%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1997-2017. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(tar_SUITE).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2, end_per_group/2,
init_per_testcase/2,
borderline/1, atomic/1, long_names/1,
create_long_names/1, bad_tar/1, errors/1, extract_from_binary/1,
extract_from_binary_compressed/1, extract_filtered/1,
extract_from_open_file/1, symlinks/1, open_add_close/1, cooked_compressed/1,
memory/1,unicode/1,read_other_implementations/1,
sparse/1, init/1, leading_slash/1, dotdot/1]).
-include_lib("common_test/include/ct.hrl").
-include_lib("kernel/include/file.hrl").
suite() -> [{ct_hooks,[ts_install_cth]}].
all() ->
[borderline, atomic, long_names, create_long_names,
bad_tar, errors, extract_from_binary,
extract_from_binary_compressed, extract_from_open_file,
extract_filtered,
symlinks, open_add_close, cooked_compressed, memory, unicode,
read_other_implementations,
sparse,init,leading_slash,dotdot].
groups() ->
[].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
init_per_testcase(_Case, Config) ->
Ports = ordsets:from_list(erlang:ports()),
[{ports,Ports}|Config].
%% Test creating, listing and extracting one file from an archive,
%% multiple times with different file sizes. Also check that the file
%% attributes of the extracted file has survived.
borderline(Config) when is_list(Config) ->
%% Note: We cannot use absolute paths, because the pathnames will be
%% too long for the limit allowed in tar files (100 characters).
%% Therefore, strip off the current working directory from the front
%% of the private directory path.
{ok, Cwd} = file:get_cwd(),
RootDir = proplists:get_value(priv_dir, Config),
TempDir = remove_prefix(Cwd++"/", filename:join(RootDir, "borderline")),
ok = file:make_dir(TempDir),
Record = 512,
Block = 20 * Record,
lists:foreach(fun(Size) -> borderline_test(Size, TempDir) end,
[0, 1, 10, 13, 127, 333, Record-1, Record, Record+1,
Block-2*Record-1, Block-2*Record, Block-2*Record+1,
Block-Record-1, Block-Record, Block-Record+1,
Block-1, Block, Block+1,
Block+Record-1, Block+Record, Block+Record+1]),
%% Clean up.
delete_files([TempDir]),
verify_ports(Config).
borderline_test(Size, TempDir) ->
io:format("Testing size ~p", [Size]),
borderline_test(Size, TempDir, true),
borderline_test(Size, TempDir, false),
ok.
borderline_test(Size, TempDir, IsUstar) ->
Prefix = case IsUstar of
true ->
"file_";
false ->
lists:duplicate(100, $f) ++ "ile_"
end,
SizeList = integer_to_list(Size),
Archive = filename:join(TempDir, "ar_"++ SizeList ++".tar"),
Name = filename:join(TempDir, Prefix++SizeList),
%% Create a file and archive it.
X0 = erlang:monotonic_time(),
ok = file:write_file(Name, random_byte_list(X0, Size)),
ok = erl_tar:create(Archive, [Name]),
ok = file:delete(Name),
%% Verify listing and extracting.
IsUstar = is_ustar(Archive),
{ok, [Name]} = erl_tar:table(Archive),
ok = erl_tar:extract(Archive, [verbose]),
%% Verify contents of extracted file.
{ok, Bin} = file:read_file(Name),
true = match_byte_list(X0, binary_to_list(Bin)),
%% Verify that Unix tar can read it.
case IsUstar of
true ->
tar_tf(Archive, Name);
false ->
ok
end,
ok.
tar_tf(Archive, Name) ->
case os:type() of
{unix, _} ->
tar_tf1(Archive, Name);
_ ->
ok
end.
tar_tf1(Archive, Name) ->
Expect = Name ++ "\n",
cmd_expect("tar tf " ++ Archive, Expect).
%% We can't use os:cmd/1, because Unix 'tar tf Name' on Solaris never
%% terminates when given an archive of a size it doesn't like.
cmd_expect(Cmd, Expect) ->
Port = open_port({spawn, make_cmd(Cmd)}, [stream, in, eof]),
get_data(Port, Expect).
get_data(Port, Expect) ->
receive
{Port, {data, Bytes}} ->
get_data(Port, match_output(Bytes, Expect, Port));
{Port, eof} ->
Port ! {self(), close},
receive
{Port, closed} ->
true
end,
receive
{'EXIT', Port, _} ->
ok
after 1 -> % force context switch
ok
end,
match_output(eof, Expect, Port)
end.
