%% %% 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_server). -export([go/0, go/1, start_link/2, handle_function/2]). -include("thriftTest_types.hrl"). -record(options, {port = 9090, server_opts = []}). parse_args(Args) -> parse_args(Args, #options{}). parse_args([], Opts) -> Opts; parse_args([Head | Rest], Opts) -> NewOpts = case catch list_to_integer(Head) of Port when is_integer(Port) -> Opts#options{port = Port}; _Else -> case Head of "framed" -> Opts#options{server_opts = [{framed, true} | Opts#options.server_opts]}; "" -> Opts; _Else -> erlang:error({bad_arg, Head}) end end, parse_args(Rest, NewOpts). go() -> go([]). go(Args) -> #options{port = Port, server_opts = ServerOpts} = parse_args(Args), spawn(fun() -> start_link(Port, ServerOpts), receive after infinity -> ok end end). start_link(Port, ServerOpts) -> thrift_socket_server:start([{handler, ?MODULE}, {service, thriftTest_thrift}, {port, Port}] ++ ServerOpts). handle_function(testVoid, {}) -> io:format("testVoid~n"), ok; handle_function(testString, {S}) when is_binary(S) -> io:format("testString: ~p~n", [S]), {reply, S}; handle_function(testByte, {I8}) when is_integer(I8) -> io:format("testByte: ~p~n", [I8]), {reply, I8}; handle_function(testI32, {I32}) when is_integer(I32) -> io:format("testI32: ~p~n", [I32]), {reply, I32}; handle_function(testI64, {I64}) when is_integer(I64) -> io:format("testI64: ~p~n", [I64]), {reply, I64}; handle_function(testDouble, {Double}) when is_float(Double) -> io:format("testDouble: ~p~n", [Double]), {reply, Double}; handle_function(testStruct, {Struct = #xtruct{string_thing = String, byte_thing = Byte, i32_thing = I32, i64_thing = I64}}) when is_binary(String), is_integer(Byte), is_integer(I32), is_integer(I64) -> io:format("testStruct: ~p~n", [Struct]), {reply, Struct}; handle_function(testNest, {Nest}) when is_record(Nest, xtruct2), is_record(Nest#xtruct2.struct_thing, xtruct) -> io:format("testNest: ~p~n", [Nest]), {reply, Nest}; handle_function(testMap, {Map}) -> io:format("testMap: ~p~n", [dict:to_list(Map)]), {reply, Map}; handle_function(testSet, {Set}) -> true = sets:is_set(Set), io:format("testSet: ~p~n", [sets:to_list(Set)]), {reply, Set}; handle_function(testList, {List}) when is_list(List) -> io:format("testList: ~p~n", [List]), {reply, List}; handle_function(testEnum, {Enum}) when is_integer(Enum) -> io:format("testEnum: ~p~n", [Enum]), {reply, Enum}; handle_function(testTypedef, {UserID}) when is_integer(UserID) -> io:format("testTypedef: ~p~n", [UserID]), {reply, UserID}; handle_function(testMapMap, {Hello}) -> io:format("testMapMap: ~p~n", [Hello]), PosList = [{I, I} || I <- lists:seq(1, 5)], NegList = [{-I, -I} || I <- lists:seq(1, 5)], MapMap = dict:from_list([{4, dict:from_list(PosList)}, {-4, dict:from_list(NegList)}]), {reply, MapMap}; handle_function(testInsanity, {Insanity}) when is_record(Insanity, insanity) -> Hello = #xtruct{string_thing = <<"Hello2">>, byte_thing = 2, i32_thing = 2, i64_thing = 2}, Goodbye = #xtruct{string_thing = <<"Goodbye4">>, byte_thing = 4, i32_thing = 4, i64_thing = 4}, Crazy = #insanity{ userMap = dict:from_list([{?thriftTest_Numberz_EIGHT, 8}]), xtructs = [Goodbye] }, Looney = #insanity{ userMap = dict:from_list([{?thriftTest_Numberz_FIVE, 5}]), xtructs = [Hello] }, FirstMap = dict:from_list([{?thriftTest_Numberz_TWO, Crazy}, {?thriftTest_Numberz_THREE, Crazy}]), SecondMap = dict:from_list([{?thriftTest_Numberz_SIX, Looney}]), Insane = dict:from_list([{1, FirstMap}, {2, SecondMap}]), io:format("Return = ~p~n", [Insane]), {reply, Insane}; handle_function(testMulti, Args = {Arg0, Arg1, Arg2, _Arg3, Arg4, Arg5}) when is_integer(Arg0), is_integer(Arg1), is_integer(Arg2), is_integer(Arg4), is_integer(Arg5) -> io:format("testMulti(~p)~n", [Args]), {reply, #xtruct{string_thing = <<"Hello2">>, byte_thing = Arg0, i32_thing = Arg1, i64_thing = Arg2}}; handle_function(testException, {String}) when is_binary(String) -> io:format("testException(~p)~n", [String]), case String of <<"Xception">> -> throw(#xception{errorCode = 1001, message = String}); _ -> ok end; handle_function(testMultiException, {Arg0, Arg1}) -> io:format("testMultiException(~p, ~p)~n", [Arg0, Arg1]), case Arg0 of <<"Xception">> -> throw(#xception{errorCode = 1001, message = <<"This is an Xception">>}); <<"Xception2">> -> throw(#xception2{errorCode = 2002, struct_thing = #xtruct{string_thing = <<"This is an Xception2">>}}); _ -> {reply, #xtruct{string_thing = Arg1}} end; handle_function(testOneway, {Seconds}) -> timer:sleep(1000 * Seconds), ok.