#!/usr/bin/perl #### #### This application is a CVS emulation layer for git. #### It is intended for clients to connect over SSH. #### See the documentation for more details. #### #### Copyright The Open University UK - 2006. #### #### Authors: Martyn Smith #### Martin Langhoff #### #### #### Released under the GNU Public License, version 2. #### #### use strict; use warnings; use Fcntl; use File::Temp qw/tempdir tempfile/; use File::Basename; my $log = GITCVS::log->new(); my $cfg; my $DATE_LIST = { Jan => "01", Feb => "02", Mar => "03", Apr => "04", May => "05", Jun => "06", Jul => "07", Aug => "08", Sep => "09", Oct => "10", Nov => "11", Dec => "12", }; # Enable autoflush for STDOUT (otherwise the whole thing falls apart) $| = 1; #### Definition and mappings of functions #### my $methods = { 'Root' => \&req_Root, 'Valid-responses' => \&req_Validresponses, 'valid-requests' => \&req_validrequests, 'Directory' => \&req_Directory, 'Entry' => \&req_Entry, 'Modified' => \&req_Modified, 'Unchanged' => \&req_Unchanged, 'Questionable' => \&req_Questionable, 'Argument' => \&req_Argument, 'Argumentx' => \&req_Argument, 'expand-modules' => \&req_expandmodules, 'add' => \&req_add, 'remove' => \&req_remove, 'co' => \&req_co, 'update' => \&req_update, 'ci' => \&req_ci, 'diff' => \&req_diff, 'log' => \&req_log, 'rlog' => \&req_log, 'tag' => \&req_CATCHALL, 'status' => \&req_status, 'admin' => \&req_CATCHALL, 'history' => \&req_CATCHALL, 'watchers' => \&req_CATCHALL, 'editors' => \&req_CATCHALL, 'annotate' => \&req_annotate, 'Global_option' => \&req_Globaloption, #'annotate' => \&req_CATCHALL, }; ############################################## # $state holds all the bits of information the clients sends us that could # potentially be useful when it comes to actually _doing_ something. my $state = {}; $log->info("--------------- STARTING -----------------"); my $TEMP_DIR = tempdir( CLEANUP => 1 ); $log->debug("Temporary directory is '$TEMP_DIR'"); # if we are called with a pserver argument, # deal with the authentication cat before entering the # main loop if (@ARGV && $ARGV[0] eq 'pserver') { my $line = ; chomp $line; unless( $line eq 'BEGIN AUTH REQUEST') { die "E Do not understand $line - expecting BEGIN AUTH REQUEST\n"; } $line = ; chomp $line; req_Root('root', $line) # reuse Root or die "E Invalid root $line \n"; $line = ; chomp $line; unless ($line eq 'anonymous') { print "E Only anonymous user allowed via pserver\n"; print "I HATE YOU\n"; } $line = ; chomp $line; # validate the password? $line = ; chomp $line; unless ($line eq 'END AUTH REQUEST') { die "E Do not understand $line -- expecting END AUTH REQUEST\n"; } print "I LOVE YOU\n"; # and now back to our regular programme... } # Keep going until the client closes the connection while () { chomp; # Check to see if we've seen this method, and call appropriate function. if ( /^([\w-]+)(?:\s+(.*))?$/ and defined($methods->{$1}) ) { # use the $methods hash to call the appropriate sub for this command #$log->info("Method : $1"); &{$methods->{$1}}($1,$2); } else { # log fatal because we don't understand this function. If this happens # we're fairly screwed because we don't know if the client is expecting # a response. If it is, the client will hang, we'll hang, and the whole # thing will be custard. $log->fatal("Don't understand command $_\n"); die("Unknown command $_"); } } $log->debug("Processing time : user=" . (times)[0] . " system=" . (times)[1]); $log->info("--------------- FINISH -----------------"); # Magic catchall method. # This is the method that will handle all commands we haven't yet # implemented. It simply sends a warning to the log file indicating a # command that hasn't been implemented has been invoked. sub req_CATCHALL { my ( $cmd, $data ) = @_; $log->warn("Unhandled command : req_$cmd : $data"); } # Root pathname \n # Response expected: no. Tell the server which CVSROOT to use. Note that # pathname is a local directory and not a fully qualified CVSROOT variable. # pathname must already exist; if creating a new root, use the init # request, not Root. pathname does not include the hostname of the server, # how to access the server, etc.; by the time the CVS protocol is in use, # connection, authentication, etc., are already taken care of. The Root # request must be sent only once, and it must be sent before any requests # other than Valid-responses, valid-requests, UseUnchanged, Set or init. sub req_Root { my ( $cmd, $data ) = @_; $log->debug("req_Root : $data"); $state->{CVSROOT} = $data; $ENV{GIT_DIR} = $state->{CVSROOT} . "/"; unless (-d $ENV{GIT_DIR} && -e $ENV{GIT_DIR}.'HEAD') { print "E $ENV{GIT_DIR} does not seem to be a valid GIT repository\n"; print "E \n"; print "error 1 $ENV{GIT_DIR} is not a valid repository\n"; return 0; } my @gitvars = `git-repo-config -l`; if ($?) { print "E problems executing git-repo-config on the server -- this is not a git repository or the PATH is not set correctly.\n"; print "E \n"; print "error 1 - problem executing git-repo-config\n"; return 0; } foreach my $line ( @gitvars ) { next unless ( $line =~ /^(.*?)\.(.*?)=(.*)$/ ); $cfg->{$1}{$2} = $3; } unless ( defined ( $cfg->{gitcvs}{enabled} ) and $cfg->{gitcvs}{enabled} =~ /^\s*(1|true|yes)\s*$/i ) { print "E GITCVS emulation needs to be enabled on this repo\n"; print "E the repo config file needs a [gitcvs] section added, and the parameter 'enabled' set to 1\n"; print "E \n"; print "error 1 GITCVS emulation disabled\n"; return 0; } if ( defined ( $cfg->{gitcvs}{logfile} ) ) { $log->setfile($cfg->{gitcvs}{logfile}); } else { $log->nofile(); } return 1; } # Global_option option \n # Response expected: no. Transmit one of the global options `-q', `-Q', # `-l', `-t', `-r', or `-n'. option must be one of those strings, no # variations (such as combining of options) are allowed. For graceful # handling of valid-requests, it is probably better to make new global # options separate requests, rather than trying to add them to this # request. sub req_Globaloption { my ( $cmd, $data ) = @_; $log->debug("req_Globaloption : $data"); # TODO : is this data useful ??? } # Valid-responses request-list \n # Response expected: no. Tell the server what responses the client will # accept. request-list is a space separated list of tokens. sub req_Validresponses { my ( $cmd, $data ) = @_; $log->debug("req_Validresponses : $data"); # TODO : re-enable this, currently it's not particularly useful #$state->{validresponses} = [ split /\s+/, $data ]; } # valid-requests \n # Response expected: yes. Ask the server to send back a Valid-requests # response. sub req_validrequests { my ( $cmd, $data ) = @_; $log->debug("req_validrequests"); $log->debug("SEND : Valid-requests " . join(" ",keys %$methods)); $log->debug("SEND : ok"); print "Valid-requests " . join(" ",keys %$methods) . "\n"; print "ok\n"; } # Directory local-directory \n # Additional data: repository \n. Response expected: no. Tell the server # what directory to use. The repository should be a directory name from a # previous server response. Note that this both gives a default for Entry # and Modified and also for ci and the other commands; normal usage is to # send Directory for each directory in which there will be an Entry or # Modified, and then a final Directory for the original directory, then the # command. The local-directory is relative to the top level at which the # command is occurring (i.e. the last Directory which is sent before the # command); to indicate that top level, `.' should be sent for # local-directory. sub req_Directory { my ( $cmd, $data ) = @_; my $repository = ; chomp $repository; $state->{localdir} = $data; $state->{repository} = $repository; $state->{directory} = $repository; $state->{directory} =~ s/^$state->{CVSROOT}\///; $state->{module} = $1 if ($state->{directory} =~ s/^(.*?)(\/|$)//); $state->{directory} .= "/" if ( $state->{directory} =~ /\S/ ); $log->debug("req_Directory : localdir=$data repository=$repository directory=$state->{directory} module=$state->{module}"); } # Entry entry-line \n # Response expected: no. Tell the server what version of a file is on the # local machine. The name in entry-line is a name relative to the directory # most recently specified with Directory. If the user is operating on only # some files in a directory, Entry requests for only those files need be # included. If an Entry request is sent without Modified, Is-modified, or # Unchanged, it means the file is lost (does not exist in the working # directory). If both Entry and one of Modified, Is-modified, or Unchanged # are sent for the same file, Entry must be sent first. For a given file, # one can send Modified, Is-modified, or Unchanged, but not more than one # of these three. sub req_Entry { my ( $cmd, $data ) = @_; $log->debug("req_Entry : $data"); my @data = split(/\//, $data); $state->{entries}{$state->{directory}.$data[1]} = { revision => $data[2], conflict => $data[3], options => $data[4], tag_or_date => $data[5], }; } # add \n # Response expected: yes. Add a file or directory. This uses any previous # Argument, Directory, Entry, or Modified requests, if they have been sent. # The last Directory sent specifies the working directory at the time of # the operation. To add a directory, send the directory to be added using # Directory and Argument requests. sub req_add { my ( $cmd, $data ) = @_; argsplit("add"); my $addcount = 0; foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); unless ( defined ( $state->{entries}{$filename}{modified_filename} ) ) { print "E cvs add: nothing known about `$filename'\n"; next; } # TODO : check we're not squashing an already existing file if ( defined ( $state->{entries}{$filename}{revision} ) ) { print "E cvs add: `$filename' has already been entered\n"; next; } my ( $filepart, $dirpart ) = filenamesplit($filename); print "E cvs add: scheduling file `$filename' for addition\n"; print "Checked-in $dirpart\n"; print "$filename\n"; print "/$filepart/0///\n"; $addcount++; } if ( $addcount == 1 ) { print "E cvs add: use `cvs commit' to add this file permanently\n"; } elsif ( $addcount > 1 ) { print "E cvs add: use `cvs commit' to add these files permanently\n"; } print "ok\n"; } # remove \n # Response expected: yes. Remove a file. This uses any previous Argument, # Directory, Entry, or Modified requests, if they have been sent. The last # Directory sent specifies the working directory at the time of the # operation. Note that this request does not actually do anything to the # repository; the only effect of a successful remove request is to supply # the client with a new entries line containing `-' to indicate a removed # file. In fact, the client probably could perform this operation without # contacting the server, although using remove may cause the server to # perform a few more checks. The client sends a subsequent ci request to # actually record the removal in the repository. sub req_remove { my ( $cmd, $data ) = @_; argsplit("remove"); # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); #$log->debug("add state : " . Dumper($state)); my $rmcount = 0; foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); if ( defined ( $state->{entries}{$filename}{unchanged} ) or defined ( $state->{entries}{$filename}{modified_filename} ) ) { print "E cvs remove: file `$filename' still in working directory\n"; next; } my $meta = $updater->getmeta($filename); my $wrev = revparse($filename); unless ( defined ( $wrev ) ) { print "E cvs remove: nothing known about `$filename'\n"; next; } if ( defined($wrev) and $wrev < 0 ) { print "E cvs remove: file `$filename' already scheduled for removal\n"; next; } unless ( $wrev == $meta->{revision} ) { # TODO : not sure if the format of this message is quite correct. print "E cvs remove: Up to date check failed for `$filename'\n"; next; } my ( $filepart, $dirpart ) = filenamesplit($filename); print "E cvs remove: scheduling `$filename' for removal\n"; print "Checked-in $dirpart\n"; print "$filename\n"; print "/$filepart/-1.$wrev///\n"; $rmcount++; } if ( $rmcount == 1 ) { print "E cvs remove: use `cvs commit' to remove this file permanently\n"; } elsif ( $rmcount > 1 ) { print "E cvs remove: use `cvs commit' to remove these files permanently\n"; } print "ok\n"; } # Modified filename \n # Response expected: no. Additional data: mode, \n, file transmission. Send # the server a copy of one locally modified file. filename is a file within # the most recent directory sent with Directory; it must not contain `/'. # If the user is operating on only some files in a directory, only those # files need to be included. This can also be sent without Entry, if there # is no entry for the file. sub req_Modified { my ( $cmd, $data ) = @_; my $mode = ; chomp $mode; my $size = ; chomp $size; # Grab config information my $blocksize = 8192; my $bytesleft = $size; my $tmp; # Get a filehandle/name to write it to my ( $fh, $filename ) = tempfile( DIR => $TEMP_DIR ); # Loop over file data writing out to temporary file. while ( $bytesleft ) { $blocksize = $bytesleft if ( $bytesleft < $blocksize ); read STDIN, $tmp, $blocksize; print $fh $tmp; $bytesleft -= $blocksize; } close $fh; # Ensure we have something sensible for the file mode if ( $mode =~ /u=(\w+)/ ) { $mode = $1; } else { $mode = "rw"; } # Save the file data in $state $state->{entries}{$state->{directory}.