lib/erl/test/test_thrift_socket_transport.erl - thrift - Git at Google

 %%
 %% Licensed to the Apache Software Foundation (ASF) under one
 %% or more contributor license agreements. See the NOTICE file
 %% distributed with this work for additional information
 %% regarding copyright ownership. The ASF licenses this file
 %% to you 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.
 %%

 -module(test_thrift_socket_transport).
 -include_lib("eunit/include/eunit.hrl").


 new(Socket) -> thrift_socket_transport:new(Socket).
 new(Socket, Opts) -> thrift_socket_transport:new(Socket, Opts).

 new_test_() ->
   [
     {"new socket", ?_assertMatch(
       {ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, 60000, []}}},
       new(a_fake_socket)
     )},
     {"new socket with no options", ?_assertMatch(
       {ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, 60000, []}}},
       new(a_fake_socket, [])
     )},
     {"new socket with integer timeout", ?_assertMatch(
       {ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, 5000, []}}},
       new(a_fake_socket, [{recv_timeout, 5000}])
     )},
     {"new socket with infinity timeout", ?_assertMatch(
       {ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, infinity, []}}},
       new(a_fake_socket, [{recv_timeout, infinity}])
     )}
   ].


 read(Socket, Bytes) -> thrift_socket_transport:read(Socket, Bytes).

 read_test_() ->
   {setup,
     fun() ->
       meck:new(gen_tcp, [unstick, passthrough]),
       meck:expect(gen_tcp, recv, fun(Bin, 0, _) -> {ok, Bin} end)
     end,
     fun(_) -> meck:unload(gen_tcp) end,
     [
       {"read zero bytes from empty socket", ?_assertMatch(
         {_, {ok, <<>>}},
         read({t_socket, <<>>, 60000, []}, 0)
       )},
       {"read 1 byte from empty socket", ?_assertMatch(
         {_, {ok, <<>>}},
         read({t_socket, <<>>, 60000, []}, 1)
       )},
       {"read zero bytes from nonempty socket", ?_assertMatch(
         {{t_socket, _, _, _}, {ok, <<>>}},
         read({t_socket, <<"hallo world">>, 60000, []}, 0)
       )},
       {"read 1 byte from nonempty socket", ?_assertMatch(
         {{t_socket, _, _, <<"allo world">>}, {ok, <<"h">>}},
         read({t_socket, <<"hallo world">>, 60000, []}, 1)
       )},
       {"read a zillion bytes from nonempty socket", ?_assertMatch(
         {{t_socket, _, _, <<>>}, {ok, <<"hallo world">>}},
         read({t_socket, <<"hallo world">>, 60000, []}, 65536)
       )},
       {"read 1 byte from previously buffered socket", ?_assertMatch(
         {{t_socket, _, _, <<"allo">>}, {ok, <<"h">>}},
         read({t_socket, <<" world">>, 60000, <<"hallo">>}, 1)
       )},
       {"read 6 byte from previously buffered socket", ?_assertMatch(
         {{t_socket, _, _, <<"world">>}, {ok, <<"hallo ">>}},
         read({t_socket, <<" world">>, 60000, <<"hallo">>}, 6)
       )},
       {"read a zillion bytes from previously buffered socket", ?_assertMatch(
         {{t_socket, _, _, <<>>}, {ok, <<"hallo world">>}},
         read({t_socket, <<" world">>, 60000, <<"hallo">>}, 65536)
       )}
     ]
   }.


 read_exact(Socket, Bytes) -> thrift_socket_transport:read_exact(Socket, Bytes).

