eval '(exit $?0)' && eval 'exec perl -S $0 ${1+"$@"}' & eval 'exec perl -S $0 $argv:q' if 0; # THE PRECEEDING STUFF EXECS perl via $PATH # -*-Fundamental-*- # $Id: //guest/perforce_software/utils/cvs2p4/bin/genmetadata#32 $ # # Richard Geiger # require 5.000; require "timelocal.pl"; #use bytes; my $revpat; my $errors; sub dirname { local($dir) = @_; $dir =~ s%^$%.%; $dir = "$dir/"; if ($dir =~ m%^/[^/]*//*$%) { return "/"; } if ($dir =~ m%^.*[^/]//*[^/][^/]*//*$%) { $dir =~ s%^(.*[^/])//*[^/][^/]*//*$%$1%; { return $dir; } } return "."; } use Carp; # ...or flounder. (This will fail unless 'perl' is a perl5!) $| = 1; ($Myname = $0) =~ s%^.*/%%; $Mydir = &dirname($0); $Here = `/bin/pwd`; chop $Here; if ($Mydir ne ".") { chdir "$Mydir" || die "$Myname: can't chdir \"$Mydir\": $!"; } chdir ".." || die "$Myname: can't chdir \"..\": $!"; $Mydir = `/bin/pwd`; chop $Mydir; chdir $Here || die "$Myname: can't chdir \"$Here\": $!"; require "$Mydir/lib/util.pl"; $Usage = <branch mapping determinations we make. Let's # let dolabels sort it out... :-) # sub set_mapping { my ($tag, $sel_br) = @_; my @sels = split(/$S/, $Tags{$tag}); foreach my $sel (@sels) { # Do we already have this mapping? if ($sel_br eq $sel) { return; } } # If we get here, it was a new mapping... add it to the list # push(@sels, $sel_br); $Tags{$tag} = join("$S", @sels); } sub exclude { my ($repfile, $tag, $is_branch) = @_; my $mod = $repfile; $mod =~ s/^$CVS_MODULE\/?//; if ($mod =~ /^([^\/]+)\//) { $mod = $1; } else { $mod = ""; } if ($is_branch) { return (defined(${Exclude_branches{"*"}}{$tag}) || defined(${Exclude_branches{$mod}}{$tag})); } else { return (defined(${Exclude_tags{"*"}}{$tag}) || defined(${Exclude_tags{$mod}}{$tag})); } } # initialize RCS_Tags, RCS_Revs, (etc.) from an RCS ,v file. # sub set_RCS_revs { my ($path, $do_texts) = @_; my $repdir; my $repfile; my $tag; my $rev; my $tok; my ($d_havedelta, $d_branches, $d_next, $d_rev); my ($ext, $format); my $msg; my $admaci = 0; my $File; my ($CVS_module) = ($path =~ m/^$CVS_ROOT\/([^\/]+)\//); undef $RCS_File; undef $RCS_Valid; undef $RCS_expand; undef $RCS_exec; undef %RCS_Tags; # both plain and branch (and special "head") undef %RCS_Branchtags; # branch, only undef %RCS_rev_brtags; # inverse of the above - keyed by branch tag value undef %RCS_Revs; undef %RCS_States; undef %RCS_Authors; undef %RCS_Dates; undef %RCS_Nexts; undef %RCS_Prevs; undef $RCS_Branch; undef $RCS_import_is_main; undef $RCS_import_branch; undef $rcsline_buf; ($Rcs_File = $path) =~ s%^.*/%%; ($File = $Rcs_File) =~ s/,v$//; $repdir = &dirname($path); if (-r "$repdir/.adamci,v") { $adamci = 1; } $repfile = $path; $RCS_File = $repfile; if (! $CVSNT && -x $repfile) { $RCS_exec = "*"; } # What the subshell needs for "'" escaping in an "'"-quoted string: # $path =~ s/'/'\\''/g; my $rlogcmd = "$Mydir/bin/rlog '$path'"; if (! open(RLOG, "$rlogcmd | ")) { die "\n\nopen [$rlogcmd]"; } local $mode = "head"; local $rev_num; local $rev_msg; local $rev_author; local $rev_state; local $rev_date; local $rev_next; local $rev_branches; local @tmprevs; # This function achieves 100% global abuse! # (Basically just to save inlining the code)... # sub