%% Vendored from hex_core v0.5.0, do not edit manually
-module(r3_hex_tarball).
-export([create/2, create_docs/1, unpack/2, format_checksum/1, format_error/1]).
-ifdef(TEST).
-export([do_decode_metadata/1, gzip/1, normalize_requirements/1]).
-endif.
-define(VERSION, <<"3">>).
-define(TARBALL_MAX_SIZE, 8 * 1024 * 1024).
-define(TARBALL_MAX_UNCOMPRESSED_SIZE, 64 * 1024 * 1024).
-define(BUILD_TOOL_FILES, [
{<<"mix.exs">>, <<"mix">>},
{<<"rebar.config">>, <<"rebar3">>},
{<<"rebar">>, <<"rebar3">>},
{<<"Makefile">>, <<"make">>},
{<<"Makefile.win">>, <<"make">>}
]).
-include_lib("kernel/include/file.hrl").
-type checksum() :: binary().
-type contents() :: #{filename() => binary()}.
-type filename() :: string().
-type files() :: [filename() | {filename(), filename()}] | contents().
-type metadata() :: map().
-type tarball() :: binary().
%%====================================================================
%% API functions
%%====================================================================
%% @doc
%% Creates a package tarball.
%%
%% Examples:
%%
%% ```
%% > Metadata = #{<<"name">> => <<"foo">>, <<"version">> => <<"1.0.0">>},
%% > Files = [{"src/foo.erl", <<"-module(foo).">>}],
%% > {ok, {Tarball, Checksum}} = r3_hex_tarball:create(Metadata, Files).
%% > Tarball.
%% <<86,69,...>>
%% > Checksum.
%% <<40,32,...>>
%% '''
%% @end
-spec create(metadata(), files()) -> {ok, {tarball(), checksum()}}.
create(Metadata, Files) ->
MetadataBinary = encode_metadata(Metadata),
ContentsTarball = create_memory_tarball(Files),
ContentsTarballCompressed = gzip(ContentsTarball),
Checksum = checksum(?VERSION, MetadataBinary, ContentsTarballCompressed),
ChecksumBase16 = encode_base16(Checksum),
OuterFiles = [
{"VERSION", ?VERSION},
{"CHECKSUM", ChecksumBase16},
{"metadata.config", MetadataBinary},
{"contents.tar.gz", ContentsTarballCompressed}
],
Tarball = create_memory_tarball(OuterFiles),
UncompressedSize = byte_size(ContentsTarball),
case(byte_size(Tarball) > ?TARBALL_MAX_SIZE) or (UncompressedSize > ?TARBALL_MAX_UNCOMPRESSED_SIZE) of
true ->
{error, {tarball, too_big}};
false ->
{ok, {Tarball, Checksum}}
end.
%% @doc
%% Creates a docs tarball.
%%
%% Examples:
%%
%% ```
%% > Files = [{"doc/index.html", <<"Docs">>}],
%% > {ok, {Tarball, Checksum}} = r3_hex_tarball:create_docs(Files).
%% > Tarball.
%% %%=> <<86,69,...>>
%% > Checksum.
%% %%=> <<40,32,...>>
%% '''
%% @end
-spec create_docs(files()) -> {ok, {tarball(), checksum()}}.
create_docs(Files) ->
UncompressedTarball = create_memory_tarball(Files),
UncompressedSize = byte_size(UncompressedTarball),
Tarball = gzip(UncompressedTarball),
Checksum = checksum(Tarball),
Size = byte_size(Tarball),
case(Size > ?TARBALL_MAX_SIZE) or (UncompressedSize > ?TARBALL_MAX_UNCOMPRESSED_SIZE) of
true ->
{error, {tarball, too_big}};
false ->
{ok, {Tarball, Checksum}}
end.
%% @doc
%% Unpacks a package tarball.
%%
%% Examples:
%%
%% ```
%% > r3_hex_tarball:unpack(Tarball, memory).
