%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2008-2013. 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% %% %%% @doc Test support functions %%% %%%
This is a support module for testing the Common Test Framework.
%%% -module(ct_test_support). -include_lib("common_test/include/ct_event.hrl"). -include_lib("common_test/include/ct.hrl"). -export([init_per_suite/1, init_per_suite/2, end_per_suite/1, init_per_testcase/2, end_per_testcase/2, write_testspec/2, write_testspec/3, run/2, run/3, run/4, run_ct_run_test/2, run_ct_script_start/2, get_opts/1, wait_for_ct_stop/1]). -export([handle_event/2, start_event_receiver/1, get_events/2, verify_events/3, verify_events/4, reformat/2, log_events/4, join_abs_dirs/2]). -export([start_slave/3, slave_stop/1]). -export([ct_test_halt/1, ct_rpc/2]). -export([random_error/1]). -include_lib("kernel/include/file.hrl"). %%%----------------------------------------------------------------- %%% init_per_suite/1 init_per_suite(Config) -> init_per_suite(Config, 50). init_per_suite(Config, Level) -> ScaleFactor = test_server:timetrap_scale_factor(), case os:type() of {win32, _} -> %% Extend timeout to 1 hour for windows as starting node %% can take a long time there test_server:timetrap( 60*60*1000 * ScaleFactor ); _ -> ok end, case delete_old_logs(os:type(), Config) of {'EXIT',DelLogsReason} -> test_server:format(0, "Failed to delete old log directories: ~p~n", [DelLogsReason]); _ -> ok end, {Mult,Scale} = test_server_ctrl:get_timetrap_parameters(), test_server:format(Level, "Timetrap multiplier: ~w~n", [Mult]), if Scale == true -> test_server:format(Level, "Timetrap scale factor: ~w~n", [ScaleFactor]); true -> ok end, start_slave(Config, Level). start_slave(Config, Level) -> start_slave(ct, Config, Level). start_slave(NodeName, Config, Level) -> [_,Host] = string:tokens(atom_to_list(node()), "@"), test_server:format(0, "Trying to start ~s~n", [atom_to_list(NodeName)++"@"++Host]), case slave:start(Host, NodeName, []) of {error,Reason} -> test_server:fail(Reason); {ok,CTNode} -> test_server:format(0, "Node ~p started~n", [CTNode]), IsCover = test_server:is_cover(), if IsCover -> cover:start(CTNode); true -> ok end, DataDir = proplists:get_value(data_dir, Config), PrivDir = proplists:get_value(priv_dir, Config), %% PrivDir as well as directory of Test Server suites %% have to be in code path on Common Test node. [_ | Parts] = lists:reverse(filename:split(DataDir)), TSDir = filename:join(lists:reverse(Parts)), AddPathDirs = case proplists:get_value(path_dirs, Config) of undefined -> []; Ds -> Ds end, PathDirs = [PrivDir,TSDir | AddPathDirs], [true = rpc:call(CTNode, code, add_patha, [D]) || D <- PathDirs], test_server:format(Level, "Dirs added to code path (on ~w):~n", [CTNode]), [io:format("~s~n", [D]) || D <- PathDirs], case proplists:get_value(start_sasl, Config) of true -> rpc:call(CTNode, application, start, [sasl]), test_server:format(Level, "SASL started on ~w~n", [CTNode]); _ -> ok end, TraceFile = filename:join(DataDir, "ct.trace"), case file:read_file_info(TraceFile) of {ok,_} -> [{trace_level,0}, {ct_opts,[{ct_trace,TraceFile}]}, {ct_node,CTNode} | Config]; _ -> [{trace_level,Level}, {ct_opts,[]}, {ct_node,CTNode} | Config] end end. %%%----------------------------------------------------------------- %%% end_per_suite/1 end_per_suite(Config) -> CTNode = proplists:get_value(ct_node, Config), PrivDir = proplists:get_value(priv_dir, Config), true = rpc:call(CTNode, code, del_path, [filename:join(PrivDir,"")]), slave_stop(CTNode), ok. %%%----------------------------------------------------------------- %%% init_per_testcase/2 init_per_testcase(_TestCase, Config) -> Opts = get_opts(Config), NetDir = proplists:get_value(net_dir, Opts), LogDir = join_abs_dirs(NetDir, proplists:get_value(logdir, Opts)), case lists:keysearch(master, 1, Config) of false-> test_server:format("See Common Test logs here:\n\n" "~s/all_runs.html\n" "~s/index.html", [LogDir,LogDir,LogDir,LogDir]); {value, _}-> test_server:format("See CT Master Test logs here:\n\n" "~s/master_runs.html", [LogDir,LogDir]) end, Config. %%%----------------------------------------------------------------- %%% end_per_testcase/2 end_per_testcase(_TestCase, Config) -> CTNode = proplists:get_value(ct_node, Config), case wait_for_ct_stop(CTNode) of %% Common test was not stopped to we restart node. false -> slave_stop(CTNode), start_slave(Config,proplists:get_value(trace_level,Config)), {fail, "Could not stop common_test"}; true -> ok end. %%%----------------------------------------------------------------- %%% write_testspec(TestSpec, Dir, Name) -> write_testspec(TestSpec, filename:join(Dir, Name)). write_testspec(TestSpec, TSFile) -> {ok,Dev} = file:open(TSFile, [write]), [io:format(Dev, "~p.~n", [Entry]) || Entry <- TestSpec], file:close(Dev), io:format("Test specification written to: ~p~n", [TSFile]), io:format(user, "Test specification written to: ~p~n", [TSFile]), TSFile. %%%----------------------------------------------------------------- %%% get_opts(Config) -> PrivDir = proplists:get_value(priv_dir, Config), TempDir = case os:getenv("TMP") of false -> case os:getenv("TEMP") of false -> undefined; Tmp -> create_tmp_logdir(Tmp) end; Tmp -> create_tmp_logdir(Tmp) end, LogDir = case os:getenv("CT_USE_TMP_DIR") of false -> case os:type() of {win32,_} -> if TempDir == undefined -> PrivDir; true -> TempDir end; _ -> PrivDir end; _ -> TempDir end, %% Copy test variables to app environment on new node CtTestVars = case init:get_argument(ct_test_vars) of {ok,[Vars]} -> [begin {ok,Ts,_} = erl_scan:string(Str++"."), {ok,Expr} = erl_parse:parse_term(Ts), Expr end || Str <- Vars]; _ -> [] end, %% test_server:format("Test variables added to Config: ~p\n\n", %% [CtTestVars]), InitOpts = case proplists:get_value(ct_opts, Config) of undefined -> []; CtOpts -> CtOpts end, [{logdir,LogDir} | InitOpts ++ CtTestVars]. %%%----------------------------------------------------------------- %%% run(Opts0, Config) when is_list(Opts0) -> Opts = %% read (and override) opts from env variable, the form expected: %% "[{some_key1,SomeVal2}, {some_key2,SomeVal2}]" case os:getenv("CT_TEST_OPTS") of false -> Opts0; "" -> Opts0; Terms -> case erl_scan:string(Terms++".", 0) of {ok,Tokens,_} -> case erl_parse:parse_term(Tokens) of {ok,OROpts} -> Override = fun(O={Key,_}, Os) -> io:format(user, "ADDING START " "OPTION: ~p~n", [O]), [O | lists:keydelete(Key, 1, Os)] end, lists:foldl(Override, Opts0, OROpts); _ -> Opts0 end; _ -> Opts0 end end, %% use ct interface CtRunTestResult=run_ct_run_test(Opts,Config), %% use run_test interface (simulated) ExitStatus=run_ct_script_start(Opts,Config), check_result(CtRunTestResult,ExitStatus,Opts). run_ct_run_test(Opts,Config) -> CTNode = proplists:get_value(ct_node, Config), Level = proplists:get_value(trace_level, Config), test_server:format(Level, "~n[RUN #1] Calling ct:run_test(~p) on ~p~n", [Opts, CTNode]), T0 = erlang:monotonic_time(), CtRunTestResult = rpc:call(CTNode, ct, run_test, [Opts]), T1 = erlang:monotonic_time(), Elapsed = erlang:convert_time_unit(T1-T0, native, milli_seconds), test_server:format(Level, "~n[RUN #1] Got return value ~p after ~p ms~n", [CtRunTestResult,Elapsed]), case rpc:call(CTNode, erlang, whereis, [ct_util_server]) of undefined -> ok; _ -> test_server:format(Level, "ct_util_server not stopped on ~p yet, waiting 5 s...