put_rev { # First, trim the tailing "---..." lines from the log message...: while ($rev_msg =~ /----------------------------\n$/s) { $rev_msg =~ s/----------------------------\n$//s; } # This little stackiness adjusts the order in which # revisions are seen to bee that in which they occur in # the file; rlog inverts them. # if (($rev_num =~ tr/\./\./) == 1 || $rev_num =~ /\.1$/) { &setrevs($rev_num, $rev_next, $rev_branches, $rev_date, $rev_author, $rev_state); my $revstr; while ($revstr = pop(@revstack)) { &setrevs(split(/\001/, $revstr)); } } else { push(@revstack, "$rev_num\001$rev_next\001$rev_branches\001$rev_date\001$rev_author\001$rev_state"); } $RCS_Logs{$rev_num} = $rev_msg; $mode = "rev"; } my $have_rev = 0; # Entropy embodied!: this is the easy way to make sure we only attend to # the first 1.1.1 tag seen. # my $have_1_1_1 = 0; while () { if ($mode eq "head") { if (/^RCS file: (.*)$/) { $RCS_File = $1; } if (/^head: (.*)$/) { $RCS_Tags{"head"} = $1; } if (/^branch: (.*)$/) { $RCS_Branch = $1; if ($RCS_Branch eq "1.1.1") { $RCS_import_is_main = 1; } } if (/^symbolic names:/) { $mode = "symbols"; } } elsif ($mode eq "symbols") { # This now has to be a two-pass operation, since we need to know # the vendor beanch name before doing the revisions properly... if (/^\t([^ :]+): (.*)$/) { my ($tag, $rev) = ($1, $2); if ($rev eq "1.1.1") { if ($have_1_1_1) { next; } $have_1_1_1 = 1; } push (@tmprevs, "$1$S$2"); if ($rev eq "1.1.1") { $RCS_import_branch = $tag; } # [see re "At Ironport", below]... # if ($IRONPORT && $rev =~ /$revpat/o) { $RCS_import_is_main = 1; } } elsif (/^keyword substitution: (.*)/) { $RCS_expand = $1; if ($RCS_expand eq "kv") { $RCS_expand = ""; } $mode = "mid"; } } elsif ($mode eq "mid") { # At IronPort, some non-cvs imported files somehow started # growing local revs along 1.1.m.n (with no default branch # set); this is part of an attempt to deal with this # unpleasantness. I have conditionalized it, so as to be able # to switch it on or off by setting $IRONPORT (or not). # if ($IRONPORT && $RCS_import_is_main && (! $RCS_import_branch)) { $RCS_import_branch = "import-spoofed"; push(@tmprevs, "import-spoofed${S}1.1.1"); } # Now we process the revision information more fully... # while ($#tmprevs >= 0) { my ($tag, $rev) = split(/$S/, shift(@tmprevs)); if (($cnt = $rev =~ tr/\./\./) % 2 == 0) { # Handle "RCS" branch tags: # my @nums = split(/\./, $rev); splice @nums, $#nums, 0, (0); $rev = join(".", @nums); } if ((! $PureRCS) && $rev =~ /\.0\.[0-9]+$/) { if (! $adamci) { if (defined($BRANCH_FLASH)) { $tag =~ s/$BRANCH_FLASH$//; } $RCS_Tags{$tag} = $rev; $RCS_Branchtags{$tag} = $rev; $Brtags{$tag} = 1; if ($RCS_rev_brtags{$rev}) { print "WARNING: file: $RCS_File: dup CVS branch tags on rev <$rev> (tag <$tag>)(ignored)\n"; } else { $RCS_rev_brtags{$rev} = $tag; } } } elsif (($cnt = $rev =~ tr/\./\./) % 2 == 1) { # Ignore RCS tags named "head"; (CVS users should never create such!) # if ($tag eq "head") { next; } $RCS_Tags{$tag} = $rev; my $rcspath; ($rcspath = $repfile) =~ s/,v$//; if ($IMPORTTAGSPOOF && $rev eq "1.1.1.1") { $rev = "1.1"; } if (! &exclude($repfile, $tag)) { # Is this one of those