glibc/libio/tst-ftell-active-handler.c

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/* Verify that ftell returns the correct value at various points before and
after the handler on which it is called becomes active.
Copyright (C) 2014-2019 Free Software Foundation, Inc.
This file is part of the GNU C Library.
The GNU C Library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
The GNU C Library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with the GNU C Library; if not, see
<http://www.gnu.org/licenses/>. */
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <unistd.h>
#include <fcntl.h>
#include <locale.h>
#include <wchar.h>
static int do_test (void);
#define TEST_FUNCTION do_test ()
#include "../test-skeleton.c"
#define get_handles_fdopen(filename, fd, fp, fd_mode, mode) \
({ \
int ret = 0; \
(fd) = open ((filename), (fd_mode), 0); \
if ((fd) == -1) \
{ \
printf ("open failed: %m\n"); \
ret = 1; \
} \
else \
{ \
(fp) = fdopen ((fd), (mode)); \
if ((fp) == NULL) \
{ \
printf ("fdopen failed: %m\n"); \
close (fd); \
ret = 1; \
} \
} \
ret; \
})
#define get_handles_fopen(filename, fd, fp, mode) \
({ \
int ret = 0; \
(fp) = fopen ((filename), (mode)); \
if ((fp) == NULL) \
{ \
printf ("fopen failed: %m\n"); \
ret = 1; \
} \
else \
{ \
(fd) = fileno (fp); \
if ((fd) == -1) \
{ \
printf ("fileno failed: %m\n"); \
ret = 1; \
} \
} \
ret; \
})
/* data points to either char_data or wide_data, depending on whether we're
testing regular file mode or wide mode respectively. Similarly,
fputs_func points to either fputs or fputws. data_len keeps track of the
length of the current data and file_len maintains the current file
length. */
static const void *data;
static const char *char_data = "abcdef";
static const wchar_t *wide_data = L"abcdef";
static size_t data_len;
static size_t file_len;
typedef int (*fputs_func_t) (const void *data, FILE *fp);
typedef void *(*fgets_func_t) (void *ws, int n, FILE *fp);
fputs_func_t fputs_func;
fgets_func_t fgets_func;
/* This test verifies that the offset reported by ftell is correct after the
file is truncated using ftruncate. ftruncate does not change the file
offset on truncation and hence, SEEK_CUR should continue to point to the
old offset and not be changed to the new offset. */
static int
do_ftruncate_test (const char *filename)
{
FILE *fp = NULL;
int fd;
int ret = 0;
struct test
{
const char *mode;
int fd_mode;
} test_modes[] = {
{"r+", O_RDWR},
{"w", O_WRONLY | O_TRUNC},
{"w+", O_RDWR | O_TRUNC},
{"a", O_WRONLY},
{"a+", O_RDWR}
};
for (int j = 0; j < 2; j++)
{
for (int i = 0; i < sizeof (test_modes) / sizeof (struct test); i++)
{
int fileret;
printf ("\tftruncate: %s (file, \"%s\"): ",
j == 0 ? "fopen" : "fdopen",
test_modes[i].mode);
if (j == 0)
fileret = get_handles_fopen (filename, fd, fp, test_modes[i].mode);
else
fileret = get_handles_fdopen (filename, fd, fp,
test_modes[i].fd_mode,
test_modes[i].mode);
if (fileret != 0)
return fileret;
/* Write some data. */
size_t written = fputs_func (data, fp);
if (written == EOF)
{
printf ("fputs[1] failed to write data\n");
ret |= 1;
}
/* Record the offset. */
long offset = ftell (fp);
/* Flush data to allow switching active handles. */
if (fflush (fp))
{
printf ("Flush failed: %m\n");
ret |= 1;
}
/* Now truncate the file. */
if (ftruncate (fd, 0) != 0)
{
printf ("Failed to truncate file: %m\n");
ret |= 1;
}
/* ftruncate does not change the offset, so there is no need to call
anything to be able to switch active handles. */
long new_offset = ftell (fp);
/* The offset should remain unchanged since ftruncate does not update
it. */
if (offset != new_offset)
{
printf ("Incorrect offset. Expected %ld, but got %ld\n",
offset, new_offset);
ret |= 1;
}
else
printf ("offset = %ld\n", offset);
fclose (fp);
}
}
return ret;
}
Fix offset caching for streams and use it for ftell (BZ #16680) The ftell implementation was made conservative to ensure that incorrectly cached offsets never affect it. However, this causes problems for append mode when a file stream is rewound. Additionally, the 'clever' trick of using stat to get position for append mode files caused more problems than it solved and broke old behavior. I have described the various problems that it caused and then finally the solution. For a and a+ mode files, rewinding the stream should result in ftell returning 0 as the offset, but the stat() trick caused it to (incorrectly) always return the end of file. Now I couldn't find anything in POSIX that specifies the stream position after rewind() for a file opened in 'a' mode, but for 'a+' mode it should