%% {ok,#{checksum => <<...>>,
%% contents => [{"src/foo.erl",<<"-module(foo).">>}],
%% metadata => #{<<"name">> => <<"foo">>, ...}}}
%%
%% > r3_hex_tarball:unpack(Tarball, "path/to/unpack").
%% {ok,#{checksum => <<...>>,
%% metadata => #{<<"name">> => <<"foo">>, ...}}}
%% '''
-spec unpack(tarball(), memory) ->
{ok, #{checksum => checksum(), metadata => metadata(), contents => contents()}} |
{error, term()};
(tarball(), filename()) ->
{ok, #{checksum => checksum(), metadata => metadata()}} |
{error, term()}.
unpack(Tarball, _) when byte_size(Tarball) > ?TARBALL_MAX_SIZE ->
{error, {tarball, too_big}};
unpack(Tarball, Output) ->
case r3_hex_erl_tar:extract({binary, Tarball}, [memory]) of
{ok, []} ->
{error, {tarball, empty}};
{ok, FileList} ->
do_unpack(maps:from_list(FileList), Output);
{error, Reason} ->
{error, {tarball, Reason}}
end.
%% @doc
%% Returns base16-encoded representation of checksum.
-spec format_checksum(checksum()) -> binary().
format_checksum(Checksum) ->
encode_base16(Checksum).
%% @doc
%% Converts an error reason term to a human-readable error message string.
-spec format_error(term()) -> string().
format_error({tarball, empty}) -> "empty tarball";
format_error({tarball, too_big}) -> "tarball is too big";
format_error({tarball, {missing_files, Files}}) -> io_lib:format("missing files: ~p", [Files]);
format_error({tarball, {invalid_files, Files}}) -> io_lib:format("invalid files: ~p", [Files]);
format_error({tarball, {bad_version, Vsn}}) -> io_lib:format("unsupported version: ~p", [Vsn]);
format_error({tarball, invalid_checksum}) -> "invalid tarball checksum";
format_error({tarball, Reason}) -> "tarball error, " ++ r3_hex_erl_tar:format_error(Reason);
format_error({inner_tarball, Reason}) -> "inner tarball error, " ++ r3_hex_erl_tar:format_error(Reason);
format_error({metadata, invalid_terms}) -> "error reading package metadata: invalid terms";
format_error({metadata, not_key_value}) -> "error reading package metadata: not in key-value format";
format_error({metadata, Reason}) -> "error reading package metadata" ++ r3_safe_erl_term:format_error(Reason);
format_error({checksum_mismatch, ExpectedChecksum, ActualChecksum}) ->
io_lib:format(
"tarball checksum mismatch~n~n" ++
"Expected (base16-encoded): ~s~n" ++
"Actual (base16-encoded): ~s",
[encode_base16(ExpectedChecksum), encode_base16(ActualChecksum)]).
%%====================================================================
%% Internal functions
%%====================================================================
checksum(Version, MetadataBinary, ContentsBinary) ->
Blob = <<Version/binary, MetadataBinary/binary, ContentsBinary/binary>>,
crypto:hash(sha256, Blob).
checksum(ContentsBinary) ->
Blob = <<ContentsBinary/binary>>,
crypto:hash(sha256, Blob).
encode_metadata(Meta) ->
Data = lists:map(
fun(MetaPair) ->
String = io_lib_pretty:print(binarify(MetaPair), [{encoding, utf8}]),
unicode:characters_to_binary([String, ".\n"])
end, maps:to_list(Meta)),
iolist_to_binary(Data).
do_unpack(Files, Output) ->
State = #{
checksum => undefined,
contents => undefined,
files => Files,
metadata => undefined,
output => Output
},
State1 = check_files(State),
State2 = check_version(State1),
State3 = check_checksum(State2),
State4 = decode_metadata(State3),
finish_unpack(State4).
