diff options
Diffstat (limited to 'lib/stdlib/test/uri_string_SUITE.erl')
-rw-r--r-- | lib/stdlib/test/uri_string_SUITE.erl | 300 |
1 files changed, 298 insertions, 2 deletions
diff --git a/lib/stdlib/test/uri_string_SUITE.erl b/lib/stdlib/test/uri_string_SUITE.erl index c379eeb15b..1859a25a18 100644 --- a/lib/stdlib/test/uri_string_SUITE.erl +++ b/lib/stdlib/test/uri_string_SUITE.erl @@ -31,9 +31,31 @@ parse_path/1, parse_pct_encoded_fragment/1, parse_pct_encoded_query/1, parse_pct_encoded_userinfo/1, parse_port/1, parse_query/1, parse_scheme/1, parse_userinfo/1, - parse_list/1, parse_binary/1, parse_mixed/1, parse_relative/1 + parse_list/1, parse_binary/1, parse_mixed/1, parse_relative/1, + recompose_fragment/1, recompose_parse_fragment/1, + recompose_query/1, recompose_parse_query/1, + recompose_path/1, recompose_parse_path/1, + recompose_autogen/1, parse_recompose_autogen/1 ]). + +-define(SCHEME, "foo"). +-define(USERINFO, "åsa"). +-define(USERINFO_ENC, "%C3%A5sa"). +-define(HOST, "älvsjö"). +-define(HOST_ENC, "%C3%A4lvsj%C3%B6"). +-define(IPV6, "::127.0.0.1"). +-define(IPV6_ENC, "[::127.0.0.1]"). +-define(PORT, 8042). +-define(PORT_ENC, ":8042"). +-define(PATH, "/där"). +-define(PATH_ENC, "/d%C3%A4r"). +-define(QUERY, "?name=örn"). +-define(QUERY_ENC, "?name=%C3%B6rn"). +-define(FRAGMENT, "näsa"). +-define(FRAGMENT_ENC, "#n%C3%A4sa"). + + suite() -> [{timetrap,{minutes,1}}]. @@ -66,12 +88,202 @@ all() -> parse_list, parse_binary, parse_mixed, - parse_relative + parse_relative, + recompose_fragment, + recompose_parse_fragment, + recompose_query, + recompose_parse_query, + recompose_path, + recompose_parse_path, + recompose_autogen, + parse_recompose_autogen ]. groups() -> []. + +%%------------------------------------------------------------------------- +%% Helper functions +%%------------------------------------------------------------------------- +uri_combinations() -> + [[Sch,Usr,Hst,Prt,Pat,Qry,Frg] || + Sch <- [fun update_scheme/1, fun update_scheme_binary/1, none], + Usr <- [fun update_userinfo/1, fun update_userinfo_binary/1, none], + Hst <- [fun update_host/1, fun update_host_binary/1, + fun update_ipv6/1, fun update_ipv6_binary/1, none], + Prt <- [fun update_port/1, none], + Pat <- [fun update_path/1, fun update_path_binary/1, none], + Qry <- [fun update_query/1,fun update_query_binary/1, none], + Frg <- [fun update_fragment/1, fun update_fragment_binary/1, none], + not (Usr =:= none andalso Hst =:= none andalso Prt =/= none), + not (Usr =/= none andalso Hst =:= none andalso Prt =:= none), + not (Usr =/= none andalso Hst =:= none andalso Prt =/= none)]. + + +generate_test_vector(Comb) -> + Fun = fun (F, {Map, URI}) when is_function(F) -> F({Map, URI}); + (_, Map) -> Map + end, + lists:foldl(Fun, {#{}, empty}, Comb). + +generate_test_vectors(L) -> + lists:map(fun generate_test_vector/1, L). + +update_fragment({In, empty}) -> + {In#{fragment => ?FRAGMENT}, ?FRAGMENT_ENC}; +update_fragment({In, Out}) when is_list(Out) -> + {In#{fragment => ?FRAGMENT}, Out ++ ?FRAGMENT_ENC}; +update_fragment({In, Out}) when is_binary(Out) -> + {In#{fragment => ?FRAGMENT}, binary_to_list(Out) ++ ?FRAGMENT_ENC}. + +update_fragment_binary({In, empty}) -> + {In#{fragment => <<?FRAGMENT/utf8>>}, <<?FRAGMENT_ENC>>}; +update_fragment_binary({In, Out}) when is_list(Out) -> + {In#{fragment => <<?FRAGMENT/utf8>>}, Out ++ ?FRAGMENT_ENC}; +update_fragment_binary({In, Out}) when is_binary(Out) -> + {In#{fragment => <<?FRAGMENT/utf8>>}, <<Out/binary,?FRAGMENT_ENC>>}. + + +update_query({In, empty}) -> + {In#{query => ?QUERY}, ?QUERY_ENC}; +update_query({In, Out}) when is_list(Out) -> + {In#{query => ?QUERY}, Out ++ ?QUERY_ENC}; +update_query({In, Out}) when is_binary(Out) -> + {In#{query => ?QUERY}, binary_to_list(Out) ++ ?QUERY_ENC}. + +update_query_binary({In, empty}) -> + {In#{query => <<?QUERY/utf8>>}, <<?QUERY_ENC>>}; +update_query_binary({In, Out}) when is_list(Out) -> + {In#{query => <<?QUERY/utf8>>}, Out ++ ?QUERY_ENC}; +update_query_binary({In, Out}) when is_binary(Out) -> + {In#{query => <<?QUERY/utf8>>}, <<Out/binary,?QUERY_ENC>>}. + +update_path({In, empty}) -> + {In#{path => ?PATH}, ?PATH_ENC}; +update_path({In, Out}) when is_list(Out) -> + {In#{path => ?PATH}, Out ++ ?PATH_ENC}; +update_path({In, Out}) when is_binary(Out) -> + {In#{path => ?PATH}, binary_to_list(Out) ++ ?PATH_ENC}. + +update_path_binary({In, empty}) -> + {In#{path => <<?PATH/utf8>>}, <<?PATH_ENC>>}; +update_path_binary({In, Out}) when is_list(Out) -> + {In#{path => <<?PATH/utf8>>}, Out ++ ?PATH_ENC}; +update_path_binary({In, Out}) when is_binary(Out) -> + {In#{path => <<?PATH/utf8>>}, <<Out/binary,?PATH_ENC>>}. + +update_port({In, Out}) when is_list(Out) -> + {In#{port => ?PORT}, Out ++ ?PORT_ENC}; +update_port({In, Out}) when is_binary(Out) -> + {In#{port => ?PORT}, <<Out/binary,?PORT_ENC>>}. + +update_host({In, empty}) -> + {In#{host => ?HOST}, "//" ++ ?HOST_ENC}; +update_host({In, Out}) when is_list(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => ?HOST}, Out ++ [$@|?HOST_ENC]}; + false -> {In#{host => ?HOST}, Out ++ [$/,$/|?HOST_ENC]} + end; +update_host({In, Out}) when is_binary(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => ?HOST}, binary_to_list(Out) ++ [$@|?HOST_ENC]}; + false -> {In#{host => ?HOST}, binary_to_list(Out) ++ [$/,$/|?HOST_ENC]} + end. + +update_host_binary({In, empty}) -> + {In#{host => <<?HOST/utf8>>}, <<"//",?HOST_ENC>>}; +update_host_binary({In, Out}) when is_list(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => <<?HOST/utf8>>}, Out ++ [$@|?HOST_ENC]}; + false -> {In#{host => <<?HOST/utf8>>}, Out ++ [$/,$/|?HOST_ENC]} + end; +update_host_binary({In, Out}) when is_binary(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => <<?HOST/utf8>>}, <<Out/binary,$@,?HOST_ENC>>}; + false-> {In#{host => <<?HOST/utf8>>}, <<Out/binary,"//",?HOST_ENC>>} + end. + +update_ipv6({In, empty}) -> + {In#{host => ?IPV6}, "//" ++ ?IPV6_ENC}; +update_ipv6({In, Out}) when is_list(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => ?IPV6}, Out ++ [$@|?IPV6_ENC]}; + false -> {In#{host => ?IPV6}, Out ++ [$/,$/|?IPV6_ENC]} + end; +update_ipv6({In, Out}) when is_binary(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => ?IPV6}, binary_to_list(Out) ++ [$@|?IPV6_ENC]}; + false -> {In#{host => ?IPV6}, binary_to_list(Out) ++ [$/,$/|?IPV6_ENC]} + end. + +update_ipv6_binary({In, empty}) -> + {In#{host => <<?IPV6/utf8>>}, <<"//",?IPV6_ENC>>}; +update_ipv6_binary({In, Out}) when is_list(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => <<?IPV6/utf8>>}, Out ++ [$@|?IPV6_ENC]}; + false -> {In#{host => <<?IPV6/utf8>>}, Out ++ [$/,$/|?IPV6_ENC]} + end; +update_ipv6_binary({In, Out}) when is_binary(Out) -> + case maps:is_key(userinfo, In) of + true -> {In#{host => <<?IPV6/utf8>>}, <<Out/binary,$@,?IPV6_ENC>>}; + false-> {In#{host => <<?IPV6/utf8>>}, <<Out/binary,"//",?IPV6_ENC>>} + end. + +update_userinfo({In, empty}) -> + {In#{userinfo => ?USERINFO}, "//" ++ ?USERINFO_ENC}; +update_userinfo({In, Out}) when is_list(Out) -> + {In#{userinfo => ?USERINFO}, Out ++ "//" ++ ?USERINFO_ENC}; +update_userinfo({In, Out}) when is_binary(Out) -> + {In#{userinfo => ?USERINFO}, binary_to_list(Out) ++ "//" ++ ?USERINFO_ENC}. + +update_userinfo_binary({In, empty}) -> + {In#{userinfo => <<?USERINFO/utf8>>}, <<"//",?USERINFO_ENC>>}; +update_userinfo_binary({In, Out}) when is_list(Out) -> + {In#{userinfo => <<?USERINFO/utf8>>}, Out ++ "//" ++ ?USERINFO_ENC}; +update_userinfo_binary({In, Out}) when is_binary(Out) -> + {In#{userinfo => <<?USERINFO/utf8>>}, <<Out/binary,"//",?USERINFO_ENC>>}. + +update_scheme({In, empty}) -> + {In#{scheme => ?SCHEME}, ?SCHEME ++ ":"}. + +update_scheme_binary({In, empty}) -> + {In#{scheme => <<?SCHEME/utf8>>}, <<?SCHEME,$:>>}. + + +%% Test recompose on a generated test vector +run_test_recompose({#{}, empty}) -> + try "" = uri_string:recompose(#{}) of + _ -> ok + catch + _:_ -> error({test_failed, #{}, ""}) + end; +run_test_recompose({Map, URI}) -> + try URI = uri_string:recompose(Map) of + URI -> ok + catch + _:_ -> error({test_failed, Map, URI}) + end. + +%% Test parse - recompose on a generated test vector +run_test_parse_recompose({#{}, empty}) -> + try "" = uri_string:recompose(uri_string:parse("")) of + _ -> ok + catch + _:_ -> error({test_failed, #{}, ""}) + end; +run_test_parse_recompose({Map, URI}) -> + try URI = uri_string:recompose(uri_string:parse(URI)) of + URI -> ok + catch + _:_ -> error({test_failed, Map, URI}) + end. + + +%%------------------------------------------------------------------------- +%% Parse tests +%%------------------------------------------------------------------------- + parse_binary_scheme(_Config) -> #{} = uri_string:parse(<<>>), #{path := <<"foo">>} = uri_string:parse(<<"foo">>), @@ -438,3 +650,87 @@ parse_relative(_Config) -> uri_string:parse(lists:append("/pa",<<"th">>)), #{path := "foo"} = uri_string:parse(lists:append("fo",<<"o">>)). + + +%%------------------------------------------------------------------------- +%% Recompose