%% Test suite for the rebar pkg index caching and decompression
%% mechanisms.
-module(rebar_pkg_SUITE).
-compile(export_all).
-include_lib("common_test/include/ct.hrl").
-include_lib("eunit/include/eunit.hrl").
-include("rebar.hrl").
-define(bad_etag, <<"abcdef">>).
-define(good_etag, <<"22e1d7387c9085a462340088a2a8ba67">>).
-define(badpkg_checksum, <<"A14E3718B33F8124E98004433193509EC6660F6CA03302657CAB8785751D77A0">>).
-define(badindex_checksum, <<"7B2CBED315C89F3126B5BF553DD7FF0FB5FE94B064888DD1B095CE8BF4B6A16A">>).
-define(bad_checksum, <<"D576B442A68C7B92BACDE1EFE9C6E54D8D6C74BDB71D8175B9D3C6EC8C7B62A7">>).
-define(good_checksum, <<"12726BDE1F65583A0817A7E8AADCA73F03FD8CB06F01E6CD29117C4A0DA0AFCF">>).
-define(BADPKG_ETAG, <<"BADETAG">>).
all() -> [good_uncached, good_cached, badpkg, badhash_nocache,
badindexchk, badhash_cache, bad_to_good, good_disconnect,
bad_disconnect, pkgs_provider, find_highest_matching].
init_per_suite(Config) ->
application:start(meck),
Config.
end_per_suite(_Config) ->
application:stop(meck).
init_per_testcase(pkgs_provider=Name, Config) ->
%% Need to mock out a registry for this test now because it will try to update it automatically
Priv = ?config(priv_dir, Config),
Tid = ets:new(registry_table, [public]),
ets:insert_new(Tid, []),
CacheRoot = filename:join([Priv, "cache", atom_to_list(Name)]),
CacheDir = filename:join([CacheRoot, "hex", "com", "test", "packages"]),
filelib:ensure_dir(filename:join([CacheDir, "registry"])),
ok = ets:tab2file(Tid, filename:join([CacheDir, "registry"])),
Config;
init_per_testcase(good_uncached=Name, Config0) ->
Config = [{good_cache, false},
{pkg, {<<"goodpkg">>, <<"1.0.0">>}}
| Config0],
mock_config(Name, Config);
init_per_testcase(good_cached=Name, Config0) ->
Pkg = {<<"goodpkg">>, <<"1.0.0">>},
Config1 = [{good_cache, true},
{pkg, Pkg}
| Config0],
Config = mock_config(Name, Config1),
copy_to_cache(Pkg, Config),
Config;
init_per_testcase(badindexchk=Name, Config0) ->
Config = [{good_cache, false},
{pkg, {<<"badindexchk">>, <<"1.0.0">>}}
| Config0],
mock_config(Name, Config);
init_per_testcase(badpkg=Name, Config0) ->
Config = [{good_cache, false},
{pkg, {<<"badpkg">>, <<"1.0.0">>}}
| Config0],
mock_config(Name, Config);
init_per_testcase(badhash_nocache=Name, Config0) ->
Config = [{good_cache, false},
{pkg, {<<"goodpkg">>, <<"1.0.0">>}}
| Config0],
mock_config(Name, Config);
init_per_testcase(badhash_cache=Name, Config0) ->
Pkg = {<<"goodpkg">>, <<"1.0.0">>},
Config1 = [{good_cache, true},
{pkg, Pkg}
| Config0],
Config = mock_config(Name, Config1),
copy_to_cache(Pkg, Config),
Config;
init_per_testcase(bad_to_good=Name, Config0) ->
Config1 = [{good_cache, false},
{pkg, {<<"goodpkg">>, <<"1.0.0">>}}
| Config0],
Config = mock_config(Name, Config1),
Source = filename:join(?config(data_dir, Config), <<"badpkg-1.0.0.tar">>),
Dest = filename:join(?config(cache_dir, Config), <<"goodpkg-1.0.0.tar">>),
ec_file:copy(Source, Dest),
Config;
init_per_testcase(good_disconnect=Name, Config0) ->
Pkg = {<<"goodpkg">>, <<"1.0.0">>},
Config1 = [{good_cache, false},
{pkg, Pkg}
| Config0],
Config = mock_config(Name, Config1),
copy_to_cache(Pkg, Config),
%% meck:unload(httpc),
meck:new(httpc, [passthrough, unsticky]),