$data}{modified_filename} = $filename; $state->{entries}{$state->{directory}.$data}{modified_mode} = $mode; $state->{entries}{$state->{directory}.$data}{modified_hash} = `git-hash-object $filename`; $state->{entries}{$state->{directory}.$data}{modified_hash} =~ s/\s.*$//s; #$log->debug("req_Modified : file=$data mode=$mode size=$size"); } # Unchanged filename \n # Response expected: no. Tell the server that filename has not been # modified in the checked out directory. The filename is a file within the # most recent directory sent with Directory; it must not contain `/'. sub req_Unchanged { my ( $cmd, $data ) = @_; $state->{entries}{$state->{directory}.$data}{unchanged} = 1; #$log->debug("req_Unchanged : $data"); } # Questionable filename \n # Response expected: no. Additional data: no. # Tell the server to check whether filename should be ignored, # and if not, next time the server sends responses, send (in # a M response) `?' followed by the directory and filename. # filename must not contain `/'; it needs to be a file in the # directory named by the most recent Directory request. sub req_Questionable { my ( $cmd, $data ) = @_; $state->{entries}{$state->{directory}.$data}{questionable} = 1; #$log->debug("req_Questionable : $data"); } # Argument text \n # Response expected: no. Save argument for use in a subsequent command. # Arguments accumulate until an argument-using command is given, at which # point they are forgotten. # Argumentx text \n # Response expected: no. Append \n followed by text to the current argument # being saved. sub req_Argument { my ( $cmd, $data ) = @_; # TODO : Not quite sure how Argument and Argumentx differ, but I assume # it's for multi-line arguments ... somehow ... $log->debug("$cmd : $data"); push @{$state->{arguments}}, $data; } # expand-modules \n # Response expected: yes. Expand the modules which are specified in the # arguments. Returns the data in Module-expansion responses. Note that the # server can assume that this is checkout or export, not rtag or rdiff; the # latter do not access the working directory and thus have no need to # expand modules on the client side. Expand may not be the best word for # what this request does. It does not necessarily tell you all the files # contained in a module, for example. Basically it is a way of telling you # which working directories the server needs to know about in order to # handle a checkout of the specified modules. For example, suppose that the # server has a module defined by # aliasmodule -a 1dir # That is, one can check out aliasmodule and it will take 1dir in the # repository and check it out to 1dir in the working directory. Now suppose # the client already has this module checked out and is planning on using # the co request to update it. Without using expand-modules, the client # would have two bad choices: it could either send information about all # working directories under the current directory, which could be # unnecessarily slow, or it could be ignorant of the fact that aliasmodule # stands for 1dir, and neglect to send information for 1dir, which would # lead to incorrect operation. With expand-modules, the client would first # ask for the module to be expanded: sub req_expandmodules { my ( $cmd, $data ) = @_; argsplit(); $log->debug("req_expandmodules : " . ( defined($data) ? $data : "[NULL]" ) ); unless ( ref $state->{arguments} eq "ARRAY" ) { print "ok\n"; return; } foreach my $module ( @{$state->{arguments}} ) { $log->debug("SEND : Module-expansion $module"); print "Module-expansion $module\n"; } print "ok\n"; statecleanup(); } # co \n # Response expected: yes. Get files from the repository. This uses any # previous Argument, Directory, Entry, or Modified requests, if they have # been sent. Arguments to this command are module names; the client cannot # know what directories they correspond to except by (1) just sending the # co request, and then seeing what directory names the server sends back in # its responses, and (2) the expand-modules request. sub req_co { my ( $cmd, $data ) = @_; argsplit("co"); my $module = $state->{args}[0]; my $checkout_path = $module; # use the user specified directory if we're given it $checkout_path = $state->{opt}{d} if ( exists ( $state->{opt}{d} ) ); $log->debug("req_co : " . ( defined($data) ? $data : "[NULL]" ) ); $log->info("Checking out module '$module' ($state->{CVSROOT}) to '$checkout_path'"); $ENV{GIT_DIR} = $state->{CVSROOT} . "/"; # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $module, $log); $updater->update(); $checkout_path =~ s|/$||; # get rid of trailing slashes # Eclipse seems to need the Clear-sticky command # to prepare the 'Entries' file for the new directory. print "Clear-sticky $checkout_path/\n"; print $state->{CVSROOT} . "/$module/\n"; print "Clear-static-directory $checkout_path/\n"; print $state->{CVSROOT} . "/$module/\n"; print "Clear-sticky $checkout_path/\n"; # yes, twice print $state->{CVSROOT} . "/$module/\n"; print "Template $checkout_path/\n"; print $state->{CVSROOT} . "/$module/\n"; print "0\n"; # instruct the client that we're checking out to $checkout_path print "E cvs checkout: Updating $checkout_path\n"; my %seendirs = (); my $lastdir =''; # recursive sub prepdir { my ($dir, $repodir, $remotedir, $seendirs) = @_; my $parent = dirname($dir); $dir =~ s|/+$||; $repodir =~ s|/+$||; $remotedir =~ s|/+$||; $parent =~ s|/+$||; $log->debug("announcedir $dir, $repodir, $remotedir" ); if ($parent eq '.' || $parent eq './') { $parent = ''; } # recurse to announce unseen parents first if (length($parent) && !exists($seendirs->{$parent})) { prepdir($parent, $repodir, $remotedir, $seendirs); } # Announce that we are going to modify at the parent level if ($parent) { print "E cvs checkout: Updating $remotedir/$parent\n"; } else { print "E cvs checkout: Updating $remotedir\n"; } print "Clear-sticky $remotedir/$parent/\n"; print "$repodir/$parent/\n"; print "Clear-static-directory $remotedir/$dir/\n"; print "$repodir/$dir/\n"; print "Clear-sticky $remotedir/$parent/\n"; # yes, twice print "$repodir/$parent/\n"; print "Template $remotedir/$dir/\n"; print "$repodir/$dir/\n"; print "0\n"; $seendirs->{$dir} = 1; } foreach my $git ( @{$updater->gethead} ) { # Don't want to check out deleted files next if ( $git->{filehash} eq "deleted" ); ( $git->{name}, $git->{dir} ) = filenamesplit($git->{name}); if (length($git->{dir}) && $git->{dir} ne './' && $git->{dir} ne $lastdir ) { unless (exists($seendirs{$git->{dir}})) { prepdir($git->{dir}, $state->{CVSROOT} . "/$module/", $checkout_path, \%seendirs); $lastdir = $git->{dir}; $seendirs{$git->{dir}} = 1; } print "E cvs checkout: Updating /$checkout_path/$git->{dir}\n"; } # modification time of this file print "Mod-time $git->{modified}\n"; # print some information to the client if ( defined ( $git->{dir} ) and $git->{dir} ne "./" ) { print "M U $checkout_path/$git->{dir}$git->{name}\n"; } else { print "M U $checkout_path/$git->{name}\n"; } # instruct client we're sending a file to put in this path print "Created $checkout_path/" . ( defined ( $git->{dir} ) and $git->{dir} ne "./" ? $git->{dir} . "/" : "" ) . "\n"; print $state->{CVSROOT} . "/$module/" . ( defined ( $git->{dir} ) and $git->{dir} ne "./" ? $git->{dir} . "/" : "" ) . "$git->{name}\n"; # this is an "entries" line print "/$git->{name}/1.