wacky main/import shared revs...? my $import_as_main = ""; if ($rev =~ /$revpat/o && ((! defined($RCS_Revs{"1.2"})) || ($RCS_Dates{$rev} < $RCS_Dates{"1.2"}))) { $import_as_main = $RCS_import_branch; } print LABELS "$tag$S$rcspath$S$rev$S$import_as_main\n"; # don't want to wipe out previously observed ones, as it might # already have found the "real" mapping! # if ($import_as_main) { &set_mapping($tag, "main"); } else { &set_mapping($tag, "UNMAPPED"); } } } # end of deferred rev processing } if (/^description:/) { $mode = "rev"; } } elsif (($mode eq "rev" || $mode =~ /revmsg/) && /^revision\s+([^\s]+)\s*next\s*([^\s]*)$/) { my ($t1, $t2) = ($1, $2); if ($have_rev) { &put_rev(); } $rev_num = $t1; $rev_next = $t2; $rev_branches = ""; $have_rev = 1; $mode = "rev"; } elsif ($mode eq "rev") { if (/^date: ([^;]+);\s+author: ([^;]+);\s+state: ([^;]+);/) { ($rev_date, $rev_author, $rev_state) = ($1, $2, $3); if ($INTOUCH) { $rev_author =~ s/^ith\\//; $rev_author =~ tr/A-Z/a-z/; } my @d = split(/[\/ :]/, $rev_date); if ($d[0] < 2000) { $d[0] -= 1900; } $rev_date = join(".", @d); $RCS_dates{$rev_num} = $rev_date; $RCS_authors{$rev_num} = $rev_author; $RCS_states{$rev_num} = $rev_state; $rev_msg = ""; $mode = "revmsg0"; } } elsif ($mode =~ "^revmsg") { if ($_ eq "=============================================================================\n") { if ($have_rev) { &put_rev(); } } elsif ($mode eq "revmsg0" && /^branches:\s+(.*)/) { my $branches = $1; $branches =~ s/;//g; foreach my $branch (split(/\s+/, $branches)) { if ($PureRCS) { my ($l, $b, $r) = ($tok =~ /(.*)\.(\d+)\.(\d+)$/); my $tag = "$l.$b"; $RCS_Branchtags{$tag} = $rev; } if ($rev_branches ne "") { $rev_branches .= " "; } $rev_branches .= "$branch.1"; } } else { $rev_msg .= "$_"; } $mode = "revmsg1"; } else { die "assert can't get here"; } } # OK, we get here having seen every tag in the file. See whether, # for any of the tags we saw in this file, we can determine the # branch for that tag, and remember the mapping globally. try_tag: foreach my $tag (sort(keys(%RCS_Tags))) { # Only want to consider rev tags: # if (defined($RCS_Branchtags{$tag})) { next try_tag; } # Throw away stuff on the exclude list... if (&exclude($RCS_File, $tag)) { next try_tag; } my $tagrev = $RCS_Tags{$tag}; my (@sel_brs) = &potential_branches($tag); #### "non-potential import" case: # # So: do any of the known branch tags in this file select the # tagged revision? # my $tagrev_brnum; ($tagrev_brnum = $tagrev) =~ s/\.\d+$//; if ($#sel_brs == 0) { $sel_br = $sel_brs[0]; if ($RCS_import_is_main && $sel_br eq "main" && $RCS_Tags{$tag} =~ /$revpat/o) { &set_mapping($tag, "main"); } # so... if we get here, in theory, the heuristic was applicable; # exactly one branch tag selected this branch point. $sel_br has # the presumptive mapping. # [fall through, to &set_mapping, below] } else { # As a last resort, try the mapping function! $sel_br = ""; if (defined(&brmap)) { $sel_br = &brmap($tag, $CVS_module); } if (! $sel_br) { next try_tag; } # [fall through, to &set_mapping, below] } # Now, make sure we didn't get a different answer than from some previous # file: # &set_mapping($tag, $sel_br); } if ($Prescan) { return 1; } if ($adamci) { undef %metadata; eval `$CO -q -p $repdir/.adamci,v`; # TBD: Optimize this to only reread if new dir? foreach my $p (keys(%{$metadata{'context_rules'}})) { my $k; ($k) = keys( %{${${$metadata{'context_rules'}}{$p}}{$File}} ); if (defined($k) && $k ne "TBB") { my $rev = ${${${${$metadata{'context_rules'}}{$p}}{$File}}{$k}}[1]; $rev =~ s/^(.