/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* * file: timetest.c * description: test time and date routines */ /*********************************************************************** ** Includes ***********************************************************************/ /* Used to get the command line option */ #include "plgetopt.h" #include "prinit.h" #include "prtime.h" #include "prprf.h" #include #include #include int failed_already=0; PRBool debug_mode = PR_FALSE; static char *dayOfWeek[] = { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat", "???" }; static char *month[] = { "Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec", "???" }; static void PrintExplodedTime(const PRExplodedTime *et) { PRInt32 totalOffset; PRInt32 hourOffset, minOffset; const char *sign; /* Print day of the week, month, day, hour, minute, and second */ if (debug_mode) printf("%s %s %ld %02ld:%02ld:%02ld ", dayOfWeek[et->tm_wday], month[et->tm_month], et->tm_mday, et->tm_hour, et->tm_min, et->tm_sec); /* Print time zone */ totalOffset = et->tm_params.tp_gmt_offset + et->tm_params.tp_dst_offset; if (totalOffset == 0) { if (debug_mode) { printf("UTC "); } } else { sign = "+"; if (totalOffset < 0) { totalOffset = -totalOffset; sign = "-"; } hourOffset = totalOffset / 3600; minOffset = (totalOffset % 3600) / 60; if (debug_mode) { printf("%s%02ld%02ld ", sign, hourOffset, minOffset); } } /* Print year */ if (debug_mode) { printf("%hd", et->tm_year); } } static int ExplodedTimeIsEqual(const PRExplodedTime *et1, const PRExplodedTime *et2) { if (et1->tm_usec == et2->tm_usec && et1->tm_sec == et2->tm_sec && et1->tm_min == et2->tm_min && et1->tm_hour == et2->tm_hour && et1->tm_mday == et2->tm_mday && et1->tm_month == et2->tm_month && et1->tm_year == et2->tm_year && et1->tm_wday == et2->tm_wday && et1->tm_yday == et2->tm_yday && et1->tm_params.tp_gmt_offset == et2->tm_params.tp_gmt_offset && et1->tm_params.tp_dst_offset == et2->tm_params.tp_dst_offset) { return 1; } else { return 0; } } static void testParseTimeString(PRTime t) { PRExplodedTime et; PRTime t2; char timeString[128]; char buf[128]; PRInt32 totalOffset; PRInt32 hourOffset, minOffset; const char *sign; PRInt64 usec_per_sec; /* Truncate the microsecond part of PRTime */ LL_I2L(usec_per_sec, PR_USEC_PER_SEC); LL_DIV(t, t, usec_per_sec); LL_MUL(t, t, usec_per_sec); PR_ExplodeTime(t, PR_LocalTimeParameters, &et); /* Print day of the week, month, day, hour, minute, and second */ PR_snprintf(timeString, 128, "%s %s %ld %02ld:%02ld:%02ld ", dayOfWeek[et.tm_wday], month[et.tm_month], et.tm_mday, et.tm_hour, et.tm_min, et.tm_sec); /* Print time zone */ totalOffset = et.tm_params.tp_gmt_offset + et.tm_params.tp_dst_offset; if (totalOffset == 0) { strcat(timeString, "GMT "); /* I wanted to use "UTC" here, but * PR_ParseTimeString doesn't * understand "UTC". */ } else { sign = "+"; if (totalOffset < 0) { totalOffset = -totalOffset; sign = "-"; } hourOffset = totalOffset / 3600; minOffset = (totalOffset % 3600) / 60; PR_snprintf(buf, 128, "%s%02ld%02ld ", sign, hourOffset, minOffset); strcat(timeString, buf); } /* Print year */ PR_snprintf(buf, 128, "%hd", et.tm_year); strcat(timeString, buf); if (PR_ParseTimeString(timeString, PR_FALSE, &t2) == PR_FAILURE) { fprintf(stderr, "PR_ParseTimeString() failed\n"); exit(1); } if (LL_NE(t, t2)) { fprintf(stderr, "PR_ParseTimeString() incorrect\n"); PR_snprintf(buf, 128, "t is %lld, t2 is %lld, time string is %s\n", t, t2, timeString); fprintf(stderr, "%s\n", buf); exit(1); } } int