$git->{revision}///\n"; # permissions print "u=$git->{mode},g=$git->{mode},o=$git->{mode}\n"; # transmit file transmitfile($git->{filehash}); } print "ok\n"; statecleanup(); } # update \n # Response expected: yes. Actually do a cvs update command. This uses any # previous Argument, Directory, Entry, or Modified requests, if they have # been sent. The last Directory sent specifies the working directory at the # time of the operation. The -I option is not used--files which the client # can decide whether to ignore are not mentioned and the client sends the # Questionable request for others. sub req_update { my ( $cmd, $data ) = @_; $log->debug("req_update : " . ( defined($data) ? $data : "[NULL]" )); argsplit("update"); # # It may just be a client exploring the available heads/modules # in that case, list them as top level directories and leave it # at that. Eclipse uses this technique to offer you a list of # projects (heads in this case) to checkout. # if ($state->{module} eq '') { print "E cvs update: Updating .\n"; opendir HEADS, $state->{CVSROOT} . '/refs/heads'; while (my $head = readdir(HEADS)) { if (-f $state->{CVSROOT} . '/refs/heads/' . $head) { print "E cvs update: New directory `$head'\n"; } } closedir HEADS; print "ok\n"; return 1; } # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); # if no files were specified, we need to work out what files we should be providing status on ... argsfromdir($updater) if ( scalar ( @{$state->{args}} ) == 0 ); #$log->debug("update state : " . Dumper($state)); # foreach file specified on the commandline ... foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); # if we have a -C we should pretend we never saw modified stuff if ( exists ( $state->{opt}{C} ) ) { delete $state->{entries}{$filename}{modified_hash}; delete $state->{entries}{$filename}{modified_filename}; $state->{entries}{$filename}{unchanged} = 1; } my $meta; if ( defined($state->{opt}{r}) and $state->{opt}{r} =~ /^1\.(\d+)/ ) { $meta = $updater->getmeta($filename, $1); } else { $meta = $updater->getmeta($filename); } next unless ( $meta->{revision} ); my $oldmeta = $meta; my $wrev = revparse($filename); # If the working copy is an old revision, lets get that version too for comparison. if ( defined($wrev) and $wrev != $meta->{revision} ) { $oldmeta = $updater->getmeta($filename, $wrev); } #$log->debug("Target revision is $meta->{revision}, current working revision is $wrev"); # Files are up to date if the working copy and repo copy have the same revision, # and the working copy is unmodified _and_ the user hasn't specified -C next if ( defined ( $wrev ) and defined($meta->{revision}) and $wrev == $meta->{revision} and $state->{entries}{$filename}{unchanged} and not exists ( $state->{opt}{C} ) ); # If the working copy and repo copy have the same revision, # but the working copy is modified, tell the client it's modified if ( defined ( $wrev ) and defined($meta->{revision}) and $wrev == $meta->{revision} and not exists ( $state->{opt}{C} ) ) { $log->info("Tell the client the file is modified"); print "MT text U\n"; print "MT fname $filename\n"; print "MT newline\n"; next; } if ( $meta->{filehash} eq "deleted" ) { my ( $filepart, $dirpart ) = filenamesplit($filename); $log->info("Removing '$filename' from working copy (no longer in the repo)"); print "E cvs update: `$filename' is no longer in the repository\n"; print "Removed $dirpart\n"; print "$filepart\n"; } elsif ( not defined ( $state->{entries}{$filename}{modified_hash} ) or $state->{entries}{$filename}{modified_hash} eq $oldmeta->{filehash} ) { $log->info("Updating '$filename'"); # normal update, just send the new revision (either U=Update, or A=Add, or R=Remove) print "MT +updated\n"; print "MT text U\n"; print "MT fname $filename\n"; print "MT newline\n"; print "MT -updated\n"; my ( $filepart, $dirpart ) = filenamesplit($filename); $dirpart =~ s/^$state->{directory}//; if ( defined ( $wrev ) ) { # instruct client we're sending a file to put in this path as a replacement print "Update-existing $dirpart\n"; $log->debug("Updating existing file 'Update-existing $dirpart'"); } else { # instruct client we're sending a file to put in this path as a new file print "Created $dirpart\n"; $log->debug("Creating new file 'Created $dirpart'"); } print $state->{CVSROOT} . "/$state->{module}/$filename\n"; # this is an "entries" line $log->debug("/$filepart/1.$meta->{revision}///"); print "/$filepart/1.$meta->{revision}///\n"; # permissions $log->debug("SEND : u=$meta->{mode},g=$meta->{mode},o=$meta->{mode}"); print "u=$meta->{mode},g=$meta->{mode},o=$meta->{mode}\n"; # transmit file transmitfile($meta->{filehash}); } else { $log->info("Updating '$filename'"); my ( $filepart, $dirpart ) = filenamesplit($meta->{name}); my $dir = tempdir( DIR => $TEMP_DIR, CLEANUP => 1 ) . "/"; chdir $dir; my $file_local = $filepart . ".mine"; system("ln","-s",$state->{entries}{$filename}{modified_filename}, $file_local); my $file_old = $filepart . "." . $oldmeta->{revision}; transmitfile($oldmeta->{filehash}, $file_old); my $file_new = $filepart . "." . $meta->{revision}; transmitfile($meta->{filehash}, $file_new); # we need to merge with the local changes ( M=successful merge, C=conflict merge ) $log->info("Merging $file_local, $file_old, $file_new"); $log->debug("Temporary directory for merge is $dir"); my $return = system("merge", $file_local, $file_old, $file_new); $return >>= 8; if ( $return == 0 ) { $log->info("Merged successfully"); print "M M $filename\n"; $log->debug("Update-existing $dirpart"); print "Update-existing $dirpart\n"; $log->debug($state->{CVSROOT} . "/$state->{module}/$filename"); print $state->{CVSROOT} . "/$state->{module}/$filename\n"; $log->debug("/$filepart/1.$meta->{revision}///"); print "/$filepart/1.$meta->{revision}///\n"; } elsif ( $return == 1 ) { $log->info("Merged with conflicts"); print "M C $filename\n"; print "Update-existing $dirpart\n"; print $state->{CVSROOT} . "/$state->{module}/$filename\n"; print "/$filepart/1.