#! @perl@ -w -I@libexecdir@/nix use strict; use File::Temp qw(tempdir); use readmanifest; # Some patch generations options. # Max size of NAR archives to generate patches for. my $maxNarSize = $ENV{"NIX_MAX_NAR_SIZE"}; $maxNarSize = 100 * 1024 * 1024 if !defined $maxNarSize; # If patch is bigger than this fraction of full archive, reject. my $maxPatchFraction = $ENV{"NIX_PATCH_FRACTION"}; $maxPatchFraction = 0.60 if !defined $maxPatchFraction; my $timeLimit = $ENV{"NIX_BSDIFF_TIME_LIMIT"}; $timeLimit = 180 if !defined $timeLimit; die unless scalar @ARGV == 5; my $hashAlgo = "sha256"; my $narDir = $ARGV[0]; my $patchesDir = $ARGV[1]; my $patchesURL = $ARGV[2]; my $srcManifest = $ARGV[3]; my $dstManifest = $ARGV[4]; my $tmpDir = tempdir("nix-generate-patches.XXXXXX", CLEANUP => 1, TMPDIR => 1) or die "cannot create a temporary directory"; #END { rmdir $tmpDir; } my %srcNarFiles; my %srcLocalPaths; my %srcPatches; my %dstNarFiles; my %dstLocalPaths; my %dstPatches; readManifest "$srcManifest", \%srcNarFiles, \%srcLocalPaths, \%srcPatches; readManifest "$dstManifest", \%dstNarFiles, \%dstLocalPaths, \%dstPatches; sub findOutputPaths { my $narFiles = shift; my %outPaths; foreach my $p (keys %{$narFiles}) { # Ignore derivations. next if ($p =~ /\.drv$/); # Ignore builders (too much ambiguity -- they're all called # `builder.sh'). next if ($p =~ /\.sh$/); next if ($p =~ /\.patch$/); # Don't bother including tar files etc. next if ($p =~ /\.tar$/ || $p =~ /\.tar\.(gz|bz2|Z|lzma|xz)$/ || $p =~ /\.zip$/ || $p =~ /\.bin$/ || $p =~ /\.tgz$/ || $p =~ /\.rpm$/ || $p =~ /cvs-export$/ || $p =~ /fetchhg$/); $outPaths{$p} = 1; } return %outPaths; } print "finding src output paths...\n"; my %srcOutPaths = findOutputPaths \%srcNarFiles; print "finding dst output paths...\n"; my %dstOutPaths = findOutputPaths \%dstNarFiles; sub getNameVersion { my $p = shift; $p =~ /\/[0-9a-z]+((?:-[a-zA-Z][^\/-]*)+)([^\/]*)$/; my $name = $1; my $version = $2; return undef unless defined $name && defined $version; $name =~ s/^-//; $version =~ s/^-//; return ($name, $version); } # A quick hack to get a measure of the `distance' between two # versions: it's just the position of the first character that differs # (or 999 if they are the same). sub versionDiff { my $s = shift; my $t = shift; my $i; return 999 if $s eq $t; for ($i = 0; $i < length $s; $i++) { return $i if $i >= length $t or substr($s, $i, 1) ne substr($t, $i, 1); } return $i; } sub getNarBz2 { my $narFiles = shift; my $storePath = shift; my $narFileList = $$narFiles{$storePath}; die "missing path $storePath" unless defined $narFileList; my $narFile = @{$narFileList}[0]; die unless defined $narFile; $narFile->{url} =~ /\/([^\/]+)$/; die unless defined $1; return "$narDir/$1"; } sub containsPatch { my $patches = shift; my $storePath = shift; my $basePath = shift; my $patchList = $$patches{$storePath}; return 0 if !defined $patchList; my $found = 0; foreach my $patch (@{$patchList}) { # !!! baseHash might differ return 1 if $patch->{basePath} eq $basePath; } return 0; } # Compute the "weighted" number of uses of a path in the build graph. sub computeUses { my $narFiles = shift; my $path = shift; # Find the deriver of $path. return 1 unless defined $$narFiles{$path}; my $deriver = @{$$narFiles{$path}}[0]->{deriver}; return 1 unless defined $deriver && $deriver ne ""; # print " DERIVER $deriver\n"; # Optimisation: build the referrers graph from the references # graph. my %referrers; foreach my $q (keys %{$narFiles}) { my @refs = split " ", @{$$narFiles{$q}}[0]->{references}; foreach my $r (@refs) { $referrers{$r} = [] unless defined $referrers{$r}; push @{$referrers{$r}}, $q; } } # Determine the shortest path from $deriver to all other reachable # paths in the `referrers' graph. my %dist; $dist{$deriver} = 0; my @queue = ($deriver); my $pos = 0; while ($pos < scalar @queue) { my $p = $queue[$pos]; $pos++; foreach my $q (@{$referrers{$p}}) { if (!defined $dist{$q}) { $dist{$q} = $dist{$p} + 1; # print " $q $dist{$q}\n"; push @queue, $q; } } } my $wuse = 1.0; foreach my $user (keys %dist) { next if $user eq $deriver; # print " $user $dist{$user}\n"; $wuse += 1.0 / 2.0**$dist{$user}; } # print " XXX $path $wuse\n"; return $wuse; } # For each output path in the destination, see if we need to / can # create a patch. print "creating patches...\n"; foreach my $p (keys %dstOutPaths) { # If exactly the same path already exists in the source, skip it. next if defined $srcOutPaths{$p}; print " $p\n"; # If not, then we should find the paths in the source that are # `most' likely to be present on a system that wants to install # this path. (my $name, my $version) = getNameVersion $p; next unless defined $name && defined $version; my @closest = (); my $closestVersion; my $minDist = -1; # actually, larger means closer # Find all source paths with the same name. foreach my $q (keys %srcOutPaths) { (my $name2, my $version2) = getNameVersion $q; next unless defined $name2 && defined $version2; if ($name eq $name2) { # If the sizes differ too much, then skip. This # disambiguates between, e.g., a real component and a # wrapper component (cf. Firefox in Nixpkgs). my $srcSize = @{$srcNarFiles{$q}}[0]->{size}; my $dstSize = @{$dstNarFiles{$p}}[0]->{size}; my $ratio = $srcSize / $dstSize; $ratio = 1 / $ratio if $ratio < 1; # print " SIZE $srcSize $dstSize $ratio $q\n"; if ($ratio >= 3) { print " SKIPPING $q due to size ratio $ratio ($srcSize $dstSize)\n"; next; } # If the numbers of weighted uses differ too much, then # skip. This disambiguates between, e.g., the bootstrap # GCC and the final GCC in Nixpkgs. # my $srcUses = computeUses \%srcNarFiles, $q; # my $dstUses = computeUses \%dstNarFiles, $p; # $ratio = $srcUses / $dstUses; # $ratio = 1 / $ratio if $ratio < 1; # print " USE $srcUses $dstUses $ratio $q\n"; # if ($ratio >= 2) { # print " SKIPPING $q due to use ratio $ratio ($srcUses $dstUses)\n"; # next; # } # If there are multiple matching names, include the ones # with the closest version numbers. my $dist = versionDiff $version, $version2; if ($dist > $minDist) { $minDist = $dist; @closest = ($q); $closestVersion = $version2; } elsif ($dist == $minDist) { push @closest, $q; } } } if (scalar(@closest) == 0) { print " NO BASE: $p\n"; next; } foreach my $closest (@closest) { # Generate a patch between $closest and $p. print " $p <- $closest\n"; # If the patch already exists, skip it. if (containsPatch(\%srcPatches, $p, $closest) || containsPatch(\%dstPatches, $p, $closest)) { print " skipping, already