OSX/sec/Security/Regressions/secitem/si-14-dateparse.c

   1 /*
   2  * Copyright (c) 2011-2014 Apple Inc. All Rights Reserved.
   3  *
   4  * @APPLE_LICENSE_HEADER_START@
   5  *
   6  * This file contains Original Code and/or Modifications of Original Code
   7  * as defined in and that are subject to the Apple Public Source License
   8  * Version 2.0 (the 'License'). You may not use this file except in
   9  * compliance with the License. Please obtain a copy of the License at
  10  * http://www.opensource.apple.com/apsl/ and read it before using this
  11  * file.
  12  *
  13  * The Original Code and all software distributed under the License are
  14  * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
  15  * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
  16  * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
  17  * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
  18  * Please see the License for the specific language governing rights and
  19  * limitations under the License.
  20  *
  21  * @APPLE_LICENSE_HEADER_END@
  22  */
  23
  24
  25 #include <stdio.h>
  26
  27 #include <CoreFoundation/CoreFoundation.h>
  28 #include <Security/SecCertificateInternal.h>
  29 #include <Security/SecInternal.h>
  30 #include <libDER/asn1Types.h>
  31 #include <stdlib.h>
  32 #include <unistd.h>
  33
  34 #include "Security_regressions.h"
  35
  36 #define dateparse(TTYPE, DATE)  SecAbsoluteTimeFromDateContent(ASN1_ ## TTYPE ## _TIME, (const uint8_t *)DATE, sizeof(DATE) - 1); \
  37
  38 #define dateequals(TTYPE, DATE, EXPECTED)  do { \
  39     UInt8 string[64]; \
  40     CFIndex string_len = 63; \
  41     CFAbsoluteTime at = dateparse(TTYPE, DATE); \
  42     if (at == NULL_TIME) { \
  43         eq_string("NULL_TIME", EXPECTED, "input: " DATE); \
  44         break; \
  45     } \
  46     ds = CFDateFormatterCreateStringWithAbsoluteTime(NULL, df, at); \
  47     CFStringGetBytes(ds, CFRangeMake(0, CFStringGetLength(ds)), kCFStringEncodingASCII, ' ', false, string, 63, &string_len); \
  48     string[string_len] = 0; \
  49     eq_string((const char *)string, EXPECTED, "input: " DATE); \
  50     CFReleaseSafe(ds); \
  51 } while(0)
  52
  53 /* Test SecAbsoluteTimeFromDateContent. */
  54 static void tests(void)
  55 {
  56     CFLocaleRef ls = CFLocaleGetSystem();
  57     CFDateFormatterRef df = CFDateFormatterCreate(NULL, ls, kCFDateFormatterMediumStyle, kCFDateFormatterLongStyle);
  58     CFStringRef ds = NULL;
  59     CFTimeZoneRef tz = CFTimeZoneCreateWithTimeIntervalFromGMT(NULL, 0.0);
  60     if (tz) {
  61         CFDateFormatterSetProperty(df, kCFDateFormatterTimeZone, tz);
  62         CFRelease(tz);
  63     }
  64     CFDateFormatterSetFormat(df, CFSTR("yyyyMMddHHmmss"));
  65
  66     dateequals(UTC, "1101010000Z", "20110101000000");
  67     dateequals(UTC, "010101000001Z", "20010101000001");
  68     dateequals(GENERALIZED, "201101010000Z", "NULL_TIME"); // Invalid date
  69     dateequals(GENERALIZED, "20010101000001Z", "20010101000001");
  70
  71     dateequals(GENERALIZED, "20000101000000Z", "20000101000000");
  72     dateequals(UTC, "990101000000Z", "19990101000000");
  73     dateequals(UTC, "710101000000Z", "19710101000000");
  74
  75     dateequals(UTC, "020101000000+0000", "20020101000000");
  76     dateequals(UTC, "020101000000-0800", "20020101080000");
  77     dateequals(UTC, "020101000000+0800", "20011231160000");
  78     dateequals(UTC, "020101000000-0420", "20020101042000");
  79     dateequals(UTC, "020101000013+0430", "20011231193013");
  80
  81     dateequals(UTC, "0201010000+0000", "NULL_TIME");
  82
  83     dateequals(GENERALIZED, "20020101000000+0000", "20020101000000");
  84     dateequals(GENERALIZED, "20020101000000-0800", "20020101080000");
  85     dateequals(GENERALIZED, "20020101000000+0800", "20011231160000");