$meta->{revision}/+//\n"; } else { $log->warn("Merge failed"); next; } # permissions $log->debug("SEND : u=$meta->{mode},g=$meta->{mode},o=$meta->{mode}"); print "u=$meta->{mode},g=$meta->{mode},o=$meta->{mode}\n"; # transmit file, format is single integer on a line by itself (file # size) followed by the file contents # TODO : we should copy files in blocks my $data = `cat $file_local`; $log->debug("File size : " . length($data)); print length($data) . "\n"; print $data; chdir "/"; } } print "ok\n"; } sub req_ci { my ( $cmd, $data ) = @_; argsplit("ci"); #$log->debug("State : " . Dumper($state)); $log->info("req_ci : " . ( defined($data) ? $data : "[NULL]" )); if ( @ARGV && $ARGV[0] eq 'pserver') { print "error 1 pserver access cannot commit\n"; exit; } if ( -e $state->{CVSROOT} . "/index" ) { print "error 1 Index already exists in git repo\n"; exit; } my $lockfile = "$state->{CVSROOT}/refs/heads/$state->{module}.lock"; unless ( sysopen(LOCKFILE,$lockfile,O_EXCL|O_CREAT|O_WRONLY) ) { print "error 1 Lock file '$lockfile' already exists, please try again\n"; exit; } # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); my $tmpdir = tempdir ( DIR => $TEMP_DIR ); my ( undef, $file_index ) = tempfile ( DIR => $TEMP_DIR, OPEN => 0 ); $log->info("Lock successful, basing commit on '$tmpdir', index file is '$file_index'"); $ENV{GIT_DIR} = $state->{CVSROOT} . "/"; $ENV{GIT_INDEX_FILE} = $file_index; chdir $tmpdir; # populate the temporary index based system("git-read-tree", $state->{module}); unless ($? == 0) { die "Error running git-read-tree $state->{module} $file_index $!"; } $log->info("Created index '$file_index' with for head $state->{module} - exit status $?"); my @committedfiles = (); # foreach file specified on the commandline ... foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); next unless ( exists $state->{entries}{$filename}{modified_filename} or not $state->{entries}{$filename}{unchanged} ); my $meta = $updater->getmeta($filename); my $wrev = revparse($filename); my ( $filepart, $dirpart ) = filenamesplit($filename); # do a checkout of the file if it part of this tree if ($wrev) { system('git-checkout-index', '-f', '-u', $filename); unless ($? == 0) { die "Error running git-checkout-index -f -u $filename : $!"; } } my $addflag = 0; my $rmflag = 0; $rmflag = 1 if ( defined($wrev) and $wrev < 0 ); $addflag = 1 unless ( -e $filename ); # Do up to date checking unless ( $addflag or $wrev == $meta->{revision} or ( $rmflag and -$wrev == $meta->{revision} ) ) { # fail everything if an up to date check fails print "error 1 Up to date check failed for $filename\n"; close LOCKFILE; unlink($lockfile); chdir "/"; exit; } push @committedfiles, $filename; $log->info("Committing $filename"); system("mkdir","-p",$dirpart) unless ( -d $dirpart ); unless ( $rmflag ) { $log->debug("rename $state->{entries}{$filename}{modified_filename} $filename"); rename $state->{entries}{$filename}{modified_filename},$filename; # Calculate modes to remove my $invmode = ""; foreach ( qw (r w x) ) { $invmode .= $_ unless ( $state->{entries}{$filename}{modified_mode} =~ /$_/ ); } $log->debug("chmod u+" . $state->{entries}{$filename}{modified_mode} . "-" . $invmode . " $filename"); system("chmod","u+" . $state->{entries}{$filename}{modified_mode} . "-" . $invmode, $filename); } if ( $rmflag ) { $log->info("Removing file '$filename'"); unlink($filename); system("git-update-index", "--remove", $filename); } elsif ( $addflag ) { $log->info("Adding file '$filename'"); system("git-update-index", "--add", $filename); } else { $log->info("Updating file '$filename'"); system("git-update-index", $filename); } } unless ( scalar(@committedfiles) > 0 ) { print "E No files to commit\n"; print "ok\n"; close LOCKFILE; unlink($lockfile); chdir "/"; return; } my $treehash = `git-write-tree`; my $parenthash = `cat $ENV{GIT_DIR}refs/heads/$state->{module}`; chomp $treehash; chomp $parenthash; $log->debug("Treehash : $treehash, Parenthash : $parenthash"); # write our commit message out if we have one ... my ( $msg_fh, $msg_filename ) = tempfile( DIR => $TEMP_DIR ); print $msg_fh $state->{opt}{m};# if ( exists ( $state->{opt}{m} ) ); print $msg_fh "\n\nvia git-CVS emulator\n"; close $msg_fh; my $commithash = `git-commit-tree $treehash -p $parenthash < $msg_filename`; $log->info("Commit hash : $commithash"); unless ( $commithash =~ /[a-zA-Z0-9]{40}/ ) { $log->warn("Commit failed (Invalid commit hash)"); print "error 1 Commit failed (unknown reason)\n"; close LOCKFILE; unlink($lockfile); chdir "/"; exit; } open FILE, ">", "$ENV{GIT_DIR}refs/heads/$state->{module}"; print FILE $commithash; close FILE; $updater->update(); # foreach file specified on the commandline ... foreach my $filename ( @committedfiles ) { $filename = filecleanup($filename); my $meta = $updater->getmeta($filename); my ( $filepart, $dirpart ) = filenamesplit($filename); $log->debug("Checked-in $dirpart : $filename"); if ( $meta->{filehash} eq "deleted" ) { print "Remove-entry $dirpart\n"; print "$filename\n"; } else { print "Checked-in $dirpart\n"; print "$filename\n"; print "/$filepart/1.$meta->{revision}///\n"; } } close LOCKFILE; unlink($lockfile); chdir "/"; print "ok\n"; } sub req_status { my ( $cmd, $data ) = @_; argsplit("status"); $log->info("req_status : " . ( defined($data) ? $data : "[NULL]" )); #$log->debug("status state : " . Dumper($state)); # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); # if no files were specified, we need to work out what files we should be providing status on ... argsfromdir($updater) if ( scalar ( @{$state->{args}} ) == 0 ); # foreach file specified on the commandline ... foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); my $meta = $updater->getmeta($filename); my $oldmeta = $meta; my $wrev = revparse($filename); # If the working copy is an old revision, lets get that version too for comparison. if ( defined($wrev) and $wrev != $meta->{revision} ) { $oldmeta = $updater->getmeta($filename, $wrev); } # TODO : All possible statuses aren't yet implemented my $status; # Files are up to date if the working copy and repo copy have the same revision, and the working copy is unmodified $status = "Up-to-date" if ( defined ( $wrev ) and defined($meta->{revision}) and $wrev == $meta->{revision} and ( ( $state->{entries}{$filename}{unchanged} and ( not defined ( $state->{entries}{$filename}{conflict} ) or $state->{entries}{$filename}{conflict} !