#!@PERL@ # GNU Stow - manage the installation of multiple software packages # Copyright (C) 1993, 1994, 1995, 1996 by Bob Glickstein # Copyright (C) 2000, 2001 Guillaume Morin # Copyright (C) 2007 Kahlil Hodgson # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. use strict; use warnings; require 5.6.1; use File::Spec; use POSIX qw(getcwd); use Getopt::Long; my $Version = '@VERSION@'; my $ProgramName = $0; $ProgramName =~ s{.*/}{}; # Verbosity rules: # # 0: errors only # >= 1: print operations: LINK/UNLINK/MKDIR/RMDIR # >= 2: print trace: stow/unstow package/contents/node # >= 3: print trace detail: "_this_ already points to _that_" # >= 4: debug helper routines # # All output (except for version() and usage()) is to stderr to preserve # backward compatibility. # These are the defaults for command line options our %Option = ( help => 0, conflicts => 0, action => 'stow', simulate => 0, verbose => 0, paranoid => 0, dir => undef, target => undef, ignore => [], override => [], defer => [], ); # This becomes static after option processing our $Stow_Path; # only use in main loop and find_stowed_path() # Store conflicts during pre-processing our @Conflicts = (); # Store command line packages to stow (-S and -R) our @Pkgs_To_Stow = (); # Store command line packages to unstow (-D and -R) our @Pkgs_To_Delete = (); # The following structures are used by the abstractions that allow us to # defer operating on the filesystem until after all potential conflicts have # been assessed. # our @Tasks: list of operations to be performed (in order) # each element is a hash ref of the form # { # action => ... # type => ... # path => ... (unique) # source => ... (only for links) # } our @Tasks = (); # my %Dir_Task_For: map a path to the corresponding directory task reference # This structure allows us to quickly determine if a path has an existing # directory task associated with it. our %Dir_Task_For = (); # my %Link_Task_For: map a path to the corresponding directory task reference # This structure allows us to quickly determine if a path has an existing # directory task associated with it. our %Link_Task_For = (); # N.B.: directory tasks and link tasks are NOT mutually exclusive due # to tree splitting (which involves a remove link task followed by # a create directory task). # put the main loop in this block so we can load the # rest of the code as a module for testing if (not caller()) { process_options(); set_stow_path(); # current dir is now the target directory for my $package (@Pkgs_To_Delete) { if (not -d join_paths($Stow_Path, $package)) { error("The given package name ($package) is not in your stow path"); } debug(2, "Unstowing package $package..."); if ($Option{'compat'}) { unstow_contents_orig( join_paths($Stow_Path, $package), # path to package '.', # target is current_dir ); } else { unstow_contents( join_paths($Stow_Path, $package), # path to package '.', # target is current_dir ); } debug(2, "Unstowing package $package... done"); } for my $package (@Pkgs_To_Stow) { if (not -d join_paths($Stow_Path, $package)) { error("The given package name ($package) is not in your stow path"); } debug(2, "Stowing package $package..."); stow_contents( join_paths($Stow_Path, $package), # path package '.', # target is current dir join_paths($Stow_Path, $package), # source from target ); debug(2, "Stowing package $package... done"); } # --verbose: tell me what you are planning to do # --simulate: don't execute planned operations # --conflicts: just list any detected conflicts if (scalar @Conflicts) { warn "WARNING: conflicts detected.\n"; if ($Option{'conflicts'}) { map { warn $_ } @Conflicts; } warn "WARNING: all operations aborted.\n"; } else { process_tasks(); } } #===== SUBROUTINE =========================================================== # Name : process_options() # Purpose : parse command line options and update the %Option hash # Parameters: none # Returns : n/a # Throws : a fatal error if a bad command line option is given # Comments : checks @ARGV for valid package names #============================================================================ sub process_options { get_defaults(); #$,="\n"; print @ARGV,"\n"; # for debugging rc file Getopt::Long::config('no_ignore_case', 'bundling', 'permute'); GetOptions( \%Option, 'verbose|v:+', 'help|h', 'simulate|n|no', 'conflicts|c', 'version|V', 'compat|p', 'dir|d=s', 'target|t=s', # clean and pre-compile any regex's at parse time 'ignore=s' => sub { my $regex = strip_quotes($_[1]); push @{$Option{'ignore'}}, qr($regex\z) }, 'override=s' => sub { my $regex = strip_quotes($_[1]); push @{$Option{'override'}}, qr(\A$regex) }, 'defer=s' => sub { my $regex = strip_quotes($_[1]); push @{$Option{'defer'}}, qr(\A$regex) ; }, # a little craziness so we can do different actions on the same line: # a -D, -S, or -R changes the action that will be performed on the # package arguments that follow it. 'D|delete' => sub { $Option{'action'} = 'delete' }, 'S|stow' => sub { $Option{'action'} = 'stow' }, 'R|restow' => sub { $Option{'action'} = 'restow' }, '<>' => sub { if ($Option{'action'} eq 'restow') { push @Pkgs_To_Delete, $_[0]; push @Pkgs_To_Stow, $_[0]; } elsif ($Option{'action'} eq 'delete') { push @Pkgs_To_Delete, $_[0]; } else { push @Pkgs_To_Stow, $_[0]; } }, ) or usage(); #print "$Option{'dir'}\n"; print "$Option{'target'}\n"; exit; # clean any leading and trailing whitespace in paths if ($Option{'dir'}) { $Option{'dir'} =~ s/\A +//; $Option{'dir'} =~ s/ +\z//; } if ($Option{'target'}) { $Option{'target'} =~ s/\A +//; $Option{'target'} =~ s/ +\z//; } if ($Option{'help'}) { usage(); } if ($Option{'version'}) { version(); } if ($Option{'conflicts'}) { $Option{'simulate'} = 1; } if (not scalar @Pkgs_To_Stow and not scalar @Pkgs_To_Delete) { usage("No packages named"); } # check package arguments for my $package ((@Pkgs_To_Stow, @Pkgs_To_Delete)) { $package =~ s{/+$}{}; # delete trailing slashes if ($package =~ m{/}) { error("Slashes are not permitted in package names"); } } return; } #===== SUBROUTINE ============================================================ # Name : debug() # Purpose : log to STDERR based on verbosity setting # Parameters: $level => minimum verbosity level required to output this message # : $msg => the message # Returns : n/a # Throws : no exceptions # Comments : none #============================================================================= sub debug { my ($level, $msg) = @_; if ($Option{'testmode'}) { $ENV{TEST_VERBOSE} = 3 if $ENV{TEST_VERBOSE} && $ENV{TEST_VERBOSE} !