match_output([C|Output], [C|Expect], Port) ->
match_output(Output, Expect, Port);
match_output([_|_], [_|_], Port) ->
kill_port_and_fail(Port, badmatch);
match_output([X|Output], [], Port) ->
kill_port_and_fail(Port, {too_much_data, [X|Output]});
match_output([], Expect, _Port) ->
Expect;
match_output(eof, [], _Port) ->
[];
match_output(eof, _Expect, Port) ->
kill_port_and_fail(Port, unexpected_end_of_input).
kill_port_and_fail(Port, Reason) ->
unlink(Port),
exit(Port, die),
ct:fail(Reason).
make_cmd(Cmd) ->
case os:type() of
{win32, _} -> lists:concat(["cmd /c", Cmd]);
{unix, _} -> lists:concat(["sh -c '", Cmd, "'"])
end.
%% Verifies a random byte list.
match_byte_list(X0, [Byte|Rest]) ->
X = next_random(X0),
case (X bsr 26) band 16#ff of
Byte -> match_byte_list(X, Rest);
_ -> false
end;
match_byte_list(_, []) ->
true.
%% Generates a random byte list.
random_byte_list(X0, Count) ->
random_byte_list(X0, Count, []).
random_byte_list(X0, Count, Result) when Count > 0->
X = next_random(X0),
random_byte_list(X, Count-1, [(X bsr 26) band 16#ff|Result]);
random_byte_list(_X, 0, Result) ->
lists:reverse(Result).
%% This RNG is from line 21 on page 102 in Knuth: The Art of Computer Programming,
%% Volume II, Seminumerical Algorithms.
next_random(X) ->
(X*17059465+1) band 16#fffffffff.
%% Test the 'atomic' operations: create/extract/table, on compressed
%% and uncompressed archives.
%% Also test the 'cooked' option.
atomic(Config) when is_list(Config) ->
ok = file:set_cwd(proplists:get_value(priv_dir, Config)),
DataFiles = data_files(),
Names = [Name || {Name,_,_} <- DataFiles],
io:format("Names: ~p", [Names]),
%% Create an uncompressed archive. The compressed flag should still be
%% allowed when listing contents or extracting.
Tar1 = "uncompressed.tar",
erl_tar:create(Tar1, Names, []),
{ok, Names} = erl_tar:table(Tar1, []),
{ok, Names} = erl_tar:table(Tar1, [compressed]),
{ok, Names} = erl_tar:table(Tar1, [cooked]),
{ok, Names} = erl_tar:table(Tar1, [compressed,cooked]),
%% Create a compressed archive.
Tar2 = "compressed.tar",
erl_tar:create(Tar2, Names, [compressed]),
{ok, Names} = erl_tar:table(Tar2, [compressed]),
{error, Reason} = erl_tar:table(Tar2, []),
{ok, Names} = erl_tar:table(Tar2, [compressed,cooked]),
{error, Reason} = erl_tar:table(Tar2, [cooked]),
ok = io:format("No compressed option: ~p, ~s",
[Reason, erl_tar:format_error(Reason)]),
%% Same test again, but this time created with 'cooked'
Tar3 = "uncompressed_cooked.tar",
erl_tar:create(Tar3, Names, [cooked]),
{ok, Names} = erl_tar:table(Tar3, []),
{ok, Names} = erl_tar:table(Tar3, [compressed]),
{ok, Names} = erl_tar:table(Tar3, [cooked]),
{ok, Names} = erl_tar:table(Tar3, [compressed,cooked]),
Tar4 = "compressed_cooked.tar",
erl_tar:create(Tar4, Names, [compressed,cooked]),
{ok, Names} = erl_tar:table(Tar4, [compressed]),
{error, Reason} = erl_tar:table(Tar4, []),
{ok, Names} = erl_tar:table(Tar4, [compressed,cooked]),
{error, Reason} = erl_tar:table(Tar4, [cooked]),
ok = io:format("No compressed option: ~p, ~s",
[Reason, erl_tar:format_error(Reason)]),
%% Clean up.
delete_files([Tar1,Tar2,Tar3,Tar4|Names]),
verify_ports(Config).
%% Returns a sequence of characters.
char_seq(N, First) ->
char_seq(N, First, []).
char_seq(0, _, Result) ->
Result;
char_seq(N, C, Result) when C < 127 ->
char_seq(N-1, C+1, [C|Result]);
char_seq(N, _, Result) ->
char_seq(N, $!, Result).
data_files() ->
Files = [{"first_file", 1555, $a},
{"small_file", 7, $d},
{"big_file", 23875, $e},
{"last_file", 7500, $g}],
create_files(Files),
Files.
create_files([{Name, Size, First}|Rest]) ->
ok = file:write_file(Name, char_seq(Size, First)),
create_files(Rest);
create_files([]) ->
ok.