be set to 0. For 'a' mode too, it probably makes sense to keep it set to 0 in the interest of retaining old behavior. The initial file position for append mode files is implementation defined, so the implementation could either retain the current file position or move the position to the end of file. The earlier ftell implementation would move the offset to end of file for append-only mode, but retain the old offset for a+ mode. It would also cache the offset (this detail is important). My patch broke this and would set the initial position to end of file for both append modes, thus breaking old behavior. I was ignorant enough to write an incorrect test case for it too. The Change: I have now brought back the behavior of seeking to end of file for append-only streams, but with a slight difference. I don't cache the offset though, since we would want ftell to query the current file position through lseek while the stream is not active. Since the offset is moved to the end of file, we can rely on the file position reported by lseek and we don't need to resort to the stat() nonsense. Finally, the cache is always reliable, except when there are unflished writes in an append mode stream (i.e. both a and a+). In the latter case, it is safe to just do an lseek to SEEK_END. The value can be safely cached too, since the file handle is already active at this point. Incidentally, this is the only state change we affect in the file handle (apart from taking locks of course). I have also updated the test case to correct my impression of the initial file position for a+ streams to the initial behavior. I have verified that this does not break any existing tests in the testsuite and also passes with the new tests.
2014-03-11 11:34:49 +00:00
/* Test that ftell output after a rewind is correct. */
static int
do_rewind_test (const char *filename)
{
int ret = 0;
struct test
{
const char *mode;
int fd_mode;
size_t old_off;
size_t new_off;
} test_modes[] = {
{"w", O_WRONLY | O_TRUNC, 0, data_len},
{"w+", O_RDWR | O_TRUNC, 0, data_len},
Fix offset caching for streams and use it for ftell (BZ #16680) The ftell implementation was made conservative to ensure that incorrectly cached offsets never affect it. However, this causes problems for append mode when a file stream is rewound. Additionally, the 'clever' trick of using stat to get position for append mode files caused more problems than it solved and broke old behavior. I have described the various problems that it caused and then finally the solution. For a and a+ mode files, rewinding the stream should result in ftell returning 0 as the offset, but the stat() trick caused it to (incorrectly) always return the end of file. Now I couldn't find anything in POSIX that specifies the stream position after rewind() for a file opened in 'a' mode, but for 'a+' mode it should be set to 0. For 'a' mode too, it probably makes sense to keep it set to 0 in the interest of retaining old behavior. The initial file position for append mode files is implementation defined, so the implementation could either retain the current file position or move the position to the end of file. The earlier ftell implementation would move the offset to end of file for append-only mode, but retain the old offset for a+ mode. It would also cache the offset (this detail is important). My patch broke this and would set the initial position to end of file for both append modes, thus breaking old behavior. I was ignorant enough to write an incorrect test case for it too. The Change: I have now brought back the behavior of seeking to end of file for append-only streams, but with a slight difference. I don't cache the offset though, since we would want ftell to query the current file position through lseek while the stream is not active. Since the offset is moved to the end of file, we can rely on the file position reported by lseek and we don't need to resort to the stat() nonsense. Finally, the cache is always reliable, except when there are unflished writes in an append mode stream (i.e. both a and a+). In the latter case, it is safe to just do an lseek to SEEK_END. The value can be safely cached too, since the file handle is already active at this point. Incidentally, this is the only state change we affect in the file handle (apart from taking locks of course). I have also updated the test case to correct my impression of the initial file position for a+ streams to the initial behavior. I have verified that this does not break any existing tests in the testsuite and also passes with the new tests.
