%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2000-2011. 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(rpc_SUITE).
-export([all/0, suite/0,groups/0,init_per_suite/1, end_per_suite/1,
init_per_group/2,end_per_group/2]).
-export([call/1, block_call/1, multicall/1, multicall_timeout/1,
multicall_dies/1, multicall_node_dies/1,
called_dies/1, called_node_dies/1,
called_throws/1, call_benchmark/1, async_call/1]).
-export([suicide/2, suicide/3, f/0, f2/0]).
-include_lib("common_test/include/ct.hrl").
suite() ->
[{ct_hooks,[ts_install_cth]},
{timetrap,{minutes,2}}].
all() ->
[call, block_call, multicall, multicall_timeout,
multicall_dies, multicall_node_dies, called_dies,
called_node_dies, called_throws, call_benchmark,
async_call].
groups() ->
[].
init_per_suite(Config) ->
Config.
end_per_suite(_Config) ->
ok.
init_per_group(_GroupName, Config) ->
Config.
end_per_group(_GroupName, Config) ->
Config.
%% Test different rpc calls.
call(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
%% Note. First part of nodename sets response delay in seconds
{ok, N1} = test_server:start_node('3_rpc_SUITE_call', slave,
[{args, "-pa " ++ PA}]),
{ok, N2} = test_server:start_node('1_rcp_SUITE_call', slave,
[{args, "-pa " ++ PA}]),
{ok, N3} = test_server:start_node('4_rcp_SUITE_call', slave,
[{args, "-pa " ++ PA}]),
{ok, N4} = test_server:start_node('8_rcp_SUITE_call', slave,
[{args, "-pa " ++ PA}]),
ok = io:format("~p~n", [[N1, N2, N3]]),
{hej,_,N1} = rpc:call(N1, ?MODULE, f, []),
{hej,_,N2} = rpc:call(N2, ?MODULE, f, [], 2000),
{badrpc,timeout} = rpc:call(N3, ?MODULE, f, [], 2000),
receive after 6000 -> ok end,
[] = flush([]),
{hej,_,N4} = rpc:call(N4, ?MODULE, f, []),
test_server:stop_node(N1),
test_server:stop_node(N2),
test_server:stop_node(N3),
test_server:stop_node(N4),
ok.
%% Test different rpc calls.
block_call(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
%% Note. First part of nodename sets response delay in seconds
{ok, N1} = test_server:start_node('3_rpc_SUITE_block_call', slave,
[{args, "-pa " ++ PA}]),
{ok, N2} = test_server:start_node('1_rcp_SUITE_block_call', slave,
[{args, "-pa " ++ PA}]),
{ok, N3} = test_server:start_node('4_rcp_SUITE_block_call', slave,
[{args, "-pa " ++ PA}]),
{ok, N4} = test_server:start_node('8_rcp_SUITE_block_call', slave,
[{args, "-pa " ++ PA}]),
ok = io:format("~p~n", [[N1, N2, N3]]),
{hej,_,N1} = rpc:block_call(N1, ?MODULE, f, []),
{hej,_,N2} = rpc:block_call(N2, ?MODULE, f, [], 2000),
{badrpc,timeout} = rpc:block_call(N3, ?MODULE, f, [], 2000),
receive after 6000 -> ok end,
[] = flush([]),
{hej,_,N4} = rpc:block_call(N4, ?MODULE, f, []),
test_server:stop_node(N1),
test_server:stop_node(N2),
test_server:stop_node(N3),
test_server:stop_node(N4),
ok.
%% OTP-3449.
multicall(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
%% Note. First part of nodename sets response delay in seconds
{ok, N1} = test_server:start_node('3_rpc_SUITE_multicall', slave,
[{args, "-pa " ++ PA}]),
{ok, N2} = test_server:start_node('1_rcp_SUITE_multicall', slave,
[{args, "-pa " ++ PA}]),
ok = io:format("~p~n", [[N1, N2]]),
{[{hej,_,N1},{hej,_,N2}],[]} =
rpc:multicall([N1, N2], ?MODULE, f, []),
Msgs = flush([]),
[] = Msgs,
test_server:stop_node(N1),
test_server:stop_node(N2),
ok.
