NAME | SYNOPSIS | DESCRIPTION | RETURN VALUES | USAGE | ATTRIBUTES | SEE ALSO
#include <ftw.h>int ftw(const char *path, int (*fn) (const char *, const struct stat *, int), int depth);
The ftw() function recursively descends the directory hierarchy rooted in path. For each object in the hierarchy, ftw() calls the user-defined function fn, passing it a pointer to a null-terminated character string containing the name of the object, a pointer to a stat structure (see stat(2)) containing information about the object, and an integer. Possible values of the integer, defined in the <ftw.h> header, are:
The object is a file.
The object is a directory.
The object is a directory that cannot be read. Descendants of the directory will not be processed.
The stat() function failed on the object because of lack of appropriate permission or the object is a symbolic link that points to a non-existent file. The stat buffer passed to fn is undefined.
The ftw() function visits a directory before visiting any of its descendants.
The tree traversal continues until the tree is exhausted, an invocation of fn returns a non-zero value, or some error is detected within ftw() (such as an I/O error). If the tree is exhausted, ftw() returns 0. If fn returns a non-zero value, ftw() stops its tree traversal and returns whatever value was returned by fn.
The nftw() function is similar to ftw() except that it takes the additional argument flags, whose possible values are:
Physical walk, does not follow symbolic links. Otherwise, nftw() will follow links but will not walk down any path that crosses itself.
The walk will not cross a mount point.
All subdirectories will be visited before the directory itself.
The walk will change to each directory before reading it.
The nftw() function calls fn with four arguments at each file and directory. The first argument is the pathname of the object, the second is a pointer to the stat buffer, the third is an integer giving additional information, and the fourth is a struct FTW that contains the following members:
int base; int level;
The base member is the offset into the pathname of the base name of the object. The level member indicates the depth relative to the rest of the walk, where the root level is zero.
The values of the third argument are as follows:
The object is a file.
The object is a directory.
The object is a directory and subdirectories have been visited.
The object is a symbolic link.
The object is a symbolic link that points to a non-existent file.
The object is a directory that cannot be read. The user-defined function fn will not be called for any of its descendants.
The stat() function failed on the object because of lack of appropriate permission. The stat buffer passed to fn is undefined. The stat function fail for a reason other than lack of appropriate permission. EACCES is considered an error and nftw() will return -1.
Both ftw() and nftw() use one file descriptor for each level in the tree. The depth argument limits the number of file descriptors so used. If depth is zero or negative, the effect is the same as if it were 1. It must not be greater than the number of file descriptors currently available for use. The ftw() function will run faster if depth is at least as large as the number of levels in the tree. When ftw() and nftw() return, they close any file descriptors they have opened; they do not close any file descriptors that may have been opened by fn.
If successful, ftw() and nftw() return 0. If either function detects an error other than EACCES, it returns -1 and sets errno to indicate the error.to
Because ftw() is recursive, it is possible for it to terminate with a memory fault when applied to very deep file structures.
The ftw() function uses malloc(3C) to allocate dynamic storage during its operation. If ftw() is forcibly terminated, such as by longjmp(3C) being executed by fn or an interrupt routine, ftw() will not have a chance to free that storage, so it will remain permanently allocated. A safe way to handle interrupts is to store the fact that an interrupt has occurred, and arrange to have fn return a non-zero value at its next invocation.
The ftw() and nftw() functions have transitional interfaces for 64-bit file offsets. See lf64(5).
The ftw() function is safe in multithreaded applications. The nftw() function is safe in multithreaded applications when the FTW_CHDIR flag is not set.
See attributes(5) for descriptions of the following attributes:
ATTRIBUTE TYPE | ATTRIBUTE VALUE |
---|---|
MT-Level | Safe with exceptions. |
NAME | SYNOPSIS | DESCRIPTION | RETURN VALUES | USAGE | ATTRIBUTES | SEE ALSO