~ /^\d+$/; $Option{'verbose'} = $ENV{TEST_VERBOSE} if $ENV{TEST_VERBOSE} && ! $Option{'verbose'}; print "# $msg\n" if $Option{'verbose'} >= $level; } elsif ($Option{'verbose'} >= $level) { warn "$msg\n"; } } #===== SUBROUTINE ============================================================ # Name : get_defaults() # Purpose : search for default settings in any .stow files # Parameters: none # Returns : n/a # Throws : no exceptions # Comments : prepends the contents '~/.stowrc' and '.stowrc' to the command # : line so they get parsed just like normal arguments. (This was # : hacked in so that Emil and I could set different preferences). #============================================================================= sub get_defaults { my @defaults = (); for my $file ($ENV{'HOME'}.'/.stowrc', '.stowrc') { if (-r $file) { warn "Loading defaults from $file\n"; open my $FILE, '<', $file or die "Could not open $file for reading\n"; while (my $line = <$FILE>){ chomp $line; push @defaults, split " ", $line; } close $FILE or die "Could not close open file: $file\n"; } } # doing this inline does not seem to work unshift @ARGV, @defaults; return; } #===== SUBROUTINE =========================================================== # Name : usage() # Purpose : print program usage message and exit # Parameters: $msg => string to prepend to the usage message # Returns : n/a # Throws : n/a # Comments : if 'msg' is given, then exit with non-zero status #============================================================================ sub usage { my ($msg) = @_; if ($msg) { print "$ProgramName: $msg\n\n"; } print <<"EOT"; $ProgramName (GNU Stow) version $Version SYNOPSIS: $ProgramName [OPTION ...] [-D|-S|-R] PACKAGE ... [-D|-S|-R] PACKAGE ... OPTIONS: -n, --no Do not actually make any filesystem changes -c, --conflicts Scan for and print any conflicts, implies -n -d DIR, --dir=DIR Set stow dir to DIR (default is current dir) -t DIR, --target=DIR Set target to DIR (default is parent of stow dir) -v, --verbose[=N] Increase verbosity (levels are 0,1,2,3; -v or --verbose adds 1; --verbose=N sets level) -S, --stow Stow the package names that follow this option -D, --delete Unstow the package names that follow this option -R, --restow Restow (like stow -D followed by stow -S) -p, --compat use legacy algorithm for unstowing --ignore=REGEX ignore files ending in this perl regex --defer=REGEX defer stowing files begining with this perl regex if the file is already stowed to another package --override=REGEX force stowing files begining with this perl regex if the file is already stowed to another package -V, --version Show stow version number -h, --help Show this help EOT exit $msg ? 1 : 0; } #===== SUBROUTINE =========================================================== # Name : set_stow_path() # Purpose : find the relative path to the stow directory # Parameters: none # Returns : a relative path # Throws : fatal error if either default directories or those set by the # : the command line flags are not valid. # Comments : This sets the current working directory to $Option{target} #============================================================================ sub set_stow_path { # Changing dirs helps a lot when soft links are used # Also prevents problems when 'stow_dir' or 'target' are # supplied as relative paths (FIXME: examples?) my $current_dir = getcwd(); # default stow dir is $STOW_DIR if set, otherwise the current # directory if (not $Option{'dir'}) { $Option{'dir'} = exists $ENV{STOW_DIR} ? $ENV{STOW_DIR} : getcwd(); } if (not chdir($Option{'dir'})) { error("Cannot chdir to target tree: '$Option{'dir'}'"); } my $stow_dir = getcwd(); # back to start in case target is relative if (not chdir($current_dir)) { error("Your directory does not seem to exist anymore"); } # default target is the parent of the stow directory if (not $Option{'target'}) { $Option{'target'} = parent($Option{'dir'}); } if (not chdir($Option{'target'})) { error("Cannot chdir to target tree: $Option{'target'}"); } # set our one global $Stow_Path = File::Spec->abs2rel($stow_dir); debug(2, "current dir is " . getcwd()); debug(2, "stow dir path relative to cwd is $Stow_Path"); } #===== SUBROUTINE =========================================================== # Name : stow_contents() # Purpose : stow the contents of the given directory # Parameters: $path => relative path to source dir from current directory # : $target => relative path to symlink target from the current directory # : $source => relative path to symlink source from the dir of target # Returns : n/a # Throws : a fatal error if directory cannot be read # Comments : stow_node() and stow_contents() are mutually recursive # : $source and $target are used for creating the symlink # : $path is used for folding/unfolding trees as necessary #============================================================================ sub stow_contents { my ($path, $target, $source) = @_; return if should_skip_stow_dir_target($target); my $cwd = getcwd(); my $msg = "Stowing contents of $path (cwd=$cwd, stow dir=$Stow_Path)"; $msg =~ s!$ENV{HOME}/!