%% Test to extract an Unix tar file containing filenames longer than
%% 100 characters and empty directories.
long_names(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
Long = filename:join(DataDir, "long_names.tar"),
run_in_short_tempdir(Config,
fun() -> do_long_names(Long) end),
verify_ports(Config).
do_long_names(Long) ->
%% Try table/2 and extract/2.
case erl_tar:table(Long, [verbose]) of
{ok,List} when is_list(List) ->
io:format("~p\n", [List])
end,
{ok,Cwd} = file:get_cwd(),
ok = erl_tar:extract(Long),
Base = filename:join([Cwd, "original_software", "written_by",
"a_bunch_of_hackers",
"spending_all_their_nights",
"still", "not_long_enough",
"but_soon_it_will_be"]),
%% Verify that the empty directory was created.
EmptyDir = filename:join(Base, "empty_directory"),
{ok, #file_info{type=directory}} = file:read_file_info(EmptyDir),
%% Verify that the files were created.
{ok,First} = file:read_file(filename:join(Base, "first_file")),
{ok,Second} = file:read_file(filename:join(Base, "second_file")),
"Here"++_ = binary_to_list(First),
"And"++_ = binary_to_list(Second),
ok.
%% Creates a tar file from a deep directory structure (filenames are
%% longer than 100 characters).
create_long_names(Config) when is_list(Config) ->
run_in_short_tempdir(Config, fun create_long_names/0),
verify_ports(Config).
create_long_names() ->
{ok,Dir} = file:get_cwd(),
Dirs = ["aslfjkshjkhliuf",
"asdhjfehnbfsky",
"sahajfskdfhsz",
"asldfkdlfy4y8rchg",
"f7nafhjgffagkhsfkhsjk",
"dfjasldkfjsdkfjashbv"],
DeepDir = make_dirs(Dirs, []),
AFile = filename:join(DeepDir, "a_file"),
Hello = "hello, world\n",
ok = file:write_file(AFile, Hello),
TarName = filename:join(Dir, "my_tar_with_long_names.tar"),
ok = erl_tar:create(TarName, [AFile]),
%% Print contents.
ok = erl_tar:tt(TarName),
%% Extract and verify.
true = is_ustar(TarName),
ExtractDir = "extract_dir",
ok = file:make_dir(ExtractDir),
ok = erl_tar:extract(TarName, [{cwd,ExtractDir}]),
{ok, Bin} = file:read_file(filename:join(ExtractDir, AFile)),
Hello = binary_to_list(Bin),
ok.
make_dirs([Dir|Rest], []) ->
ok = file:make_dir(Dir),
make_dirs(Rest, Dir);
make_dirs([Dir|Rest], Parent) ->
Name = filename:join(Parent, Dir),
ok = file:make_dir(Name),
make_dirs(Rest, Name);
make_dirs([], Dir) ->
Dir.
%% Try erl_tar:table/2 and erl_tar:extract/2 on some corrupted tar files.
bad_tar(Config) when is_list(Config) ->
try_bad("bad_checksum", bad_header, Config),
try_bad("bad_octal", invalid_tar_checksum, Config),
try_bad("bad_too_short", eof, Config),
try_bad("bad_even_shorter", eof, Config),
verify_ports(Config).
try_bad(Name0, Reason, Config) ->
%% Intentionally no macros here.
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Name = Name0 ++ ".tar",
io:format("~nTrying ~s", [Name]),
Full = filename:join(DataDir, Name),
Dest = filename:join(PrivDir, Name0),
Opts = [verbose, {cwd, Dest}],
Expected = {error, Reason},
io:fwrite("Expected: ~p\n", [Expected]),
case {erl_tar:table(Full, Opts), erl_tar:extract(Full, Opts)} of
{Expected, Expected} ->
io:format("Result: ~p", [Expected]),
case catch erl_tar:format_error(Reason) of
{'EXIT', CrashReason} ->
ct:fail({format_error, crashed, CrashReason});
String when is_list(String) ->
io:format("format_error(~p) -> ~s", [Reason, String]);
Other ->
ct:fail({format_error, returned, Other})
end;
{Other1, Other2} ->
io:format("table/2 returned ~p", [Other1]),
io:format("extract/2 returned ~p", [Other2]),
ct:fail({bad_return_value, Other1, Other2})
end.