~ /^\+=/ ) ) or ( defined($state->{entries}{$filename}{modified_hash}) and $state->{entries}{$filename}{modified_hash} eq $meta->{filehash} ) ) ); # Need checkout if the working copy has an older revision than the repo copy, and the working copy is unmodified $status ||= "Needs Checkout" if ( defined ( $wrev ) and defined ( $meta->{revision} ) and $meta->{revision} > $wrev and ( $state->{entries}{$filename}{unchanged} or ( defined($state->{entries}{$filename}{modified_hash}) and $state->{entries}{$filename}{modified_hash} eq $oldmeta->{filehash} ) ) ); # Need checkout if it exists in the repo but doesn't have a working copy $status ||= "Needs Checkout" if ( not defined ( $wrev ) and defined ( $meta->{revision} ) ); # Locally modified if working copy and repo copy have the same revision but there are local changes $status ||= "Locally Modified" if ( defined ( $wrev ) and defined($meta->{revision}) and $wrev == $meta->{revision} and $state->{entries}{$filename}{modified_filename} ); # Needs Merge if working copy revision is less than repo copy and there are local changes $status ||= "Needs Merge" if ( defined ( $wrev ) and defined ( $meta->{revision} ) and $meta->{revision} > $wrev and $state->{entries}{$filename}{modified_filename} ); $status ||= "Locally Added" if ( defined ( $state->{entries}{$filename}{revision} ) and not defined ( $meta->{revision} ) ); $status ||= "Locally Removed" if ( defined ( $wrev ) and defined ( $meta->{revision} ) and -$wrev == $meta->{revision} ); $status ||= "Unresolved Conflict" if ( defined ( $state->{entries}{$filename}{conflict} ) and $state->{entries}{$filename}{conflict} =~ /^\+=/ ); $status ||= "File had conflicts on merge" if ( 0 ); $status ||= "Unknown"; print "M ===================================================================\n"; print "M File: $filename\tStatus: $status\n"; if ( defined($state->{entries}{$filename}{revision}) ) { print "M Working revision:\t" . $state->{entries}{$filename}{revision} . "\n"; } else { print "M Working revision:\tNo entry for $filename\n"; } if ( defined($meta->{revision}) ) { print "M Repository revision:\t1." . $meta->{revision} . "\t$state->{repository}/$filename,v\n"; print "M Sticky Tag:\t\t(none)\n"; print "M Sticky Date:\t\t(none)\n"; print "M Sticky Options:\t\t(none)\n"; } else { print "M Repository revision:\tNo revision control file\n"; } print "M\n"; } print "ok\n"; } sub req_diff { my ( $cmd, $data ) = @_; argsplit("diff"); $log->debug("req_diff : " . ( defined($data) ? $data : "[NULL]" )); #$log->debug("status state : " . Dumper($state)); my ($revision1, $revision2); if ( defined ( $state->{opt}{r} ) and ref $state->{opt}{r} eq "ARRAY" ) { $revision1 = $state->{opt}{r}[0]; $revision2 = $state->{opt}{r}[1]; } else { $revision1 = $state->{opt}{r}; } $revision1 =~ s/^1\.// if ( defined ( $revision1 ) ); $revision2 =~ s/^1\.// if ( defined ( $revision2 ) ); $log->debug("Diffing revisions " . ( defined($revision1) ? $revision1 : "[NULL]" ) . " and " . ( defined($revision2) ? $revision2 : "[NULL]" ) ); # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); # if no files were specified, we need to work out what files we should be providing status on ... argsfromdir($updater) if ( scalar ( @{$state->{args}} ) == 0 ); # foreach file specified on the commandline ... foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); my ( $fh, $file1, $file2, $meta1, $meta2, $filediff ); my $wrev = revparse($filename); # We need _something_ to diff against next unless ( defined ( $wrev ) ); # if we have a -r switch, use it if ( defined ( $revision1 ) ) { ( undef, $file1 ) = tempfile( DIR => $TEMP_DIR, OPEN => 0 ); $meta1 = $updater->getmeta($filename, $revision1); unless ( defined ( $meta1 ) and $meta1->{filehash} ne "deleted" ) { print "E File $filename at revision 1.$revision1 doesn't exist\n"; next; } transmitfile($meta1->{filehash}, $file1); } # otherwise we just use the working copy revision else { ( undef, $file1 ) = tempfile( DIR => $TEMP_DIR, OPEN => 0 ); $meta1 = $updater->getmeta($filename, $wrev); transmitfile($meta1->{filehash}, $file1); } # if we have a second -r switch, use it too if ( defined ( $revision2 ) ) { ( undef, $file2 ) = tempfile( DIR => $TEMP_DIR, OPEN => 0 ); $meta2 = $updater->getmeta($filename, $revision2); unless ( defined ( $meta2 ) and $meta2->{filehash} ne "deleted" ) { print "E File $filename at revision 1.$revision2 doesn't exist\n"; next; } transmitfile($meta2->{filehash}, $file2); } # otherwise we just use the working copy else { $file2 = $state->{entries}{$filename}{modified_filename}; } # if we have been given -r, and we don't have a $file2 yet, lets get one if ( defined ( $revision1 ) and not defined ( $file2 ) ) { ( undef, $file2 ) = tempfile( DIR => $TEMP_DIR, OPEN => 0 ); $meta2 = $updater->getmeta($filename, $wrev); transmitfile($meta2->{filehash}, $file2); } # We need to have retrieved something useful next unless ( defined ( $meta1 ) ); # Files to date if the working copy and repo copy have the same revision, and the working copy is unmodified next if ( not defined ( $meta2 ) and $wrev == $meta1->{revision} and ( ( $state->{entries}{$filename}{unchanged} and ( not defined ( $state->{entries}{$filename}{conflict} ) or $state->{entries}{$filename}{conflict} !~ /^\+=/ ) ) or ( defined($state->{entries}{$filename}{modified_hash}) and $state->{entries}{$filename}{modified_hash} eq $meta1->{filehash} ) ) ); # Apparently we only show diffs for locally modified files next unless ( defined($meta2) or defined ( $state->{entries}{$filename}{modified_filename} ) ); print "M Index: $filename\n"; print "M ===================================================================\n"; print "M RCS file: $state->{CVSROOT}/$state->{module}/$filename,v\n"; print "M retrieving revision 1.$meta1->{revision}\n" if ( defined ( $meta1 ) ); print "M retrieving revision 1.$meta2->{revision}\n" if ( defined ( $meta2 ) ); print "M diff "; foreach my $opt ( keys %{$state->{opt}} ) { if ( ref $state->{opt}{$opt} eq "ARRAY" ) { foreach my $value ( @{$state->{opt}{$opt}} ) { print "-$opt $value "; } } else { print "-$opt "; print "$state->{opt}{$opt} " if ( defined ( $state->{opt}{$opt} ) ); } } print "$filename\n"; $log->info("Diffing $filename -r $meta1->{revision} -r " . ( $meta2->{revision} or "workingcopy" )); ( $fh, $filediff ) = tempfile ( DIR => $TEMP_DIR ); if ( exists $state->{opt}{u} ) { system("diff -u -L '$filename revision 1.$meta1->{revision}' -L '$filename " . ( defined($meta2->{revision}) ? "revision 1.$meta2->{revision}" : "working copy" ) . "' $file1 $file2 > $filediff"); } else { system("diff $file1 $file2 > $filediff"); } while ( <$fh> ) { print "M $_"; } close $fh; } print "ok\n"; } sub req_log { my ( $cmd, $data ) = @_; argsplit("log"); $log->debug("req_log : " . ( defined($data) ? $data : "[NULL]" )); #$log->debug("log state : " . Dumper($state)); my ( $minrev, $maxrev ); if ( defined ( $state->{opt}{r} ) and $state->{opt}{r} =~ /([\d.]