main(int argc, char** argv) { /* The command line argument: -d is used to determine if the test is being run in debug mode. The regress tool requires only one line output:PASS or FAIL. All of the printfs associated with this test has been handled with a if (debug_mode) test. Usage: test_name -d */ PLOptStatus os; PLOptState *opt; PR_STDIO_INIT(); opt = PL_CreateOptState(argc, argv, "d"); while (PL_OPT_EOL != (os = PL_GetNextOpt(opt))) { if (PL_OPT_BAD == os) { continue; } switch (opt->option) { case 'd': /* debug mode */ debug_mode = PR_TRUE; break; default: break; } } PL_DestroyOptState(opt); /* main test */ PR_Init(PR_USER_THREAD, PR_PRIORITY_NORMAL, 0); /* Testing zero PRTime (the epoch) */ { PRTime t; PRExplodedTime et; LL_I2L(t, 0); if (debug_mode) { printf("The NSPR epoch is:\n"); } PR_ExplodeTime(t, PR_LocalTimeParameters, &et); PrintExplodedTime(&et); if (debug_mode) { printf("\n"); } PR_ExplodeTime(t, PR_GMTParameters, &et); PrintExplodedTime(&et); if (debug_mode) { printf("\n\n"); } testParseTimeString(t); } /* ************************************************************* ** ** Testing PR_Now(), PR_ExplodeTime, and PR_ImplodeTime ** on the current time ** ************************************************************* */ { PRTime t1, t2; PRExplodedTime et; if (debug_mode) { printf("*********************************************\n"); printf("** **\n"); printf("** Testing PR_Now(), PR_ExplodeTime, and **\n"); printf("** PR_ImplodeTime on the current time **\n"); printf("** **\n"); printf("*********************************************\n\n"); } t1 = PR_Now(); /* First try converting to UTC */ PR_ExplodeTime(t1, PR_GMTParameters, &et); if (et.tm_params.tp_gmt_offset || et.tm_params.tp_dst_offset) { if (debug_mode) { printf("ERROR: UTC has nonzero gmt or dst offset.\n"); } else { failed_already=1; } return 1; } if (debug_mode) { printf("Current UTC is "); } PrintExplodedTime(&et); if (debug_mode) { printf("\n"); } t2 = PR_ImplodeTime(&et); if (LL_NE(t1, t2)) { if (debug_mode) { printf("ERROR: Explode and implode are NOT inverse.\n"); } else { printf("FAIL\n"); } return 1; } /* Next, try converting to local (US Pacific) time */ PR_ExplodeTime(t1, PR_LocalTimeParameters, &et); if (debug_mode) { printf("Current local time is "); } PrintExplodedTime(&et); if (debug_mode) { printf("\n"); } if (debug_mode) printf("GMT offset is %ld, DST offset is %ld\n", et.tm_params.tp_gmt_offset, et.tm_params.tp_dst_offset); t2 = PR_ImplodeTime(&et); if (LL_NE(t1, t2)) { if (debug_mode) { printf("ERROR: Explode and implode are NOT inverse.\n"); } return 1; } if (debug_mode) { printf("Please examine the results\n"); } testParseTimeString(t1); } /* ******************************************* ** ** Testing PR_NormalizeTime() ** ******************************************* */ /* July 4, 2001 is Wednesday */ { PRExplodedTime et; if (debug_mode) { printf("\n"); printf("**********************************\n"); printf("** **\n"); printf("** Testing PR_NormalizeTime() **\n"); printf("** **\n"); printf("**********************************\n\n"); } et.tm_year = 2001; et.tm_month = 7 - 1; et.tm_mday = 4; et.tm_hour = 0; et.tm_min = 0; et.tm_sec = 0; et.tm_usec = 0; et.tm_params = PR_GMTParameters(&et); PR_NormalizeTime(&et, PR_GMTParameters); if (debug_mode) { printf("July 4, 2001 is %s.