~/!g; debug(2, $msg); debug(3, "--- $target => $source"); error("stow_contents() called with non-directory path: $path") unless -d $path; error("stow_contents() called with non-directory target: $target") unless is_a_node($target); opendir my $DIR, $path or error("cannot read directory: $path"); my @listing = readdir $DIR; closedir $DIR; NODE: for my $node (@listing) { next NODE if $node eq '.'; next NODE if $node eq '..'; next NODE if ignore($node); stow_node( join_paths($path, $node), # path join_paths($target, $node), # target join_paths($source, $node), # source ); } } #===== SUBROUTINE =========================================================== # Name : stow_node() # Purpose : stow the given node # Parameters: $path => relative path to source node from the current directory # : $target => relative path to symlink target from the current directory # : $source => relative path to symlink source from the dir of target # Returns : n/a # Throws : fatal exception if a conflict arises # Comments : stow_node() and stow_contents() are mutually recursive # : $source and $target are used for creating the symlink # : $path is used for folding/unfolding trees as necessary #============================================================================ sub stow_node { my ($path, $target, $source) = @_; debug(2, "Stowing from $path"); debug(3, "--- $target => $source"); # don't try to stow absolute symlinks (they can't be unstowed) if (-l $source) { my $second_source = read_a_link($source); if ($second_source =~ m{\A/}) { conflict("source is an absolute symlink $source => $second_source"); debug(3, "absolute symlinks cannot be unstowed"); return; } } # does the target already exist? if (is_a_link($target)) { # where is the link pointing? my $old_source = read_a_link($target); if (not $old_source) { error("Could not read link: $target"); } debug(3, "--- Evaluate existing link: $target => $old_source"); # does it point to a node under our stow directory? my $old_path = find_stowed_path($target, $old_source); if (not $old_path) { conflict("existing target is not owned by stow: $target"); return; # XXX # } # does the existing $target actually point to anything? if (is_a_node($old_path)) { if ($old_source eq $source) { debug(3, "--- Skipping $target as it already points to $source"); } elsif (defer($target)) { debug(3, "--- deferring installation of: $target"); } elsif (override($target)) { debug(3, "--- overriding installation of: $target"); do_unlink($target); do_link($source, $target); } elsif (is_a_dir(join_paths(parent($target), $old_source)) && is_a_dir(join_paths(parent($target), $source)) ) { # if the existing link points to a directory, # and the proposed new link points to a directory, # then we can unfold (split open) the tree at that point debug(3, "--- Unfolding $target"); do_unlink($target); do_mkdir($target); stow_contents($old_path, $target, join_paths('..', $old_source)); stow_contents($path, $target, join_paths('..', $source)); } else { conflict( q{existing target is stowed to a different package: %s => %s}, $target, $old_source, ); } } else { # the existing link is invalid, so replace it with a good link debug(3, "--- replacing invalid link: $path"); do_unlink($target); do_link($source, $target); } } elsif (is_a_node($target)) { debug(3, "--- Evaluate existing node: $target"); if (is_a_dir($target)) { stow_contents($path, $target, join_paths('..', $source)); } else { conflict( qq{existing target is neither a link nor a directory: $target} ); } } else { do_link($source, $target); } return; } #===== SUBROUTINE =========================================================== # Name : should_skip_stow_dir_target() # Purpose : determine whether target is a stow directory and should be skipped # Parameters: $target => relative path to symlink target from the current directory # Returns : true iff target is a stow directory # Throws : n/a # Comments : none #============================================================================ sub should_skip_stow_dir_target { my ($target) = @_; # don't try to remove anything under a stow directory if ($target eq $Stow_Path) { debug(2, "Skipping target which was current stow directory $target"); return 1; } for my $f (".stow", ".nonstow") { if (-e join_paths($target, $f)) { debug(2, "Skipping $target which contained $f"); return 1; } } debug (4, "$target not protected"); return 0; } #===== SUBROUTINE =========================================================== # Name : unstow_contents_orig() # Purpose : unstow the contents of the given directory # Parameters: $path => relative path to source dir from current directory # : $target => relative path to symlink target from the current directory # Returns : n/a # Throws : a fatal error if directory cannot be read # Comments : unstow_node_orig() and unstow_contents_orig() are mutually recursive # : Here we traverse the target tree, rather than the source tree. #============================================================================ sub unstow_contents_orig { my ($path, $target) = @_; return if should_skip_stow_dir_target($target); my $cwd = getcwd(); my $msg = "Unstowing from $target (compat mode, cwd=$cwd, stow dir=$Stow_Path)"; $msg =~ s!$ENV{HOME}/!~/!g; debug(2, $msg); debug(3, "--- source path is $path"); # In compat mode we traverse the target tree not the source tree, # so we're unstowing the contents of /target/foo, there's no # guarantee that the corresponding /stow/mypkg/foo exists. error("unstow_contents_orig() called with non-directory target: $target") unless -d $target; opendir my $DIR, $target or error("cannot read directory: $target"); my @listing = readdir $DIR; closedir $DIR; NODE: for my $node (@listing) { next NODE if $node eq '.'; next NODE if $node eq '..'; next NODE if ignore($node); unstow_node_orig( join_paths($path, $node), # path join_paths($target, $node), # target ); } } #===== SUBROUTINE =========================================================== # Name : unstow_node_orig() # Purpose : unstow the given node # Parameters: $path => relative path to source node from the current directory # : $target => relative path to symlink target from the current directory # Returns : n/a # Throws : fatal error if a conflict arises # Comments : unstow_node() and unstow_contents() are mutually recursive #============================================================================ sub unstow_node_orig { my ($path, $target) = @_; debug(2, "Unstowing $target (compat mode)"); debug(3, "--- source path is $path"); # does the target exist if (is_a_link($target)) { debug(3, "Evaluate existing link: $target"); # where is the link pointing? my $old_source = read_a_link($target); if (not $old_source) { error("Could not read link: $target"); } # does it point to a node under our stow directory? my $old_path = find_stowed_path($target, $old_source); if (not $old_path) { # skip links not owned by stow return; # XXX # } # does the existing $target actually point to anything? if (-e $old_path) { # does link point to the right place? if ($old_path eq $path) { do_unlink($target); } elsif (override($target)) { debug(3, "--- overriding installation of: $target"); do_unlink($target); } # else leave it alone } else { debug(3, "--- removing invalid link into a stow directory: $path"); do_unlink($target); } } elsif (-d $target) { unstow_contents_orig($path, $target); # this action may have made the parent directory foldable if (my $parent = foldable($target)) { fold_tree($target, $parent); } } else { debug(3, "$target did not exist to be unstowed"); } return; } #===== SUBROUTINE =========================================================== # Name : unstow_contents() # Purpose : unstow the contents of the given directory # Parameters: $path => relative path to source dir from current directory # : $target => relative path to symlink target from the current directory # Returns : n/a # Throws : a fatal error if directory cannot be read # Comments : unstow_node() and unstow_contents() are mutually recursive # : Here we traverse the source tree, rather than the target tree. #============================================================================ sub unstow_contents { my ($path, $target) = @_; return if should_skip_stow_dir_target($target); my $cwd = getcwd(); my $msg = "Unstowing from $target (cwd=$cwd, stow dir=$Stow_Path)"; $msg =~ s!$ENV{HOME}/!~/!g; debug(2, $msg); debug(3, "--- source path is $path"); # We traverse the source tree not the target tree, so $path must exist. error("unstow_contents() called with non-directory path: $path") unless -d $path; # When called at the top level, $target should exist. And # unstow_node() should only call this via mutual recursion if # $target exists. error("unstow_contents() called with invalid target: $target") unless is_a_node($target); opendir my $DIR, $path or error("cannot read directory: $path"); my @listing = readdir $DIR; closedir $DIR; NODE: for my $node (@listing) { next NODE if $node eq '.'; next NODE if $node eq '..'; next NODE if ignore($node); unstow_node( join_paths($path, $node), # path join_paths($target, $node), # target ); } if (-d $target) { cleanup_invalid_links($target); } } #===== SUBROUTINE =========================================================== # Name : unstow_node() # Purpose : unstow the given node # Parameters: $path => relative path to source node from the current directory # : $target => relative path to symlink target from the current directory # Returns : n/a # Throws : fatal error if a conflict arises # Comments : unstow_node() and unstow_contents() are mutually recursive #============================================================================ sub unstow_node { my ($path, $target) = @_; debug(2, "Unstowing $path"); debug(3, "--- target is $target"); # does the target exist if (is_a_link($target)) { debug(3, "Evaluate existing link: $target"); # where is the link pointing? my $old_source = read_a_link($target); if (not $old_source) { error("Could not read link: $target"); } if ($old_source =~ m{\A/}) { warn "ignoring a absolute symlink: $target => $old_source\n"; return; # XXX # } # does it point to a node under our stow directory? my $old_path = find_stowed_path($target, $old_source); if (not $old_path) { conflict( qq{existing target is not owned by stow: $target => $old_source} ); return; # XXX # } # does the existing $target actually point to anything if (-e $old_path) { # does link points to the right place if ($old_path eq $path) { do_unlink($target); } # XXX we quietly ignore links that are stowed to a different # package. #elsif (defer($target)) { # debug(3, "--- deferring to installation of: $target"); #} #elsif (override($target)) { # debug(3, "--- overriding installation of: $target"); # do_unlink($target); #} #else { # conflict( # q{existing target is stowed to a different package: %s => %s}, # $target, # $old_source # ); #} } else { debug(3, "--- removing invalid link into a stow directory: $path"); do_unlink($target); } } elsif (-e $target) { debug(3, "Evaluate existing node: $target"); if (-d $target) { unstow_contents($path, $target); # this action may have made the parent directory foldable if (my $parent = foldable($target)) { fold_tree($target, $parent); } } else { conflict( qq{existing target is neither a link nor a directory: $target}, ); } } else { debug(3, "$target did not exist to be unstowed"); } return; } #===== SUBROUTINE =========================================================== # Name : find_stowed_path() # Purpose : determine if the given link points to a member of a # : stowed package # Parameters: $target => path to a symbolic link under current directory # : $source => where that link points to # Returns : relative path to stowed node (from the current directory) # : or '' if link is not owned by stow # Throws : fatal exception if link is unreadable # Comments : allow for stow dir not being under target dir # : we could put more logic under here for multiple stow dirs #============================================================================ sub find_stowed_path { my ($target, $source) = @_; # evaluate softlink relative to its target my $path = join_paths(parent($target), $source); # search for .stow files my $dir = ''; for my $part (split m{/+}, $path) { $dir = join_paths($dir, $part); if (-f "$dir/.stow") { return $path; } } # compare with $Stow_Path my @path = split m{/+}, $path; my @stow_path = split m{/+}, $Stow_Path; # strip off common prefixes while (@path && @stow_path) { if ((shift @path) ne (shift @stow_path)) { return ''; } } if (@stow_path) { # @path is not under @stow_dir return ''; } return $path } #===== SUBROUTINE ============================================================ # Name : cleanup_invalid_links() # Purpose : clean up invalid links that may block folding # Parameters: $dir => path to directory to check # Returns : n/a # Throws : no exceptions # Comments : removing files from a stowed package is probably a bad practice # : so this kind of clean up is not _really_ stow's responsibility; # : however, failing to clean up can block tree folding, so we'll do # : it anyway #============================================================================= sub cleanup_invalid_links { my ($dir) = @_; if (not -d $dir) { error("cleanup_invalid_links() called with a non-directory: $dir"); } opendir my $DIR, $dir or error("cannot read directory: $dir"); my @listing = readdir $DIR; closedir $DIR; NODE: for my $node (@listing) { next NODE if $node eq '.'; next NODE if $node eq '..'; my $node_path = join_paths($dir, $node); if (-l $node_path and not exists $Link_Task_For{$node_path}) { # where is the link pointing? # (dont use read_a_link here) my $source = readlink($node_path); if (not $source) { error("Could not read link $node_path"); } if ( not -e join_paths($dir, $source) and # bad link find_stowed_path($node_path, $source) # owned by stow ){ debug(3, "--- removing stale link: $node_path => " . join_paths($dir, $source)); do_unlink($node_path); } } } return; } #===== SUBROUTINE =========================================================== # Name : foldable() # Purpose : determine if a tree can be folded # Parameters: $target => path to a directory # Returns : path to the parent dir iff the tree can be safely folded # Throws : n/a # Comments : the path returned is relative to the parent of $target, # : that is, it can be used as the source for a replacement symlink #============================================================================ sub foldable { my ($target) = @_; debug(3, "--- Is $target foldable?"); opendir my $DIR, $target or error(qq{Cannot read directory "$target" ($!)\n}); my @listing = readdir $DIR; closedir $DIR; my $parent = ''; NODE: for my $node (@listing) { next NODE if $node eq '.'; next NODE if $node eq '..'; my $path = join_paths($target, $node); # skip nodes scheduled for removal next NODE if not is_a_node($path); # if its not a link then we can't fold its parent return '' if not is_a_link($path); # where is the link pointing? my $source = read_a_link($path); if (not $source) { error("Could not read link $path"); } if ($parent eq '') { $parent = parent($source) } elsif ($parent ne parent($source)) { return ''; } } return '' if not $parent; # if we get here then all nodes inside $target are links, and those links # point to nodes inside the same directory. # chop of leading '..' to get the path to the common parent directory # relative to the parent of our $target $parent =~ s{\A\.\./}{}; # if the resulting path is owned by stow, we can fold it if (find_stowed_path($target, $parent)) { debug(3, "--- $target is foldable"); return $parent; } else { return ''; } } #===== SUBROUTINE =========================================================== # Name : fold_tree() # Purpose : fold the given tree # Parameters: $source => link to the folded tree source # : $target => directory that we will replace with a link to $source # Returns : n/a # Throws : none # Comments : only called iff foldable() is true so we can remove some checks #============================================================================ sub fold_tree { my ($target, $source) = @_; debug(3, "--- Folding tree: $target => $source"); opendir my $DIR, $target or error(qq{Cannot read directory "$target" ($!)\n}); my @listing = readdir $DIR; closedir $DIR; NODE: for my $node (@listing) { next NODE if $node eq '.'; next NODE if $node eq '..'; next NODE if not is_a_node(join_paths($target, $node)); do_unlink(join_paths($target, $node)); } do_rmdir($target); do_link($source, $target); return; } #===== SUBROUTINE =========================================================== # Name : conflict() # Purpose : handle conflicts in stow operations # Parameters: $format => message printf format # : @args => paths that conflict # Returns : n/a # Throws : fatal exception unless 'conflicts' option is set # Comments : indicates what type of conflict it is #============================================================================ sub conflict { my ($format, @args) = @_; my $message = sprintf($format, @args); debug(1, "CONFLICT: $message"); push @Conflicts, "CONFLICT: $message\n"; return; } #===== SUBROUTINE ============================================================ # Name : ignore # Purpose : determine if the given path matches a regex in our ignore list # Parameters: $path # Returns : Boolean # Throws : no exceptions # Comments : none #============================================================================= sub ignore { my ($path) = @_; for my $suffix (@{$Option{'ignore'}}) { return 1 if $path =~ m/$suffix/; } return 0; } #===== SUBROUTINE ============================================================ # Name : defer # Purpose : determine if the given path matches a regex in our defer list # Parameters: $path # Returns : Boolean # Throws : no exceptions # Comments : none #============================================================================= sub defer { my ($path) = @_; for my $prefix (@{$Option{'defer'}}) { return 1 if $path =~ m/$prefix/; } return 0; } #===== SUBROUTINE ============================================================ # Name : overide # Purpose : determine if the given path matches a regex in our override list # Parameters: $path # Returns : Boolean # Throws : no exceptions # Comments : none #============================================================================= sub override { my ($path) = @_; for my $regex (@{$Option{'override'}}) { return 1 if $path =~ m/$regex/; } return 0; } ############################################################################## # # The following code provides the abstractions that allow us to defer operating # on the filesystem until after all potential conflcits have been assessed. # ############################################################################## #===== SUBROUTINE =========================================================== # Name : process_tasks() # Purpose : process each task in the @Tasks list # Parameters: none # Returns : n/a # Throws : fatal error if @Tasks is corrupted or a task fails # Comments : task involve either creating or deleting dirs and symlinks # : an action is set to 'skip' if it is found to be redundant #============================================================================ sub process_tasks { debug(2, "Processing tasks..."); # strip out all tasks with a skip action @Tasks = grep { $_->{'action'} ne 'skip' } @Tasks; if (not scalar @Tasks) { warn "There are no outstanding operations to perform.