exists\n"; next; } # next; my $srcNarBz2 = getNarBz2 \%srcNarFiles, $closest; my $dstNarBz2 = getNarBz2 \%dstNarFiles, $p; if (! -f $srcNarBz2) { warn "patch source archive $srcNarBz2 is missing\n"; next; } system("@bunzip2@ < $srcNarBz2 > $tmpDir/A") == 0 or die "cannot unpack $srcNarBz2"; if ((stat "$tmpDir/A")[7] >= $maxNarSize) { print " skipping, source is too large\n"; next; } system("@bunzip2@ < $dstNarBz2 > $tmpDir/B") == 0 or die "cannot unpack $dstNarBz2"; if ((stat "$tmpDir/B")[7] >= $maxNarSize) { print " skipping, destination is too large\n"; next; } my $time1 = time(); my $res = system("ulimit -t $timeLimit; @libexecdir@/bsdiff $tmpDir/A $tmpDir/B $tmpDir/DIFF"); my $time2 = time(); if ($res) { warn "binary diff computation aborted after ", $time2 - $time1, " seconds\n"; next; } my $baseHash = `@bindir@/nix-hash --flat --type $hashAlgo --base32 $tmpDir/A` or die; chomp $baseHash; my $narHash = `@bindir@/nix-hash --flat --type $hashAlgo --base32 $tmpDir/B` or die; chomp $narHash; my $narDiffHash = `@bindir@/nix-hash --flat --type $hashAlgo --base32 $tmpDir/DIFF` or die; chomp $narDiffHash; my $narDiffSize = (stat "$tmpDir/DIFF")[7]; my $dstNarBz2Size = (stat $dstNarBz2)[7]; print " size $narDiffSize; full size $dstNarBz2Size; ", $time2 - $time1, " seconds\n"; if ($narDiffSize >= $dstNarBz2Size) { print " rejecting; patch bigger than full archive\n"; next; } if ($narDiffSize / $dstNarBz2Size >= $maxPatchFraction) { print " rejecting; patch too large relative to full archive\n"; next; } my $finalName = "$narDiffHash.nar-bsdiff"; if (-e "$patchesDir/$finalName") { print " not copying, already exists\n"; } else { system("cp '$tmpDir/DIFF' '$patchesDir/$finalName.tmp'") == 0 or die "cannot copy diff"; rename("$patchesDir/$finalName.tmp", "$patchesDir/$finalName") or die "cannot rename $patchesDir/$finalName.tmp"; } # Add the patch to the manifest. addPatch \%dstPatches, $p, { url => "$patchesURL/$finalName", hash => "$hashAlgo:$narDiffHash" , size => $narDiffSize, basePath => $closest, baseHash => "$hashAlgo:$baseHash" , narHash => "$hashAlgo:$narHash", patchType => "nar-bsdiff" }, 0; } } # Add in any potentially useful patches in the source (namely, those # patches that produce either paths in the destination or paths that # can be used as the base for other useful patches). print "propagating patches...\n"; my $changed; do { # !!! we repeat this to reach the transitive closure; inefficient $changed = 0; print "loop\n"; my %dstBasePaths; foreach my $q (keys %dstPatches) { foreach my $patch (@{$dstPatches{$q}}) { $dstBasePaths{$patch->{basePath}} = 1; } } foreach my $p (keys %srcPatches) { my $patchList = $srcPatches{$p}; my $include = 0; # Is path $p included in the destination? If so, include # patches that produce it. $include = 1 if defined $dstNarFiles{$p}; # Is path $p a path that serves as a base for paths in the # destination? If so, include patches that produce it. # !!! check baseHash $include = 1 if defined $dstBasePaths{$p}; if ($include) { foreach my $patch (@{$patchList}) { $changed = 1 if addPatch \%dstPatches, $p, $patch; } } } } while $changed; # Rewrite the manifest of the destination (with the new patches). writeManifest "${dstManifest}", \%dstNarFiles, \%dstPatches;