%% Tests that some common errors return correct error codes
%% and that format_error/1 handles them correctly.
errors(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
%% Give the tar file the same name as a directory.
BadTar = filename:join(PrivDir, "bad_tarfile.tar"),
ok = file:make_dir(BadTar),
try_error(erl_tar, create, [BadTar, []], {BadTar, eisdir}),
%% Try including non-existent files in the tar file.
NonExistent = "non_existent_file",
GoodTar = filename:join(PrivDir, "a_good_tarfile.tar"),
try_error(erl_tar, create, [GoodTar, [NonExistent]],
{NonExistent, enoent}),
%% Clean up.
delete_files([GoodTar,BadTar]),
verify_ports(Config).
try_error(M, F, A, Error) ->
io:format("Trying ~p:~p(~p)", [M, F, A]),
case catch apply(M, F, A) of
{'EXIT', Reason} ->
exit(Reason);
ok ->
ct:fail(unexpected_success);
{error, Error} ->
case catch erl_tar:format_error(Error) of
{'EXIT', FReason} ->
ct:fail({format_error, crashed, FReason});
String when is_list(String) ->
io:format("format_error(~p) -> ~s", [Error, String]);
Other ->
ct:fail({format_error, returned, Other})
end;
Other ->
ct:fail({expected, {error, Error}, actual, Other})
end.
%% remove_prefix(Prefix, List) -> ListWithoutPrefix.
remove_prefix([C|Rest1], [C|Rest2]) ->
remove_prefix(Rest1, Rest2);
remove_prefix(_, Result) ->
Result.
%% Test extracting a tar archive from a binary.
extract_from_binary(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Long = filename:join(DataDir, "no_fancy_stuff.tar"),
ExtractDir = filename:join(PrivDir, "extract_from_binary"),
ok = file:make_dir(ExtractDir),
%% Read a tar file into a binary and extract from the binary.
{ok, Bin} = file:read_file(Long),
ok = erl_tar:extract({binary, Bin}, [{cwd,ExtractDir}]),
%% Verify.
Dir = filename:join(ExtractDir, "no_fancy_stuff"),
true = filelib:is_dir(Dir),
true = filelib:is_file(filename:join(Dir, "a_dir_list")),
true = filelib:is_file(filename:join(Dir, "EPLICENCE")),
%% Clean up.
delete_files([ExtractDir]),
verify_ports(Config).
extract_from_binary_compressed(Config) when is_list(Config) ->
%% Test extracting a compressed tar archive from a binary.
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Name = filename:join(DataDir, "cooked_tar_problem.tar.gz"),
ExtractDir = filename:join(PrivDir, "extract_from_binary_compressed"),
ok = file:make_dir(ExtractDir),
{ok,Bin} = file:read_file(Name),
%% Try taking contents.
{ok,Files} = erl_tar:table({binary,Bin}, [compressed]),
io:format("~p\n", [Files]),
19 = length(Files),
%% Trying extracting from a binary.
ok = erl_tar:extract({binary,Bin}, [compressed,{cwd,ExtractDir}]),
{ok,List} = file:list_dir(filename:join(ExtractDir, "ddll_SUITE_data")),
io:format("~p\n", [List]),
19 = length(List),
%% Clean up while at the same time testing that all file
%% were extracted as expected.
lists:foreach(fun(N) ->
File = filename:join(ExtractDir, N),
io:format("Deleting: ~p\n", [File]),
ok = file:delete(File)
end, Files),
%% Clean up the rest.
delete_files([ExtractDir]),
verify_ports(Config).
%% Test extracting a tar archive from a binary.
extract_filtered(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Long = filename:join(DataDir, "no_fancy_stuff.tar"),
ExtractDir = filename:join(PrivDir, "extract_from_binary"),
ok = file:make_dir(ExtractDir),
ok = erl_tar:extract(Long, [{cwd,ExtractDir},{files,["no_fancy_stuff/EPLICENCE"]}]),
%% Verify.
Dir = filename:join(ExtractDir, "no_fancy_stuff"),
true = filelib:is_dir(Dir),
false = filelib:is_file(filename:join(Dir, "a_dir_list")),
true = filelib:is_file(filename:join(Dir, "EPLICENCE")),
%% Clean up.
delete_files([ExtractDir]),
verify_ports(Config).