\n"; return; } if ($Option{'simulate'}) { warn "WARNING: simulating so all operations are deferred.\n"; return; } for my $task (@Tasks) { if ($task->{'action'} eq 'create') { if ($task->{'type'} eq 'dir') { mkdir($task->{'path'}, 0777) or error(qq(Could not create directory: $task->{'path'})); } elsif ($task->{'type'} eq 'link') { symlink $task->{'source'}, $task->{'path'} or error( q(Could not create symlink: %s => %s), $task->{'path'}, $task->{'source'} ); } else { internal_error(qq(bad task type: $task->{'type'})); } } elsif ($task->{'action'} eq 'remove') { if ($task->{'type'} eq 'dir') { rmdir $task->{'path'} or error(qq(Could not remove directory: $task->{'path'})); } elsif ($task->{'type'} eq 'link') { unlink $task->{'path'} or error(qq(Could not remove link: $task->{'path'})); } else { internal_error(qq(bad task type: $task->{'type'})); } } else { internal_error(qq(bad task action: $task->{'action'})); } } debug(2, "Processing tasks... done"); return; } #===== SUBROUTINE =========================================================== # Name : link_task_action() # Purpose : finds the link task action for the given path, if there is one # Parameters: $path # Returns : 'remove', 'create', or '' if there is no action # Throws : a fatal exception if an invalid action is found # Comments : none #============================================================================ sub link_task_action { my ($path) = @_; if (! exists $Link_Task_For{$path}) { debug(4, " link_task_action($path): no task"); return ''; } my $action = $Link_Task_For{$path}->{'action'}; internal_error("bad task action: $action") unless $action eq 'remove' or $action eq 'create'; debug(4, " link_task_action($path): link task exists with action $action"); return $action; } #===== SUBROUTINE =========================================================== # Name : dir_task_action() # Purpose : finds the dir task action for the given path, if there is one # Parameters: $path # Returns : 'remove', 'create', or '' if there is no action # Throws : a fatal exception if an invalid action is found # Comments : none #============================================================================ sub dir_task_action { my ($path) = @_; if (! exists $Dir_Task_For{$path}) { debug(4, " dir_task_action($path): no task"); return ''; } my $action = $Dir_Task_For{$path}->{'action'}; internal_error("bad task action: $action") unless $action eq 'remove' or $action eq 'create'; debug(4, " dir_task_action($path): dir task exists with action $action"); return $action; } #===== SUBROUTINE =========================================================== # Name : parent_link_scheduled_for_removal() # Purpose : determines whether the given path or any parent thereof # : is a link scheduled for removal # Parameters: $path # Returns : Boolean # Throws : none # Comments : none #============================================================================ sub parent_link_scheduled_for_removal { my ($path) = @_; my $prefix = ''; for my $part (split m{/+}, $path) { $prefix = join_paths($prefix, $part); debug(4, " parent_link_scheduled_for_removal($path): prefix $prefix"); if (exists $Link_Task_For{$prefix} and $Link_Task_For{$prefix}->{'action'} eq 'remove') { debug(4, " parent_link_scheduled_for_removal($path): link scheduled for removal"); return 1; } } debug(4, " parent_link_scheduled_for_removal($path): returning false"); return 0; } #===== SUBROUTINE =========================================================== # Name : is_a_link() # Purpose : is the given path a current or planned link # Parameters: $path # Returns : Boolean # Throws : none # Comments : returns false if an existing link is scheduled for removal # : and true if a non-existent link is scheduled for creation #============================================================================ sub is_a_link { my ($path) = @_; debug(4, " is_a_link($path)"); if (my $action = link_task_action($path)) { if ($action eq 'remove') { return 0; } elsif ($action eq 'create') { return 1; } } if (-l $path) { # check if any of its parent are links scheduled for removal # (need this for edge case during unfolding) debug(4, " is_a_link($path): is a real link"); return parent_link_scheduled_for_removal($path) ? 0 : 1; } debug(4, " is_a_link($path): returning false"); return 0; } #===== SUBROUTINE =========================================================== # Name : is_a_dir() # Purpose : is the given path a current or planned directory # Parameters: $path # Returns : Boolean # Throws : none # Comments : returns false if an existing directory is scheduled for removal # : and true if a non-existent directory is scheduled for creation # : we also need to be sure we are not just following a link #============================================================================ sub is_a_dir { my ($path) = @_; debug(4, " is_a_dir($path)"); if (my $action = dir_task_action($path)) { if ($action eq 'remove') { return 0; } elsif ($action eq 'create') { return 1; } } return 0 if parent_link_scheduled_for_removal($path); if (-d $path) { debug(4, " is_a_dir($path): real dir"); return 1; } debug(4, " is_a_dir($path): returning false"); return 0; } #===== SUBROUTINE =========================================================== # Name : is_a_node() # Purpose : is the given path a current or planned node # Parameters: $path # Returns : Boolean # Throws : none # Comments : returns false if an existing node is scheduled for removal # : true if a non-existent node is scheduled for creation # : we also need to be sure we are not just following a link #============================================================================ sub is_a_node { my ($path) = @_; debug(4, " is_a_node($path)"); my $laction = link_task_action($path); my $daction = dir_task_action($path); if ($laction eq 'remove') { if ($daction eq 'remove') { internal_error("removing link and dir: $path"); return 0; } elsif ($daction eq 'create') { # Assume that we're unfolding $path, and that the link # removal action is earlier than the dir creation action # in the task queue. FIXME: is this a safe assumption? return 1; } else { # no dir action return 0; } } elsif ($laction eq 'create') { if ($daction eq 'remove') { # Assume that we're folding $path, and that the dir # removal action is earlier than the link creation action # in the task queue. FIXME: is this a safe assumption? return 1; } elsif ($daction eq 'create') { internal_error("creating link and dir: $path"); return 1; } else { # no dir action return 1; } } else { # No link action if ($daction eq 'remove') { return 0; } elsif ($daction eq 'create') { return 1; } else { # no dir action # fall through to below } } return 0 if parent_link_scheduled_for_removal($path); if (-e $path) { debug(4, " is_a_node($path): really exists"); return 1; } debug(4, " is_a_node($path): returning false"); return 0; } #===== SUBROUTINE =========================================================== # Name : read_a_link() # Purpose : return the source of a current or planned link # Parameters: $path => path to the link target # Returns : a string # Throws : fatal exception if the given path is not a current or planned # : link # Comments : none #============================================================================ sub read_a_link { my ($path) = @_; if (my $action = link_task_action($path)) { debug(4, " read_a_link($path): task exists with action $action"); if ($action eq 'create') { return $Link_Task_For{$path}->{'source'}; } elsif ($action eq 'remove') { internal_error( "read_a_link() passed a path that is scheduled for removal: $path" ); } } elsif (-l $path) { debug(4, " read_a_link($path): real link"); return readlink $path or error("Could not read link: $path"); } internal_error("read_a_link() passed a non link path: $path\n"); } #===== SUBROUTINE =========================================================== # Name : do_link() # Purpose : wrap 'link' operation for later processing # Parameters: $oldfile => the existing file to link to # : $newfile => the file to link # Returns : n/a # Throws : error if this clashes with an existing planned operation # Comments : cleans up operations that undo previous operations #============================================================================ sub do_link { my ($oldfile, $newfile) = @_; if (exists $Dir_Task_For{$newfile}) { my $task_ref = $Dir_Task_For{$newfile}; if ($task_ref->{'action'} eq 'create') { if ($task_ref->{'type'} eq 'dir') { internal_error( "new link (%s => %s) clashes with planned new directory", $newfile, $oldfile, ); } } elsif ($task_ref->{'action'} eq 'remove') { # we may need to remove a directory before creating a link so continue; } else { internal_error("bad task action: $task_ref->{'action'}"); } } if (exists $Link_Task_For{$newfile}) { my $task_ref = $Link_Task_For{$newfile}; if ($task_ref->{'action'} eq 'create') { if ($task_ref->{'source'} ne $oldfile) { internal_error( "new link clashes with planned new link: %s => %s", $task_ref->{'path'}, $task_ref->{'source'}, ) } else { debug(1, "LINK: $newfile => $oldfile (duplicates previous action)"); return; } } elsif ($task_ref->{'action'} eq 'remove') { if ($task_ref->{'source'} eq $oldfile) { # no need to remove a link we are going to recreate debug(1, "LINK: $newfile => $oldfile (reverts previous action)"); $Link_Task_For{$newfile}->{'action'} = 'skip'; delete $Link_Task_For{$newfile}; return; } # we may need to remove a link to replace it so continue } else { internal_error("bad task action: $task_ref->{'action'}"); } } # creating a new link debug(1, "LINK: $newfile => $oldfile"); my $task = { action => 'create', type => 'link', path => $newfile, source => $oldfile, }; push @Tasks, $task; $Link_Task_For{$newfile} = $task; return; } #===== SUBROUTINE =========================================================== # Name : do_unlink() # Purpose : wrap 'unlink' operation for later processing # Parameters: $file => the file to unlink # Returns : n/a # Throws : error if this clashes with an existing planned operation # Comments : will remove an existing planned link #============================================================================ sub do_unlink { my ($file) = @_; if (exists $Link_Task_For{$file}) { my $task_ref = $Link_Task_For{$file}; if ($task_ref->{'action'} eq 'remove') { debug(1, "UNLINK: $file (duplicates previous action)"); return; } elsif ($task_ref->{'action'} eq 'create') { # do need to create a link then remove it debug(1, "UNLINK: $file (reverts previous action)"); $Link_Task_For{$file}->{'action'} = 'skip'; delete $Link_Task_For{$file}; return; } else { internal_error("bad task action: $task_ref->{'action'}"); } } if (exists $Dir_Task_For{$file} and $Dir_Task_For{$file} eq 'create') { internal_error( "new unlink operation clashes with planned operation: %s dir %s", $Dir_Task_For{$file}->{'action'}, $file ); } # remove the link #debug(1, "UNLINK: $file (" . (caller())[2] . ")"); debug(1, "UNLINK: $file"); my $source = readlink $file or error("could not readlink $file"); my $task = { action => 'remove', type => 'link', path => $file, source => $source, }; push @Tasks, $task; $Link_Task_For{$file} = $task; return; } #===== SUBROUTINE =========================================================== # Name : do_mkdir() # Purpose : wrap 'mkdir' operation # Parameters: $dir => the directory to remove # Returns : n/a # Throws : fatal exception if operation