@EXPORT = ();
%EXPORT_TAGS = (versions => [qw(getversions get_versions make_source_versions)],
mapping => [qw(getpkgsrc getpkgcomponent getsrcpkgs),
- qw(binarytosource sourcetobinary makesourceversions)
+ qw(binary_to_source sourcetobinary makesourceversions)
],
);
@EXPORT_OK = ();
use MLDBM qw(DB_File Storable);
use Storable qw(dclone);
use Params::Validate qw(validate_with :types);
-use Debbugs::Common qw(make_list globify_scalar);
+use Debbugs::Common qw(make_list globify_scalar sort_versions);
use List::Util qw(min max);
=head1 METHODS
-=over 8
-
-=item getpkgsrc
+=head2 getpkgsrc
Returns a reference to a hash of binary package names to their corresponding
source package names.
return $_pkgsrc;
}
-=item getpkgcomponent
+=head2 getpkgcomponent
Returns a reference to a hash of binary package names to the component of
the archive containing those binary packages (e.g. "main", "contrib",
return $_pkgcomponent;
}
-=item getsrcpkgs
+=head2 getsrcpkgs
Returns a list of the binary packages produced by a given source package.
return @{$_srcpkg->{$src}};
}
-=item binarytosource
+=head2 binary_to_source
+
+ binary_to_source(package => 'foo',
+ version => '1.2.3',
+ arch => 'i386');
+
+
+Turn a binary package (at optional version in optional architecture)
+into a single (or set) of source packages (optionally) with associated
+versions.
+
+By default, in LIST context, returns a LIST of array refs of source
+package, source version pairs corresponding to the binary package(s),
+arch(s), and verion(s) passed.
+
+In SCALAR context, only the corresponding source packages are
+returned, concatenated with ', ' if necessary.
+
+If no source can be found, returns undef in scalar context, or the
+empty list in list context.
-Returns a reference to the source package name and version pair
-corresponding to a given binary package name, version, and architecture.
+=over
+
+=item binary -- binary package name(s) as a SCALAR or ARRAYREF
+
+=item version -- binary package version(s) as a SCALAR or ARRAYREF;
+optional, defaults to all versions.
+
+=item arch -- binary package architecture(s) as a SCALAR or ARRAYREF;
+optional, defaults to all architectures.
-If undef is passed as the architecture, returns a list of references
-to all possible pairs of source package names and versions for all
-architectures, with any duplicates removed.
+=item source_only -- return only the source name (forced on if in
+SCALAR context), defaults to false.
-If the binary version is not passed either, returns a list of possible
-source package names for all architectures at all versions, with any
-duplicates removed.
+=item scalar_only -- return a scalar only (forced true if in SCALAR
+context, also causes source_only to be true), defaults to false.
+
+=item cache -- optional HASHREF to be used to cache results of
+binary_to_source.
+
+=back
=cut
+# the two global variables below are used to tie the source maps; we
+# probably should be retying them in long lived processes.
our %_binarytosource;
-sub binarytosource {
- my ($binname, $binver, $binarch) = @_;
+our %_sourcetobinary;
+sub binary_to_source{
+ my %param = validate_with(params => \@_,
+ spec => {binary => {type => SCALAR|ARRAYREF,
+ },
+ version => {type => SCALAR|ARRAYREF,
+ optional => 1,
+ },
+ arch => {type => SCALAR|ARRAYREF,
+ optional => 1,
+ },
+ source_only => {default => 0,
+ },
+ scalar_only => {default => 0,
+ },
+ cache => {type => HASHREF,
+ default => {},
+ },
+ },
+ );