tests +%%------------------------------------------------------------------------- +recompose_fragment(_Config) -> + <<?FRAGMENT_ENC>> = uri_string:recompose(#{fragment => <<?FRAGMENT/utf8>>}), + ?FRAGMENT_ENC = uri_string:recompose(#{fragment => ?FRAGMENT}). + +recompose_parse_fragment(_Config) -> + <<?FRAGMENT_ENC>> = uri_string:recompose(uri_string:parse(<<?FRAGMENT_ENC>>)), + ?FRAGMENT_ENC = uri_string:recompose(uri_string:parse(?FRAGMENT_ENC)). + +recompose_query(_Config) -> + <<?QUERY_ENC>> = + uri_string:recompose(#{query => <<?QUERY/utf8>>}), + <<?QUERY_ENC?FRAGMENT_ENC>> = + uri_string:recompose(#{query => <<?QUERY/utf8>>, + fragment => <<?FRAGMENT/utf8>>}), + "?name=%C3%B6rn" = + uri_string:recompose(#{query => "?name=örn"}), + "?name=%C3%B6rn#n%C3%A4sa" = + uri_string:recompose(#{query => "?name=örn", + fragment => "näsa"}). + +recompose_parse_query(_Config) -> + <<"?name=%C3%B6rn">> = uri_string:recompose(uri_string:parse(<<"?name=%C3%B6rn">>)), + <<"?name=%C3%B6rn#n%C3%A4sa">> = + uri_string:recompose(uri_string:parse(<<"?name=%C3%B6rn#n%C3%A4sa">>)), + "?name=%C3%B6rn" = uri_string:recompose(uri_string:parse("?name=%C3%B6rn")), + "?name=%C3%B6rn#n%C3%A4sa" = uri_string:recompose(uri_string:parse("?name=%C3%B6rn#n%C3%A4sa")). + +recompose_path(_Config) -> + <<"/d%C3%A4r">> = + uri_string:recompose(#{path => <<"/där"/utf8>>}), + <<"/d%C3%A4r#n%C3%A4sa">> = + uri_string:recompose(#{path => <<"/där"/utf8>>, + fragment => <<"näsa"/utf8>>}), + <<"/d%C3%A4r?name=%C3%B6rn">> = + uri_string:recompose(#{path => <<"/där"/utf8>>, + query => <<"?name=örn"/utf8>>}), + <<"/d%C3%A4r?name=%C3%B6rn#n%C3%A4sa">> = + uri_string:recompose(#{path => <<"/där"/utf8>>, + query => <<"?name=örn"/utf8>>, + fragment => <<"näsa"/utf8>>}), + + + "/d%C3%A4r" = + uri_string:recompose(#{path => "/där"}), + "/d%C3%A4r#n%C3%A4sa" = + uri_string:recompose(#{path => "/där", + fragment => "näsa"}), + "/d%C3%A4r?name=%C3%B6rn" = + uri_string:recompose(#{path => "/där", + query => "?name=örn"}), + "/d%C3%A4r?name=%C3%B6rn#n%C3%A4sa" = + uri_string:recompose(#{path => "/där", + query => "?name=örn", + fragment => "näsa"}). + + +recompose_parse_path(_Config) -> + <<"/d%C3%A4r">> = + uri_string:recompose(uri_string:parse(<<"/d%C3%A4r">>)), + <<"/d%C3%A4r#n%C3%A4sa">> = + uri_string:recompose(uri_string:parse(<<"/d%C3%A4r#n%C3%A4sa">>)), + <<"/d%C3%A4r?name=%C3%B6rn">> = + uri_string:recompose(uri_string:parse(<<"/d%C3%A4r?name=%C3%B6rn">>)), + + "/d%C3%A4r" = + uri_string:recompose(uri_string:parse("/d%C3%A4r")), + "/d%C3%A4r#n%C3%A4sa" = + uri_string:recompose(uri_string:parse("/d%C3%A4r#n%C3%A4sa")), + "/d%C3%A4r?name=%C3%B6rn" = + uri_string:recompose(uri_string:parse("/d%C3%A4r?name=%C3%B6rn")). + + +recompose_autogen(_Config) -> + Tests = generate_test_vectors(uri_combinations()), + lists:map(fun run_test_recompose/1, Tests). + +parse_recompose_autogen(_Config) -> + Tests = generate_test_vectors(uri_combinations()), + lists:map(fun run_test_parse_recompose/1, Tests). |