forked from lix-project/lix
0fdf4da0e9
NAR info files in binary caches can now have a cryptographic signature that Nix will verify before using the corresponding NAR file. To create a private/public key pair for signing and verifying a binary cache, do: $ openssl genrsa -out ./cache-key.sec 2048 $ openssl rsa -in ./cache-key.sec -pubout > ./cache-key.pub You should also come up with a symbolic name for the key, such as "cache.example.org-1". This will be used by clients to look up the public key. (It's a good idea to number keys, in case you ever need to revoke/replace one.) To create a binary cache signed with the private key: $ nix-push --dest /path/to/binary-cache --key ./cache-key.sec --key-name cache.example.org-1 The public key (cache-key.pub) should be distributed to the clients. They should have a nix.conf should contain something like: signed-binary-caches = * binary-cache-public-key-cache.example.org-1 = /path/to/cache-key.pub If all works well, then if Nix fetches something from the signed binary cache, you will see a message like: *** Downloading ‘http://cache.example.org/nar/7dppcj5sc1nda7l54rjc0g5l1hamj09j-subversion-1.7.11’ (signed by ‘cache.example.org-1’) to ‘/nix/store/7dppcj5sc1nda7l54rjc0g5l1hamj09j-subversion-1.7.11’... On the other hand, if the signature is wrong, you get a message like NAR info file `http://cache.example.org/7dppcj5sc1nda7l54rjc0g5l1hamj09j.narinfo' has an invalid signature; ignoring Signatures are implemented as a single line appended to the NAR info file, which looks like this: Signature: 1;cache.example.org-1;HQ9Xzyanq9iV...muQ== Thus the signature has 3 fields: a version (currently "1"), the ID of key, and the base64-encoded signature of the SHA-256 hash of the contents of the NAR info file up to but not including the Signature line. Issue #75.
293 lines
9.1 KiB
Text
Executable file
293 lines
9.1 KiB
Text
Executable file
#! @perl@ -w @perlFlags@
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use strict;
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use File::Basename;
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use File::Temp qw(tempdir);
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use File::Path qw(mkpath);
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use File::stat;
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use File::Copy;
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use Nix::Config;
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use Nix::Store;
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use Nix::Manifest;
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use Nix::Utils;
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use Nix::Crypto;
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my $tmpDir = tempdir("nix-push.XXXXXX", CLEANUP => 1, TMPDIR => 1)
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or die "cannot create a temporary directory";
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my $nixExpr = "$tmpDir/create-nars.nix";
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# Parse the command line.
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my $compressionType = "xz";
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my $force = 0;
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my $destDir;
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my $writeManifest = 0;
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my $manifestPath;
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my $archivesURL;
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my $link = 0;
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my $privateKeyFile;
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my $keyName;
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my @roots;
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for (my $n = 0; $n < scalar @ARGV; $n++) {
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my $arg = $ARGV[$n];
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if ($arg eq "--help") {
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exec "man nix-push" or die;
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} elsif ($arg eq "--bzip2") {
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$compressionType = "bzip2";
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} elsif ($arg eq "--none") {
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$compressionType = "none";
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} elsif ($arg eq "--force") {
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$force = 1;
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} elsif ($arg eq "--dest") {
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$n++;
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die "$0: `$arg' requires an argument\n" unless $n < scalar @ARGV;
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$destDir = $ARGV[$n];
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mkpath($destDir, 0, 0755);
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} elsif ($arg eq "--manifest") {
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$writeManifest = 1;
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} elsif ($arg eq "--manifest-path") {
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$n++;
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die "$0: `$arg' requires an argument\n" unless $n < scalar @ARGV;
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$manifestPath = $ARGV[$n];
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$writeManifest = 1;
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mkpath(dirname($manifestPath), 0, 0755);
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} elsif ($arg eq "--url-prefix") {
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$n++;
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die "$0: `$arg' requires an argument\n" unless $n < scalar @ARGV;
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$archivesURL = $ARGV[$n];
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} elsif ($arg eq "--link") {
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$link = 1;
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} elsif ($arg eq "--key") {
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$n++;
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die "$0: `$arg' requires an argument\n" unless $n < scalar @ARGV;
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$privateKeyFile = $ARGV[$n];
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} elsif ($arg eq "--key-name") {
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$n++;
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die "$0: `$arg' requires an argument\n" unless $n < scalar @ARGV;
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$keyName = $ARGV[$n];
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} elsif (substr($arg, 0, 1) eq "-") {
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die "$0: unknown flag `$arg'\n";
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} else {
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push @roots, $arg;
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}
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}
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die "$0: please specify a destination directory\n" if !defined $destDir;
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$archivesURL = "file://$destDir" unless defined $archivesURL;
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# From the given store paths, determine the set of requisite store
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# paths, i.e, the paths required to realise them.
