static void test_value_datetime_varytime(const char * const datestring, time_t const datetime, unsigned int const usec) { xmlrpc_value * v; xmlrpc_env env; const char * readBackString; time_t readBackDt; unsigned int readBackUsec; const char * datestringSec; #if XMLRPC_HAVE_TIMEVAL struct timeval const dtTimeval = makeTv(datetime, usec); struct timeval readBackTv; #endif #if XMLRPC_HAVE_TIMESPEC struct timespec const dtTimespec = makeTs(datetime, usec); struct timespec readBackTs; #endif const char * const dt8601 = make8601(datetime, usec); const char * readBack8601; datestringSec = truncateFracSec(datestring); xmlrpc_env_init(&env); /* Test xmlrpc_datetime_new_str and time read functions*/ v = xmlrpc_datetime_new_str(&env, datestring); TEST_NO_FAULT(&env); TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v)); xmlrpc_read_datetime_sec(&env, v, &readBackDt); TEST_NO_FAULT(&env); TEST(readBackDt == datetime); xmlrpc_read_datetime_usec(&env, v, &readBackDt, &readBackUsec); TEST_NO_FAULT(&env); TEST(readBackDt == datetime); TEST(readBackUsec == usec); #if XMLRPC_HAVE_TIMEVAL xmlrpc_read_datetime_timeval(&env, v, &readBackTv); TEST_NO_FAULT(&env); TEST(tvIsEqual(dtTimeval, readBackTv)); #endif #if XMLRPC_HAVE_TIMESPEC xmlrpc_read_datetime_timespec(&env, v, &readBackTs); TEST_NO_FAULT(&env); TEST(tsIsEqual(dtTimespec, readBackTs)); #endif xmlrpc_read_datetime_8601(&env, v, &readBack8601); TEST_NO_FAULT(&env); TEST(xmlrpc_streq(dt8601, readBack8601)); strfree(readBack8601); xmlrpc_DECREF(v); /* Test xmlrpc_datetime_new_sec */ v = xmlrpc_datetime_new_sec(&env, datetime); TEST_NO_FAULT(&env); TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v)); xmlrpc_read_datetime_str(&env, v, &readBackString); TEST_NO_FAULT(&env); TEST(streq(readBackString, datestringSec)); strfree(readBackString); xmlrpc_DECREF(v); /* Test xmlrpc_datetime_new_usec */ v = xmlrpc_datetime_new_usec(&env, datetime, usec); TEST_NO_FAULT(&env); TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v)); xmlrpc_read_datetime_str(&env, v, &readBackString); TEST_NO_FAULT(&env); TEST(streq(readBackString, datestring)); strfree(readBackString); xmlrpc_DECREF(v); #if XMLRPC_HAVE_TIMEVAL /* Test xmlrpc_datetime_new_timeval */ v = xmlrpc_datetime_new_timeval(&env, dtTimeval); TEST_NO_FAULT(&env); TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v)); xmlrpc_read_datetime_str(&env, v, &readBackString); TEST_NO_FAULT(&env); TEST(streq(readBackString, datestring)); strfree(readBackString); xmlrpc_DECREF(v); #endif #if XMLRPC_HAVE_TIMESPEC /* Test xmlrpc_datetime_new_timespec */ v = xmlrpc_datetime_new_timespec(&env, dtTimespec); TEST_NO_FAULT(&env); TEST(XMLRPC_TYPE_DATETIME == xmlrpc_value_type(v)); xmlrpc_read_datetime_str(&env, v, &readBackString); TEST_NO_FAULT(&env); TEST(streq(readBackString, datestring)); strfree(readBackString); xmlrpc_DECREF(v); #endif xmlrpc_env_clean(&env); strfree(datestringSec); }
xmlrpc_value * xmlrpc_datetime_new_timeval(xmlrpc_env * const envP, struct timeval const value) { return xmlrpc_datetime_new_usec(envP, value.tv_sec, value.tv_usec); }
xmlrpc_value * xmlrpc_datetime_new_timespec(xmlrpc_env * const envP, struct timespec const value) { return xmlrpc_datetime_new_usec(envP, value.tv_sec, value.tv_nsec/1000); }
xmlrpc_value * xmlrpc_datetime_new_sec(xmlrpc_env *const envP, time_t const value) { return xmlrpc_datetime_new_usec(envP, value, 0); }