Previous: File Times, Up: File Attributes
Normally file sizes are maintained automatically. A file begins with a
size of 0 and is automatically extended when data is written past
its end. It is also possible to empty a file completely by an
open
or fopen
call.
However, sometimes it is necessary to reduce the size of a file.
This can be done with the truncate
and ftruncate
functions.
They were introduced in BSD Unix. ftruncate
was later added to
POSIX.1.
Some systems allow you to extend a file (creating holes) with these
functions. This is useful when using memory-mapped I/O
(see Memory-mapped I/O), where files are not automatically extended.
However, it is not portable but must be implemented if mmap
allows mapping of files (i.e., _POSIX_MAPPED_FILES
is defined).
Using these functions on anything other than a regular file gives undefined results. On many systems, such a call will appear to succeed, without actually accomplishing anything.
The
truncate
function changes the size of filename to length. If length is shorter than the previous length, data at the end will be lost. The file must be writable by the user to perform this operation.If length is longer, holes will be added to the end. However, some systems do not support this feature and will leave the file unchanged.
When the source file is compiled with
_FILE_OFFSET_BITS == 64
thetruncate
function is in facttruncate64
and the typeoff_t
has 64 bits which makes it possible to handle files up to 2^63 bytes in length.The return value is 0 for success, or -1 for an error. In addition to the usual file name errors, the following errors may occur:
EACCES
- The file is a directory or not writable.
EINVAL
- length is negative.
EFBIG
- The operation would extend the file beyond the limits of the operating system.
EIO
- A hardware I/O error occurred.
EPERM
- The file is "append-only" or "immutable".
EINTR
- The operation was interrupted by a signal.
This function is similar to the
truncate
function. The difference is that the length argument is 64 bits wide even on 32 bits machines, which allows the handling of files with sizes up to 2^63 bytes.When the source file is compiled with
_FILE_OFFSET_BITS == 64
on a 32 bits machine this function is actually available under the nametruncate
and so transparently replaces the 32 bits interface.
This is like
truncate
, but it works on a file descriptor fd for an opened file instead of a file name to identify the object. The file must be opened for writing to successfully carry out the operation.The POSIX standard leaves it implementation defined what happens if the specified new length of the file is bigger than the original size. The
ftruncate
function might simply leave the file alone and do nothing or it can increase the size to the desired size. In this later case the extended area should be zero-filled. So usingftruncate
is no reliable way to increase the file size but if it is possible it is probably the fastest way. The function also operates on POSIX shared memory segments if these are implemented by the system.
ftruncate
is especially useful in combination withmmap
. Since the mapped region must have a fixed size one cannot enlarge the file by writing something beyond the last mapped page. Instead one has to enlarge the file itself and then remap the file with the new size. The example below shows how this works.When the source file is compiled with
_FILE_OFFSET_BITS == 64
theftruncate
function is in factftruncate64
and the typeoff_t
has 64 bits which makes it possible to handle files up to 2^63 bytes in length.The return value is 0 for success, or -1 for an error. The following errors may occur:
EBADF
- fd does not correspond to an open file.
EACCES
- fd is a directory or not open for writing.
EINVAL
- length is negative.
EFBIG
- The operation would extend the file beyond the limits of the operating system.
EIO
- A hardware I/O error occurred.
EPERM
- The file is "append-only" or "immutable".
EINTR
- The operation was interrupted by a signal.
This function is similar to the
ftruncate
function. The difference is that the length argument is 64 bits wide even on 32 bits machines which allows the handling of files with sizes up to 2^63 bytes.When the source file is compiled with
_FILE_OFFSET_BITS == 64
on a 32 bits machine this function is actually available under the nameftruncate
and so transparently replaces the 32 bits interface.
As announced here is a little example of how to use ftruncate
in
combination with mmap
:
int fd; void *start; size_t len; int add (off_t at, void *block, size_t size) { if (at + size > len) { /* Resize the file and remap. */ size_t ps = sysconf (_SC_PAGESIZE); size_t ns = (at + size + ps - 1) & ~(ps - 1); void *np; if (ftruncate (fd, ns) < 0) return -1; np = mmap (NULL, ns, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0); if (np == MAP_FAILED) return -1; start = np; len = ns; } memcpy ((char *) start + at, block, size); return 0; }
The function add
writes a block of memory at an arbitrary
position in the file. If the current size of the file is too small it
is extended. Note the it is extended by a round number of pages. This
is a requirement of mmap
. The program has to keep track of the
real size, and when it has finished a final ftruncate
call should
set the real size of the file.