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my %storePaths;
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foreach my $path (@roots) {
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# Get all paths referenced by the normalisation of the given
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# Nix expression.
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my $pid = open(READ,
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"$Nix::Config::binDir/nix-store --query --requisites --force-realise " .
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"--include-outputs '$path'|") or die;
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while (<READ>) {
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chomp;
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die "bad: $_" unless /^\//;
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$storePaths{$_} = "";
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}
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close READ or die "nix-store failed: $?";
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}
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my @storePaths = keys %storePaths;
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# Don't create archives for files that are already in the binary cache.
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my @storePaths2;
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my %narFiles;
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foreach my $storePath (@storePaths) {
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my $pathHash = substr(basename($storePath), 0, 32);
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my $narInfoFile = "$destDir/$pathHash.narinfo";
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if (-e $narInfoFile) {
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my $narInfo = parseNARInfo($storePath, readFile($narInfoFile), 0, $narInfoFile) or die "cannot read `$narInfoFile'\n";
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my $narFile = "$destDir/$narInfo->{url}";
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if (-e $narFile) {
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print STDERR "skipping existing $storePath\n";
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# Add the NAR info to $narFiles if we're writing a
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# manifest.
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$narFiles{$storePath} = [
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{ url => ("$archivesURL/" . basename $narInfo->{url})
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, hash => $narInfo->{fileHash}
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, size => $narInfo->{fileSize}
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, compressionType => $narInfo->{compression}
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, narHash => $narInfo->{narHash}
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, narSize => $narInfo->{narSize}
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, references => join(" ", map { "$Nix::Config::storeDir/$_" } @{$narInfo->{refs}})
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, deriver => $narInfo->{deriver} ? "$Nix::Config::storeDir/$narInfo->{deriver}" : undef
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}
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] if $writeManifest;
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next;
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}
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}
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push @storePaths2, $storePath;
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}
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# Create a list of Nix derivations that turn each path into a Nix
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# archive.
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open NIX, ">$nixExpr";
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print NIX "[";
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foreach my $storePath (@storePaths2) {
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die unless ($storePath =~ /\/[0-9a-z]{32}[^\"\\\$]*$/);
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# Construct a Nix expression that creates a Nix archive.
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my $nixexpr =
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"(import <nix/nar.nix> " .
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"{ storePath = builtins.storePath \"$storePath\"; hashAlgo = \"sha256\"; compressionType = \"$compressionType\"; }) ";
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print NIX $nixexpr;
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}
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print NIX "]";
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close NIX;
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# Build the Nix expression.
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print STDERR "building compressed archives...\n";
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my @narPaths;
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my $pid = open(READ, "$Nix::Config::binDir/nix-build $nixExpr -o $tmpDir/result |")
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or die "cannot run nix-build";
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while (<READ>) {
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chomp;
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die unless /^\//;
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push @narPaths, $_;
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}
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close READ or die "nix-build failed: $?";
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# Write the cache info file.
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my $cacheInfoFile = "$destDir/nix-cache-info";
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if (! -e $cacheInfoFile) {
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open FILE, ">$cacheInfoFile" or die "cannot create $cacheInfoFile: $!";
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print FILE "StoreDir: $Nix::Config::storeDir\n";
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print FILE "WantMassQuery: 0\n"; # by default, don't hit this cache for "nix-env -qas"
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close FILE;
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}
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# Copy the archives and the corresponding NAR info files.
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print STDERR "copying archives...\n";
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my $totalNarSize = 0;
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my $totalCompressedSize = 0;
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for (my $n = 0; $n < scalar @storePaths2; $n++) {
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my $storePath = $storePaths2[$n];
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my $narDir = $narPaths[$n];
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my $baseName = basename $storePath;
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# Get info about the store path.