2014-03-11 11:34:49 +00:00
{"r+", O_RDWR, 0, data_len},
/* The new offsets for 'a' and 'a+' modes have to factor in the
previous writes since they always append to the end of the
file. */
{"a", O_WRONLY, 0, 3 * data_len},
{"a+", O_RDWR, 0, 4 * data_len},
};
/* Empty the file before the test so that our offsets are simple to
calculate. */
FILE *fp = fopen (filename, "w");
if (fp == NULL)
{
printf ("Failed to open file for emptying\n");
return 1;
}
fclose (fp);
for (int j = 0; j < 2; j++)
{
for (int i = 0; i < sizeof (test_modes) / sizeof (struct test); i++)
{
FILE *fp;
int fd;
int fileret;
printf ("\trewind: %s (file, \"%s\"): ", j == 0 ? "fdopen" : "fopen",
test_modes[i].mode);
if (j == 0)
fileret = get_handles_fdopen (filename, fd, fp,
test_modes[i].fd_mode,
test_modes[i].mode);
else
fileret = get_handles_fopen (filename, fd, fp, test_modes[i].mode);
if (fileret != 0)
return fileret;
/* Write some content to the file, rewind and ensure that the ftell
output after the rewind is 0. POSIX does not specify what the
behavior is when a file is rewound in 'a' mode, so we retain
current behavior, which is to keep the 0 offset. */
size_t written = fputs_func (data, fp);
if (written == EOF)
{
printf ("fputs[1] failed to write data\n");
ret |= 1;
}
rewind (fp);
long offset = ftell (fp);
if (offset != test_modes[i].old_off)
{
printf ("Incorrect old offset. Expected %zu, but got %ld, ",
test_modes[i].old_off, offset);
ret |= 1;
}
else
printf ("old offset = %ld, ", offset);
written = fputs_func (data, fp);
if (written == EOF)
{
printf ("fputs[1] failed to write data\n");
ret |= 1;
}
/* After this write, the offset in append modes should factor in the
implicit lseek to the end of file. */
offset = ftell (fp);
if (offset != test_modes[i].new_off)
{
printf ("Incorrect new offset. Expected %zu, but got %ld\n",
test_modes[i].new_off, offset);
ret |= 1;
}
else
printf ("new offset = %ld\n", offset);
}
}
return ret;
}
/* Test that the value of ftell is not cached when the stream handle is not
active. */
static int
do_ftell_test (const char *filename)
{
int ret = 0;
struct test
{
const char *mode;
int fd_mode;
size_t old_off;
size_t new_off;
size_t eof_off;
} test_modes[] = {
/* In w, w+ and r+ modes, the file position should be at the
beginning of the file. After the write, the offset should be
updated to data_len. We don't use eof_off in w and a modes since
they don't allow reading. */
{"w", O_WRONLY | O_TRUNC, 0, data_len, 0},
{"w+", O_RDWR | O_TRUNC, 0, data_len, 2 * data_len},
{"r+", O_RDWR, 0, data_len, 3 * data_len},
Fix offset caching for streams and use it for ftell (BZ #16680) The ftell implementation was made conservative to ensure that incorrectly cached offsets never affect it. However, this causes problems for append mode when a file stream is rewound. Additionally, the 'clever' trick of using stat to get position for append mode files caused more problems than it solved and broke old behavior. I have described the various problems that it caused and then finally the solution. For a and a+ mode files, rewinding the stream should result in ftell returning 0 as the offset, but the stat() trick caused it to (incorrectly) always return the end of file. Now I couldn't find anything in POSIX that specifies the stream position after rewind() for a file opened in 'a' mode, but for 'a+' mode it should be set to 0. For 'a' mode too, it probably makes sense to keep it set to 0 in the interest of retaining old behavior. The initial file position for append mode files is implementation defined, so the implementation could either retain the current file position or move the position to the end of file. The earlier ftell implementation would move the offset to end of file for append-only mode, but retain the old offset for a+ mode. It would also cache the offset (this detail is important). My patch broke this and would set the initial position to end of file for both append modes, thus breaking old behavior. I was ignorant enough to write an incorrect test case for it too. The Change: I have now brought back the behavior of seeking to end of file for append-only streams, but with a slight difference. I don't cache the offset though, since we would want ftell to query the current file position through lseek while the stream is not active. Since the offset is moved to the end of file, we can rely on the file position reported by lseek and we don't need to resort to the stat() nonsense. Finally, the cache is always reliable, except when there are unflished writes in an append mode stream (i.e. both a and a+). In the latter case, it is safe to just do an lseek to SEEK_END. The value can be safely cached too, since the file handle is already active at this point. Incidentally, this is the only state change we affect in the file handle (apart from taking locks of course). I have also updated the test case to correct my impression of the initial file position for a+ streams to the initial behavior. I have verified that this does not break any existing tests in the testsuite and also passes with the new tests.