 read_exact_test_() ->
   {setup,
     fun() ->
       meck:new(gen_tcp, [unstick, passthrough]),
       meck:expect(gen_tcp, recv, fun(Bin, N, _) ->
         case N of
           0 -> {ok, Bin};
           1 -> {ok, <<"h">>};
           N when N > 2 -> {error, timeout}
         end
       end),
       meck:expect(gen_tcp, close, fun(_) -> ok end)
     end,
     fun(_) -> meck:unload(gen_tcp) end,
     [
       {"read_exact zero bytes from empty socket", ?_assertMatch(
         {_, {ok, <<>>}},
         read_exact({t_socket, <<>>, 60000, []}, 0)
       )},
       {"read_exact zero bytes from nonempty socket", ?_assertMatch(
         {{t_socket, _, _, _}, {ok, <<>>}},
         read_exact({t_socket, <<"hallo world">>, 60000, []}, 0)
       )},
       {"read_exact 1 byte from nonempty socket", ?_assertMatch(
         {{t_socket, _, _, []}, {ok, <<"h">>}},
         read_exact({t_socket, <<"hallo world">>, 60000, []}, 1)
       )},
       {"read_exact a zillion bytes from nonempty socket", ?_assertMatch(
         {{t_socket, _, _, []}, {error, timeout}},
         read_exact({t_socket, <<"hallo world">>, 60000, []}, 65536)
       )},
       {"read_exact 1 byte from previously buffered socket", ?_assertMatch(
         {{t_socket, _, _, <<"allo">>}, {ok, <<"h">>}},
         read_exact({t_socket, <<" world">>, 60000, <<"hallo">>}, 1)
       )},
       {"read_exact 6 byte from previously buffered socket", ?_assertMatch(
         {{t_socket, _, _, []}, {ok, <<"more h">>}},
         read_exact({t_socket, <<"hallo">>, 60000, <<"more ">>}, 6)
       )},
       {"read_exact a zillion bytes from previously buffered socket", ?_assertMatch(
         {{t_socket, _, _, <<"hallo">>}, {error, timeout}},
         read_exact({t_socket, <<" world">>, 60000, <<"hallo">>}, 65536)
       )}
     ]
   }.


 write(Socket, Data) -> thrift_socket_transport:write(Socket, Data).

 write_test_() ->
   {setup,
     fun() ->
       meck:new(gen_tcp, [unstick, passthrough]),
       meck:expect(gen_tcp, send, fun(_, _) -> ok end)
     end,
     fun(_) -> meck:unload(gen_tcp) end,
     [
       {"write empty list to socket", ?_assertMatch(
         {{t_socket, a_fake_socket, 60000, []}, ok},
         write({t_socket, a_fake_socket, 60000, []}, [])
       )},
       {"write empty binary to socket", ?_assertMatch(
         {{t_socket, a_fake_socket, 60000, []}, ok},
         write({t_socket, a_fake_socket, 60000, []}, <<>>)
       )},
       {"write a list to socket", ?_assertMatch(
         {{t_socket, a_fake_socket, 60000, []}, ok},
         write({t_socket, a_fake_socket, 60000, []}, "hallo world")
       )},
       {"write a binary to socket", ?_assertMatch(
         {{t_socket, a_fake_socket, 60000, []}, ok},
         write({t_socket, a_fake_socket, 60000, []}, <<"hallo world">>)
       )}
     ]
   }.


 flush(Transport) -> thrift_socket_transport:flush(Transport).

 flush_test_() ->
   [
     {"flush socket", ?_assertMatch(
       {{t_socket, a_fake_socket, 60000, []}, ok},
       flush({t_socket, a_fake_socket, 60000, []})
     )}
   ].


 close(Transport) -> thrift_socket_transport:close(Transport).

 close_test_() ->
   {setup,
     fun() ->
       meck:new(gen_tcp, [unstick, passthrough]),
       meck:expect(gen_tcp, close, fun(_) -> ok end)
     end,
     fun(_) -> meck:unload(gen_tcp) end,
     [
       {"close membuffer", ?_assertMatch(
         {{t_socket, a_fake_socket, 60000, []}, ok},
         close({t_socket, a_fake_socket, 60000, []})
       )}
     ]
   }.
	%%
	%% Licensed to the Apache Software Foundation (ASF) under one
	%% or more contributor license agreements. See the NOTICE file
	%% distributed with this work for additional information
	%% regarding copyright ownership. The ASF licenses this file
	%% to you 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.
	%%