%% Test extracting a tar archive from an open file.
extract_from_open_file(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Long = filename:join(DataDir, "no_fancy_stuff.tar"),
ExtractDir = filename:join(PrivDir, "extract_from_open_file"),
ok = file:make_dir(ExtractDir),
{ok, File} = file:open(Long, [read]),
ok = erl_tar:extract({file, File}, [{cwd,ExtractDir}]),
%% Verify.
Dir = filename:join(ExtractDir, "no_fancy_stuff"),
true = filelib:is_dir(Dir),
true = filelib:is_file(filename:join(Dir, "a_dir_list")),
true = filelib:is_file(filename:join(Dir, "EPLICENCE")),
%% Close open file.
ok = file:close(File),
%% Clean up.
delete_files([ExtractDir]),
verify_ports(Config).
%% Test that archives containing symlinks can be created and extracted.
symlinks(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Dir = filename:join(PrivDir, "symlinks"),
ok = file:make_dir(Dir),
ABadSymlink = filename:join(Dir, "bad_symlink"),
PointsTo = "/a/definitely/non_existing/path",
Res = case make_symlink("/a/definitely/non_existing/path", ABadSymlink) of
{error, enotsup} ->
{skip, "Symbolic links not supported on this platform"};
ok ->
symlinks(Dir, "bad_symlink", PointsTo),
long_symlink(Dir)
end,
%% Clean up.
delete_files([Dir]),
verify_ports(Config),
Res.
make_symlink(Path, Link) ->
case os:type() of
{win32,_} ->
%% Symlinks on Windows have two problems:
%% 1) file:read_link_info/1 cannot read out the target
%% of the symlink if the target does not exist.
%% That is possible (but not easy) to fix in the
%% efile driver.
%%
%% 2) Symlinks to files and directories are different
%% creatures. If the target is not existing, the
%% symlink will be created to be of the file-pointing
%% type. That can be partially worked around in erl_tar
%% by creating all symlinks when the end of the tar
%% file has been reached.
%%
%% But for now, pretend that there are no symlinks on
%% Windows.
{error, enotsup};
_ ->
file:make_symlink(Path, Link)
end.
symlinks(Dir, BadSymlink, PointsTo) ->
Tar = filename:join(Dir, "symlink.tar"),
DerefTar = filename:join(Dir, "dereference.tar"),
%% Create the archive.
ok = file:set_cwd(Dir),
GoodSymlink = "good_symlink",
AFile = "a_good_file",
ALine = "A line of text for a file.",
ok = file:write_file(AFile, ALine),
ok = file:make_symlink(AFile, GoodSymlink),
ok = erl_tar:create(Tar, [BadSymlink, GoodSymlink, AFile], [verbose]),
true = is_ustar(Tar),
%% List contents of tar file.
ok = erl_tar:tt(Tar),
%% Also create another archive with the dereference flag.
ok = erl_tar:create(DerefTar, [AFile, GoodSymlink], [dereference, verbose]),
true = is_ustar(DerefTar),
%% Extract files to a new directory.
NewDir = filename:join(Dir, "extracted"),
ok = file:make_dir(NewDir),
ok = erl_tar:extract(Tar, [{cwd, NewDir}, verbose]),
%% Verify that the files are there.
ok = file:set_cwd(NewDir),
{ok, #file_info{type=symlink}} = file:read_link_info(BadSymlink),
{ok, PointsTo} = file:read_link(BadSymlink),
{ok, #file_info{type=symlink}} = file:read_link_info(GoodSymlink),
{ok, AFile} = file:read_link(GoodSymlink),
Expected = list_to_binary(ALine),
{ok, Expected} = file:read_file(GoodSymlink),
%% Extract the "dereferenced archive" to a new directory.
NewDirDeref = filename:join(Dir, "extracted_deref"),
ok = file:make_dir(NewDirDeref),
ok = erl_tar:extract(DerefTar, [{cwd, NewDirDeref}, verbose]),
%% Verify that the files are there.
ok = file:set_cwd(NewDirDeref),
{ok, #file_info{type=regular}} = file:read_link_info(GoodSymlink),
{ok, #file_info{type=regular}} = file:read_link_info(AFile),
{ok, Expected} = file:read_file(GoodSymlink),
{ok, Expected} = file:read_file(AFile),
ok.