\n", dayOfWeek[et.tm_wday]); } if (et.tm_wday == 3) { if (debug_mode) { printf("PASS\n"); } } else { if (debug_mode) { printf("ERROR: It should be Wednesday\n"); } else { failed_already=1; } return 1; } testParseTimeString(PR_ImplodeTime(&et)); /* June 12, 1997 23:00 PST == June 13, 1997 00:00 PDT */ et.tm_year = 1997; et.tm_month = 6 - 1; et.tm_mday = 12; et.tm_hour = 23; et.tm_min = 0; et.tm_sec = 0; et.tm_usec = 0; et.tm_params.tp_gmt_offset = -8 * 3600; et.tm_params.tp_dst_offset = 0; PR_NormalizeTime(&et, PR_USPacificTimeParameters); if (debug_mode) { printf("Thu Jun 12, 1997 23:00:00 PST is "); } PrintExplodedTime(&et); if (debug_mode) { printf(".\n"); } if (et.tm_wday == 5) { if (debug_mode) { printf("PASS\n"); } } else { if (debug_mode) { printf("ERROR: It should be Friday\n"); } else { failed_already=1; } return 1; } testParseTimeString(PR_ImplodeTime(&et)); /* Feb 14, 1997 00:00:00 PDT == Feb 13, 1997 23:00:00 PST */ et.tm_year = 1997; et.tm_month = 2 - 1; et.tm_mday = 14; et.tm_hour = 0; et.tm_min = 0; et.tm_sec = 0; et.tm_usec = 0; et.tm_params.tp_gmt_offset = -8 * 3600; et.tm_params.tp_dst_offset = 3600; PR_NormalizeTime(&et, PR_USPacificTimeParameters); if (debug_mode) { printf("Fri Feb 14, 1997 00:00:00 PDT is "); } PrintExplodedTime(&et); if (debug_mode) { printf(".\n"); } if (et.tm_wday == 4) { if (debug_mode) { printf("PASS\n"); } } else { if (debug_mode) { printf("ERROR: It should be Thursday\n"); } else { failed_already=1; } return 1; } testParseTimeString(PR_ImplodeTime(&et)); /* What time is Nov. 7, 1996, 18:29:23 PDT? */ et.tm_year = 1996; et.tm_month = 11 - 1; et.tm_mday = 7; et.tm_hour = 18; et.tm_min = 29; et.tm_sec = 23; et.tm_usec = 0; et.tm_params.tp_gmt_offset = -8 * 3600; /* PDT */ et.tm_params.tp_dst_offset = 3600; PR_NormalizeTime(&et, PR_LocalTimeParameters); if (debug_mode) { printf("Nov 7 18:29:23 PDT 1996 is "); } PrintExplodedTime(&et); if (debug_mode) { printf(".\n"); } testParseTimeString(PR_ImplodeTime(&et)); /* What time is Oct. 7, 1995, 18:29:23 PST? */ et.tm_year = 1995; et.tm_month = 10 - 1; et.tm_mday = 7; et.tm_hour = 18; et.tm_min = 29; et.tm_sec = 23; et.tm_params.tp_gmt_offset = -8 * 3600; /* PST */ et.tm_params.tp_dst_offset = 0; PR_NormalizeTime(&et, PR_LocalTimeParameters); if (debug_mode) { printf("Oct 7 18:29:23 PST 1995 is "); } PrintExplodedTime(&et); if (debug_mode) { printf(".\n"); } testParseTimeString(PR_ImplodeTime(&et)); if (debug_mode) { printf("Please examine the results\n"); } } /* ************************************************************** ** ** Testing range of years ** ************************************************************** */ { PRExplodedTime et1, et2; PRTime ttt; PRTime secs; if (debug_mode) { printf("\n"); printf("***************************************\n"); printf("** **\n"); printf("** Testing range of years **\n"); printf("** **\n"); printf("***************************************\n\n"); } /* April 4, 1917 GMT */ et1.tm_usec = 0; et1.tm_sec = 0; et1.tm_min = 0; et1.tm_hour = 0; et1.tm_mday = 4; et1.tm_month = 4 - 1; et1.tm_year = 1917; et1.tm_params = PR_GMTParameters(&et1); PR_NormalizeTime(&et1, PR_LocalTimeParameters); secs = PR_ImplodeTime(&et1); if (LL_GE_ZERO(secs)) { if (debug_mode) { printf("ERROR: April 4, 1917 GMT returns a nonnegative second count\n"); } failed_already = 1; return 1; } PR_ExplodeTime(secs, PR_LocalTimeParameters, &et2); if (!ExplodedTimeIsEqual(&et1, &et2)) { if (debug_mode) { printf("ERROR: PR_ImplodeTime and PR_ExplodeTime are not inverse for April 4, 1917 GMT\n"); } failed_already=1; return 1; } ttt = PR_ImplodeTime(&et1); testParseTimeString( ttt ); if (debug_mode) { printf("Test passed for April 4, 1917\n"); } /* July 4, 2050 */ et1.tm_usec = 0; et1.tm_sec = 0; et1.tm_min = 0; et1.tm_hour = 0; et1.tm_mday = 4; et1.tm_month = 7 - 1; et1.tm_year = 2050; et1.tm_params = PR_GMTParameters(&et1); PR_NormalizeTime(&et1, PR_LocalTimeParameters); secs = PR_ImplodeTime(&et1); if (!LL_GE_ZERO(secs)) { if (debug_mode) { printf("ERROR: July 4, 2050 GMT returns a negative second count\n"); } failed_already = 1; return 1; } PR_ExplodeTime(secs, PR_LocalTimeParameters, &et2); if (!ExplodedTimeIsEqual(&et1, &et2)) { if (debug_mode) { printf("ERROR: PR_ImplodeTime and PR_ExplodeTime are not inverse for July 4, 2050 GMT\n"); } failed_already=1; return 1; } testParseTimeString(PR_ImplodeTime(&et1)); if (debug_mode) { printf("Test passed for July 4, 2050\n"); } } /* ************************************************************** ** ** Stress test * ** Go through four years, starting from ** 00:00:00 PST Jan. 1, 2005, incrementing ** every 10 minutes. ** ************************************************************** */ { PRExplodedTime et, et1, et2; PRInt64 usecPer10Min; int day, hour, min; PRTime usecs; int dstInEffect = 0; if (debug_mode) { printf("\n"); printf("*******************************************************\n"); printf("** **\n"); printf("** Stress test Pacific Time **\n"); printf("** Starting from midnight Jan. 1, 2005 PST, **\n"); printf("** going through four years in 10-minute increment **\n"); printf("** **\n"); printf("*******************************************************\n\n"); } LL_I2L(usecPer10Min, 600000000L); /* 00:00:00 PST Jan. 1, 2005 */ et.tm_usec = 0; et.tm_sec = 0; et.tm_min = 0; et.tm_hour = 0; et.tm_mday = 1; et.tm_month = 0; et.tm_year = 2005; et.tm_params.tp_gmt_offset = -8 * 3600; et.tm_params.tp_dst_offset = 0; usecs = PR_ImplodeTime(&et); for (day = 0; day < 4 * 365 + 1; day++) { for (hour = 0; hour < 24; hour++) { for (min = 0; min < 60; min += 10) { LL_ADD(usecs, usecs, usecPer10Min); PR_ExplodeTime(usecs, PR_USPacificTimeParameters, &et1); et2 = et; et2.tm_usec += 600000000L; PR_NormalizeTime(&et2, PR_USPacificTimeParameters); if (!ExplodedTimeIsEqual(&et1, &et2)) { printf("ERROR: componentwise comparison failed\n"); PrintExplodedTime(&et1); printf("\n"); PrintExplodedTime(&et2); printf("\n"); failed_already=1; return 1; } if (LL_NE(usecs, PR_ImplodeTime(&et1))) { printf("ERROR: PR_ExplodeTime and PR_ImplodeTime are not inverse\n"); PrintExplodedTime(&et1); printf("\n"); failed_already=1; return 1; } testParseTimeString(usecs); if (!dstInEffect && et1.tm_params.tp_dst_offset) { dstInEffect = 1; if (debug_mode) { printf("DST changeover from "); PrintExplodedTime(&et); printf(" to "); PrintExplodedTime(&et1); printf(".\n"); } } else if (dstInEffect && !et1.tm_params.tp_dst_offset) { dstInEffect = 0; if (debug_mode) { printf("DST changeover from "); PrintExplodedTime(&et); printf(" to "); PrintExplodedTime(&et1); printf(".\n"); } } et = et1; } } } if (debug_mode) { printf("Test passed\n"); } } /* Same stress test, but with PR_LocalTimeParameters */ { PRExplodedTime et, et1, et2; PRInt64 usecPer10Min; int day, hour, min; PRTime usecs; int dstInEffect = 0; if (debug_mode) { printf("\n"); printf("*******************************************************\n"); printf("** **\n"); printf("** Stress test Local Time **\n"); printf("** Starting from midnight Jan. 1, 2005 PST, **\n"); printf("** going through four years in 10-minute increment **\n"); printf("** **\n"); printf("*******************************************************\n\n"); } LL_I2L(usecPer10Min, 600000000L); /* 00:00:00 PST Jan. 1, 2005 */ et.tm_usec = 0; et.tm_sec = 0; et.tm_min = 0; et.tm_hour = 0; et.tm_mday = 1; et.tm_month = 0; et.tm_year = 2005; et.tm_params.tp_gmt_offset = -8 * 3600; et.tm_params.tp_dst_offset = 0; usecs = PR_ImplodeTime(&et); for (day = 0; day < 4 * 365 + 1; day++) { for (hour = 0; hour < 24; hour++) { for (min = 0; min < 60; min += 10) { LL_ADD(usecs, usecs, usecPer10Min); PR_ExplodeTime(usecs, PR_LocalTimeParameters, &et1); et2 = et; et2.tm_usec += 600000000L; PR_NormalizeTime(&et2, PR_LocalTimeParameters); if (!ExplodedTimeIsEqual(&et1, &et2)) { printf("ERROR: componentwise comparison failed\n"); PrintExplodedTime(&et1); printf("\n"); PrintExplodedTime(&et2); printf("\n"); return 1; } if (LL_NE(usecs, PR_ImplodeTime(&et1))) { printf("ERROR: PR_ExplodeTime and PR_ImplodeTime are not inverse\n"); PrintExplodedTime(&et1); printf("\n"); failed_already=1; return 1; } testParseTimeString(usecs); if (!dstInEffect && et1.tm_params.tp_dst_offset) { dstInEffect = 1; if (debug_mode) { printf("DST changeover from "); PrintExplodedTime(&et); printf(" to "); PrintExplodedTime(&et1); printf(".\n"); } } else if (dstInEffect && !et1.tm_params.tp_dst_offset) { dstInEffect = 0; if (debug_mode) { printf("DST changeover from "); PrintExplodedTime(&et); printf(" to "); PrintExplodedTime(&et1); printf(".\n"); } } et = et1; } } } if (debug_mode) { printf("Test passed\n"); } } /* Same stress test, but with PR_LocalTimeParameters and going backward */ { PRExplodedTime et, et1, et2; PRInt64 usecPer10Min; int day, hour, min; PRTime usecs; int dstInEffect = 0; if (debug_mode) { printf("\n"); printf("*******************************************************\n"); printf("** **\n"); printf("** Stress test Local Time **\n"); printf("** Starting from midnight Jan. 1, 2009 PST, **\n"); printf("** going back four years in 10-minute increment **\n"); printf("** **\n"); printf("*******************************************************\n\n"); } LL_I2L(usecPer10Min, 600000000L); /* 00:00:00 PST Jan. 1, 2009 */ et.tm_usec = 0; et.tm_sec = 0; et.tm_min = 0; et.tm_hour = 0; et.tm_mday = 1; et.tm_month = 0; et.tm_year = 2009; et.tm_params.tp_gmt_offset = -8 * 3600; et.tm_params.tp_dst_offset = 0; usecs = PR_ImplodeTime(&et); for (day = 0; day < 4 * 365 + 1; day++) { for (hour = 0; hour < 24; hour++) { for (min = 0; min < 60; min += 10) { LL_SUB(usecs, usecs, usecPer10Min); PR_ExplodeTime(usecs, PR_LocalTimeParameters, &et1); et2 = et; et2.tm_usec -= 600000000L; PR_NormalizeTime(&et2, PR_LocalTimeParameters); if (!ExplodedTimeIsEqual(&et1, &et2)) { printf("ERROR: componentwise comparison failed\n"); PrintExplodedTime(&et1); printf("\n"); PrintExplodedTime(&et2); printf("\n"); return 1; } if (LL_NE(usecs, PR_ImplodeTime(&et1))) { printf("ERROR: PR_ExplodeTime and PR_ImplodeTime are not inverse\n"); PrintExplodedTime(&et1); printf("\n"); failed_already=1; return 1; } testParseTimeString(usecs); if (!dstInEffect && et1.tm_params.tp_dst_offset) { dstInEffect = 1; if (debug_mode) { printf("DST changeover from "); PrintExplodedTime(&et); printf(" to "); PrintExplodedTime(&et1); printf(".\n"); } } else if (dstInEffect && !et1.tm_params.tp_dst_offset) { dstInEffect = 0; if (debug_mode) { printf("DST changeover from "); PrintExplodedTime(&et); printf(" to "); PrintExplodedTime(&et1); printf(".\n"); } } et = et1; } } } } if (failed_already) { return 1; } else { return 0; } }