	-module(test_thrift_socket_transport).
	-include_lib("eunit/include/eunit.hrl").


	new(Socket) -> thrift_socket_transport:new(Socket).
	new(Socket, Opts) -> thrift_socket_transport:new(Socket, Opts).

	new_test_() ->
	[
	{"new socket", ?_assertMatch(
	{ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, 60000, []}}},
	new(a_fake_socket)
	)},
	{"new socket with no options", ?_assertMatch(
	{ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, 60000, []}}},
	new(a_fake_socket, [])
	)},
	{"new socket with integer timeout", ?_assertMatch(
	{ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, 5000, []}}},
	new(a_fake_socket, [{recv_timeout, 5000}])
	)},
	{"new socket with infinity timeout", ?_assertMatch(
	{ok, {_, thrift_socket_transport, {t_socket, a_fake_socket, infinity, []}}},
	new(a_fake_socket, [{recv_timeout, infinity}])
	)}
	].


	read(Socket, Bytes) -> thrift_socket_transport:read(Socket, Bytes).

	read_test_() ->
	{setup,
	fun() ->
	meck:new(gen_tcp, [unstick, passthrough]),
	meck:expect(gen_tcp, recv, fun(Bin, 0, _) -> {ok, Bin} end)
	end,
	fun(_) -> meck:unload(gen_tcp) end,
	[
	{"read zero bytes from empty socket", ?_assertMatch(
	{_, {ok, <<>>}},
	read({t_socket, <<>>, 60000, []}, 0)
	)},
	{"read 1 byte from empty socket", ?_assertMatch(
	{_, {ok, <<>>}},
	read({t_socket, <<>>, 60000, []}, 1)
	)},
	{"read zero bytes from nonempty socket", ?_assertMatch(
	{{t_socket, _, _, _}, {ok, <<>>}},
	read({t_socket, <<"hallo world">>, 60000, []}, 0)
	)},
	{"read 1 byte from nonempty socket", ?_assertMatch(
	{{t_socket, _, _, <<"allo world">>}, {ok, <<"h">>}},
	read({t_socket, <<"hallo world">>, 60000, []}, 1)
	)},
	{"read a zillion bytes from nonempty socket", ?_assertMatch(
	{{t_socket, _, _, <<>>}, {ok, <<"hallo world">>}},
	read({t_socket, <<"hallo world">>, 60000, []}, 65536)
	)},
	{"read 1 byte from previously buffered socket", ?_assertMatch(
	{{t_socket, _, _, <<"allo">>}, {ok, <<"h">>}},
	read({t_socket, <<" world">>, 60000, <<"hallo">>}, 1)
	)},
	{"read 6 byte from previously buffered socket", ?_assertMatch(
	{{t_socket, _, _, <<"world">>}, {ok, <<"hallo ">>}},
	read({t_socket, <<" world">>, 60000, <<"hallo">>}, 6)
	)},
	{"read a zillion bytes from previously buffered socket", ?_assertMatch(
	{{t_socket, _, _, <<>>}, {ok, <<"hallo world">>}},
	read({t_socket, <<" world">>, 60000, <<"hallo">>}, 65536)
	)}
	]
	}.


	read_exact(Socket, Bytes) -> thrift_socket_transport:read_exact(Socket, Bytes).