2014-03-11 11:34:49 +00:00
/* For the 'a' mode, the initial file position should be the
current end of file. After the write, the offset has data_len
Fix offset caching for streams and use it for ftell (BZ #16680) The ftell implementation was made conservative to ensure that incorrectly cached offsets never affect it. However, this causes problems for append mode when a file stream is rewound. Additionally, the 'clever' trick of using stat to get position for append mode files caused more problems than it solved and broke old behavior. I have described the various problems that it caused and then finally the solution. For a and a+ mode files, rewinding the stream should result in ftell returning 0 as the offset, but the stat() trick caused it to (incorrectly) always return the end of file. Now I couldn't find anything in POSIX that specifies the stream position after rewind() for a file opened in 'a' mode, but for 'a+' mode it should be set to 0. For 'a' mode too, it probably makes sense to keep it set to 0 in the interest of retaining old behavior. The initial file position for append mode files is implementation defined, so the implementation could either retain the current file position or move the position to the end of file. The earlier ftell implementation would move the offset to end of file for append-only mode, but retain the old offset for a+ mode. It would also cache the offset (this detail is important). My patch broke this and would set the initial position to end of file for both append modes, thus breaking old behavior. I was ignorant enough to write an incorrect test case for it too. The Change: I have now brought back the behavior of seeking to end of file for append-only streams, but with a slight difference. I don't cache the offset though, since we would want ftell to query the current file position through lseek while the stream is not active. Since the offset is moved to the end of file, we can rely on the file position reported by lseek and we don't need to resort to the stat() nonsense. Finally, the cache is always reliable, except when there are unflished writes in an append mode stream (i.e. both a and a+). In the latter case, it is safe to just do an lseek to SEEK_END. The value can be safely cached too, since the file handle is already active at this point. Incidentally, this is the only state change we affect in the file handle (apart from taking locks of course). I have also updated the test case to correct my impression of the initial file position for a+ streams to the initial behavior. I have verified that this does not break any existing tests in the testsuite and also passes with the new tests.