+)?(::?)([\d.]+)?/ ) { my $control = $2; $minrev = $1; $maxrev = $3; $minrev =~ s/^1\.// if ( defined ( $minrev ) ); $maxrev =~ s/^1\.// if ( defined ( $maxrev ) ); $minrev++ if ( defined($minrev) and $control eq "::" ); } # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); # if no files were specified, we need to work out what files we should be providing status on ... argsfromdir($updater) if ( scalar ( @{$state->{args}} ) == 0 ); # foreach file specified on the commandline ... foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); my $headmeta = $updater->getmeta($filename); my $revisions = $updater->getlog($filename); my $totalrevisions = scalar(@$revisions); if ( defined ( $minrev ) ) { $log->debug("Removing revisions less than $minrev"); while ( scalar(@$revisions) > 0 and $revisions->[-1]{revision} < $minrev ) { pop @$revisions; } } if ( defined ( $maxrev ) ) { $log->debug("Removing revisions greater than $maxrev"); while ( scalar(@$revisions) > 0 and $revisions->[0]{revision} > $maxrev ) { shift @$revisions; } } next unless ( scalar(@$revisions) ); print "M \n"; print "M RCS file: $state->{CVSROOT}/$state->{module}/$filename,v\n"; print "M Working file: $filename\n"; print "M head: 1.$headmeta->{revision}\n"; print "M branch:\n"; print "M locks: strict\n"; print "M access list:\n"; print "M symbolic names:\n"; print "M keyword substitution: kv\n"; print "M total revisions: $totalrevisions;\tselected revisions: " . scalar(@$revisions) . "\n"; print "M description:\n"; foreach my $revision ( @$revisions ) { print "M ----------------------------\n"; print "M revision 1.$revision->{revision}\n"; # reformat the date for log output $revision->{modified} = sprintf('%04d/%02d/%02d %s', $3, $DATE_LIST->{$2}, $1, $4 ) if ( $revision->{modified} =~ /(\d+)\s+(\w+)\s+(\d+)\s+(\S+)/ and defined($DATE_LIST->{$2}) ); $revision->{author} =~ s/\s+.*//; $revision->{author} =~ s/^(.{8}).*/$1/; print "M date: $revision->{modified}; author: $revision->{author}; state: " . ( $revision->{filehash} eq "deleted" ? "dead" : "Exp" ) . "; lines: +2 -3\n"; my $commitmessage = $updater->commitmessage($revision->{commithash}); $commitmessage =~ s/^/M /mg; print $commitmessage . "\n"; } print "M =============================================================================\n"; } print "ok\n"; } sub req_annotate { my ( $cmd, $data ) = @_; argsplit("annotate"); $log->info("req_annotate : " . ( defined($data) ? $data : "[NULL]" )); #$log->debug("status state : " . Dumper($state)); # Grab a handle to the SQLite db and do any necessary updates my $updater = GITCVS::updater->new($state->{CVSROOT}, $state->{module}, $log); $updater->update(); # if no files were specified, we need to work out what files we should be providing annotate on ... argsfromdir($updater) if ( scalar ( @{$state->{args}} ) == 0 ); # we'll need a temporary checkout dir my $tmpdir = tempdir ( DIR => $TEMP_DIR ); my ( undef, $file_index ) = tempfile ( DIR => $TEMP_DIR, OPEN => 0 ); $log->info("Temp checkoutdir creation successful, basing annotate session work on '$tmpdir', index file is '$file_index'"); $ENV{GIT_DIR} = $state->{CVSROOT} . "/"; $ENV{GIT_INDEX_FILE} = $file_index; chdir $tmpdir; # foreach file specified on the commandline ... foreach my $filename ( @{$state->{args}} ) { $filename = filecleanup($filename); my $meta = $updater->getmeta($filename); next unless ( $meta->{revision} ); # get all the commits that this file was in # in dense format -- aka skip dead revisions my $revisions = $updater->gethistorydense($filename); my $lastseenin = $revisions->[0][2]; # populate the temporary index based on the latest commit were we saw # the file -- but do it cheaply without checking out any files # TODO: if we got a revision from the client, use that instead # to look up the commithash in sqlite (still good to default to # the current head as we do now) system("git-read-tree", $lastseenin); unless ($? == 0) { die "Error running git-read-tree $lastseenin $file_index $!"; } $log->info("Created index '$file_index' with commit $lastseenin - exit status $?"); # do a checkout of the file system('git-checkout-index', '-f', '-u', $filename); unless ($? == 0) { die "Error running git-checkout-index -f -u $filename : $!"; } $log->info("Annotate $filename"); # Prepare a file with the commits from the linearized # history that annotate should know about. This prevents # git-jsannotate telling us about commits we are hiding # from the client. open(ANNOTATEHINTS, ">$tmpdir/.annotate_hints") or die "Error opening > $tmpdir/.annotate_hints $!"; for (my $i=0; $i < @$revisions; $i++) { print ANNOTATEHINTS $revisions->[$i][2]; if ($i+1 < @$revisions) { # have we got a parent? print ANNOTATEHINTS ' ' . $revisions->[$i+1][2]; } print ANNOTATEHINTS "\n"; } print ANNOTATEHINTS "\n"; close ANNOTATEHINTS; my $annotatecmd = 'git-annotate'; open(ANNOTATE, "-|", $annotatecmd, '-l', '-S', "$tmpdir/.annotate_hints", $filename) or die "Error invoking $annotatecmd -l -S $tmpdir/.annotate_hints $filename : $!"; my $metadata = {}; print "E Annotations for $filename\n"; print "E ***************\n"; while ( ) { if (m/^([a-zA-Z0-9]{40})\t\([^\)]*\)(.*)$/i) { my $commithash = $1; my $data = $2; unless ( defined ( $metadata->{$commithash} ) ) { $metadata->{$commithash} = $updater->getmeta($filename, $commithash); $metadata->{$commithash}{author} =~ s/\s+.*//; $metadata->{$commithash}{author} =~ s/^(.{8}).*/$1/; $metadata->{$commithash}{modified} = sprintf("%02d-%s-%02d", $1, $2, $3) if ( $metadata->{$commithash}{modified} =~ /^(\d+)\s(\w+)\s\d\d(\d\d)/ ); } printf("M 1.%-5d (%-8s %10s): %s\n", $metadata->{$commithash}{revision}, $metadata->{$commithash}{author}, $metadata->{$commithash}{modified}, $data ); } else { $log->warn("Error in annotate output! LINE: $_"); print "E Annotate error \n"; next; } } close ANNOTATE; } # done; get out of the tempdir chdir "/"; print "ok\n"; } # This method takes the state->{arguments} array and produces two new arrays. # The first is $state->{args} which is everything before the '--' argument, and # the second is $state->{files} which is everything after it. sub argsplit { return unless( defined($state->{arguments}) and ref $state->{arguments} eq "ARRAY" ); my $type = shift; $state->{args} = []; $state->{files} = []; $state->{opt} = {}; if ( defined($type) ) { my $opt = {}; $opt = { A => 0, N => 0, P => 0, R => 0, c => 0, f => 0, l => 0, n => 0, p => 0, s => 0, r => 1, D => 1, d => 1, k => 1, j => 1, } if ( $type eq "co" ); $opt = { v => 0, l => 0, R => 0 } if ( $type eq "status" ); $opt = { A => 0, P => 0, C => 0, d => 0, f => 0, l => 0, R => 0, p => 0, k => 1, r => 1, D => 1, j => 1, I => 1, W => 1 } if ( $type eq "update" ); $opt = { l => 0, R => 0, k => 1, D => 1, D => 1, r => 2 } if ( $type eq "diff" ); $opt = { c => 0, R => 0, l => 0, f => 0, F => 1, m => 1, r => 1 } if ( $type eq "ci" ); $opt = { k => 1, m => 1 } if ( $type eq "add" ); $opt = { f => 0, l => 0, R => 0 } if ( $type eq "remove" ); $opt = { l => 0, b => 0, h => 0, R => 0, t => 0, N => 0, S => 0, r => 1, d => 1, s => 1, w => 1 } if ( $type eq "log" ); while ( scalar ( @{$state->{arguments}} ) > 0 ) { my $arg = shift @{$state->{arguments}}; next if ( $arg eq "--" ); next unless ( $arg =~ /\S/ ); # if the argument looks like a switch if ( $arg =~ /^-(\w)(.