File::FcntlLock - File locking with fcntl(2)
This text also documents the following sub-packages:
use File::FcntlLock; my $fs = new File::FcntlLock; $fs->l_type( F_RDLCK ); $fs->l_whence( SEEK_CUR ); $fs->l_start( 100 ); $fs->l_len( 123 ); open my $fh, '<', 'file_name' or die "Can't open file: $!\n"; $fs->lock( $fh, F_SETLK ) or print "Locking failed: " . $fs->error . "\n"; $fs->l_type( F_UNLCK ); $fs->lock( $fh, F_SETLK ) or print "Unlocking failed: " . $fs->error . "\n";
File locking in Perl is usually done using the
flock function. Unfortunately, this only allows locks on whole files and is often implemented in terms of the flock(2) system function which has some shortcomings (especially concerning locks on remotely mounted file systems) and slightly different behaviour than fcntl(2).
Using this module file locking via fcntl(2) can be done (obviously, this restricts the use of the module to systems that have a fcntl(2) system call). Before a file (or parts of a file) can be locked, an object simulating a flock structure, containing information in a binary format to be passed to fcntl(2) for locking requests, must be created and its properties set. Afterwards, by calling the lock() method a lock can be set and removed or it can be determined if and which process currently holds the lock.
File::FcntlLock (or its alias File::FcntlLock::XS) uses a shared library, build during installation, to call the fcntl(2) system function directly. If this is unsuitable there are two alternatives, File::FcntlLock::Pure and File::FcntlLock::Inline. Both call the Perl
fcntl function instead and use Perl code to assemble and disassemble the structure. For this at some time the (system-dependent) binary layout of the flock structure must have been determined via a program written in C. The difference between File::FcntlLock::Pure and File::FcntlLock::Inline is that for the former this happened when the package is installed while for the latter it is done each time the package is loaded (e.g., with
use). Thus, for File::FcntlLock::Inline to work a C compiler must be available. There are some minor differences in the functionality and the behaviour on passing the method for locking invalid arguments to be described below.
To create a new object, representing a flock structure, call new():
$fs = new File::FcntlLock;
The object has a number of properties, reflecting the members of the flock structure to be passed to fcntl(2) (see below). Per default on object creation the l_type property is set to
F_RDLCK, l_whence to
SEEK_SET, and both l_start and l_len to 0, i.e., the settings for a read lock on the whole file.
These defaults can be overruled by passing the new() method a set of key-value pairs to initialize the objects properties, e.g. use
$fs = new File::FcntlLock( l_type => F_WRLCK, l_whence => SEEK_SET, l_start => 0, l_len => 100 );
if you intend to obtain a write lock for the first 100 bytes of a file.
Once the object simulating the flock structure has been created the following methods allow to query and, in most cases, to also modify its properties.
If called without an argument the method returns the current setting of the lock type, otherwise the lock type is set to the argument's value which must be either
F_UNLCK (for read lock, write lock or unlock).
This method sets, when called with an argument, the l_whence property of the flock object, determining if the l_start value is relative to the start of the file, to the current position in the file or to the end of the file. These values are
SEEK_END (also see the man page for lseek(2)). If called with no argument the current value of the property is returned.
Queries or sets the length of the region (in bytes) in the file to be locked. A value of 0 is interpreted to mean a lock, starting at
l_start, to the end of the file. E.g., a lock obtained with l_whence set to
SEEK_SET and both l_start and l_len set to 0 locks the complete file.
According to SUSv3 support for negative values for l_len are permitted, resulting in a lock ranging from
l_start+l_len up to and including
l_start-1. But not all systems support negative values for l_len and will return an error when you try to obtain such a lock, so please read the fcntl(2) man page of the system carefully for details.
If a call of the lock() method with
F_GETLK indicates that another process is holding the lock (in which case the l_type property will be either
F_RDLCK) a call of the l_pid() method returns the PID of the process holding the lock. This method does not accept any arguments.
After having set up the object representing a flock structure one can then try to obtain a lock, release it or determine the current holder of the lock by invoking the lock() method:
This method expects two arguments. The first one is a file handle (or typeglob). File::FcntlLock, and thus File::FcntlLock::XS (but neither File::FcntlLock::Pure nor File::FcntlLock::Inline), also accepts a "raw" integer file descriptor. The second argument is a flag indicating the action to be taken. So call it as in
$fs->lock( $fh, F_SETLK );
There are three values that can be used as the second argument:
F_SETLK the lock() method tries to obtain a lock (when l_type is set to either
F_RDLCK) or releases it (if l_type is set to
F_UNLCK). If an attempt is made to obtain a lock but a lock is already being held by some other process the method returns
errno is set to
EAGAIN (please see the the man page for fcntl(2) for more details).
is similar to
F_SETLK, but instead of returning an error if the lock can't be obtained immediately it puts the calling process to sleep, i.e., it blocks, until the lock is obtained at some later time. If a signal is received while waiting for the lock the method returns
errno is set to
F_GETLK the lock() method determines if and which process currently is holding the lock. If there's no other lock the l_type property will be set to
F_UNLCK. Otherwise the flock structure object is set to the values that would prevent us from obtaining a lock. There may be several processes that keep us from getting a lock, including some that themselves are blocked waiting to obtain a lock.
F_GETLK will only make details of one of these processes visible, and one has no control over which process this is.
On success the lock() method returns the string "0 but true", i.e., a value that is true in boolean but 0 in numeric context. If the method fails (as indicated by an
undef return value) you can either immediately evaluate the error number (using $!, $ERRNO or $OS_ERROR) or check for it via the methods discussed below at some later time.
There are minor differences between File::FcntlLock on the one hand and File::FcntlLock::Pure and File::FcntlLock::Inline on the other, due to the first calling the system function fcntl(2) directly while the latter two invoke the Perl
fcntl function. Perl's
fcntl function already returns a Perl error on some types of invalid arguments. In contrast File::FcntlLock passes them on to the fcntl(2) system call and then returns the systems response to the caller.
There are three methods for obtaining information about the reason the a call of the lock() method failed:
errno error number from the latest call of lock(). If the last call did not result in an error
undef is returned.
Returns a short description of the error that happened during the latest call of lock(). Please take the messages with a grain of salt, they represent what SUSv3 (IEEE 1003.1-2001) and the Linux, TRUE64, OpenBSD3 and Solaris8 man pages tell what the error numbers mean. There could be differences (and additional error numbers) on other systems. If there was no error the method returns
While the error() method tries to return a string with some direct relevance to the locking operation (i.e., "File or segment already locked by other process(es)" instead of "Permission denied") this method returns the "normal" system error message associated with
errno. The method returns
undef if there was no error.
The package exports the following constants:
Obviously, this module requires that there's a fcntl(2) system call. Note also that under certain circumstances the File::FcntlLock::Pure and File::FcntlLock::Inline modules may not have been installed. This happens on 32-bit systems that use 64-bit integers in their flock structure but where the installed Perl version doesn't support the 'q' format for its
Thanks to Mark Jason Dominus and Benjamin Goldberg for helpful discussions, code examples and encouragement. Glenn Herteg pointed out several problems and also helped improve the documentation. Julian Moreno Patino helped correcting the documentation and pointed out problems arising on GNU Hurd which seems to have only very rudimentary support for locking with fcntl(2). Niko Tyni and Guillem Jover encouraged and helped with implementing alternatives to an XS-only approach which hopefully will make the module more useful under certain circumstances.
Jens Thoms Toerring <firstname.lastname@example.org>
This library is free software. You can redistribute it and/or modify it under the same terms as Perl itself.