fails # Comments : outputs a message if 'verbose' option is set # : does not perform operation if 'simulate' option is set # Comments : cleans up operations that undo previous operations #============================================================================ sub do_mkdir { my ($dir) = @_; if (exists $Link_Task_For{$dir}) { my $task_ref = $Link_Task_For{$dir}; if ($task_ref->{'action'} eq 'create') { internal_error( "new dir clashes with planned new link (%s => %s)", $task_ref->{'path'}, $task_ref->{'source'}, ); } elsif ($task_ref->{'action'} eq 'remove') { # may need to remove a link before creating a directory so continue } else { internal_error("bad task action: $task_ref->{'action'}"); } } if (exists $Dir_Task_For{$dir}) { my $task_ref = $Dir_Task_For{$dir}; if ($task_ref->{'action'} eq 'create') { debug(1, "MKDIR: $dir (duplicates previous action)"); return; } elsif ($task_ref->{'action'} eq 'remove') { debug(1, "MKDIR: $dir (reverts previous action)"); $Dir_Task_For{$dir}->{'action'} = 'skip'; delete $Dir_Task_For{$dir}; return; } else { internal_error("bad task action: $task_ref->{'action'}"); } } debug(1, "MKDIR: $dir"); my $task = { action => 'create', type => 'dir', path => $dir, source => undef, }; push @Tasks, $task; $Dir_Task_For{$dir} = $task; return; } #===== SUBROUTINE =========================================================== # Name : do_rmdir() # Purpose : wrap 'rmdir' operation # Parameters: $dir => the directory to remove # Returns : n/a # Throws : fatal exception if operation fails # Comments : outputs a message if 'verbose' option is set # : does not perform operation if 'simulate' option is set #============================================================================ sub do_rmdir { my ($dir) = @_; if (exists $Link_Task_For{$dir}) { my $task_ref = $Link_Task_For{$dir}; internal_error( "rmdir clashes with planned operation: %s link %s => %s", $task_ref->{'action'}, $task_ref->{'path'}, $task_ref->{'source'} ); } if (exists $Dir_Task_For{$dir}) { my $task_ref = $Link_Task_For{$dir}; if ($task_ref->{'action'} eq 'remove') { debug(1, "RMDIR $dir (duplicates previous action)"); return; } elsif ($task_ref->{'action'} eq 'create') { debug(1, "MKDIR $dir (reverts previous action)"); $Link_Task_For{$dir}->{'action'} = 'skip'; delete $Link_Task_For{$dir}; return; } else { internal_error("bad task action: $task_ref->{'action'}"); } } debug(1, "RMDIR $dir"); my $task = { action => 'remove', type => 'dir', path => $dir, source => '', }; push @Tasks, $task; $Dir_Task_For{$dir} = $task; return; } ############################################################################# # # General Utilities: nothing stow specific here. # ############################################################################# #===== SUBROUTINE ============================================================ # Name : strip_quotes # Purpose : remove matching outer quotes from the given string # Parameters: none # Returns : n/a # Throws : no exceptions # Comments : none #============================================================================= sub strip_quotes { my ($string) = @_; if ($string =~ m{\A\s*'(.*)'\s*\z}) { return $1; } elsif ($string =~ m{\A\s*"(.*)"\s*\z}) { return $1 } return $string; } #===== SUBROUTINE =========================================================== # Name : join_paths() # Purpose : concatenates given paths # Parameters: path1, path2, ... => paths # Returns : concatenation of given paths # Throws : n/a # Comments : factors out redundant path elements: # : '//' => '/' and 'a/b/../c' => 'a/c' #============================================================================ sub join_paths { my @paths = @_; # weed out empty components and concatenate my $result = join '/', grep {!/\A\z/} @paths; # factor out back references and remove redundant /'s) my @result = (); PART: for my $part (split m{/+}, $result) { next PART if $part eq '.'; if (@result && $part eq '..' && $result[-1] ne '..') { pop @result; } else { push @result, $part; } } return join '/', @result; } #===== SUBROUTINE =========================================================== # Name : parent # Purpose : find the parent of the given path # Parameters: @path => components of the path # Returns : returns a path string # Throws : n/a # Comments : allows you to send multiple chunks of the path # : (this feature is currently not used) #============================================================================ sub parent { my @path = @_; my $path = join '/', @_; my @elts = split m{/+}, $path; pop @elts; return join '/', @elts; } #===== SUBROUTINE =========================================================== # Name : internal_error() # Purpose : output internal error message in a consistent form and die # Parameters: $message => error message to output # Returns : n/a # Throws : n/a # Comments : none #============================================================================ sub internal_error { my ($format, @args) = @_; die "$ProgramName: INTERNAL ERROR: " . sprintf($format, @args) . "\n", "This _is_ a bug. Please submit a bug report so we can fix it:-)\n"; } #===== SUBROUTINE =========================================================== # Name : error() # Purpose : output error message in a consistent form and die # Parameters: $message => error message to output # Returns : n/a # Throws : n/a # Comments : none #============================================================================ sub error { my ($format, @args) = @_; die "$ProgramName: ERROR: " . sprintf($format, @args) . " ($!)\n"; } #===== SUBROUTINE =========================================================== # Name : version() # Purpose : print this programs verison and exit # Parameters: none # Returns : n/a # Throws : n/a # Comments : none #============================================================================ sub version { print "$ProgramName (GNU Stow) version $Version\n"; exit 0; } 1; # return true so we can load this script as a module during unit testing # Local variables: # mode: perl # cperl-indent-level: 4 # end: # vim: ft=perl