*\.\d+)\.(\d+)$/$1.0.$2/; $RCS_Tags{$p} = $rev; $RCS_Branchtags{$p} = $rev; } } } close RCS; $RCS_Valid = 1; return 1; } sub rcs_tip { my ($rev) = @_; my $next; # Find the tip of the branch... # while (1) { if (! defined($RCS_Revs{$rev})) { return "???"; } ($next) = split(/:/, $RCS_Revs{$rev}); if ($next eq "") { return $rev; } $rev = $next; } } # given a "CVS line spec" (revision #, "head", or a tag) # sub rev_on_line { my($line) = @_; my $added_on_branch = 0; if ($RCS_Tags{$line} =~ /^(.*)\.(0\.\d+)$/) { if ($RCS_States{&rev_on_line("head")} eq "dead") { $added_on_branch = 1; } } # Hmmm. Why is this EVER needed now? I am tentaively removing it, because # it causes one of David Birkhead's files to get the wrong revision, still # passes out own poor test/runtest, and we'll seeon the next pass of the # IronPort conversion! # # if ((! $added_on_branch) && ($line eq $TRUNKLINE) && ($RCS_Tags{$line})) # { $line = "head"; } if (defined($RCS_Tags{$line})) { $line = $RCS_Tags{$line}; } elsif ($line !~ /^[0-9.]+$/) { return "none"; } if ($line =~ /\.0\.([0-9]+)$/) { # It's a CVS branch revision number... demunge it: # $line =~ s/\.0(\.[0-9]+)$/$1/; # OK, see whether the branch actually exists: # (We have an assumption here that first rev is always ".1") # $line = "$line.1"; if (! defined($RCS_Revs{$line})) { # Nope, so fall back to the root, which we know to be an # existing revision... $line =~ s/\.[0-9]+\.[0-9]+$//; return $line; } # Yep, the branch exists; so it *is* a branch; so, we go out to # the tip. (Right?) # return &rcs_tip($line); } # OK, do we have an RCS branch or an RCS revision number? (count # the dots) # if (($line =~ tr/\././) % 2) { # An odd number of dots... it's a revision number # if (defined($RCS_Revs{$line})) { return $line; } return "none"; # Or should we assert? } else { # An even number of dots... it's a branch number # (We have an assumption here that first rev is always ".1") # return &rcs_tip("$line.1"); } } # Is rev "$this" < rev "$that"? # Note: "" is considered infinitely high # revs must be of the same order (I.e., same # of "."s) # sub rev_lt { my($this, $that) = @_; my(@this, @that); if (! $that) { return 1; } @this = split(/\./, $this); @that = split(/\./, $that); while (1) { $this_n = shift(@this); $that_n = shift(@that); if ($this_n < $that_n) { return 1; } if ($this_n > $that_n) { return 0; } if ($#this < 0) { return 0; } } } # Note: "" is considered infinitely high # sub linerev_gt { my($this, $that) = @_; my $ret; if (! $that) { $ret = 1; } else { my $thisord, $thatord; $thisord = ($this =~ tr/\././); $thatord = ($that =~ tr/\././); if ($thisord < $thatord) { $ret = 1; } elsif ($thisord > $thatord) { $ret = 0; } else { $ret = &rev_lt($that, $this); } } return $ret; } # Maximum size for a log message we'll keep. # Messages beyond this get truncated, to accomodate a limitation # on the key/value pair size in ndbm. That's life. # $MAXSZ = 256*3; # Generate the metadata for a single file # sub dofile { local($dir, $file) = @_; if ($file !