# TODO: This gets hit a lot, especially from buggyversion() - probably
# need an extra cache for speed here.
return () unless defined $gBinarySourceMap;
- if (not tied %_binarytosource) {
- tie %_binarytosource, MLDBM => $gBinarySourceMap, O_RDONLY or
- die "Unable to open $gBinarySourceMap for reading";
+ if ($param{scalar_only} or not wantarray) {
+ $param{source_only} = 1;
+ $param{scalar_only} = 1;
}
- # avoid autovivification
- my $binary = $_binarytosource{$binname};
- return () unless defined $binary;
- my %binary = %{$binary};
- if (not defined $binver) {
- my %uniq;
- for my $ver (keys %binary) {
- for my $ar (keys %{$binary{$ver}}) {
- my $src = $binary{$ver}{$ar};
- next unless defined $src;
- $uniq{$src->[0]} = 1;
- }
- }
- return keys %uniq;
+ my @source;
+ my @binaries = grep {defined $_} make_list(exists $param{binary}?$param{binary}:[]);
+ my @versions = grep {defined $_} make_list(exists $param{version}?$param{version}:[]);
+ my @archs = grep {defined $_} make_list(exists $param{arch}?$param{arch}:[]);
+ return () unless @binaries;
+ my $cache_key = join("\1",
+ join("\0",@binaries),
+ join("\0",@versions),
+ join("\0",@archs),
+ join("\0",@param{qw(source_only scalar_only)}));
+ if (exists $param{cache}{$cache_key}) {
+ return $param{scalar_only} ? $param{cache}{$cache_key}[0]:
+ @{$param{cache}{$cache_key}};
}
- elsif (exists $binary{$binver}) {
- if (defined $binarch) {
- my $src = $binary{$binver}{$binarch};
- return () unless defined $src; # not on this arch
- # Copy the data to avoid tiedness problems.
- return dclone($src);
- } else {
- # Get (srcname, srcver) pairs for all architectures and
- # remove any duplicates. This involves some slightly tricky
- # multidimensional hashing; sorry. Fortunately there'll
- # usually only be one pair returned.
- my %uniq;
- for my $ar (keys %{$binary{$binver}}) {
- my $src = $binary{$binver}{$ar};
- next unless defined $src;
- $uniq{$src->[0]}{$src->[1]} = 1;
- }
- my @uniq;
- for my $sn (sort keys %uniq) {
- push @uniq, [$sn, $_] for sort keys %{$uniq{$sn}};
- }
- return @uniq;
- }
+ for my $binary (@binaries) {
+ if ($binary =~ m/^src:(.+)$/) {
+ push @source,[$1,''];
+ next;
+ }
+ if (not tied %_binarytosource) {
+ tie %_binarytosource, MLDBM => $config{binary_source_map}, O_RDONLY or
+ die "Unable to open $config{binary_source_map} for reading";
+ }
+ # avoid autovivification
+ my $bin = $_binarytosource{$binary};
+ next unless defined $bin;
+ if (not @versions) {
+ for my $ver (keys %{$bin}) {
+ for my $ar (keys %{$bin->{$ver}}) {
+ my $src = $bin->{$ver}{$ar};
+ next unless defined $src;
+ push @source,[$src->[0],$src->[1]];
+ }
+ }
+ }
+ else {
+ my $found_one_version = 0;
+ for my $version (@versions) {
+ next unless exists $bin->{$version};
+ if (exists $bin->{$version}{all}) {
+ push @source,dclone($bin->{$version}{all});
+ next;
+ }
+ my @t_archs;
+ if (@archs) {
+ @t_archs = @archs;
+ }
+ else {
+ @t_archs = keys %{$bin->{$version}};
+ }
+ for my $arch (@t_archs) {
+ push @source,dclone($bin->{$version}{$arch}) if
+ exists $bin->{$version}{$arch};
+ }
+ }
+ }
+ }
+
+ if (not @source and not @versions and not @archs) {
+ # ok, we haven't found any results at all. If we weren't given
+ # a specific version and architecture, then we should try
+ # really hard to figure out the right source
+
+ # if any the packages we've been given are a valid source
+ # package name, and there's no binary of the same name (we got
+ # here, so there isn't), return it.
