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/* A little program to test the limits of your system's time functions */
#include "time64_config.h"
#include <time.h>
#include <stdio.h>
#include <math.h>
#include <stdlib.h>
#include <string.h>
struct tm Test_TM;
time_t Time_Max;
time_t Time_Min;
time_t Time_Zero = 0;
char *dump_date(const struct tm *date) {
char *dump = malloc(80 * sizeof(char));
sprintf(
dump,
"{ %d, %d, %d, %d, %d, %d }",
date->tm_sec, date->tm_min, date->tm_hour, date->tm_mday, date->tm_mon, date->tm_year
);
return dump;
}
/* Visual C++ 2008's difftime() can't do negative times */
double my_difftime(time_t left, time_t right) {
double diff = (double)left - (double)right;
return diff;
}
time_t check_date_max( struct tm * (*date_func)(const time_t *), const char *func_name ) {
struct tm *date;
time_t time = Time_Max;
time_t good_time = 0;
time_t time_change = Time_Max;
/* Binary search for the exact failure point */
do {
printf("# Trying %s(%.0f) max...", func_name, my_difftime(time, Time_Zero));
date = (*date_func)(&time);
time_change /= 2;
/* date_func() broke or tm_year overflowed or time_t overflowed */
if(date == NULL || date->tm_year < 69 || time < good_time) {
printf(" failed\n");
time -= time_change;
}
else {
printf(" success\n");
good_time = time;
time += time_change;
}
} while(time_change > 0 && good_time < Time_Max);
return(good_time);
}
time_t check_date_min( struct tm * (*date_func)(const time_t *), const char *func_name ) {
struct tm *date;
time_t time = Time_Min;
time_t good_time = 0;
time_t time_change = Time_Min;
/* Binary search for the exact failure point */
do {
printf("# Trying %s(%.0f) min...", func_name, my_difftime(time, Time_Zero));
date = (*date_func)(&time);
time_change /= 2;
/* date_func() broke or tm_year overflowed or time_t overflowed */
if(date == NULL || date->tm_year > 70 || time > good_time) {
printf(" failed\n");
time -= time_change;
}
else {
printf(" success\n");
good_time = time;
time += time_change;
}
} while((time_change < 0) && (good_time > Time_Min));
return(good_time);
}
struct tm * check_to_time_max( time_t (*to_time)(struct tm *), const char *func_name,
struct tm * (*to_date)(const time_t *) )
{
time_t round_trip;
time_t time = Time_Max;
time_t good_time = 0;
struct tm *date;
struct tm *good_date = malloc(sizeof(struct tm));
time_t time_change = Time_Max;
/* Binary search for the exact failure point */
do {
printf("# Trying %s(%.0f) max...", func_name, my_difftime(time, Time_Zero));
date = (*to_date)(&time);
round_trip = (*to_time)(date);
time_change /= 2;
/* date_func() broke or tm_year overflowed or time_t overflowed */
if(time != round_trip) {
printf(" failed\n");
time -= time_change;
}
else {
printf(" success\n");
good_time = time;
memcpy(good_date, date, sizeof(struct tm));
time += time_change;
}
} while(time_change > 0 && good_time < Time_Max);
return(good_date);
}
struct tm * check_to_time_min( time_t (*to_time)(struct tm *), const char *func_name,
struct tm * (*to_date)(const time_t *) )
{
time_t round_trip;
time_t time = Time_Min;
time_t good_time = 0;
struct tm *date;
struct tm *good_date = malloc(sizeof(struct tm));
time_t time_change = Time_Min;
/* Binary search for the exact failure point */
do {
printf("# Trying %s(%.0f) min...", func_name, my_difftime(time, Time_Zero));
date = (*to_date)(&time);
round_trip = (*to_time)(date);
time_change /= 2;