2014-03-11 11:34:49 +00:00
added to the old value. For a+ mode however, the initial file
position is the file position of the underlying file descriptor,
since it is initially assumed to be in read mode. */
{"a", O_WRONLY, 3 * data_len, 4 * data_len, 5 * data_len},
{"a+", O_RDWR, 0, 5 * data_len, 6 * data_len},
};
for (int j = 0; j < 2; j++)
{
for (int i = 0; i < sizeof (test_modes) / sizeof (struct test); i++)
{
FILE *fp;
int fd;
int fileret;
printf ("\tftell: %s (file, \"%s\"): ", j == 0 ? "fdopen" : "fopen",
test_modes[i].mode);
if (j == 0)
fileret = get_handles_fdopen (filename, fd, fp,
test_modes[i].fd_mode,
test_modes[i].mode);
else
fileret = get_handles_fopen (filename, fd, fp, test_modes[i].mode);
if (fileret != 0)
return fileret;
long off = ftell (fp);
if (off != test_modes[i].old_off)
{
printf ("Incorrect old offset. Expected %zu but got %ld, ",
test_modes[i].old_off, off);
ret |= 1;
}
else
printf ("old offset = %ld, ", off);
/* The effect of this write on the offset should be seen in the ftell
call that follows it. */
int write_ret = write (fd, data, data_len);
if (write_ret != data_len)
{
printf ("write failed (%m)\n");
ret |= 1;
}
off = ftell (fp);
if (off != test_modes[i].new_off)
{
printf ("Incorrect new offset. Expected %zu but got %ld",
Fix offset caching for streams and use it for ftell (BZ #16680) The ftell implementation was made conservative to ensure that incorrectly cached offsets never affect it. However, this causes problems for append mode when a file stream is rewound. Additionally, the 'clever' trick of using stat to get position for append mode files caused more problems than it solved and broke old behavior. I have described the various problems that it caused and then finally the solution. For a and a+ mode files, rewinding the stream should result in ftell returning 0 as the offset, but the stat() trick caused it to (incorrectly) always return the end of file. Now I couldn't find anything in POSIX that specifies the stream position after rewind() for a file opened in 'a' mode, but for 'a+' mode it should be set to 0. For 'a' mode too, it probably makes sense to keep it set to 0 in the interest of retaining old behavior. The initial file position for append mode files is implementation defined, so the implementation could either retain the current file position or move the position to the end of file. The earlier ftell implementation would move the offset to end of file for append-only mode, but retain the old offset for a+ mode. It would also cache the offset (this detail is important). My patch broke this and would set the initial position to end of file for both append modes, thus breaking old behavior. I was ignorant enough to write an incorrect test case for it too. The Change: I have now brought back the behavior of seeking to end of file for append-only streams, but with a slight difference. I don't cache the offset though, since we would want ftell to query the current file position through lseek while the stream is not active. Since the offset is moved to the end of file, we can rely on the file position reported by lseek and we don't need to resort to the stat() nonsense. Finally, the cache is always reliable, except when there are unflished writes in an append mode stream (i.e. both a and a+). In the latter case, it is safe to just do an lseek to SEEK_END. The value can be safely cached too, since the file handle is already active at this point. Incidentally, this is the only state change we affect in the file handle (apart from taking locks of course). I have also updated the test case to correct my impression of the initial file position for a+ streams to the initial behavior. I have verified that this does not break any existing tests in the testsuite and also passes with the new tests.
2014-03-11 11:34:49 +00:00
test_modes[i].new_off, off);
ret |= 1;
}
else
printf ("new offset = %ld", off);
/* Read to the end, write some data to the fd and check if ftell can
see the new ofset. Do this test only for files that allow
reading. */
if (test_modes[i].fd_mode != O_WRONLY)
{
wchar_t tmpbuf[data_len];
rewind (fp);
while (fgets_func (tmpbuf, data_len, fp) && !feof (fp));
write_ret = write (fd, data, data_len);