*)/ ) { # if it's a switch that takes an argument if ( $opt->{$1} ) { # If this switch has already been provided if ( $opt->{$1} > 1 and exists ( $state->{opt}{$1} ) ) { $state->{opt}{$1} = [ $state->{opt}{$1} ]; if ( length($2) > 0 ) { push @{$state->{opt}{$1}},$2; } else { push @{$state->{opt}{$1}}, shift @{$state->{arguments}}; } } else { # if there's extra data in the arg, use that as the argument for the switch if ( length($2) > 0 ) { $state->{opt}{$1} = $2; } else { $state->{opt}{$1} = shift @{$state->{arguments}}; } } } else { $state->{opt}{$1} = undef; } } else { push @{$state->{args}}, $arg; } } } else { my $mode = 0; foreach my $value ( @{$state->{arguments}} ) { if ( $value eq "--" ) { $mode++; next; } push @{$state->{args}}, $value if ( $mode == 0 ); push @{$state->{files}}, $value if ( $mode == 1 ); } } } # This method uses $state->{directory} to populate $state->{args} with a list of filenames sub argsfromdir { my $updater = shift; $state->{args} = []; foreach my $file ( @{$updater->gethead} ) { next if ( $file->{filehash} eq "deleted" and not defined ( $state->{entries}{$file->{name}} ) ); next unless ( $file->{name} =~ s/^$state->{directory}// ); push @{$state->{args}}, $file->{name}; } } # This method cleans up the $state variable after a command that uses arguments has run sub statecleanup { $state->{files} = []; $state->{args} = []; $state->{arguments} = []; $state->{entries} = {}; } sub revparse { my $filename = shift; return undef unless ( defined ( $state->{entries}{$filename}{revision} ) ); return $1 if ( $state->{entries}{$filename}{revision} =~ /^1\.(\d+)/ ); return -$1 if ( $state->{entries}{$filename}{revision} =~ /^-1\.(\d+)/ ); return undef; } # This method takes a file hash and does a CVS "file transfer" which transmits the # size of the file, and then the file contents. # If a second argument $targetfile is given, the file is instead written out to # a file by the name of $targetfile sub transmitfile { my $filehash = shift; my $targetfile = shift; if ( defined ( $filehash ) and $filehash eq "deleted" ) { $log->warn("filehash is 'deleted'"); return; } die "Need filehash" unless ( defined ( $filehash ) and $filehash =~ /^[a-zA-Z0-9]{40}$/ ); my $type = `git-cat-file -t $filehash`; chomp $type; die ( "Invalid type '$type' (expected 'blob')" ) unless ( defined ( $type ) and $type eq "blob" ); my $size = `git-cat-file -s $filehash`; chomp $size; $log->debug("transmitfile($filehash) size=$size, type=$type"); if ( open my $fh, '-|', "git-cat-file", "blob", $filehash ) { if ( defined ( $targetfile ) ) { open NEWFILE, ">", $targetfile or die("Couldn't open '$targetfile' for writing : $!"); print NEWFILE $_ while ( <$fh> ); close NEWFILE; } else { print "$size\n"; print while ( <$fh> ); } close $fh or die ("Couldn't close filehandle for transmitfile()"); } else { die("Couldn't execute git-cat-file"); } } # This method takes a file name, and returns ( $dirpart, $filepart ) which # refers to the directory portion and the file portion of the filename # respectively sub filenamesplit { my $filename = shift; my ( $filepart, $dirpart ) = ( $filename, "." ); ( $filepart, $dirpart ) = ( $2, $1 ) if ( $filename =~ /(.*)\/(.*)/ ); $dirpart .= "/"; return ( $filepart, $dirpart ); } sub filecleanup { my $filename = shift; return undef unless(defined($filename)); if ( $filename =~ /^\// ) { print "E absolute filenames '$filename' not supported by server\n"; return undef; } $filename =~ s/^\.\///g; $filename = $state->{directory} . $filename; return $filename; } package GITCVS::log; #### #### Copyright The Open University UK - 2006. #### #### Authors: Martyn Smith #### Martin Langhoff #### #### use strict; use warnings; =head1 NAME GITCVS::log =head1 DESCRIPTION This module provides very crude logging with a similar interface to Log::Log4perl =head1 METHODS =cut =head2 new Creates a new log object, optionally you can specify a filename here to indicate the file to log to. If no log file is specified, you can specify one later with method setfile, or indicate you no longer want logging with method nofile. Until one of these methods is called, all log calls will buffer messages ready to write out. =cut sub new { my $class = shift; my $filename = shift; my $self = {}; bless $self, $class; if ( defined ( $filename ) ) { open $self->{fh}, ">>", $filename or die("Couldn't open '$filename' for writing : $!"); } return $self; } =head2 setfile This methods takes a filename, and attempts to open that file as the log file. If successful, all buffered data is written out to the file, and any further logging is written directly to the file. =cut sub setfile { my $self = shift; my $filename = shift; if ( defined ( $filename ) ) { open $self->{fh}, ">>", $filename or die("Couldn't open '$filename' for writing : $!"); } return unless ( defined ( $self->{buffer} ) and ref $self->{buffer} eq "ARRAY" ); while ( my $line = shift @{$self->{buffer}} ) { print {$self->{fh}} $line; } } =head2 nofile This method indicates no logging is going to be used. It flushes any entries in the internal buffer, and sets a flag to ensure no further data is put there. =cut sub nofile { my $self = shift; $self->{nolog} = 1; return unless ( defined ( $self->{buffer} ) and ref $self->{buffer} eq "ARRAY" ); $self->{buffer} = []; } =head2 _logopen Internal method. Returns true if the log file is open, false otherwise. =cut sub _logopen { my $self = shift; return 1 if ( defined ( $self->{fh} ) and ref $self->{fh} eq "GLOB" ); return 0; } =head2 debug info warn fatal These four methods are wrappers to _log. They provide the actual interface for logging data. =cut sub debug { my $self = shift; $self->_log("debug", @_); } sub info { my $self = shift; $self->_log("info" , @_); } sub warn { my $self = shift; $self->_log("warn" , @_); } sub fatal { my $self = shift; $self->_log("fatal", @_); } =head2 _log This is an internal method called by the logging functions. It generates a timestamp and pushes the logged line either to file, or internal buffer. =cut sub