long_symlink(Dir) ->
Tar = filename:join(Dir, "long_symlink.tar"),
ok = file:set_cwd(Dir),
AFile = "long_symlink",
RequiresPAX = "/tmp/aarrghh/this/path/is/far/longer/than/one/hundred/characters/which/is/the/maximum/number/of/characters/allowed",
ok = file:make_symlink(RequiresPAX, AFile),
ok = erl_tar:create(Tar, [AFile], [verbose]),
false = is_ustar(Tar),
NewDir = filename:join(Dir, "extracted"),
_ = file:make_dir(NewDir),
ok = erl_tar:extract(Tar, [{cwd, NewDir}, verbose]),
ok = file:set_cwd(NewDir),
{ok, #file_info{type=symlink}} = file:read_link_info(AFile),
{ok, RequiresPAX} = file:read_link(AFile),
ok.
init(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
ok = file:set_cwd(PrivDir),
Dir = filename:join(PrivDir, "init"),
ok = file:make_dir(Dir),
[{FileOne,_,_}|_] = oac_files(),
TarOne = filename:join(Dir, "archive1.tar"),
{ok,Fd} = file:open(TarOne, [write]),
%% If the arity of the fun is wrong, badarg should be returned
{error, badarg} = erl_tar:init(Fd, write, fun file_op_bad/1),
%% Otherwise we should be good to go
{ok, Tar} = erl_tar:init(Fd, write, fun file_op/2),
ok = erl_tar:add(Tar, FileOne, []),
ok = erl_tar:close(Tar),
{ok, [FileOne]} = erl_tar:table(TarOne),
verify_ports(Config).
file_op_bad(_) ->
throw({error, should_never_be_called}).
file_op(write, {Fd, Data}) ->
file:write(Fd, Data);
file_op(position, {Fd, Pos}) ->
file:position(Fd, Pos);
file_op(read2, {Fd, Size}) ->
file:read(Fd, Size);
file_op(close, Fd) ->
file:close(Fd).
open_add_close(Config) when is_list(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
ok = file:set_cwd(PrivDir),
Dir = filename:join(PrivDir, "open_add_close"),
ok = file:make_dir(Dir),
[{FileOne,_,_},{FileTwo,_,_},{FileThree,_,_}] = oac_files(),
ADir = "empty_dir",
AnotherDir = "another_dir",
SomeContent = filename:join(AnotherDir, "some_content"),
ok = file:make_dir(ADir),
ok = file:make_dir(AnotherDir),
ok = file:make_dir(SomeContent),
TarOne = filename:join(Dir, "archive1.tar"),
{ok,AD} = erl_tar:open(TarOne, [write]),
ok = erl_tar:add(AD, FileOne, []),
%% Add with {NameInArchive,Name}
ok = erl_tar:add(AD, {"second file", FileTwo}, []),
%% Add with {binary, Bin}
{ok,FileThreeBin} = file:read_file(FileThree),
ok = erl_tar:add(AD, {FileThree, FileThreeBin}, [verbose]),
%% Add with Name
ok = erl_tar:add(AD, FileThree, "chunked", [{chunks,11411},verbose]),
ok = erl_tar:add(AD, ADir, [verbose]),
ok = erl_tar:add(AD, AnotherDir, [verbose]),
ok = erl_tar:close(AD),
true = is_ustar(TarOne),
ok = erl_tar:t(TarOne),
ok = erl_tar:tt(TarOne),
Expected = {ok,[FileOne,"second file",FileThree,"chunked",ADir,SomeContent]},
Expected = erl_tar:table(TarOne),
delete_files(["oac_file","oac_small","oac_big",Dir,AnotherDir,ADir]),
verify_ports(Config).
oac_files() ->
Files = [{"oac_file", 1459, $x},
{"oac_small", 99, $w},
{"oac_big", 33896, $A}],
create_files(Files),
Files.
cooked_compressed(Config) when is_list(Config) ->
%% Test that a compressed archive can be read in cooked mode.
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Name = filename:join(DataDir, "cooked_tar_problem.tar.gz"),
%% Try table/2 and extract/2.
{ok,List} = erl_tar:table(Name, [cooked,compressed]),
io:format("~p\n", [List]),
19 = length(List),
ok = erl_tar:extract(Name, [cooked,compressed,{cwd,PrivDir}]),
%% Clean up while at the same time testing that all file
%% were extracted as expected.
lists:foreach(fun(N) ->
File = filename:join(PrivDir, N),
io:format("Deleting: ~p\n", [File]),
ok = file:delete(File)
end, List),
%% Clean up.
delete_files([filename:join(PrivDir, "ddll_SUITE_data")]),
verify_ports(Config).