multicall_timeout(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
%% Note. First part of nodename sets response delay in seconds
{ok, N1} = test_server:start_node('11_rpc_SUITE_multicall', slave,
[{args, "-pa " ++ PA}]),
{ok, N2} = test_server:start_node('8_rpc_SUITE_multicall', slave,
[{args, "-pa " ++ PA}]),
{ok, N3} = test_server:start_node('5_rpc_SUITE_multicall', slave,
[{args, "-pa " ++ PA}]),
{ok, N4} = test_server:start_node('2_rcp_SUITE_multicall', slave,
[{args, "-pa " ++ PA}]),
ok = io:format("~p~n", [[N1, N2]]),
{[{hej,_,N3},{hej,_,N4}],[N1, N2]} =
rpc:multicall([N3, N1, N2, N4], ?MODULE, f, [], 6000),
ct:sleep({seconds,8}), %Wait for late answers
Msgs = flush([]),
[] = Msgs,
test_server:stop_node(N1),
test_server:stop_node(N2),
test_server:stop_node(N3),
test_server:stop_node(N4),
ok.
multicall_dies(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
{ok, N1} = test_server:start_node('rpc_SUITE_multicall_dies_1', slave,
[{args, "-pa " ++ PA}]),
{ok, N2} = test_server:start_node('rcp_SUITE_multicall_dies_2', slave,
[{args, "-pa " ++ PA}]),
Nodes = [N1, N2],
%%
{[{badrpc, {'EXIT', normal}}, {badrpc, {'EXIT', normal}}], []} =
do_multicall(Nodes, erlang, exit, [normal]),
{[{badrpc, {'EXIT', abnormal}}, {badrpc, {'EXIT', abnormal}}], []} =
do_multicall(Nodes, erlang, exit, [abnormal]),
{[{badrpc, {'EXIT', {badarith, _}}},
{badrpc, {'EXIT', {badarith, _}}}],
[]} =
do_multicall(Nodes, erlang, 'div', [1, 0]),
{[{badrpc, {'EXIT', {badarg, _}}},
{badrpc, {'EXIT', {badarg, _}}}],
[]} =
do_multicall(Nodes, erlang, atom_to_list, [1]),
{[{badrpc, {'EXIT', {undef, _}}},
{badrpc, {'EXIT', {undef, _}}}],
[]} =
do_multicall(Nodes, ?MODULE, suicide, []),
{[timeout, timeout], []} =
do_multicall(Nodes, ?MODULE, suicide, [link, normal]),
{[{badrpc, {'EXIT', abnormal}}, {badrpc, {'EXIT', abnormal}}], []} =
do_multicall(Nodes, ?MODULE, suicide, [link, abnormal]),
{[timeout, timeout], []} =
do_multicall(Nodes, ?MODULE, suicide, [exit, normal]),
{[{badrpc, {'EXIT', abnormal}}, {badrpc, {'EXIT', abnormal}}], []} =
do_multicall(Nodes, ?MODULE, suicide, [exit, abnormal]),
{[{badrpc, {'EXIT', killed}}, {badrpc, {'EXIT', killed}}], []} =
do_multicall(Nodes, ?MODULE, suicide, [exit, kill]),
%%
test_server:stop_node(N1),
test_server:stop_node(N2),
ok.
do_multicall(Nodes, Mod, Func, Args) ->
ok = io:format("~p:~p~p~n", [Mod, Func, Args]),
Result = rpc:multicall(Nodes, Mod, Func, Args),
Msgs = flush([]),
[] = Msgs,
Result.
multicall_node_dies(Config) when is_list(Config) ->
do_multicall_2_nodes_dies(?MODULE, suicide, [erlang, halt, []]),
do_multicall_2_nodes_dies(?MODULE, suicide, [init, stop, []]),
do_multicall_2_nodes_dies(?MODULE, suicide, [rpc, stop, []]),
ok.
do_multicall_2_nodes_dies(Mod, Func, Args) ->
ok = io:format("~p:~p~p~n", [Mod, Func, Args]),
PA = filename:dirname(code:which(?MODULE)),
{ok, N1} = test_server:start_node('rpc_SUITE_multicall_node_dies_1', slave,
[{args, "-pa " ++ PA}]),
{ok, N2} = test_server:start_node('rcp_SUITE_multicall_node_dies_2', slave,
[{args, "-pa " ++ PA}]),
Nodes = [N1, N2],
{[], Nodes} = rpc:multicall(Nodes, Mod, Func, Args),
Msgs = flush([]),
[] = Msgs,
ok.
%% OTP-3766.
