# -*- perl -*- # # File::NFSLock - bdpO - NFS compatible (safe) locking utility # # $Id: NFSLock.pm,v 1.29 2018/11/01 14:00:00 bbb Exp $ # # Copyright (C) 2002, Paul T Seamons # paul@seamons.com # http://seamons.com/ # # Rob B Brown # bbb@cpan.org # # This package may be distributed under the terms of either the # GNU General Public License # or the # Perl Artistic License # # All rights reserved. # # Please read the perldoc File::NFSLock # ################################################################ package File::NFSLock; use strict; use warnings; use Carp qw(croak confess); our $errstr; use base 'Exporter'; our @EXPORT_OK = qw(uncache); our $VERSION = '1.29'; #Get constants, but without the bloat of #use Fcntl qw(LOCK_SH LOCK_EX LOCK_NB); use constant { LOCK_SH => 1, LOCK_EX => 2, LOCK_NB => 4, }; ### Convert lock_type to a number our $TYPES = { BLOCKING => LOCK_EX, BL => LOCK_EX, EXCLUSIVE => LOCK_EX, EX => LOCK_EX, NONBLOCKING => LOCK_EX | LOCK_NB, NB => LOCK_EX | LOCK_NB, SHARED => LOCK_SH, SH => LOCK_SH, }; our $LOCK_EXTENSION = '.NFSLock'; # customizable extension our $HOSTNAME = undef; our $SHARE_BIT = 1; ###----------------------------------------------------------------### my $graceful_sig = sub { print STDERR "Received SIG$_[0]\n" if @_; # Perl's exit should safely DESTROY any objects # still "alive" before calling the real _exit(). exit 1; }; our @CATCH_SIGS = qw(TERM INT); sub new { $errstr = undef; my $type = shift; my $class = ref($type) || $type || __PACKAGE__; my $self = {}; ### allow for arguments by hash ref or serially if( @_ && ref $_[0] ){ $self = shift; }else{ $self->{file} = shift; $self->{lock_type} = shift; $self->{blocking_timeout} = shift; $self->{stale_lock_timeout} = shift; } $self->{file} ||= ""; $self->{lock_type} ||= 0; $self->{blocking_timeout} ||= 0; $self->{stale_lock_timeout} ||= 0; $self->{lock_pid} = $$; $self->{unlocked} = 1; foreach my $signal (@CATCH_SIGS) { if (!$SIG{$signal} || $SIG{$signal} eq "DEFAULT") { $SIG{$signal} = $graceful_sig; } } ### force lock_type to be numerical if( $self->{lock_type} && $self->{lock_type} !~ /^\d+/ && exists $TYPES->{$self->{lock_type}} ){ $self->{lock_type} = $TYPES->{$self->{lock_type}}; } ### need the hostname if( !$HOSTNAME ){ require Sys::Hostname; $HOSTNAME = Sys::Hostname::hostname(); } ### quick usage check croak ($errstr = "Usage: my \$f = $class->new('/pathtofile/file',\n" ."'BLOCKING|EXCLUSIVE|NONBLOCKING|SHARED', [blocking_timeout, stale_lock_timeout]);\n" ."(You passed \"$self->{file}\" and \"$self->{lock_type}\")") unless length($self->{file}); croak ($errstr = "Unrecognized lock_type operation setting [$self->{lock_type}]") unless $self->{lock_type} && $self->{lock_type} =~ /^\d+$/; ### Input syntax checking passed, ready to bless bless $self, $class; ### choose a random filename $self->{rand_file} = rand_file( $self->{file} ); ### choose the lock filename $self->{lock_file} = $self->{file} . $LOCK_EXTENSION; my $quit_time = $self->{blocking_timeout} && !($self->{lock_type} & LOCK_NB) ? time() + $self->{blocking_timeout} : 0; ### remove an old lockfile if it is older than the stale_timeout if( -e $self->{lock_file} && $self->{stale_lock_timeout} > 0 && time() - (stat _)[9] > $self->{stale_lock_timeout} ){ unlink $self->{lock_file}; } while (1) { ### open the temporary file $self->create_magic or return undef; if ( $self->{lock_type} & LOCK_EX ) { last if $self->do_lock; } elsif ( $self->{lock_type} & LOCK_SH ) { last if $self->do_lock_shared; } else { $errstr = "Unknown lock_type [$self->{lock_type}]"; return undef; } ### Lock failed! ### I know this may be a race condition, but it's okay. It is just a ### stab in the dark to possibly find long dead processes. ### If lock exists and is readable, see who is mooching on the lock my $fh; if ( -e $self->{lock_file} && open ($fh,'+<', $self->{lock_file}) ){ my @mine = (); my @them = (); my @dead = (); my $has_lock_exclusive = !((stat _)[2] & $SHARE_BIT); my $try_lock_exclusive = !