t0006 & t5000: prepare for 64-bit timestamps

Git's source code refers to timestamps as unsigned longs. On 32-bit
platforms, as well as on Windows, unsigned long is not large enough to
capture dates that are "absurdly far in the future".

It is perfectly valid by the C standard, of course, for the `long` data
type to refer to 32-bit integers. That is why the `time_t` data type
exists: so that it can be 64-bit even if `long` is 32-bit. Git's source
code simply uses an incorrect data type for timestamps, is all.

The earlier quick fix 6b9c38e14c (t0006: skip "far in the future" test
when unsigned long is not long enough, 2016-07-11) papered over this
issue simply by skipping the respective test cases on platforms where
they would fail due to the data type in use.

This quick fix, however, tests for *long* to be 64-bit or not. What we
need, though, is a test that says whether *whatever data type we use for
timestamps* is 64-bit or not.

The same quick fix was used to handle the similar problem where Git's
source code uses `unsigned long` to represent size, instead of `size_t`,
conflating the two issues.

So let's just add another prerequisite to test specifically whether
timestamps are represented by a 64-bit data type or not. Later, after we
switch to a larger data type, we can flip that prerequisite to test
`time_t` instead of `long`.

Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de>
Signed-off-by: Junio C Hamano <gitster@pobox.com>

t/helper/test-date.c

@@ -4,7 +4,8 @@ static const char *usage_msg = "\n"
 "  test-date relative [time_t]...\n"
 "  test-date show:<format> [time_t]...\n"
 "  test-date parse [date]...\n"
-"  test-date approxidate [date]...\n";
+"  test-date approxidate [date]...\n"
+"  test-date is64bit\n";
 
 static void show_relative_dates(const char **argv, struct timeval *now)
 {
@@ -93,6 +94,8 @@ int cmd_main(int argc, const char **argv)
 		parse_dates(argv+1, &now);
 	else if (!strcmp(*argv, "approxidate"))
 		parse_approxidate(argv+1, &now);
+	else if (!strcmp(*argv, "is64bit"))
+		return sizeof(unsigned long) == 8 ? 0 : 1;
 	else
 		usage(usage_msg);
 	return 0;

t/t0006-date.sh

@@ -53,8 +53,8 @@ check_show unix-local "$TIME" '1466000000'
 
 # arbitrary time absurdly far in the future
 FUTURE="5758122296 -0400"
-check_show iso       "$FUTURE" "2152-06-19 18:24:56 -0400" LONG_IS_64BIT
-check_show iso-local "$FUTURE" "2152-06-19 22:24:56 +0000" LONG_IS_64BIT
+check_show iso       "$FUTURE" "2152-06-19 18:24:56 -0400" TIME_IS_64BIT
+check_show iso-local "$FUTURE" "2152-06-19 22:24:56 +0000" TIME_IS_64BIT
 
 check_parse() {
 	echo "$1 -> $2" >expect

t/t5000-tar-tree.sh

@@ -390,7 +390,7 @@ test_expect_success TAR_HUGE,LONG_IS_64BIT 'system tar can read our huge size' '
 	test_cmp expect actual
 '
 
-test_expect_success LONG_IS_64BIT 'set up repository with far-future commit' '
+test_expect_success TIME_IS_64BIT 'set up repository with far-future commit' '
 	rm -f .git/index &&
 	echo content >file &&
 	git add file &&
@@ -398,11 +398,11 @@ test_expect_success LONG_IS_64BIT 'set up repository with far-future commit' '
 		git commit -m "tempori parendum"
 '
 
-test_expect_success LONG_IS_64BIT 'generate tar with future mtime' '
+test_expect_success TIME_IS_64BIT 'generate tar with future mtime' '
 	git archive HEAD >future.tar
 '
 
-test_expect_success TAR_HUGE,LONG_IS_64BIT 'system tar can read our future mtime' '
+test_expect_success TAR_HUGE,TIME_IS_64BIT 'system tar can read our future mtime' '
 	echo 4147 >expect &&
 	tar_info future.tar | cut -d" " -f2 >actual &&
 	test_cmp expect actual

t/test-lib.sh

@@ -1164,3 +1164,5 @@ build_option () {
 test_lazy_prereq LONG_IS_64BIT '
 	test 8 -le "$(build_option sizeof-long)"
 '
+
+test_lazy_prereq TIME_IS_64BIT 'test-date is64bit'