if (write_ret != data_len)
{
printf ("write failed (%m)\n");
ret |= 1;
}
off = ftell (fp);
if (off != test_modes[i].eof_off)
{
printf (", Incorrect offset after read EOF. "
"Expected %zu but got %ld\n",
test_modes[i].eof_off, off);
ret |= 1;
}
else
printf (", offset after EOF = %ld\n", off);
}
else
putc ('\n', stdout);
fclose (fp);
}
}
return ret;
}
/* This test opens the file for writing, moves the file offset of the
underlying file, writes out data and then checks if ftell trips on it. */
static int
do_write_test (const char *filename)
{
FILE *fp = NULL;
int fd;
int ret = 0;
struct test
{
const char *mode;
int fd_mode;
} test_modes[] = {
{"w", O_WRONLY | O_TRUNC},
{"w+", O_RDWR | O_TRUNC},
{"r+", O_RDWR}
};
for (int j = 0; j < 2; j++)
{
for (int i = 0; i < sizeof (test_modes) / sizeof (struct test); i++)
{
int fileret;
printf ("\twrite: %s (file, \"%s\"): ", j == 0 ? "fopen" : "fdopen",
test_modes[i].mode);
if (j == 0)
fileret = get_handles_fopen (filename, fd, fp, test_modes[i].mode);
else
fileret = get_handles_fdopen (filename, fd, fp,
test_modes[i].fd_mode,
test_modes[i].mode);
if (fileret != 0)
return fileret;
/* Move offset to just before the end of the file. */
off_t seek_ret = lseek (fd, file_len - 1, SEEK_SET);
if (seek_ret == -1)
{
printf ("lseek failed: %m\n");
ret |= 1;
}
/* Write some data. */
size_t written = fputs_func (data, fp);
if (written == EOF)
{
printf ("fputs[1] failed to write data\n");
ret |= 1;
}
/* Verify that the offset points to the end of the file. The length
of the file would be the original length + the length of data
written to it - the amount by which we moved the offset using
lseek. */
long offset = ftell (fp);
file_len = file_len - 1 + data_len;
if (offset != file_len)
{
printf ("Incorrect offset. Expected %zu, but got %ld\n",
file_len, offset);
ret |= 1;
}
printf ("offset = %ld\n", offset);
fclose (fp);
}
}
return ret;
}
/* This test opens a file in append mode, writes some data, and then verifies
that ftell does not trip over it. */
static int
do_append_test (const char *filename)
{
FILE *fp = NULL;
int ret = 0;
int fd;
struct test
{
const char *mode;
int fd_mode;
} test_modes[] = {
{"a", O_WRONLY},
{"a+", O_RDWR}
};
for (int j = 0; j < 2; j++)
{
for (int i = 0; i < sizeof (test_modes) / sizeof (struct test); i++)
{
int fileret;
printf ("\tappend: %s (file, \"%s\"): ", j == 0 ? "fopen" : "fdopen",
test_modes[i].mode);
if (j == 0)
fileret = get_handles_fopen (filename, fd, fp, test_modes[i].mode);
else
fileret = get_handles_fdopen (filename, fd, fp,
test_modes[i].fd_mode,
test_modes[i].mode);
if (fileret != 0)
return fileret;
/* Write some data. */
size_t written = fputs_func (data, fp);
if (written == EOF)
{
printf ("fputs[1] failed to write all data\n");
ret |= 1;
}
/* Verify that the offset points to the end of the file. The file
len is maintained by adding data_len each time to reflect the data
written to it. */
long offset = ftell (fp);
file_len += data_len;
if (offset != file_len)
{
printf ("Incorrect offset. Expected %zu, but got %ld\n",
file_len, offset);
ret |= 1;
}
printf ("offset = %ld\n", offset);
fclose (fp);
}
}
/* For fdopen in 'a' mode, the file descriptor should not change if the file
is already open with the O_APPEND flag set. */
fd = open (filename, O_WRONLY | O_APPEND, 0);
if (fd == -1)
{
printf ("open(O_APPEND) failed: %m\n");
return 1;
}
off_t seek_ret = lseek (fd, file_len - 1, SEEK_SET);
if (seek_ret == -1)
{
printf ("lseek[O_APPEND][0] failed: %m\n");
ret |= 1;
}
fp = fdopen (fd, "a");
if (fp == NULL)
{
printf ("fdopen(O_APPEND) failed: %m\n");
close (fd);
return 1;
}
off_t new_seek_ret = lseek (fd, 0, SEEK_CUR);
if (seek_ret == -1)
{
printf ("lseek[O_APPEND][1] failed: %m\n");
ret |= 1;
}
printf ("\tappend: fdopen (file, \"a\"): O_APPEND: ");
if (seek_ret != new_seek_ret)
{
printf ("incorrectly modified file offset to %jd, should be %jd",
(intmax_t) new_seek_ret, (intmax_t) seek_ret);
ret |= 1;
}
else
printf ("retained current file offset %jd", (intmax_t) seek_ret);
new_seek_ret = ftello (fp);
if (seek_ret != new_seek_ret)
{
printf (", ftello reported incorrect offset %jd, should be %jd\n",
(intmax_t) new_seek_ret, (intmax_t) seek_ret);
ret |= 1;