finish_unpack({error, _} = Error) ->
Error;
finish_unpack(#{metadata := Metadata, files := Files, output := Output}) ->
_Version = maps:get("VERSION", Files),
Checksum = decode_base16(maps:get("CHECKSUM", Files)),
ContentsBinary = maps:get("contents.tar.gz", Files),
case unpack_tarball(ContentsBinary, Output) of
ok ->
copy_metadata_config(Output, maps:get("metadata.config", Files)),
{ok, #{checksum => Checksum, metadata => Metadata}};
{ok, Contents} ->
{ok, #{checksum => Checksum, metadata => Metadata, contents => Contents}};
{error, Reason} ->
{error, {inner_tarball, Reason}}
end.
copy_metadata_config(Output, MetadataBinary) ->
ok = file:write_file(filename:join(Output, "hex_metadata.config"), MetadataBinary).
check_files(#{files := Files} = State) ->
RequiredFiles = ["VERSION", "CHECKSUM", "metadata.config", "contents.tar.gz"],
case diff_keys(Files, RequiredFiles, []) of
ok ->
State;
{error, {missing_keys, Keys}} ->
{error, {tarball, {missing_files, Keys}}};
{error, {unknown_keys, Keys}} ->
{error, {tarball, {invalid_files, Keys}}}
end.
check_version({error, _} = Error) ->
Error;
check_version(#{files := Files} = State) ->
case maps:get("VERSION", Files) of
<<"3">> ->
State;
Version ->
{error, {tarball, {bad_version, Version}}}
end.
check_checksum({error, _} = Error) ->
Error;
check_checksum(#{files := Files} = State) ->
ChecksumBase16 = maps:get("CHECKSUM", Files),
ExpectedChecksum = decode_base16(ChecksumBase16),
Version = maps:get("VERSION", Files),
MetadataBinary = maps:get("metadata.config", Files),
ContentsBinary = maps:get("contents.tar.gz", Files),
ActualChecksum = checksum(Version, MetadataBinary, ContentsBinary),
if
byte_size(ExpectedChecksum) /= 32 ->
{error, {tarball, invalid_checksum}};
ExpectedChecksum == ActualChecksum ->
maps:put(checksum, ExpectedChecksum, State);
true ->
{error, {tarball, {checksum_mismatch, ExpectedChecksum, ActualChecksum}}}
end.
decode_metadata({error, _} = Error) ->
Error;
decode_metadata(#{files := #{"metadata.config" := Binary}} = State) when is_binary(Binary) ->
case do_decode_metadata(Binary) of
#{} = Metadata -> maps:put(metadata, normalize_metadata(Metadata), State);
Other -> Other
end.
do_decode_metadata(Binary) when is_binary(Binary) ->
{ok, String} = characters_to_list(Binary),
case r3_safe_erl_term:string(String) of
{ok, Tokens, _Line} ->
try
Terms = r3_safe_erl_term:terms(Tokens),
maps:from_list(Terms)
catch
error:function_clause ->
{error, {metadata, invalid_terms}};
error:badarg ->
{error, {metadata, not_key_value}}
end;
{error, {_Line, r3_safe_erl_term, Reason}, _Line2} ->
{error, {metadata, Reason}}
end.
characters_to_list(Binary) ->
case unicode:characters_to_list(Binary) of
List when is_list(List) ->
{ok, List};
{error, _, _} ->
case unicode:characters_to_list(Binary, latin1) of
List when is_list(List) -> {ok, List};
Other -> Other
end
end.
normalize_metadata(Metadata1) ->
Metadata2 = maybe_update_with(<<"requirements">>, fun normalize_requirements/1, Metadata1),
Metadata3 = maybe_update_with(<<"links">>, fun try_into_map/1, Metadata2),
Metadata4 = maybe_update_with(<<"extra">>, fun try_into_map/1, Metadata3),
guess_build_tools(Metadata4).