	read_exact_test_() ->
	{setup,
	fun() ->
	meck:new(gen_tcp, [unstick, passthrough]),
	meck:expect(gen_tcp, recv, fun(Bin, N, _) ->
	case N of
	0 -> {ok, Bin};
	1 -> {ok, <<"h">>};
	N when N > 2 -> {error, timeout}
	end
	end),
	meck:expect(gen_tcp, close, fun(_) -> ok end)
	end,
	fun(_) -> meck:unload(gen_tcp) end,
	[
	{"read_exact zero bytes from empty socket", ?_assertMatch(
	{_, {ok, <<>>}},
	read_exact({t_socket, <<>>, 60000, []}, 0)
	)},
	{"read_exact zero bytes from nonempty socket", ?_assertMatch(
	{{t_socket, _, _, _}, {ok, <<>>}},
	read_exact({t_socket, <<"hallo world">>, 60000, []}, 0)
	)},
	{"read_exact 1 byte from nonempty socket", ?_assertMatch(
	{{t_socket, _, _, []}, {ok, <<"h">>}},
	read_exact({t_socket, <<"hallo world">>, 60000, []}, 1)
	)},
	{"read_exact a zillion bytes from nonempty socket", ?_assertMatch(
	{{t_socket, _, _, []}, {error, timeout}},
	read_exact({t_socket, <<"hallo world">>, 60000, []}, 65536)
	)},
	{"read_exact 1 byte from previously buffered socket", ?_assertMatch(
	{{t_socket, _, _, <<"allo">>}, {ok, <<"h">>}},
	read_exact({t_socket, <<" world">>, 60000, <<"hallo">>}, 1)
	)},
	{"read_exact 6 byte from previously buffered socket", ?_assertMatch(
	{{t_socket, _, _, []}, {ok, <<"more h">>}},
	read_exact({t_socket, <<"hallo">>, 60000, <<"more ">>}, 6)
	)},
	{"read_exact a zillion bytes from previously buffered socket", ?_assertMatch(
	{{t_socket, _, _, <<"hallo">>}, {error, timeout}},
	read_exact({t_socket, <<" world">>, 60000, <<"hallo">>}, 65536)
	)}
	]
	}.


	write(Socket, Data) -> thrift_socket_transport:write(Socket, Data).

	write_test_() ->
	{setup,
	fun() ->
	meck:new(gen_tcp, [unstick, passthrough]),
	meck:expect(gen_tcp, send, fun(_, _) -> ok end)
	end,
	fun(_) -> meck:unload(gen_tcp) end,
	[
	{"write empty list to socket", ?_assertMatch(
	{{t_socket, a_fake_socket, 60000, []}, ok},
	write({t_socket, a_fake_socket, 60000, []}, [])
	)},
	{"write empty binary to socket", ?_assertMatch(
	{{t_socket, a_fake_socket, 60000, []}, ok},
	write({t_socket, a_fake_socket, 60000, []}, <<>>)
	)},
	{"write a list to socket", ?_assertMatch(
	{{t_socket, a_fake_socket, 60000, []}, ok},
	write({t_socket, a_fake_socket, 60000, []}, "hallo world")
	)},
	{"write a binary to socket", ?_assertMatch(
	{{t_socket, a_fake_socket, 60000, []}, ok},
	write({t_socket, a_fake_socket, 60000, []}, <<"hallo world">>)
	)}
	]
	}.


	flush(Transport) -> thrift_socket_transport:flush(Transport).

	flush_test_() ->
	[
	{"flush socket", ?_assertMatch(
	{{t_socket, a_fake_socket, 60000, []}, ok},
	flush({t_socket, a_fake_socket, 60000, []})
	)}
	].


	close(Transport) -> thrift_socket_transport:close(Transport).

	close_test_() ->
	{setup,
	fun() ->
	meck:new(gen_tcp, [unstick, passthrough]),
	meck:expect(gen_tcp, close, fun(_) -> ok end)
	end,
	fun(_) -> meck:unload(gen_tcp) end,
	[
	{"close membuffer", ?_assertMatch(
	{{t_socket, a_fake_socket, 60000, []}, ok},
	close({t_socket, a_fake_socket, 60000, []})
	)}
	]
	}.