The GNU system supports soft links or symbolic links. This is a kind of “file” that is essentially a pointer to another file name. Unlike hard links, symbolic links can be made to directories or across file systems with no restrictions. You can also make a symbolic link to a name which is not the name of any file. (Opening this link will fail until a file by that name is created.) Likewise, if the symbolic link points to an existing file which is later deleted, the symbolic link continues to point to the same file name even though the name no longer names any file.
The reason symbolic links work the way they do is that special things
happen when you try to open the link. The open function realizes
you have specified the name of a link, reads the file name contained in
the link, and opens that file name instead. The stat function
likewise operates on the file that the symbolic link points to, instead
of on the link itself.
By contrast, other operations such as deleting or renaming the file
operate on the link itself. The functions readlink and
lstat also refrain from following symbolic links, because their
purpose is to obtain information about the link. link, the
function that makes a hard link, does too. It makes a hard link to the
symbolic link, which one rarely wants.
Some systems have for some functions operating on files have a limit on how many symbolic links are followed when resolving a path name. The limit if it exists is published in the sys/param.h header file.
The macro
MAXSYMLINKSspecifies how many symlinks some function will follow before returningELOOP. Not all functions behave the same and this value is not the same a that returned for_SC_SYMLOOPbysysconf. In fact, thesysconfresult can indicate that there is no fixed limit althoughMAXSYMLINKSexists and has a finite value.
Prototypes for most of the functions listed in this section are in unistd.h.
The
symlinkfunction makes a symbolic link to oldname named newname.The normal return value from
symlinkis0. A return value of-1indicates an error. In addition to the usual file name syntax errors (see File Name Errors), the followingerrnoerror conditions are defined for this function:
EEXIST- There is already an existing file named newname.
EROFS- The file newname would exist on a read-only file system.
ENOSPC- The directory or file system cannot be extended to make the new link.
EIO- A hardware error occurred while reading or writing data on the disk.
The
readlinkfunction gets the value of the symbolic link filename. The file name that the link points to is copied into buffer. This file name string is not null-terminated;readlinknormally returns the number of characters copied. The size argument specifies the maximum number of characters to copy, usually the allocation size of buffer.If the return value equals size, you cannot tell whether or not there was room to return the entire name. So make a bigger buffer and call
readlinkagain. Here is an example:char * readlink_malloc (const char *filename) { int size = 100; char *buffer = NULL; while (1) { buffer = (char *) xrealloc (buffer, size); int nchars = readlink (filename, buffer, size); if (nchars < 0) { free (buffer); return NULL; } if (nchars < size) return buffer; size *= 2; } }A value of
-1is returned in case of error. In addition to the usual file name errors (see File Name Errors), the followingerrnoerror conditions are defined for this function:
EINVAL- The named file is not a symbolic link.
EIO- A hardware error occurred while reading or writing data on the disk.
In some situations it is desirable to resolve all the
symbolic links to get the real
name of a file where no prefix names a symbolic link which is followed
and no filename in the path is . or ... This is for
instance desirable if files have to be compare in which case different
names can refer to the same inode.
The
canonicalize_file_namefunction returns the absolute name of the file named by name which contains no.,..components nor any repeated path separators (/) or symlinks. The result is passed back as the return value of the function in a block of memory allocated withmalloc. If the result is not used anymore the memory should be freed with a call tofree.If any of the path components is missing the function returns a NULL pointer. This is also what is returned if the length of the path reaches or exceeds
PATH_MAXcharacters. In any caseerrnois set accordingly.
ENAMETOOLONG- The resulting path is too long. This error only occurs on systems which have a limit on the file name length.
EACCES- At least one of the path components is not readable.
ENOENT- The input file name is empty.
ENOENT- At least one of the path components does not exist.
ELOOP- More than
MAXSYMLINKSmany symlinks have been followed.This function is a GNU extension and is declared in stdlib.h.
The Unix standard includes a similar function which differs from
canonicalize_file_name in that the user has to provide the buffer
where the result is placed in.
A call to
realpathwhere the resolved parameter isNULLbehaves exactly likecanonicalize_file_name. The function allocates a buffer for the file name and returns a pointer to it. If resolved is notNULLit points to a buffer into which the result is copied. It is the callers responsibility to allocate a buffer which is large enough. On systems which definePATH_MAXthis means the buffer must be large enough for a pathname of this size. For systems without limitations on the pathname length the requirement cannot be met and programs should not callrealpathwith anything butNULLfor the second parameter.One other difference is that the buffer resolved (if nonzero) will contain the part of the path component which does not exist or is not readable if the function returns
NULLanderrnois set toEACCESorENOENT.This function is declared in stdlib.h.
The advantage of using this function is that it is more widely available. The drawback is that it reports failures for long path on systems which have no limits on the file name length.