~ /,v$/) { return; } if ($IGNOREFILES && $file =~ /$IGNOREFILES/) { return; } if ($file =~ /[\000-\014\016-\037\177-\377]/) { print "$Myname: RCS filename with non-printable characters (skipped): "; $l = length($file); for ($i = 0; $i <= $l; $i++) { $c = substr($file, $i, 1); if ($c =~ /[\000-\014\016-\037\177-\377]/) { printf "\\%03o", ord($c); } else { print "$c"; } } print "\n"; return; } # uncomment this to ban files with '...'. Leave commented out to # rename them with ",,," # # elsif ($file =~ /\.\.\./) # { # print "$Myname: RCS filename with illegal Perforce characters (skipped): $file\n"; # return; # } undef %RCS_lines; undef %RCS_Branches; undef $Firstusedrev; print "========== $dir/$file"; #if (0) # for fast file,v Attic/file,v scan #{ # This parses the RCS information from the ,v file, filling # in various data structures that we use, below. # if (&set_RCS_revs("$dir/$file", 0) == undef) { print " (empty)\n"; return; } # empty ,v # What RCS keyword expansion options are in effect? # (We use this to detect binary files) # $options = "${RCS_expand}$RCS_exec"; if (! $options) { $options = "-"; } #} @path = split(/\//, "$dir/$file"); $file = pop(@path); $file =~ s/,v$//; if ($path[$#path] eq "Attic") { pop @path; } $na_dir = join("/", @path); $path = sprintf("%s%s%s", $dir, $dir ? "/" : "", $file); $na_path = sprintf("%s%s%s", $na_dir, $na_dir ? "/" : "", $file); # The "defined($Filesseen{$path})" saves lots of stat()s! # if (defined($Filesseen{$na_path})) { my @p = split(/\//, "$na_path"); splice(@p, $#p, 0, "Attic"); my $a_path = join("/", @p); # Users have seen this, which previous caused mysterious death # in the sort phase... let's be a little more informative: # if (-f "$na_path,v" && -f "$a_path,v") { my $msg = "repository has both\n $na_path\n $a_path"; print " error: $msg\n"; $errors .= "$msg\n"; return; } else { die "assert: dofile(): duplicate path: $na_path"; } } print " ok\n"; $Filesseen{$na_path} = 1; if ($Prescan) { return; } # For all of the branches we see, store the tip revision in # $HAVELINES{$line}; this is also where we weed out # codelines we are not interested in. # my @codelines = keys %RCS_Branchtags; if (! defined($RCS_Branchtags{$TRUNKLINE})) { push(@codelines, $TRUNKLINE); } foreach $line (@codelines) { # Note: lines added to the exclude_branches file should # give the actual, complete branch tag name, not the # "de-flashed" (if any) rendition. # if (&exclude("$dir/$file", $line, 1)) { next; } $no_flash_line = $line; if (defined($BRANCH_FLASH)) { $no_flash_line =~ s/$BRANCH_FLASH$//; } if ($WANTLINES && ! (defined($WANTLINES{$no_flash_line}))) { next; } if (($tiprev = &rev_on_line($line)) eq "none") { next; } $HAVELINES{$line} = $tiprev; } # Now we go through each line, to build a list of the RCS revs that # need to be exported into the metadata stream. # while (1) # We have more lines to deal with... { (@k) = (keys %HAVELINES); if ($#k < 0) { last; } my $theline; # Choose