%% Test that an archive can be created directly from binaries and
%% that an archive can be extracted into binaries.
memory(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
FileBins = [{"bar/fum", <<"BARFUM">>},{"foo", <<"FOO">>}],
Name1 = filename:join(DataDir, "memory.tar"),
ok = erl_tar:create(Name1, FileBins, [write,verbose]),
{ok,Extracted1} = erl_tar:extract(Name1, [memory,verbose]),
FileBins1 = lists:sort(Extracted1),
io:format("FileBins: ~p\n", [FileBins]),
io:format("FileBins1: ~p\n", [FileBins1]),
FileBins = FileBins1,
Name2 = filename:join(DataDir, "memory2.tar"),
{ok,Fd} = erl_tar:open(Name2, [write]),
[ok,ok] = [erl_tar:add(Fd, B, N, [write,verbose]) || {N,B} <- FileBins],
ok = erl_tar:close(Fd),
{ok,Extracted2} = erl_tar:extract(Name2, [memory,verbose]),
FileBins2 = lists:sort(Extracted2),
io:format("FileBins2: ~p\n", [FileBins2]),
FileBins = FileBins2,
%% Clean up.
ok = delete_files([Name1,Name2]),
verify_ports(Config).
read_other_implementations(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
Files = ["v7.tar", "gnu.tar", "bsd.tar",
"star.tar", "pax_mtime.tar"],
do_read_other_implementations(Files, DataDir),
verify_ports(Config).
do_read_other_implementations([], _DataDir) ->
ok;
do_read_other_implementations([File|Rest], DataDir) ->
io:format("~nTrying ~s", [File]),
Full = filename:join(DataDir, File),
{ok, _} = erl_tar:table(Full),
{ok, _} = erl_tar:extract(Full, [memory]),
do_read_other_implementations(Rest, DataDir).
%% Test handling of sparse files
sparse(Config) when is_list(Config) ->
DataDir = proplists:get_value(data_dir, Config),
PrivDir = proplists:get_value(priv_dir, Config),
Sparse01Empty = "sparse01_empty.tar",
Sparse01 = "sparse01.tar",
Sparse10Empty = "sparse10_empty.tar",
Sparse10 = "sparse10.tar",
do_sparse([Sparse01Empty, Sparse01, Sparse10Empty, Sparse10], DataDir, PrivDir),
verify_ports(Config).
do_sparse([], _DataDir, _PrivDir) ->
ok;
do_sparse([Name|Rest], DataDir, PrivDir) ->
io:format("~nTrying sparse file ~s", [Name]),
Full = filename:join(DataDir, Name),
{ok, [_]} = erl_tar:table(Full),
{ok, _} = erl_tar:extract(Full, [memory]),
do_sparse(Rest, DataDir, PrivDir).
%% Test filenames with characters outside the US ASCII range.
unicode(Config) when is_list(Config) ->
run_unicode_node(Config, "+fnu"),
case has_transparent_naming() of
true ->
run_unicode_node(Config, "+fnl");
false ->
ok
end.
run_unicode_node(Config, Option) ->
PrivDir = proplists:get_value(priv_dir, Config),
Pa = filename:dirname(code:which(?MODULE)),
Args = Option ++ " -pa "++Pa,
io:format("~s\n", [Args]),
Node = start_node(unicode, Args),
ok = rpc:call(Node, erlang, apply,
[fun() -> do_unicode(PrivDir) end,[]]),
true = test_server:stop_node(Node),
ok.
has_transparent_naming() ->
case os:type() of
{unix,darwin} -> false;
{unix,_} -> true;
_ -> false
end.
do_unicode(PrivDir) ->
ok = file:set_cwd(PrivDir),
ok = file:make_dir("unicöde"),
Names = lists:sort(unicode_create_files()),
Tar = "unicöde.tar",
ok = erl_tar:create(Tar, ["unicöde"], []),
%% Unicode filenames require PAX format.
false = is_ustar(Tar),
{ok,Names0} = erl_tar:table(Tar, []),
Names = lists:sort(Names0),
_ = [ok = file:delete(Name) || Name <- Names],
ok = erl_tar:extract(Tar),
_ = [{ok,_} = file:read_file(Name) || Name <- Names],
_ = [ok = file:delete(Name) || Name <- Names],
ok = file:del_dir("unicöde"),
ok.
unicode_create_files() ->
FileA = "unicöde/smörgåsbord",
ok = file:write_file(FileA, "yum!\n"),
[FileA|case file:native_name_encoding() of
utf8 ->
FileB = "unicöde/Хороший файл!",
ok = file:write_file(FileB, "But almost empty.\n"),
[FileB];
latin1 ->
[]
end].