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my ($deriver, $narHash, $time, $narSize, $refs) = queryPathInfo($storePath, 1);
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# In some exceptional cases (such as VM tests that use the Nix
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# store of the host), the database doesn't contain the hash. So
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# compute it.
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if ($narHash =~ /^sha256:0*$/) {
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my $nar = "$tmpDir/nar";
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system("$Nix::Config::binDir/nix-store --dump $storePath > $nar") == 0
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or die "cannot dump $storePath\n";
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$narHash = `$Nix::Config::binDir/nix-hash --type sha256 --base32 --flat $nar`;
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die "cannot hash `$nar'" if $? != 0;
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chomp $narHash;
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$narHash = "sha256:$narHash";
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$narSize = stat("$nar")->size;
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unlink $nar or die;
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}
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$totalNarSize += $narSize;
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# Get info about the compressed NAR.
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open HASH, "$narDir/nar-compressed-hash" or die "cannot open nar-compressed-hash";
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my $compressedHash = <HASH>;
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chomp $compressedHash;
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$compressedHash =~ /^[0-9a-z]+$/ or die "invalid hash";
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close HASH;
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my $narName = "$compressedHash.nar" . ($compressionType eq "xz" ? ".xz" : $compressionType eq "bzip2" ? ".bz2" : "");
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my $narFile = "$narDir/$narName";
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(-f $narFile) or die "NAR file for $storePath not found";
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my $compressedSize = stat($narFile)->size;
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$totalCompressedSize += $compressedSize;
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printf STDERR "%s [%.2f MiB, %.1f%%]\n", $storePath,
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$compressedSize / (1024 * 1024), $compressedSize / $narSize * 100;
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# Copy the compressed NAR.
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my $dst = "$destDir/$narName";
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if (! -f $dst) {
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my $tmp = "$destDir/.tmp.$$.$narName";
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if ($link) {
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link($narFile, $tmp) or die "cannot link $tmp to $narFile: $!\n";
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} else {
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copy($narFile, $tmp) or die "cannot copy $narFile to $tmp: $!\n";
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}
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rename($tmp, $dst) or die "cannot rename $tmp to $dst: $!\n";
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}
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# Write the info file.
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my $info;
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$info .= "StorePath: $storePath\n";
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$info .= "URL: $narName\n";
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$info .= "Compression: $compressionType\n";
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$info .= "FileHash: sha256:$compressedHash\n";
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$info .= "FileSize: $compressedSize\n";
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$info .= "NarHash: $narHash\n";
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$info .= "NarSize: $narSize\n";
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$info .= "References: " . join(" ", map { basename $_ } @{$refs}) . "\n";
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if (defined $deriver) {
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$info .= "Deriver: " . basename $deriver . "\n";
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if (isValidPath($deriver)) {
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my $drv = derivationFromPath($deriver);
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$info .= "System: $drv->{platform}\n";
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}
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}
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if (defined $privateKeyFile && defined $keyName) {
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my $sig = signString($privateKeyFile, $info);
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$info .= "Signature: 1;$keyName;$sig\n";
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}
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my $pathHash = substr(basename($storePath), 0, 32);
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$dst = "$destDir/$pathHash.narinfo";
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if ($force || ! -f $dst) {
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my $tmp = "$destDir/.tmp.$$.$pathHash.narinfo";
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open INFO, ">$tmp" or die;
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print INFO "$info" or die;
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close INFO or die;
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rename($tmp, $dst) or die "cannot rename $tmp to $dst: $!\n";
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}
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$narFiles{$storePath} = [
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{ url => "$archivesURL/$narName"
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, hash => "sha256:$compressedHash"
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, size => $compressedSize
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, compressionType => $compressionType
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, narHash => "$narHash"
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, narSize => $narSize
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, references => join(" ", @{$refs})
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, deriver => $deriver
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}
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] if $writeManifest;
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}
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printf STDERR "total compressed size %.2f MiB, %.1f%%\n",
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$totalCompressedSize / (1024 * 1024), $totalCompressedSize / ($totalNarSize || 1) * 100;
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# Optionally write a manifest.
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writeManifest($manifestPath // "$destDir/MANIFEST", \%narFiles, \()) if $writeManifest;
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