the highest numbered line of the lowest "order" for # the next one to export... this will always pick up lines on # branches nearer the trunk first, so the subsequent branches # will have a place to branch from! # foreach $k (@k) { if ($k eq $TRUNKLINE) { $theline = $k; last; } # if both lines select the *same* revision... # if ($HAVELINES{$k} eq $HAVELINES{$theline}) { # ...take the one with the lower branch tag order first # if (&linerev_gt($RCS_Branchtags{$k}, $RCS_Branchtags{$theline})) { $theline = $k; next; } } if (&linerev_gt($HAVELINES{$k}, $HAVELINES{$theline})) { $theline = $k; } } $rev = $tiprev = &rev_on_line($theline); $t = $theline; if (defined($BRANCH_FLASH)) { $t =~ s/$BRANCH_FLASH$//; } # This is where we build the list of codelines we've encountered. # $All_lines{$t} = 1; if ( (defined($RCS_lines{$rev})) && ($theline ne $TRUNKLINE) && (($rev =~ tr/\././) < ($RCS_Branchtags{$theline} =~ tr/\././))) { if ($RCS_Branches{$rev}) { $RCS_Branches{$rev} .= ":"; } $RCS_Branches{$rev} .= $t; } else { while ($rev && ! defined($RCS_lines{$rev})) { $RCS_lines{$rev} = $theline; # if we are looking at 1.1.m.n, and it's commit time is less # than any 1.2, or there isn't a 1.2 present, then add a "+" # to $RCS_lines{$rev}, to so indicate to later stages... # if ($rev =~ /$revpat/o && ($1 >= 2 || ($1 eq "1" && $2 >= 2)) && ((! defined($RCS_Revs{"1.2"}) || $RCS_Dates{$rev} lt $RCS_Dates{"1.2"}))) { $RCS_lines{$rev} .= "+"; } $rev = $RCS_Prevs{$rev}; } if ($rev) { if ($RCS_Branches{$rev}) { $RCS_Branches{$rev} .= ":"; } $RCS_Branches{$rev} .= $t; } } # We test for "if $rev" here cause it may have gone null if the while loop # above ran off the end... # if ($rev && (($rev =~ tr/\././) == 1) && &rev_lt($rev, $Firstusedrev)) { $Firstusedrev = $rev; } delete $HAVELINES{$theline}; } # OK, we have the set of revisions to export - write them to the # metadata stream. # foreach $rev (keys %RCS_Revs) { $revkey = "$path/$rev"; $state = $RCS_States{$rev}; $author = $RCS_Authors{$rev}; $date = $RCS_Dates{$rev}; my ($yr, $mo, $da, $hr, $mi, $se) = split (/\./, $date); $date = timegm($se,$mi,$hr,$da,$mo - 1,$yr); $line = $RCS_lines{$rev}; if (defined($BRANCH_FLASH)) { $line =~ s/$BRANCH_FLASH$//; } $branches = $RCS_Branches{$rev}; # Detect revisions before the first branch point, and # omit them if we're not doing ALLTHEWAYBACK. # if ( (! $ALLTHEWAYBACK) && ($line eq $TRUNKLINE) && ($rev ne $RCS_Tags{"head"}) && $Firstusedrev && &rev_lt($rev, $Firstusedrev)) { next; } if (! $line) { next; } if (! $branches) { $branches = "-"; } if ((! $ALLTHEWAYBACK) && $rev eq $Firstusedrev) { $prevrev = "-"; } elsif ($RCS_Prevs{$rev}) { $prevrev = $RCS_Prevs{$rev}; } else { $prevrev = "-"; } $All_lines{$line} = 1; if ($RCS_import_is_main) { my @btmp = split(/ /, $branches); my $newb = ""; foreach my $b (@btmp) { if ($newb) { $newb .= " "; } $newb .= $b; } $branches = $newb; } my ($revpath, $revnum) = ($revkey =~ m/^(.*)\/([^\/]*)$/); print METATMP "$revkey$S$date$S$author$S$state$S$line$S$RCS_import_branch$S$branches$S$prevrev$S$options\n"; # MAXSZ derives from a ndbm limitation on the size of a key/entry pair. # at (256*3) it allows for a $revkey up to 250 chars or so. # $logmsg = substr($RCS_Logs{$rev}, 0, $MAXSZ); if ($logmsg !