($self->{lock_type} & LOCK_SH); while(defined(my $line=<$fh>)){ if ($line =~ /^\Q$HOSTNAME\E (-?\d+) /) { my $pid = $1; if ($pid == $$) { # This is me. push @mine, $line; }elsif(kill 0, $pid) { # Still running on this host. push @them, $line; }else{ # Finished running on this host. push @dead, $line; } } else { # Running on another host, so push @them, $line; # assume it is still running. } } ### If there was at least one stale lock discovered... if (@dead) { # Lock lock_file to avoid a race condition. local $LOCK_EXTENSION = ".shared"; my $lock = new File::NFSLock { file => $self->{lock_file}, lock_type => LOCK_EX, blocking_timeout => 62, stale_lock_timeout => 60, }; ### Rescan in case lock contents were modified between time stale lock ### was discovered and lockfile lock was acquired. seek ($fh, 0, 0); my $content = ''; while(defined(my $line=<$fh>)){ if ($line =~ /^\Q$HOSTNAME\E (-?\d+) /) { my $pid = $1; next if (!kill 0, $pid); # Skip dead locks from this host } $content .= $line; # Save valid locks } ### Save any valid locks or wipe file. if( length($content) ){ seek $fh, 0, 0; print $fh $content; truncate $fh, length($content); close $fh; }else{ close $fh; unlink $self->{lock_file}; } ### No "dead" or stale locks found. } else { close $fh; } ### If attempting to acquire the same type of lock ### that it is already locked with, and I've already ### locked it myself, then it is safe to lock again. ### Just kick out successfully without really locking. ### Assumes locks will be released in the reverse ### order from how they were established. if ($try_lock_exclusive eq $has_lock_exclusive && @mine){ return $self; } } ### If non-blocking, then kick out now. ### ($errstr might already be set to the reason.) if ($self->{lock_type} & LOCK_NB) { $errstr ||= "NONBLOCKING lock failed!"; return undef; } ### wait a moment sleep(1); ### but don't wait past the time out if( $quit_time && (time > $quit_time) ){ $errstr = "Timed out waiting for blocking lock"; return undef; } # BLOCKING Lock, So Keep Trying } ### clear up the NFS cache $self->uncache; ### Yes, the lock has been acquired. delete $self->{unlocked}; return $self; } sub DESTROY { shift()->unlock(); } sub unlock ($) { my $self = shift; if (!$self->{unlocked}) { unlink( $self->{rand_file} ) if -e $self->{rand_file}; if( $self->{lock_type} & LOCK_SH ){ $self->do_unlock_shared; }else{ $self->do_unlock; } $self->{unlocked} = 1; foreach my $signal (@CATCH_SIGS) { if ($SIG{$signal} && ($SIG{$signal} eq $graceful_sig)) { # Revert handler back to how it used to be. # Unfortunately, this will restore the # handler back even if there are other # locks still in tact, but for most cases, # it will still be an improvement. delete $SIG{$signal}; } } } return 1; } ###----------------------------------------------------------------### # concepts for these routines were taken from Mail::Box which # took the concepts from Mail::Folder sub rand_file ($) { my $file = shift; "$file.tmp.". time()%10000 .'.'. $$ .'.'. int(rand()*10000); } sub create_magic ($;$) { $errstr = undef; my $self = shift; my $append_file = shift || $self->{rand_file}; $self->{lock_line} ||= "$HOSTNAME $self->{lock_pid} ".time()." ".int(rand()*10000)."\n"; open (my $fh,'>>', $append_file) or do { $errstr = "Couldn't open \"$append_file\" [$!]"; return undef; }; print $fh $self->{lock_line}; close $fh; return 1; } sub do_lock { $errstr = undef; my $self = shift; my $lock_file = $self->{lock_file}; my $rand_file = $self->{rand_file}; my $chmod = 0600; chmod( $chmod, $rand_file) || die "I need ability to chmod files to adequatetly perform locking"; ### try a hard link, if it worked ### two files are pointing to $rand_file my $success = link( $rand_file, $lock_file ) && -e $rand_file && (stat _)[3] == 2; unlink $rand_file; return $success; } sub do_lock_shared { $errstr = undef; my $self = shift; my $lock_file = $self->{lock_file}; my $rand_file = $self->{rand_file}; ### chmod local file to make sure we know before my $chmod = 0600; $chmod |= $SHARE_BIT; chmod( $chmod, $rand_file) || die "I need ability to chmod files to adequatetly perform locking"; ### lock the locking process local $LOCK_EXTENSION = ".shared"; my $lock = new File::NFSLock { file => $lock_file, lock_type => LOCK_EX, blocking_timeout => 62, stale_lock_timeout => 60, }; # The ".shared" lock will be released as this status # is returned, whether or not the status is successful. ### If I didn't have exclusive and the shared bit is not ### set, I have failed ### Try to create $lock_file from the special ### file with the magic $SHARE_BIT set. my $success = link( $rand_file, $lock_file); unlink $rand_file; if ( !$success && -e $lock_file && ((stat _)[2] & $SHARE_BIT) != $SHARE_BIT ){ $errstr = 'Exclusive lock exists.'; return undef; } elsif ( !$success ) { ### Shared lock exists, append my lock $self->create_magic ($self->{lock_file}); } # Success return 1; } sub do_unlock ($) { return unlink shift->{lock_file}; } sub do_unlock_shared ($) { $errstr = undef; my $self = shift; my $lock_file = $self->{lock_file}; my $lock_line = $self->{lock_line}; ### lock the locking process local $LOCK_EXTENSION = '.shared'; my $lock = new File::NFSLock ($lock_file,LOCK_EX,62,60); ### get the handle on the lock file my $fh; if( ! open ($fh,'+<', $lock_file) ){ if( ! -e $lock_file ){ return 1; }else{ die "Could not open for writing shared lock file $lock_file ($!)"; } } ### read existing file my $content = ''; while(defined(my $line=<$fh>)){ next if $line eq $lock_line; $content .= $line; } ### other shared locks exist if( length($content) ){ seek $fh, 0, 0; print $fh $content; truncate $fh, length($content); close $fh; ### only I exist }else{ close $fh; unlink $lock_file; } } sub uncache ($;$) { # allow as method call my $file = pop; ref $file && ($file = $file->{file}); my $rand_file = rand_file( $file ); ### hard link to the actual file which will bring it up to date return ( link( $file, $rand_file) && unlink($rand_file) ); } sub newpid { my $self = shift; # Detect if this is the parent or the child if ($self->{lock_pid} == $$) { # This is the parent # Must wait for child to call newpid before processing. # A little patience for the child to call newpid my $patience = time + 10; while (time < $patience) { if (rename("$self->{lock_file}.fork",$self->{rand_file})) { # Child finished its newpid call. # Wipe the signal file. unlink $self->{rand_file}; last; } # Brief pause before checking again # to avoid intensive IO across NFS. select(undef,undef,undef,0.1); } # Child finished running newpid() and acquired shared lock # So now we're safe to continue without risk of # blowing away the lock prematurely. unless ( $self->{lock_type} & LOCK_SH ) { # If it's not already a SHared lock, then # just switch it from EXclusive to SHared # from this process's point of view. # Then the child will still hold the lock # if the parent releases it first. # (Don't chmod the lock file.) $self->{lock_type} |= LOCK_SH; } } else { # This is the new child # Fix lock_pid to the new pid. $self->{lock_pid} = $$; # We can leave the old lock_line in the lock_file # But we need to add the new lock_line for this pid. # Clear lock_line to create a fresh one. delete $self->{lock_line}; # Append a new lock_line to the lock_file. $self->create_magic($self->{lock_file}); unless ( $self->{lock_type} & LOCK_SH ) { # If it's not already a SHared lock, then # just switch it from EXclusive to SHared # from this process's point of view. # Then the parent will still hold the lock # if this child releases it first. # (Don't chmod the lock file.) $self->{lock_type} |= LOCK_SH; } # Create signal file to notify parent that # the lock_line entry has been delegated. open (my $fh, '>', "$self->{lock_file}.fork"); close($fh); } } sub fork { my $self = shift; # Store fork response. my $pid = CORE::fork(); if (defined $pid and !