meck:expect(httpc, request, fun(_, _, _, _) -> {error, econnrefused} end),
Config;
init_per_testcase(bad_disconnect=Name, Config0) ->
Pkg = {<<"goodpkg">>, <<"1.0.0">>},
Config1 = [{good_cache, false},
{pkg, Pkg}
| Config0],
Config = mock_config(Name, Config1),
meck:expect(r3_hex_repo, get_tarball, fun(_, _, _) ->
{error, econnrefused}
end),
Config;
init_per_testcase(Name, Config0) ->
Config = [{good_cache, false},
{pkg, {<<"goodpkg">>, <<"1.0.0">>}}
| Config0],
mock_config(Name, Config).
end_per_testcase(_, Config) ->
unmock_config(Config),
Config.
good_uncached(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
?assertEqual(ok,
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?good_checksum, #{}}, State, #{}, true)),
Cache = ?config(cache_dir, Config),
?assert(filelib:is_regular(filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>))).
good_cached(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
Cache = ?config(cache_dir, Config),
CachedFile = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>),
?assert(filelib:is_regular(CachedFile)),
{ok, Content} = file:read_file(CachedFile),
?assertEqual(ok,
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?good_checksum, #{}}, State, #{}, true)),
{ok, Content} = file:read_file(CachedFile).
badindexchk(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
?assertMatch({error, {rebar_pkg_resource, {bad_registry_checksum, _, _, _, _}}},
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?bad_checksum, #{}}, State, #{}, true)),
%% The cached file is there for forensic purposes
Cache = ?config(cache_dir, Config),
?assert(filelib:is_regular(filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>))).
badpkg(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
Cache = ?config(cache_dir, Config),
CachePath = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>),
ETagPath = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".etag">>),
rebar_pkg_resource:store_etag_in_cache(ETagPath, ?BADPKG_ETAG),
?assertMatch({error, {hex_tarball, {tarball, {checksum_mismatch, _, _}}}},
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?badpkg_checksum, #{}}, State, #{}, false)),
%% The cached/etag files are there for forensic purposes
?assert(filelib:is_regular(ETagPath)),
?assert(filelib:is_regular(CachePath)).
badhash_nocache(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
?assertMatch({error, {rebar_pkg_resource, {bad_registry_checksum, _, _, _, _}}},
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?bad_checksum, #{}}, State, #{}, true)),
%% The cached file is there for forensic purposes
Cache = ?config(cache_dir, Config),
?assert(filelib:is_regular(filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>))).
badhash_cache(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
Cache = ?config(cache_dir, Config),
State = ?config(state, Config),
CachedFile = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>),
?assert(filelib:is_regular(CachedFile)),
{ok, Content} = file:read_file(CachedFile),
?assertMatch({error, {rebar_pkg_resource, {bad_registry_checksum, _, _, _, _}}},
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?bad_checksum, #{}}, State, #{}, true)),
%% The cached file is there still, unchanged.