/* date_func() broke or tm_year overflowed or time_t overflowed */
if(time != round_trip) {
printf(" failed\n");
time -= time_change;
}
else {
printf(" success\n");
good_time = time;
memcpy(good_date, date, sizeof(struct tm));
time += time_change;
}
} while((time_change < 0) && (good_time > Time_Min));
return(good_date);
}
void guess_time_limits_from_types(void) {
if( sizeof(time_t) == 4 ) {
/* y2038 bug, out to 2**31-1 */
Time_Max = 2147483647;
Time_Min = -2147483647 - 1; /* "C90 doesn't have negative constants, only
positive ones that have been negated." */
}
else if( sizeof(time_t) >= 8 ) {
/* The compiler might warn about overflowing in the assignments
below. Don't worry, these won't get run in that case */
if( sizeof(Test_TM.tm_year) == 4 ) {
/* y2**31-1 bug */
Time_Max = 67768036160140799LL;
Time_Min = -67768036191676800LL;
}
else {
/* All the way out to 2**63-1 */
Time_Max = 9223372036854775807LL;
Time_Min = -9223372036854775807LL;
}
}
else {
printf("Weird sizeof(time_t): %ld\n", sizeof(time_t));
}
}
/* Dump a tm struct as a json fragment */
char * tm_as_json(const struct tm* date) {
char *date_json = malloc(sizeof(char) * 512);
#ifdef HAS_TM_TM_ZONE
char zone_json[32];
#endif
#ifdef HAS_TM_TM_GMTOFF
char gmtoff_json[32];
#endif
sprintf(date_json,
"\"tm_sec\": %d, \"tm_min\": %d, \"tm_hour\": %d, \"tm_mday\": %d, \"tm_mon\": %d, \"tm_year\": %d, \"tm_wday\": %d, \"tm_yday\": %d, \"tm_isdst\": %d",
date->tm_sec, date->tm_min, date->tm_hour, date->tm_mday,
date->tm_mon, date->tm_year, date->tm_wday, date->tm_yday, date->tm_isdst
);
#ifdef HAS_TM_TM_ZONE
sprintf(zone_json, ", \"tm_zone\": \"%s\"", date->tm_zone);
strcat(date_json, zone_json);
#endif
#ifdef HAS_TM_TM_GMTOFF
sprintf(gmtoff_json, ", \"tm_gmtoff\": %ld", date->tm_gmtoff);
strcat(date_json, gmtoff_json);
#endif
return date_json;
}
int main(void) {
time_t gmtime_max;
time_t gmtime_min;
time_t localtime_max;
time_t localtime_min;
#ifdef HAS_TIMEGM
struct tm* timegm_max;
struct tm* timegm_min;
#endif
struct tm* mktime_max;
struct tm* mktime_min;
guess_time_limits_from_types();
gmtime_max = check_date_max(gmtime, "gmtime");
gmtime_min = check_date_min(gmtime, "gmtime");
localtime_max = check_date_max(localtime, "localtime");
localtime_min = check_date_min(localtime, "localtime");
#ifdef HAS_TIMEGM
Time_Max = gmtime_max;
Time_Min = gmtime_min;
timegm_max = check_to_time_max(timegm, "timegm", gmtime);
timegm_min = check_to_time_min(timegm, "timegm", gmtime);
#endif
Time_Max = localtime_max;
Time_Min = localtime_min;
mktime_max = check_to_time_max(mktime, "mktime", localtime);
mktime_min = check_to_time_min(mktime, "mktime", localtime);
printf("# system time.h limits, as JSON\n");
printf("{\n");
printf(" \"gmtime\": { \"max\": %.0f, \"min\": %0.f },\n",
my_difftime(gmtime_max, Time_Zero),
my_difftime(gmtime_min, Time_Zero)
);
printf(" \"localtime\": { \"max\": %.0f, \"min\": %0.f },\n",
my_difftime(localtime_max, Time_Zero),
my_difftime(localtime_min, Time_Zero)
);
printf(" \"mktime\": {\n");
printf(" \"max\": { %s },\n", tm_as_json(mktime_max));
printf(" \"min\": { %s }\n", tm_as_json(mktime_min));
printf(" }\n");
#ifdef HAS_TIMEGM
printf(" ,\n");
printf(" \"timegm\": {\n");
printf(" \"max\": { %s },\n", tm_as_json(timegm_max));
printf(" \"min\": { %s }\n", tm_as_json(timegm_min));
printf(" }\n");
#endif
printf("}\n");
return 0;
}
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