normalize_requirements(Requirements) ->
case is_list(Requirements) andalso (Requirements /= []) andalso is_list(hd(Requirements)) of
true ->
maps:from_list(lists:map(fun normalize_legacy_requirement/1, Requirements));
false ->
try_into_map(fun normalize_normal_requirement/1, Requirements)
end.
normalize_normal_requirement({Name, Requirement}) ->
{Name, try_into_map(Requirement)}.
normalize_legacy_requirement(Requirement) ->
Map = maps:from_list(Requirement),
Name = maps:get(<<"name">>, Map),
{Name, maps:without([<<"name">>], Map)}.
guess_build_tools(#{<<"build_tools">> := BuildTools} = Metadata) when is_list(BuildTools) ->
Metadata;
guess_build_tools(#{<<"files">> := Filenames} = Metadata) ->
BaseFiles = [Filename || Filename <- Filenames, filename:dirname(binary_to_list(Filename)) == "."],
BuildTools = lists:usort([Tool || {Filename, Tool} <- ?BUILD_TOOL_FILES, lists:member(Filename, BaseFiles)]),
Metadata#{<<"build_tools">> => BuildTools};
guess_build_tools(Metadata) ->
Metadata.
%%====================================================================
%% Tar Helpers
%%====================================================================
unpack_tarball(ContentsBinary, memory) ->
r3_hex_erl_tar:extract({binary, ContentsBinary}, [memory, compressed]);
unpack_tarball(ContentsBinary, Output) ->
case r3_hex_erl_tar:extract({binary, ContentsBinary}, [{cwd, Output}, compressed]) of
ok ->
[try_updating_mtime(filename:join(Output, Path)) || Path <- filelib:wildcard("**", Output)],
ok;
Other ->
Other
end.
%% let it silently fail for bad symlinks
try_updating_mtime(Path) ->
Time = calendar:universal_time(),
_ = file:write_file_info(Path, #file_info{mtime=Time}, [{time, universal}]),
ok.
create_memory_tarball(Files) ->
Path = tmp_path(),
{ok, Tar} = r3_hex_erl_tar:open(Path, [write]),
try
add_files(Tar, Files)
after
ok = r3_hex_erl_tar:close(Tar)
end,
{ok, Tarball} = file:read_file(Path),
ok = file:delete(Path),
Tarball.
tmp_path() ->
"tmp_" ++ binary_to_list(encode_base16(crypto:strong_rand_bytes(32))).
add_files(Tar, Files) when is_list(Files) ->
lists:map(fun(File) -> add_file(Tar, File) end, Files).
add_file(Tar, {Filename, Contents}) when is_list(Filename) and is_binary(Contents) ->
ok = r3_hex_erl_tar:add(Tar, Contents, Filename, tar_opts());
add_file(Tar, Filename) when is_list(Filename) ->
add_file(Tar, {Filename, Filename});
add_file(Tar, {Filename, AbsFilename}) when is_list(Filename), is_list(AbsFilename) ->
{ok, FileInfo} = file:read_link_info(AbsFilename, []),
case FileInfo#file_info.type of
symlink ->
ok = r3_hex_erl_tar:add(Tar, {Filename, AbsFilename}, tar_opts());
directory ->
case file:list_dir(AbsFilename) of
{ok, []} ->
r3_hex_erl_tar:add(Tar, {Filename, AbsFilename}, tar_opts());
{ok, _} ->
ok
end;
_ ->
Mode = FileInfo#file_info.mode,
{ok, Contents} = file:read_file(AbsFilename),
ok = r3_hex_erl_tar:add(Tar, Contents, Filename, Mode, tar_opts())
end.
tar_opts() ->
NixEpoch = calendar:datetime_to_gregorian_seconds({{1970, 1, 1}, {0, 0, 0}}),
Y2kEpoch = calendar:datetime_to_gregorian_seconds({{2000, 1, 1}, {0, 0, 0}}),
Epoch = Y2kEpoch - NixEpoch,
[{atime, Epoch}, {mtime, Epoch}, {ctime, Epoch}, {uid, 0}, {gid, 0}].