called_dies(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
{ok, N} = test_server:start_node(rpc_SUITE_called_dies, slave,
[{args, "-pa " ++ PA}]),
%%
rep(fun (Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',normal}}} =
{Tag,apply(rpc, Call, Args)}
end, N, erlang, exit, [normal]),
rep(fun (Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',abnormal}}} =
{Tag,apply(rpc, Call, Args)}
end, N, erlang, exit, [abnormal]),
rep(fun (Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',{badarith,_}}}} =
{Tag,apply(rpc, Call, Args)}
end, N, erlang, 'div', [1,0]),
rep(fun (Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',{badarg,_}}}} =
{Tag,apply(rpc, Call, Args)}
end, N, erlang, atom_to_list, [1]),
rep(fun (Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',{undef,_}}}} =
{Tag,apply(rpc, Call, Args)}
end, N, ?MODULE, suicide, []),
%%
TrapExit = process_flag(trap_exit, true),
%%
rep(fun (Tag, Call, Args=[Node|_]) when Node == node() ->
{Tag,timeout} =
{Tag,apply(rpc, Call, Args)},
{Tag,flush,[{'EXIT',_,normal}]} =
{Tag,flush,flush([])};
(Tag, Call, Args) ->
{Tag,timeout} =
{Tag,apply(rpc, Call, Args)}
end, N, ?MODULE, suicide, [link,normal]),
rep(fun (Tag, Call, Args=[Node|_]) when Node == node() ->
{Tag,timeout} =
{Tag,apply(rpc, Call, Args)},
{Tag,flush,[{'EXIT',_,abnormal}]} =
{Tag,flush,flush([])};
(Tag, block_call, Args) ->
{Tag,timeout} =
{Tag,apply(rpc, block_call, Args)};
(Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',abnormal}}} =
{Tag,apply(rpc, Call, Args)}
end, N, ?MODULE, suicide, [link,abnormal]),
rep(fun (Tag, Call, Args=[Node|_]) when Node == node() ->
{Tag,timeout} =
{Tag,apply(rpc, Call, Args)},
{Tag,flush,[{'EXIT',_,normal}]} =
{Tag,flush,flush([])};
(Tag, Call, Args) ->
{Tag,timeout} =
{Tag,apply(rpc, Call, Args)}
end, N, ?MODULE, suicide, [exit,normal]),
rep(fun (Tag, Call, Args=[Node|_]) when Node == node() ->
{Tag,timeout} =
{Tag,apply(rpc, Call, Args)},
{Tag,flush,[{'EXIT',_,abnormal}]} =
{Tag,flush,flush([])};
(Tag, block_call, Args) ->
{Tag,timeout} =
{Tag,apply(rpc, block_call, Args)};
(Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',abnormal}}} =
{Tag,apply(rpc, Call, Args)}
end, N, ?MODULE, suicide, [exit,abnormal]),
%%
process_flag(trap_exit, TrapExit),
%%
rep(fun %% A local [exit,kill] would kill the test case process
(_Tag, _Call, [Node|_]) when Node == node() ->
ok;
%% A block_call [exit,kill] would kill the rpc server
(_Tag, block_call, _Args) -> ok;
(Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',killed}}} =
{Tag,apply(rpc, Call, Args)}
end, N, ?MODULE, suicide, [exit,kill]),
%%
[] = flush([]),
test_server:stop_node(N),
ok.
rep(Fun, N, M, F, A) ->
Fun(1, call, [node(), M, F, A]),
Fun(2, call, [node(), M, F, A, infinity]),
Fun(3, call, [N, M, F, A]),
Fun(4, call, [N, M, F, A, infinity]),
Fun(5, call, [N, M, F, A, 3000]),
Fun(6, block_call, [node(), M, F, A]),
Fun(7, block_call, [node(), M, F, A, infinity]),
Fun(8, block_call, [N, M, F, A]),
Fun(9, block_call, [N, M, F, A, infinity]),
Fun(10, block_call, [N, M, F, A, 3000]),
ok.
suicide(link, Reason) ->
spawn_link(
fun() ->
exit(Reason)
end),
receive after 2000 -> timeout end;
suicide(exit, Reason) ->
Self = self(),
spawn(
fun() ->
exit(Self, Reason)
end),
receive after 2000 -> timeout end.
suicide(erlang, exit, [Name, Reason]) when is_atom(Name) ->
case whereis(Name) of
Pid when is_pid(Pid) -> suicide(erlang, exit, [Pid, Reason])
end;
suicide(Mod, Func, Args) ->
spawn_link(
fun() ->
apply(Mod, Func, Args)
end),
receive after 10000 -> timeout end.
called_node_dies(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
node_rep(
fun (Tag, Call, Args) ->
{Tag,{badrpc,nodedown}} =
{Tag,apply(rpc, Call, Args)}
end, "rpc_SUITE_called_node_dies_1",
PA, ?MODULE, suicide, [erlang,halt,[]]),
node_rep(
fun (Tag, Call, Args) ->
{Tag,{badrpc,nodedown}} =
{Tag,apply(rpc, Call, Args)}
end, "rpc_SUITE_called_node_dies_2",
PA, ?MODULE, suicide, [init,stop,[]]),
node_rep(
fun (Tag, Call, Args=[_|_]) ->
{Tag,{'EXIT',{killed,_}}} =
{Tag,catch {noexit,apply(rpc, Call, Args)}}
end, "rpc_SUITE_called_node_dies_3",
PA, ?MODULE, suicide, [erlang,exit,[rex,kill]]),
node_rep(
fun (_Tag, block_call, _Args) ->
%% Cannot block call rpc - will hang
ok;
(Tag, Call, Args=[_|_]) ->
{Tag,{'EXIT',{normal,_}}} =
{Tag,catch {noexit,apply(rpc, Call, Args)}}
end, "rpc_SUITE_called_node_dies_4",
PA, ?MODULE, suicide, [rpc,stop,[]]),
ok.