$self->{unlocked}) { # Fork worked and we really have a lock to deal with # So upgrade to shared lock across both parent and child $self->newpid; } # Return original fork response return $pid; } 1; =pod =head1 NAME File::NFSLock - perl module to do NFS (or not) locking =head1 SYNOPSIS use File::NFSLock qw(uncache); use Fcntl qw(LOCK_EX LOCK_NB); my $file = "somefile"; ### set up a lock - lasts until object looses scope if (my $lock = new File::NFSLock { file => $file, lock_type => LOCK_EX|LOCK_NB, blocking_timeout => 10, # 10 sec stale_lock_timeout => 30 * 60, # 30 min }) { ### OR ### my $lock = File::NFSLock->new($file,LOCK_EX|LOCK_NB,10,30*60); ### do write protected stuff on $file ### at this point $file is uncached from NFS (most recent) open(FILE, "+<$file") || die $!; ### or open it any way you like ### my $fh = IO::File->open( $file, 'w' ) || die $! ### update (uncache across NFS) other files uncache("someotherfile1"); uncache("someotherfile2"); # open(FILE2,"someotherfile1"); ### unlock it $lock->unlock(); ### OR ### undef $lock; ### OR let $lock go out of scope }else{ die "I couldn't lock the file [$File::NFSLock::errstr]"; } =head1 DESCRIPTION Program based of concept of hard linking of files being atomic across NFS. This concept was mentioned in Mail::Box::Locker (which was originally presented in Mail::Folder::Maildir). Some routine flow is taken from there -- particularly the idea of creating a random local file, hard linking a common file to the local file, and then checking the nlink status. Some ideologies were not complete (uncache mechanism, shared locking) and some coding was even incorrect (wrong stat index). File::NFSLock was written to be light, generic, and fast. =head1 USAGE Locking occurs by creating a File::NFSLock object. If the object is created successfully, a lock is currently in place and remains in place until the lock object goes out of scope (or calls the unlock method). A lock object is created by calling the new method and passing two to four parameters in the following manner: my $lock = File::NFSLock->new($file, $lock_type, $blocking_timeout, $stale_lock_timeout, ); Additionally, parameters may be passed as a hashref: my $lock = File::NFSLock->new({ file => $file, lock_type => $lock_type, blocking_timeout => $blocking_timeout, stale_lock_timeout => $stale_lock_timeout, }); =head1 PARAMETERS =over 4 =item Parameter 1: file Filename of the file upon which it is anticipated that a write will happen to. Locking will provide the most recent version (uncached) of this file upon a successful file lock. It is not necessary for this file to exist. =item Parameter 2: lock_type Lock type must be one of the following: BLOCKING BL EXCLUSIVE (BLOCKING) EX NONBLOCKING NB SHARED SH Or else one or more of the following joined with '|': Fcntl::LOCK_EX() (BLOCKING) Fcntl::LOCK_NB() (NONBLOCKING) Fcntl::LOCK_SH() (SHARED) Lock type determines whether the lock will be blocking, non blocking, or shared. Blocking locks will wait until other locks are removed before the process continues. Non blocking locks will return undef if another process currently has the lock. Shared will allow other process to do a shared lock at the same time as long as there is not already an exclusive lock obtained. =item Parameter 3: blocking_timeout (optional) Timeout is used in conjunction with a blocking timeout. If specified, File::NFSLock will block up to the number of seconds specified in timeout before returning undef (could not get a lock). =item Parameter 4: stale_lock_timeout (optional) Timeout is used to see if an existing lock file is older than the stale lock timeout. If do_lock fails to get a lock, the modified time is checked and do_lock is attempted again. If the stale_lock_timeout is set to low, a recursion load could exist so do_lock will only recurse 10 times (this is only a problem if the stale_lock_timeout is set too low -- on the order of one or two seconds). =back =head1 METHODS After the $lock object is instantiated with new, as outlined above, some methods may be used for additional functionality. =head2 unlock $lock->unlock; This method may be used to explicitly release a lock