASSERT_PTR_NOT_NULL_FATAL(belle_sip_transaction_get_dialog(BELLE_SIP_TRANSACTION(trans)))
refresher = belle_sip_client_transaction_create_refresher(trans);
belle_sip_object_unref(trans);
belle_sip_refresher_set_listener(refresher,belle_sip_refresher_listener,client);
begin = belle_sip_time_ms();
CU_ASSERT_TRUE(wait_for(server->stack,client->stack,&client->stat.refreshOk,3,4000));
end = belle_sip_time_ms();
CU_ASSERT_TRUE(end-begin>=3000);
CU_ASSERT_TRUE(end-begin<5000);
/*unsubscribe twice to make sure refresh operation can be safely cascaded*/
belle_sip_refresher_refresh(refresher,0);
belle_sip_refresher_refresh(refresher,0);
belle_sip_refresher_stop(refresher);
belle_sip_object_unref(refresher);
destroy_endpoint(client);
destroy_endpoint(server);
}