node_rep(Fun, Name, PA, M, F, A) ->
node_rep_call(a, call, [M,F,A], Fun, Name, PA),
node_rep_call(b, call, [M,F,A,infinity], Fun, Name, PA),
node_rep_call(c, block_call, [M,F,A], Fun, Name, PA),
node_rep_call(d, block_call, [M,F,A,infinity], Fun, Name, PA).
node_rep_call(Tag, Call, Args, Fun, Name0, PA) ->
Name = list_to_atom(Name0 ++ "_" ++ atom_to_list(Tag)),
{ok, N} = test_server:start_node(Name, slave,
[{args, "-pa " ++ PA}]),
Fun(Tag, Call, [N|Args]),
catch test_server:stop_node(N),
ok.
%% OTP-3766.
called_throws(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
%%
{ok, N} = test_server:start_node(rpc_SUITE_called_throws, slave,
[{args, "-pa " ++ PA}]),
%%
rep(fun (Tag, Call, Args) ->
{Tag,up} =
{Tag,apply(rpc, Call, Args)}
end, N, erlang, throw, [up]),
rep(fun (Tag, Call, Args) ->
{Tag,{badrpc,{'EXIT',reason}}} =
{Tag,apply(rpc, Call, Args)}
end, N, erlang, throw, [{'EXIT',reason}]),
%%
test_server:stop_node(N),
ok.
call_benchmark(Config) when is_list(Config) ->
PA = filename:dirname(code:which(?MODULE)),
{ok, Node} = test_server:start_node(rpc_SUITE_call_benchmark, slave,
[{args, "-pa " ++ PA}]),
Iter = case erlang:system_info(modified_timing_level) of
undefined -> 10000;
_ -> 500 %Modified timing - spawn is slower
end,
Res = do_call_benchmark(Node, Iter),
test_server:stop_node(Node),
Res.
do_call_benchmark(Node, M) when is_integer(M), M > 0 ->
{Micros,ok} = timer:tc(fun() ->
do_call_benchmark(Node, 0, M)
end),
Calls = 3*M,
S = io_lib:format("~p RPC calls/second", [Calls*1000000 div Micros]),
{comment,lists:flatten(S)}.
do_call_benchmark(_Node, M, M) ->
ok;
do_call_benchmark(Node, I, M) ->
Node = rpc:call(Node, erlang, node, []),
_ = rpc:call(Node, erlang, whereis, [rex]),
3 = rpc:call(Node, erlang, '+', [1,2]),
do_call_benchmark(Node, I+1, M).
async_call(Config) when is_list(Config) ->
%% Note: First part of nodename sets response delay in seconds.
PA = filename:dirname(code:which(?MODULE)),
NodeArgs = [{args,"-pa "++ PA}],
{ok,Node1} = test_server:start_node('1_rpc_SUITE_call', slave, NodeArgs),
{ok,Node2} = test_server:start_node('10_rpc_SUITE_call', slave, NodeArgs),
{ok,Node3} = test_server:start_node('20_rpc_SUITE_call', slave, NodeArgs),
Promise1 = rpc:async_call(Node1, ?MODULE, f, []),
Promise2 = rpc:async_call(Node2, ?MODULE, f, []),
Promise3 = rpc:async_call(Node3, ?MODULE, f, []),
%% Test fast timeouts.
timeout = rpc:nb_yield(Promise2),
timeout = rpc:nb_yield(Promise2, 10),
%% Let Node1 finish its work before yielding.
ct:sleep({seconds,2}),
{hej,_,Node1} = rpc:yield(Promise1),
%% Wait for the Node2 and Node3.
{value,{hej,_,Node2}} = rpc:nb_yield(Promise2, infinity),
{hej,_,Node3} = rpc:yield(Promise3),
ok.
%%%
%%% Utility functions.
%%%
flush(L) ->
receive
M ->
flush([M|L])
after 0 ->
L
end.
t() ->
[N | _] = string:tokens(atom_to_list(node()), "_"),
1000*list_to_integer(N).
f() ->
timer:sleep(T=t()),
spawn(?MODULE, f2, []),
{hej,T,node()}.
f2() ->
timer:sleep(500),
halt().