%% Reproducible gzip by not setting mtime and OS
%%
%% From https://tools.ietf.org/html/rfc1952
%%
%% +---+---+---+---+---+---+---+---+---+---+
%% |ID1|ID2|CM |FLG| MTIME |XFL|OS | (more-->)
%% +---+---+---+---+---+---+---+---+---+---+
%%
%% +=======================+
%% |...compressed blocks...| (more-->)
%% +=======================+
%%
%% +---+---+---+---+---+---+---+---+
%% | CRC32 | ISIZE |
%% +---+---+---+---+---+---+---+---+
gzip(Uncompressed) ->
Compressed = gzip_no_header(Uncompressed),
Header = <<31, 139, 8, 0, 0, 0, 0, 0, 0, 0>>,
Crc = erlang:crc32(Uncompressed),
Size = byte_size(Uncompressed),
Trailer = <<Crc:32/little, Size:32/little>>,
iolist_to_binary([Header, Compressed, Trailer]).
gzip_no_header(Uncompressed) ->
Zstream = zlib:open(),
try
zlib:deflateInit(Zstream, default, deflated, -15, 8, default),
Compressed = zlib:deflate(Zstream, Uncompressed, finish),
zlib:deflateEnd(Zstream),
iolist_to_binary(Compressed)
after
zlib:close(Zstream)
end.
%%====================================================================
%% Helpers
%%====================================================================
binarify(Binary) when is_binary(Binary) -> Binary;
binarify(Number) when is_number(Number) -> Number;
binarify(Atom) when Atom == undefined orelse is_boolean(Atom) -> Atom;
binarify(Atom) when is_atom(Atom) -> atom_to_binary(Atom, utf8);
binarify(List) when is_list(List) ->
[binarify(E) || E <- List];
binarify({Key, Value}) ->
{binarify(Key), binarify(Value)};
binarify(Map) when is_map(Map) ->
List = maps:to_list(Map),
lists:map(fun({K, V}) -> binarify({K, V}) end, List).
diff_keys(Map, RequiredKeys, OptionalKeys) ->
Keys = maps:keys(Map),
MissingKeys = RequiredKeys -- Keys,
UnknownKeys = Keys -- (RequiredKeys ++ OptionalKeys),
case {MissingKeys, UnknownKeys} of
{[], []} ->
ok;
{_, [_ | _]} ->
{error, {unknown_keys, UnknownKeys}};
_ ->
{error, {missing_keys, MissingKeys}}
end.
maybe_update_with(Key, Fun, Map) ->
case maps:find(Key, Map) of
{ok, Value} -> maps:put(Key, Fun(Value), Map);
error -> Map
end.
try_into_map(List) ->
try_into_map(fun(X) -> X end, List).
try_into_map(Fun, Input) ->
case is_list(Input) andalso lists:all(fun(E) -> is_tuple(E) andalso (tuple_size(E) == 2) end, Input) of
true -> maps:from_list(lists:map(Fun, Input));
false -> Input
end.
encode_base16(Binary) ->
<<X:256/big-unsigned-integer>> = Binary,
String = string:to_upper(lists:flatten(io_lib:format("~64.16.0b", [X]))),
list_to_binary(String).
%% Based on https://github.com/goj/base16/blob/master/src/base16.erl
%% (C) 2012, Erlang Solutions Ltd.
decode_base16(Base16) ->
<< <<(unhex(H) bsl 4 + unhex(L))>> || <<H,L>> <= Base16 >>.
unhex(D) when $0 =< D andalso D =< $9 ->
D - $0;
unhex(D) when $a =< D andalso D =< $f ->
10 + D - $a;
unhex(D) when $A =< D andalso D =< $F ->
10 + D - $A.