+
+ if (not tied %_sourcetobinary) {
+ tie %_sourcetobinary, MLDBM => $config{source_binary_map}, O_RDONLY or
+ die "Unable top open $gSourceBinaryMap for reading";
+ }
+ for my $maybe_sourcepkg (@binaries) {
+ if (exists $_sourcetobinary{$maybe_sourcepkg}) {
+ push @source,[$maybe_sourcepkg,$_] for keys %{$_sourcetobinary{$maybe_sourcepkg}};
+ }
+ }
+ # if @source is still empty here, it's probably a non-existant
+ # source package, so don't return anything.
+ }
+
+ my @result;
+
+ if ($param{source_only}) {
+ my %uniq;
+ for my $s (@source) {
+ # we shouldn't need to do this, but do this temporarily to
+ # stop the warning.
+ next unless defined $s->[0];
+ $uniq{$s->[0]} = 1;
+ }
+ @result = sort keys %uniq;
+ if ($param{scalar_only}) {
+ @result = join(', ',@result);
+ }
+ }
+ else {
+ my %uniq;
+ for my $s (@source) {
+ $uniq{$s->[0]}{$s->[1]} = 1;
+ }
+ for my $sn (sort keys %uniq) {
+ push @result, [$sn, $_] for sort keys %{$uniq{$sn}};
+ }
}
# No $gBinarySourceMap, or it didn't have an entry for this name and
# version.
- return ();
+ $param{cache}{$cache_key} = \@result;
+ return $param{scalar_only} ? $result[0] : @result;
}
-=item sourcetobinary
+=head2 sourcetobinary
Returns a list of references to triplets of binary package names, versions,
and architectures corresponding to a given source package name and version.
=cut
-our %_sourcetobinary;
sub sourcetobinary {
my ($srcname, $srcver) = @_;
if (not tied %_sourcetobinary) {
- tie %_sourcetobinary, MLDBM => $gSourceBinaryMap, O_RDONLY or
- die "Unable top open $gSourceBinaryMap for reading";
+ tie %_sourcetobinary, MLDBM => $config{source_binary_map}, O_RDONLY or
+ die "Unable top open $config{source_binary_map} for reading";
}
# avoid autovivification
my $source = $_sourcetobinary{$srcname};
return () unless defined $source;
- my %source = %{$source};
- if (exists $source{$srcver}) {
- my $bin = $source{$srcver};
+ if (exists $source->{$srcver}) {
+ my $bin = $source->{$srcver};
return () unless defined $bin;
return @$bin;
}
return map [$_, $srcver], @srcpkgs;
}
-=item getversions
+=head2 getversions
Returns versions of the package in a distribution at a specific
architecture
=item return_archs -- returns a version=>[archs] hash indicating which
architectures are at which versions.
+=item largest_source_version_only -- if there is more than one source
+version in a particular distribution, discards all versions but the
+largest in that distribution. Defaults to 1, as this used to be the
+way that the Debian archive worked.
+
=back
When called in scalar context, this function will return hashrefs or
return_archs => {type => BOOLEAN,
default => 0,
},
+ largest_source_version_only => {type => BOOLEAN,
+ default => 1,
+ },
},
);
my $versions;
}
my %versions;
for my $package (make_list($param{package})) {
+ my $source_only = 0;
+ if ($package =~ s/^src://) {
+ $source_only = 1;
+ }
my $version = $versions->{$package};
next unless defined $version;
for my $dist (make_list($param{dist})) {
for my $arch (exists $param{arch}?
make_list($param{arch}):
(grep {not $param{no_source_arch} or
- $_ ne 'source'
- } keys %{$version->{$dist}})) {
+ $_ ne 'source'
+ } $source_only?'source':keys %{$version->{$dist}})) {
next unless defined $version->{$dist}{$arch};
- for my $ver (ref $version->{$dist}{$arch} ?
- keys %{$version->{$dist}{$arch}} :
- $version->{$dist}{$arch}
- ) {
+ my @vers = ref $version->{$dist}{$arch} eq 'HASH' ?