  86     dateequals(GENERALIZED, "20020101000000-0420", "20020101042000");
  87     dateequals(GENERALIZED, "20020101000013+0430", "20011231193013");
  88
  89     dateequals(GENERALIZED, "20060101000013+0900", "20051231150013");
  90     dateequals(GENERALIZED, "20090101000013+0900", "20081231150013");
  91     dateequals(GENERALIZED, "20110101000013+0900", "20101231150013");
  92
  93     /* I'd expect these to be off by one second but since they aren't it
  94        seems we don't support leap seconds. */
  95     dateequals(GENERALIZED, "20051231200013-0900", "20060101050013");
  96     dateequals(GENERALIZED, "20081231200013-0900", "20090101050013");
  97     dateequals(GENERALIZED, "20101231200013-0900", "20110101050013");
  98
  99     dateequals(GENERALIZED, "20051231200013+0900", "20051231110013");
 100     dateequals(GENERALIZED, "20081231200013+0900", "20081231110013");
 101     dateequals(GENERALIZED, "20101231200013+0900", "20101231110013");
 102
 103     dateequals(GENERALIZED, "19001231200013Z", "19001231200013");
 104     dateequals(GENERALIZED, "19811231200013Z", "19811231200013");
 105     dateequals(GENERALIZED, "19840229000001Z", "19840229000001");
 106     dateequals(GENERALIZED, "19810229000002Z", "NULL_TIME"); // Feb 29 in a non leap-year
 107     dateequals(GENERALIZED, "20000001000000Z", "NULL_TIME"); // Month 0
 108     dateequals(GENERALIZED, "20000100000000Z", "NULL_TIME"); // Day 0
 109     dateequals(GENERALIZED, "20000131000000Z", "20000131000000"); // Day 1/31
 110     dateequals(GENERALIZED, "20000132000000Z", "NULL_TIME"); // Day 1/31
 111     dateequals(GENERALIZED, "20000229000000Z", "20000229000000"); // Day 2/29
 112     dateequals(GENERALIZED, "20000230000000Z", "NULL_TIME"); // Day 2/30
 113     dateequals(GENERALIZED, "20010331000000Z", "20010331000000");
 114     dateequals(GENERALIZED, "20010332000000Z", "NULL_TIME");
 115     dateequals(GENERALIZED, "20010430000000Z", "20010430000000");
 116     dateequals(GENERALIZED, "20010431000000Z", "NULL_TIME");
 117     dateequals(GENERALIZED, "20010531000000Z", "20010531000000");
 118     dateequals(GENERALIZED, "20010532000000Z", "NULL_TIME");
 119     dateequals(GENERALIZED, "20010630000000Z", "20010630000000");
 120     dateequals(GENERALIZED, "20010631000000Z", "NULL_TIME");
 121     dateequals(GENERALIZED, "20010731000000Z", "20010731000000");
 122     dateequals(GENERALIZED, "20010732000000Z", "NULL_TIME");
 123     dateequals(GENERALIZED, "20010831000000Z", "20010831000000");
 124     dateequals(GENERALIZED, "20010832000000Z", "NULL_TIME");
 125     dateequals(GENERALIZED, "20010930000000Z", "20010930000000");
 126     dateequals(GENERALIZED, "20010931000000Z", "NULL_TIME");
 127     dateequals(GENERALIZED, "20011031000000Z", "20011031000000");
 128     dateequals(GENERALIZED, "20011032000000Z", "NULL_TIME");
 129     dateequals(GENERALIZED, "20011130000000Z", "20011130000000");
 130     dateequals(GENERALIZED, "20011131000000Z", "NULL_TIME");
 131     dateequals(GENERALIZED, "20011231000000Z", "20011231000000");
 132     dateequals(GENERALIZED, "20011232000000Z", "NULL_TIME");
 133     dateequals(GENERALIZED, "20011301000000Z", "NULL_TIME");
 134
 135     dateequals(GENERALIZED, "21000301120000Z", "21000301120000");
 136     dateequals(GENERALIZED, "23000301120000Z", "23000301120000");
 137     dateequals(GENERALIZED, "24000301120000Z", "24000301120000");
 138     dateequals(GENERALIZED, "30000301120000Z", "30000301120000");
 139     dateequals(GENERALIZED, "60000228120000Z", "60000228120000");
 140     dateequals(GENERALIZED, "60800301120000Z", "60800301120000");
 141
 142     CFReleaseSafe(df);
 143 }
 144
 145 int si_14_dateparse(int argc, char *const *argv)
 146 {
 147         plan_tests(64);
 148
 149         tests();
 150
 151         return 0;
 152 }