leading_slash(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Dir = filename:join(PrivDir, ?FUNCTION_NAME),
TarFile = filename:join(Dir, "leading_slash.tar"),
ok = filelib:ensure_dir(TarFile),
{ok,Fd} = erl_tar:open(TarFile, [write]),
TarMemberName = "e/d/c/b/a_member",
TarMemberNameAbs = "/" ++ TarMemberName,
Contents = <<"contents\n">>,
ok = erl_tar:add(Fd, Contents, TarMemberNameAbs, [verbose]),
ok = erl_tar:close(Fd),
ok = erl_tar:extract(TarFile, [{cwd,Dir}]),
{ok,Contents} = file:read_file(filename:join(Dir, TarMemberName)),
ok.
dotdot(Config) ->
PrivDir = proplists:get_value(priv_dir, Config),
Dir = filename:join(PrivDir, ?FUNCTION_NAME),
ok = file:make_dir(Dir),
Tar = filename:join(Dir, "dotdot.tar"),
{ok,Fd} = erl_tar:open(Tar, [write]),
BeamFile = code:which(?MODULE),
ok = erl_tar:add(Fd, BeamFile, "a/./../../some_file", []),
ok = erl_tar:close(Fd),
{error,{_,unsafe_path=Error}} = erl_tar:extract(Tar, [{cwd,Dir}]),
false = filelib:is_regular(filename:join(PrivDir, "some_file")),
io:format("~s\n", [erl_tar:format_error(Error)]),
ok.
%% Delete the given list of files.
delete_files([]) -> ok;
delete_files([Item|Rest]) ->
case file:delete(Item) of
ok ->
delete_files(Rest);
{error,eperm} ->
file:change_mode(Item, 8#777),
delete_files(filelib:wildcard(filename:join(Item, "*"))),
file:del_dir(Item),
ok;
{error,eacces} ->
%% We'll see about that!
file:change_mode(Item, 8#777),
case file:delete(Item) of
ok -> ok;
{error,_} ->
erlang:yield(),
file:change_mode(Item, 8#777),
file:delete(Item),
ok
end;
{error,_} -> ok
end,
delete_files(Rest).
%% Move to a temporary directory with as short name as possible and
%% execute Fun. Remove the directory and any files in it afterwards.
%% This is necessary because pathnames on Windows may be limited to
%% 260 characters.
run_in_short_tempdir(Config, Fun) ->
{ok,Cwd} = file:get_cwd(),
PrivDir0 = proplists:get_value(priv_dir, Config),
%% Normalize name to make sure that there is no slash at the end.
PrivDir = filename:absname(PrivDir0),
%% We need a base directory with a much shorter pathname than
%% priv_dir. We KNOW that priv_dir is located four levels below
%% the directory that common_test puts the ct_run.* directories
%% in. That fact is not documented, but a usually reliable source
%% assured me that the directory structure is unlikely to change
%% in future versions of common_test because of backwards
%% compatibility (tools developed by users of common_test depend
%% on the current directory layout).
Base = lists:foldl(fun(_, D) ->
filename:dirname(D)
end, PrivDir, [1,2,3,4]),
Dir = make_temp_dir(Base, 0),
ok = file:set_cwd(Dir),
io:format("Running test in ~s\n", [Dir]),
try
Fun()
after
file:set_cwd(Cwd),
delete_files([Dir])
end.
make_temp_dir(Base, I) ->
Name = filename:join(Base, integer_to_list(I, 36)),
case file:make_dir(Name) of
ok -> Name;
{error,eexist} -> make_temp_dir(Base, I+1)
end.
start_node(Name, Args) ->
[_,Host] = string:tokens(atom_to_list(node()), "@"),
ct:log("Trying to start ~w@~s~n", [Name,Host]),
case test_server:start_node(Name, peer, [{args,Args}]) of
{error,Reason} ->
ct:fail(Reason);
{ok,Node} ->
ct:log("Node ~p started~n", [Node]),
Node
end.
%% Test that the given tar file is a plain USTAR archive,
%% without any PAX extensions.
is_ustar(File) ->
{ok,Bin} = file:read_file(File),
<<_:257/binary,"ustar",0,_/binary>> = Bin,
<<_:156/binary,Type:8,_/binary>> = Bin,
case Type of
$x -> false;
$g -> false;
_ -> true
end.
verify_ports(Config) ->
PortsBefore = proplists:get_value(ports, Config),
PortsAfter = ordsets:from_list(erlang:ports()),
case ordsets:subtract(PortsAfter, PortsBefore) of
[] ->
ok;
[_|_]=Rem ->
error({leaked_ports,Rem})
end.