+ keys %{$version->{$dist}{$arch}} :
+ make_list($version->{$dist}{$arch});
+ if ($param{largest_source_version_only} and
+ $arch eq 'source' and @vers > 1) {
+ # order the versions, then pick the biggest version number
+ @vers = sort_versions(@vers);
+ @vers = $vers[-1];
+ }
+ for my $ver (@vers) {
my $f_ver = $ver;
if ($param{source}) {
($f_ver) = make_source_versions(package => $package,
}
-=item makesourceversions
+=head2 makesourceversions
@{$cgi_var{found}} = makesourceversions($cgi_var{package},undef,@{$cgi_var{found}});
my %param = validate_with(params => \@_,
spec => {package => {type => SCALAR|ARRAYREF,
},
- arch => {type => SCALAR|ARRAYREF,
+ arch => {type => SCALAR|ARRAYREF|UNDEF,
default => ''
},
versions => {type => SCALAR|ARRAYREF,
my ($warnings) = globify_scalar(exists $param{warnings}?$param{warnings}:undef);
my ($debug) = globify_scalar(exists $param{debug} ?$param{debug} :undef);
-
my @packages = grep {defined $_ and length $_ } make_list($param{package});
- my @archs = grep {defined $_ } make_list ($param{archs});
+ my @archs = grep {defined $_ } make_list ($param{arch});
if (not @archs) {
push @archs, '';
}
my %sourceversions;
for my $version (make_list($param{versions})) {
if ($version =~ m{(.+)/([^/]+)$}) {
+ # Already a source version.
+ $sourceversions{$version} = 1;
+ next unless exists $param{warnings};
# check to see if this source version is even possible
my @bin_versions = sourcetobinary($1,$2);
if (not @bin_versions or
@{$bin_versions[0]} != 3) {
print {$warnings} "The source $1 and version $2 do not appear to match any binary packages\n";
}
- # Already a source version.
- $sourceversions{$version} = 1;
} else {
if (not @packages) {
croak "You must provide at least one package if the versions are not fully qualified";
}
for my $pkg (@packages) {
+ if ($pkg =~ /^src:(.+)/) {
+ $sourceversions{"$1/$version"} = 1;
+ next unless exists $param{warnings};
+ # check to see if this source version is even possible
+ my @bin_versions = sourcetobinary($1,$version);
+ if (not @bin_versions or
+ @{$bin_versions[0]} != 3) {
+ print {$warnings} "The source '$1' and version '$version' do not appear to match any binary packages\n";
+ }
+ next;
+ }
for my $arch (@archs) {
my $cachearch = (defined $arch) ? $arch : '';
my $cachekey = "$pkg/$cachearch/$version";
}
next;
}
- my @srcinfo = binarytosource($pkg, $version, $arch);
+ elsif ($param{guess_source} and
+ exists$param{source_version_cache}{$cachekey.'/guess'}) {
+ for my $v (@{$param{source_version_cache}{$cachekey.'/guess'}}) {
+ $sourceversions{$v} = 1;
+ }
+ next;
+ }
+ my @srcinfo = binary_to_source(binary => $pkg,
+ version => $version,
+ length($arch)?(arch => $arch):());
if (not @srcinfo) {
# We don't have explicit information about the
# binary-to-source mapping for this version
} else {
next;
}
+ # store guesses in a slightly different location
+ $param{source_version_cache}{$cachekey.'/guess'} = [ map { "$_->[0]/$_->[1]" } @srcinfo ];
}
}
+ else {
+ # only store this if we didn't have to guess it
+ $param{source_version_cache}{$cachekey} = [ map { "$_->[0]/$_->[1]" } @srcinfo ];
+ }
$sourceversions{"$_->[0]/$_->[1]"} = 1 foreach @srcinfo;
- $param{source_version_cache}{$cachekey} = [ map { "$_->[0]/$_->[1]" } @srcinfo ];
}
}
}
-=back
-
-=cut
-
1;