~ /\n$/) { $logmsg .= "\n"; } if (length($logmsg)+length($revkey) > 1010) { print "$Myname: revkey + log too long for <$revkey>\n"; exit 1; } if ($RCS_import_is_main && $logmsg eq "Initial revision\n") { my $logkey = "$revpath/1.1.1.1"; if (defined($MSGS{$logkey})) { $logmsg = $MSGS{$logkey}; } } $MSGS{$revkey} = $logmsg; } } # option switch variables get defaults here... $Convdir = ""; $Boolopt = 0; $Valopt = 0; $Prescan = 0; while ($#ARGV >= 0) { if ($ARGV[0] eq "-testtoks") { &test_rcstoks; } if ($ARGV[0] eq "-prescan") { $Prescan = 1; shift; next; } elsif ($ARGV[0] eq "-valopt") { shift; if ($ARGV[0] < 0) { &usage; } $Valopt = $ARGV[0]; shift; next; } elsif ($ARGV[0] eq "-help") { &help; } elsif ($ARGV[0] =~ /^-/) { &usage; } if ($Args ne "") { $Args .= " "; } push(@Args, $ARGV[0]); shift; } if ($#Args ne 0) { &usage; } $Convdir = $Args[0]; $Metatmp = "$Convdir/metatmp"; $Metadata = "$Convdir/metadata"; $Labels = "$Convdir/labels"; $Tags = "$Convdir/tags"; $Tagfiles = "$Convdir/tagfiles"; $Brtags = "$Convdir/brtags"; $Logmsgs = "$Convdir/logmsgs"; $Filesseen = "$Convdir/filesseen"; $P4root = "$Convdir/p4root"; $Changes = "$Convdir/changes"; $Revmap = "$Convdir/revmap"; $Clientdir = "$Convdir/p4"; require "$Convdir/config"; if (! -x "$Mydir/bin/rlog") { print <{bsize} = 4096; $myhashinfo = new DB_File::BTREEINFO; if (! tie(%Files_seen, $DBMCLASS, $Filesseen, O_CREAT|O_RDWR, 0666, $myhashinfo)) { print "$Myname: can't tie \"$Filesseen\": $!\n"; exit 1; } if (! tie(%MSGS, $DBMCLASS, $Logmsgs, O_CREAT|O_RDWR, 0666, $myhashinfo)) { print "$Myname: can't tie \"$Logmsgs\": $!\n"; exit 1; } if (! open(LABELS, ">$Labels")) { print "$Myname: can't open \">$Labels\": $!\n"; exit 1; } # The $Tags hash is keyed by the tag name. It's value is set to the # branch tag of the branch it belongs to, iff the mapping can be # detemermined by observing that a tagged revision is present in # exactly one branch, i.e., has moved beyond the branch's branch # point, AND is not selected as the base of some other branch. # if (! tie(%Tags, $DBMCLASS, $Tags, O_CREAT|O_RDWR, 0666, $myhashinfo)) { print "$Myname: can't tie \"$Tags\": $!\n"; exit 1; } # The Tagfiles hash remembers for each tag mapped by the heuristic, # the file where the mapping was established. This is useful in cases # where there are conflicts. # if (! tie(%Tagfiles, $DBMCLASS, $Tagfiles, O_CREAT|O_RDWR, 0666, $myhashinfo)) { print "$Myname: can't tie \"$Tagfiles\": $!\n"; exit 1; } # The $Brtags hash is keyed by branch tag name, and the value is the # actual branch number. # if (! tie(%Brtags, $DBMCLASS, $Brtags, O_CREAT|O_RDWR, 0666, $myhashinfo)) { print "$Myname: can't tie \"$Brtags\": $!\n"; exit 1; } if (! open(METATMP, ">$Metatmp")) { print "$Myname: can't open \">$Metatmp\": $!\n"; exit 1; } #chdir $CVS_MODULE || die "$Myname: can't chdir \"$CVS_MODULE\": $!"; #$CVS_MODULE = `/bin/pwd`; chop $CVS_MODULE; #chdir $Here || die "$Myname: can't chdir \"$Here\": $!"; &traverse($CVS_MODULE, 0, "dofile"); close METATMP; #close REVTAGS; untie %MSGS; if (! open(TAGS, ">$Tags.txt")) { print "$Myname: can't open \">$Tags.txt\": $!