that is acquired. In most cases, it is not necessary to call unlock directly since it will implicitly be called when the object leaves whatever scope it is in. =head2 uncache $lock->uncache; $lock->uncache("otherfile1"); uncache("otherfile2"); This method is used to freshen up the contents of a file across NFS, ignoring what is contained in the NFS client cache. It is always called from within the new constructor on the file that the lock is being attempted. uncache may be used as either an object method or as a stand alone subroutine. =head2 fork my $pid = $lock->fork; if (!defined $pid) { # Fork Failed } elsif ($pid) { # Parent ... } else { # Child ... } fork() is a convenience method that acts just like the normal CORE::fork() except it safely ensures the lock is retained within both parent and child processes. WITHOUT this, then when either the parent or child process releases the lock, then the entire lock will be lost, allowing external processes to re-acquire a lock on the same file, even if the other process still has the lock object in scope. This can cause corruption since both processes might think they have exclusive access to the file. =head2 newpid my $pid = fork; if (!defined $pid) { # Fork Failed } elsif ($pid) { $lock->newpid; # Parent ... } else { $lock->newpid; # Child ... } The newpid() synopsis shown above is equivalent to the one used for the fork() method, but it's not intended to be called directly. It is called internally by the fork() method. To be safe, it is recommended to use $lock->fork() from now on. =head1 FAILURE On failure, a global variable, $File::NFSLock::errstr, should be set and should contain the cause for the failure to get a lock. Useful primarily for debugging. =head1 LOCK_EXTENSION By default File::NFSLock will use a lock file extension of ".NFSLock". This is in a global variable $File::NFSLock::LOCK_EXTENSION that may be changed to suit other purposes (such as compatibility in mail systems). =head1 REPO The source is now on github: git clone https://github.com/hookbot/File-NFSLock =head1 BUGS If you spot anything, please submit a pull request on github and/or submit a ticket with RT: https://rt.cpan.org/Dist/Display.html?Queue=File-NFSLock =head2 FIFO Locks are not necessarily obtained on a first come first serve basis. Not only does this not seem fair to new processes trying to obtain a lock, but it may cause a process starvation condition on heavily locked files. =head2 DIRECTORIES Locks cannot be obtained on directory nodes, nor can a directory node be uncached with the uncache routine because hard links do not work with directory nodes. Some other algorithm might be used to uncache a directory, but I am unaware of the best way to do it. The biggest use I can see would be to avoid NFS cache of directory modified and last accessed timestamps. =head1 INSTALL Download and extract tarball before running these commands in its base directory: perl Makefile.PL make make test make install For RPM installation, download tarball before running these commands in your _topdir: rpm -ta SOURCES/File-NFSLock-*.tar.gz rpm -ih RPMS/noarch/perl-File-NFSLock-*.rpm =head1 AUTHORS Paul T Seamons (paul@seamons.com) - Performed majority of the programming with copious amounts of input from Rob Brown. Rob B Brown (bbb@cpan.org) - In addition to helping in the programming, Rob Brown provided most of the core testing to make sure implementation worked properly. He is now the current maintainer. Also Mark Overmeer (mark@overmeer.net) - Author of Mail::Box::Locker, from which some key concepts for File::NFSLock were taken. Also Kevin Johnson (kjj@pobox.com) - Author of Mail::Folder::Maildir, from which Mark Overmeer based Mail::Box::Locker. =head1 COPYRIGHT Copyright (C) 2001 Paul T Seamons paul@seamons.com http://seamons.com/ Copyright (C) 2002-2018, Rob B Brown bbb@cpan.org This package may be distributed under the terms of either the GNU General Public License or the Perl Artistic License All rights reserved. =cut