?assert(filelib:is_regular(CachedFile)),
?assertEqual({ok, Content}, file:read_file(CachedFile)).
bad_to_good(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
Cache = ?config(cache_dir, Config),
CachedFile = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>),
?assert(filelib:is_regular(CachedFile)),
{ok, Contents} = file:read_file(CachedFile),
?assertEqual(ok,
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?good_checksum, #{}}, State, #{}, true)),
%% Cache has refreshed
?assert({ok, Contents} =/= file:read_file(CachedFile)).
good_disconnect(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
Cache = ?config(cache_dir, Config),
CachedFile = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".tar">>),
ETagFile = filename:join(Cache, <<Pkg/binary, "-", Vsn/binary, ".etag">>),
?assert(filelib:is_regular(CachedFile)),
{ok, Content} = file:read_file(CachedFile),
rebar_pkg_resource:store_etag_in_cache(ETagFile, ?BADPKG_ETAG),
?assertEqual(ok,
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?good_checksum, #{}}, State, #{}, true)),
{ok, Content} = file:read_file(CachedFile).
bad_disconnect(Config) ->
Tmp = ?config(tmp_dir, Config),
{Pkg,Vsn} = ?config(pkg, Config),
State = ?config(state, Config),
?assertEqual({fetch_fail, Pkg, Vsn},
rebar_pkg_resource:download(Tmp, {pkg, Pkg, Vsn, ?good_checksum, #{}}, State, #{}, true)).
pkgs_provider(Config) ->
Config1 = rebar_test_utils:init_rebar_state(Config),
rebar_test_utils:run_and_check(
Config1, [], ["pkgs", "relx"],
{ok, []}
).
find_highest_matching(_Config) ->
State = rebar_state:new(),
{ok, Vsn} = rebar_packages:find_highest_matching_(
<<"goodpkg">>, ec_semver:parse(<<"1.0.0">>), #{name => <<"hexpm">>}, ?PACKAGE_TABLE, State),
?assertEqual({{1,0,1},{[],[]}}, Vsn),
{ok, Vsn1} = rebar_packages:find_highest_matching(
<<"goodpkg">>, ec_semver:parse(<<"1.0">>), #{name => <<"hexpm">>}, ?PACKAGE_TABLE, State),
?assertEqual({{1,1,1},{[],[]}}, Vsn1),
{ok, Vsn2} = rebar_packages:find_highest_matching(
<<"goodpkg">>, ec_semver:parse(<<"2.0">>), #{name => <<"hexpm">>}, ?PACKAGE_TABLE, State),
?assertEqual({{2,0,0},{[],[]}}, Vsn2),
%% regression test. ~> constraints higher than the available packages would result
%% in returning the first package version instead of 'none'.
?assertEqual(none, rebar_packages:find_highest_matching_(<<"goodpkg">>, ec_semver:parse(<<"5.0">>),
#{name => <<"hexpm">>}, ?PACKAGE_TABLE, State)),
{ok, Vsn3} = rebar_packages:find_highest_matching_(<<"goodpkg">>, ec_semver:parse(<<"3.0.0-rc.0">>),
#{name => <<"hexpm">>}, ?PACKAGE_TABLE, State),
?assertEqual({{3,0,0},{[<<"rc">>,0],[]}}, Vsn3).