\n"; exit 1; } foreach $tag (sort(keys(%Tags))) { print TAGS "$tag\t"; if ($Tags{$tag}) { print TAGS "$Tags{$tag}\n"; } else # Should this be an assert now? TBD (Probably! - look at the code!) # { print TAGS "UNMAPPED-NOTFOUND\n"; } } close TAGS; print "Wrote $Tags.txt\n"; untie %Tags; untie %Tagfiles; &s("rm -f $Tags $Tags.db $Tags.pag $Tags.dir"); &s("rm -f $Tagfiles $Tagfiles.db $Tagfiles.pag $Tagfiles.dir"); if (! open(BRTAGS, ">$Brtags.txt")) { print "$Myname: can't open \">$Brtags.txt\": $!\n"; exit 1; } foreach my $brtag (sort(keys(%Brtags))) { print BRTAGS "$brtag\n"; } close BRTAGS; print "Wrote $Brtags.txt\n"; untie %Brtags; &s("rm -f $Brtags $Brtags.db $Brtags.pag $Brtags.dir"); if ($errors) { print "***** Fatal Errors:\n$errors"; exit (1); } if ($Prescan) { exit 0; } sub metasort { my @a = split(/$S/, $a); my @b = split(/$S/, $b); # The revision time is the primary sort key # - But this is now handled by the external sort; we still # do secondary and tertiary sort keys, below # # if ($a[1] != $b[1]) { return $a[1] <=> $b[1]; } $a[0] =~ s/^(.*)\///; my $apath = $1; $b[0] =~ s/^(.*)\///; my $bpath = $1; # Next is the pathname # if ($apath ne $bpath) { return $apath cmp $bpath; } # If we're still tied, it goes to the revision number! # @aa = split(/\./, $a[0]); @bb = split(/\./, $b[0]); for (my $i = 0; $i <= $#aa; $i=$i+2) { if (! defined($bb[$i])) { return 1; } # a has more positions, thus greater if ($aa[$i] < $bb[$i]) { return -1; } # a is less than b, thus less if ($aa[$i] > $bb[$i]) { return 1; } # and vice-versa # if they are equal, we look to the next position: # if (! defined($aa[$i+1])) { die "impossible sort key (RCS rev) \"$a[0]\"?\n"; } if (! defined($bb[$i+1])) { die "impossible sort key (RCS rev) \"$b[0]\"?\n"; } if ($aa[$i+1] < $bb[$i+1]) { return -1; } # a is less than b, thus less if ($aa[$i+1] > $bb[$i+1]) { return 1; } # and vice-versa # Otherwise, we go on to the next level... } if ($#bb > $#aa) { return -1; } die "impossible equal sort keys:\n <$a>\n <$b>\n"; } my $cmd = "sort -n -t $S -k 2 < $Metatmp |"; if (! open(METASORT, $cmd)) { print "$Myname: can't open \"$cmd\": $!\n"; exit 1; } if (! open(META, ">$Metadata")) { print "$Myname: can't open \">$Metadata\": $!\n"; exit 1; } # Do the sorting in chunks, per primary sort key. (We're going through # all of this, BTW, in order to constrain genmetadata's memory # footprint, which was getting huge when we held all of the tags and # metadata in-core) # my $t = 0; my @Meta; while () { chomp; my @r = split(/$S/, $_); if ($r[1] ne $t) { if ($#Meta >= 0) { my @Metasorted = sort metasort @Meta; foreach my $m (@Metasorted) { print META "$m\n"; } } $t = $r[1]; @Meta = (); } push (@Meta, $_); } if ($#Meta >= 0) { my @Metasorted = sort metasort @Meta; foreach my $m (@Metasorted) { print META "$m\n"; } } close METASORT; close META; $Lines = "$Convdir/lines"; if (! open(LINES, ">$Lines")) { print "$Myname: can't open \">$Lines\": $!\n"; } else { print "===== Lines referenced:\n"; print LINES "===== Lines referenced:\n"; foreach $line (sort keys %All_lines) { print "$line\n"; print LINES "$line\n"; } close LINES; } exit 0;