}
else
printf (", ftello reported correct offset %jd\n", (intmax_t) seek_ret);
fclose (fp);
return ret;
}
static int
do_one_test (const char *filename)
{
int ret = 0;
ret |= do_ftell_test (filename);
ret |= do_write_test (filename);
ret |= do_append_test (filename);
Fix offset caching for streams and use it for ftell (BZ #16680) The ftell implementation was made conservative to ensure that incorrectly cached offsets never affect it. However, this causes problems for append mode when a file stream is rewound. Additionally, the 'clever' trick of using stat to get position for append mode files caused more problems than it solved and broke old behavior. I have described the various problems that it caused and then finally the solution. For a and a+ mode files, rewinding the stream should result in ftell returning 0 as the offset, but the stat() trick caused it to (incorrectly) always return the end of file. Now I couldn't find anything in POSIX that specifies the stream position after rewind() for a file opened in 'a' mode, but for 'a+' mode it should be set to 0. For 'a' mode too, it probably makes sense to keep it set to 0 in the interest of retaining old behavior. The initial file position for append mode files is implementation defined, so the implementation could either retain the current file position or move the position to the end of file. The earlier ftell implementation would move the offset to end of file for append-only mode, but retain the old offset for a+ mode. It would also cache the offset (this detail is important). My patch broke this and would set the initial position to end of file for both append modes, thus breaking old behavior. I was ignorant enough to write an incorrect test case for it too. The Change: I have now brought back the behavior of seeking to end of file for append-only streams, but with a slight difference. I don't cache the offset though, since we would want ftell to query the current file position through lseek while the stream is not active. Since the offset is moved to the end of file, we can rely on the file position reported by lseek and we don't need to resort to the stat() nonsense. Finally, the cache is always reliable, except when there are unflished writes in an append mode stream (i.e. both a and a+). In the latter case, it is safe to just do an lseek to SEEK_END. The value can be safely cached too, since the file handle is already active at this point. Incidentally, this is the only state change we affect in the file handle (apart from taking locks of course). I have also updated the test case to correct my impression of the initial file position for a+ streams to the initial behavior. I have verified that this does not break any existing tests in the testsuite and also passes with the new tests.
2014-03-11 11:34:49 +00:00
ret |= do_rewind_test (filename);
ret |= do_ftruncate_test (filename);
return ret;
}
/* Run a set of tests for ftell for regular files and wide mode files. */
static int
do_test (void)
{
int ret = 0;
FILE *fp = NULL;
char *filename;
size_t written;
int fd = create_temp_file ("tst-active-handler-tmp.", &filename);
if (fd == -1)
{
printf ("create_temp_file: %m\n");
return 1;
}
fp = fdopen (fd, "w");
if (fp == NULL)
{
printf ("fdopen[0]: %m\n");
close (fd);
return 1;
}
data = char_data;
data_len = strlen (char_data);
file_len = strlen (char_data);
written = fputs (data, fp);
if (written == EOF)
{
printf ("fputs[1] failed to write data\n");
ret = 1;
}
fclose (fp);
if (ret)
return ret;
/* Tests for regular files. */
puts ("Regular mode:");
fputs_func = (fputs_func_t) fputs;
fgets_func = (fgets_func_t) fgets;
data = char_data;
data_len = strlen (char_data);
ret |= do_one_test (filename);
/* Truncate the file before repeating the tests in wide mode. */
fp = fopen (filename, "w");
if (fp == NULL)
{
printf ("fopen failed %m\n");
return 1;
}
fclose (fp);
/* Tests for wide files. */
puts ("Wide mode:");
if (setlocale (LC_ALL, "en_US.UTF-8") == NULL)
{
printf ("Cannot set en_US.UTF-8 locale.\n");
return 1;
}
fputs_func = (fputs_func_t) fputws;
fgets_func = (fgets_func_t) fgetws;
data = wide_data;
data_len = wcslen (wide_data);
ret |= do_one_test (filename);
return ret;
}