%%%%%%%%%%%%%%%
%%% Helpers %%%
%%%%%%%%%%%%%%%
mock_config(Name, Config) ->
Priv = ?config(priv_dir, Config),
CacheRoot = filename:join([Priv, "cache", atom_to_list(Name)]),
TmpDir = filename:join([Priv, "tmp", atom_to_list(Name)]),
Tid = ets:new(registry_table, [public]),
AllDeps = [
{{<<"badindexchk">>,<<"1.0.0">>}, [[], ?bad_checksum, [<<"rebar3">>]]},
{{<<"goodpkg">>,<<"1.0.0">>}, [[], ?good_checksum, [<<"rebar3">>]]},
{{<<"goodpkg">>,<<"1.0.1">>}, [[], ?good_checksum, [<<"rebar3">>]]},
{{<<"goodpkg">>,<<"1.1.1">>}, [[], ?good_checksum, [<<"rebar3">>]]},
{{<<"goodpkg">>,<<"2.0.0">>}, [[], ?good_checksum, [<<"rebar3">>]]},
{{<<"goodpkg">>,<<"3.0.0-rc.0">>}, [[], ?good_checksum, [<<"rebar3">>]]},
{{<<"badpkg">>,<<"1.0.0">>}, [[], ?badpkg_checksum, [<<"rebar3">>]]}
],
ets:insert_new(Tid, AllDeps),
CacheDir = filename:join([CacheRoot, "hex", "com", "test", "packages"]),
filelib:ensure_dir(filename:join([CacheDir, "registry"])),
ok = ets:tab2file(Tid, filename:join([CacheDir, "registry"])),
catch ets:delete(?PACKAGE_TABLE),
rebar_packages:new_package_table(),
lists:foreach(fun({{N, Vsn}, [Deps, Checksum, _]}) ->
case ets:member(?PACKAGE_TABLE, {ec_cnv:to_binary(N), Vsn, <<"hexpm">>}) of
false ->
ets:insert(?PACKAGE_TABLE, #package{key={ec_cnv:to_binary(N), ec_semver:parse(Vsn), <<"hexpm">>},
dependencies=Deps,
retired=false,
checksum=Checksum});
true ->
ok
end
end, AllDeps),
meck:new(r3_hex_repo, [passthrough]),
meck:expect(r3_hex_repo, get_package,
fun(_Config, PkgName) ->
Matches = ets:match_object(Tid, {{PkgName,'_'}, '_'}),
Releases =
[#{checksum => Checksum,
version => Vsn,
dependencies => Deps} ||
{{_, Vsn}, [Deps, Checksum, _]} <- Matches],
{ok, {200, #{}, Releases}}
end),
%% The state returns us a fake registry
meck:new(rebar_state, [passthrough]),
meck:expect(rebar_state, get,
fun(_State, rebar_packages_cdn, _Default) ->
"http://test.com/";
(_, _, Default) ->
Default
end),
meck:expect(rebar_state, resources,
fun(_State) ->
DefaultConfig = r3_hex_core:default_config(),
[rebar_resource_v2:new(pkg, rebar_pkg_resource,
#{repos => [DefaultConfig#{name => <<"hexpm">>}],
base_config => #{}})]
end),
meck:new(rebar_dir, [passthrough]),
meck:expect(rebar_dir, global_cache_dir, fun(_) -> CacheRoot end),
meck:expect(rebar_packages, registry_dir, fun(_) -> {ok, CacheDir} end),
meck:expect(rebar_packages, package_dir, fun(_, _) -> {ok, CacheDir} end),
meck:new(rebar_prv_update, [passthrough]),
meck:expect(rebar_prv_update, do, fun(State) -> {ok, State} end),
%% Cache fetches are mocked -- we assume the server and clients are
%% correctly used.
GoodCache = ?config(good_cache, Config),
{Pkg,Vsn} = ?config(pkg, Config),
PkgFile = <<Pkg/binary, "-", Vsn/binary, ".tar">>,
{ok, PkgContents} = file:read_file(filename:join(?config(data_dir, Config), PkgFile)),
meck:expect(r3_hex_repo, get_tarball, fun(_, _, _) when GoodCache ->
{ok, {304, #{<<"etag">> => ?good_etag}, <<>>}};
(_, _, _) ->
{ok, {200, #{<<"etag">> => ?good_etag}, PkgContents}}
end),
[{cache_root, CacheRoot},
{cache_dir, CacheDir},
{tmp_dir, TmpDir},
{mock_table, Tid} | Config].
unmock_config(Config) ->
meck:unload(),
catch ets:delete(?config(mock_table, Config)).
copy_to_cache({Pkg,Vsn}, Config) ->
Name = <<Pkg/binary, "-", Vsn/binary, ".tar">>,
Source = filename:join(?config(data_dir, Config), Name),
Dest = filename:join(?config(cache_dir, Config), Name),
ec_file:copy(Source, Dest).