~n", [CTNode]), timer:sleep(5000), undefined = rpc:call(CTNode, erlang, whereis, [ct_util_server]) end, CtRunTestResult. run_ct_script_start(Opts, Config) -> CTNode = proplists:get_value(ct_node, Config), Level = proplists:get_value(trace_level, Config), Opts1 = [{halt_with,{?MODULE,ct_test_halt}} | Opts], test_server:format(Level, "Saving start opts on ~p: ~p~n", [CTNode, Opts1]), rpc:call(CTNode, application, set_env, [common_test, run_test_start_opts, Opts1]), test_server:format(Level, "[RUN #2] Calling ct_run:script_start() on ~p~n", [CTNode]), T0 = erlang:monotonic_time(), ExitStatus = rpc:call(CTNode, ct_run, script_start, []), T1 = erlang:monotonic_time(), Elapsed = erlang:convert_time_unit(T1-T0, native, milli_seconds), test_server:format(Level, "[RUN #2] Got exit status value ~p after ~p ms~n", [ExitStatus,Elapsed]), ExitStatus. check_result({_Ok,Failed,{_UserSkipped,_AutoSkipped}},1,_Opts) when Failed > 0 -> ok; check_result({_Ok,0,{_UserSkipped,AutoSkipped}},ExitStatus,Opts) when AutoSkipped > 0 -> case proplists:get_value(exit_status, Opts) of ignore_config when ExitStatus == 1 -> {error,{wrong_exit_status,ExitStatus}}; _ -> ok end; check_result({error,_}=Error,2,_Opts) -> Error; check_result({error,_},ExitStatus,_Opts) -> {error,{wrong_exit_status,ExitStatus}}; check_result({_Ok,0,{_UserSkipped,_AutoSkipped}},0,_Opts) -> ok; check_result(CtRunTestResult,ExitStatus,Opts) when is_list(CtRunTestResult) -> % repeated testruns try check_result(sum_testruns(CtRunTestResult,0,0,0,0),ExitStatus,Opts) catch _:_ -> {error,{unexpected_return_value,{CtRunTestResult,ExitStatus}}} end; check_result(CtRunTestResult,ExitStatus,_Opts) -> {error,{unexpected_return_value,{CtRunTestResult,ExitStatus}}}. sum_testruns([{O,F,{US,AS}}|T],Ok,Failed,UserSkipped,AutoSkipped) -> sum_testruns(T,Ok+O,Failed+F,UserSkipped+US,AutoSkipped+AS); sum_testruns([],Ok,Failed,UserSkipped,AutoSkipped) -> {Ok,Failed,{UserSkipped,AutoSkipped}}. run(M, F, A, Config) -> run({M,F,A}, [], Config). run({M,F,A}, InitCalls, Config) -> CTNode = proplists:get_value(ct_node, Config), Level = proplists:get_value(trace_level, Config), lists:foreach( fun({IM,IF,IA}) -> test_server:format(Level, "~nInit call ~w:~w(~p) on ~p...~n", [IM, IF, IA, CTNode]), Result = rpc:call(CTNode, IM, IF, IA), test_server:format(Level, "~n...with result: ~p~n", [Result]) end, InitCalls), test_server:format(Level, "~nStarting test with ~w:~w(~p) on ~p~n", [M, F, A, CTNode]), rpc:call(CTNode, M, F, A). %% this is the last function that ct_run:script_start() calls, so the %% return value here is what rpc:call/4 above returns ct_test_halt(ExitStatus) -> ExitStatus. %%%----------------------------------------------------------------- %%% wait_for_ct_stop/1 wait_for_ct_stop(CTNode) -> %% Give CT at least 15 sec to stop (in case of bad make). wait_for_ct_stop(5, CTNode). wait_for_ct_stop(0, CTNode) -> test_server:format(0, "Giving up! Stopping ~p.", [CTNode]), false; wait_for_ct_stop(Retries, CTNode) -> case rpc:call(CTNode, erlang, whereis, [ct_util_server]) of undefined -> true; Pid -> Info = (catch process_info(Pid)), test_server:format(0, "Waiting for CT (~p) to finish (~p)...", [Pid,Retries]), test_server:format(0, "Process info for ~p:~n~p", [Info]), timer:sleep(5000), wait_for_ct_stop(Retries-1, CTNode) end. %%%----------------------------------------------------------------- %%% ct_rpc/1 ct_rpc({M,F,A}, Config) -> CTNode = proplists:get_value(ct_node, Config), Level = proplists:get_value(trace_level, Config), test_server:format(Level, "~nCalling ~w:~w(~p) on ~p...", [M,F,A, CTNode]), rpc:call(CTNode, M, F, A). %%%----------------------------------------------------------------- %%% random_error/1 random_error(Config) when is_list(Config) -> rand:seed(exsplus), Gen = fun(0,_) -> ok; (N,Fun) -> Fun(N-1, Fun) end, Gen(rand:uniform(100), Gen), ErrorTypes = ['BADMATCH','BADARG','CASE_CLAUSE','FUNCTION_CLAUSE', 'EXIT','THROW','UNDEF'], Type = lists:nth(rand:uniform(length(ErrorTypes)), ErrorTypes), Where = case rand:uniform(2) of 1 -> io:format("ct_test_support *returning* error of type ~w", [Type]), tc; 2 -> io:format("ct_test_support *generating* error of type ~w", [Type]), lib end, ErrorFun = fun() -> case Type of 'BADMATCH' -> ok = proplists:get_value(undefined, Config); 'BADARG' -> size(proplists:get_value(priv_dir, Config)); 'FUNCTION_CLAUSE' -> random_error(x); 'EXIT' -> spawn_link(fun() -> undef_proc ! hello, ok end); 'THROW' -> PrivDir = proplists:get_value(priv_dir, Config), if is_list(PrivDir) -> throw(generated_throw) end; 'UNDEF' -> apply(?MODULE, random_error, []) end end, %% either call the fun here or return it to the caller (to be %% executed in a test case instead) case Where of tc -> ErrorFun; lib -> ErrorFun() end. %%%----------------------------------------------------------------- %%% EVENT HANDLING handle_event(EH, Event) -> event_receiver ! {self(),{event,EH,Event}}, receive {event_receiver,ok} -> ok end, ok. start_event_receiver(Config) -> CTNode = proplists:get_value(ct_node, Config), Level = proplists:get_value(trace_level, Config), ER = spawn_link(CTNode, fun() -> er() end), test_server:format(Level, "~nEvent receiver ~w started!~n", [ER]), ER. get_events(_, Config) -> CTNode = proplists:get_value(ct_node, Config), Level = proplists:get_value(trace_level, Config), {event_receiver,CTNode} ! {self(),get_events}, Events = receive {event_receiver,Evs} -> Evs end, test_server:format(Level, "Stopping event receiver!~n", []), {event_receiver,CTNode} ! stop, Events. er() -> register(event_receiver, self()), er_loop([]). er_loop(Evs) -> receive {From,{event,EH,Ev}} -> From ! {event_receiver,ok}, er_loop([{EH,Ev} | Evs]); {From,get_events} -> From ! {event_receiver,lists:reverse(Evs)}, er_loop(Evs); stop -> unregister(event_receiver), ok end. verify_events(TEvs, Evs, Config) -> Node = proplists:get_value(ct_node, Config), case catch verify_events1(TEvs, Evs, Node, Config) of {'EXIT',Reason} -> Reason; _ -> ok end. verify_events(TEvs, Evs, Node, Config) -> case catch verify_events1(TEvs, Evs, Node, Config) of {'EXIT',Reason} -> Reason; _ -> ok end. verify_events1([TestEv|_], [{TEH,#event{name=stop_logging,node=Node,data=_}}|_], Node, _) when element(1,TestEv) == TEH, element(2,TestEv) =/= stop_logging -> test_server:format("Failed to find ~p in the list of events!~n", [TestEv]), exit({event_not_found,TestEv}); verify_events1(TEvs = [TestEv | TestEvs], Evs = [_|Events], Node, Config) -> case catch locate(TestEv, Node, Evs, Config) of nomatch -> verify_events1(TEvs, Events, Node, Config); {'EXIT',Reason} -> test_server:format("Failed to find ~p in ~p~n" "Reason: ~p~n", [TestEv,Evs,Reason]), exit(Reason); {Config1,Events1} -> if is_list(TestEv) -> ok; element(1,TestEv) == parallel ; element(1,TestEv) == shuffle -> ok; true -> test_server:format("Found ~p!", [TestEv]) end, verify_events1(TestEvs, Events1, Node, Config1) end; verify_events1([TestEv|_], [], _, _) -> test_server:format("Failed to find ~p in the list of events!~n", [TestEv]), exit({event_not_found,TestEv}); verify_events1([], Evs, _, Config) -> {Config,Evs}. %%%---------------------------------------------------------------------------- %%% locate({TEHandler,TEName,TEData}, TENode, Events, Config) -> {Config1,Evs1} %%% %%% A group is represented as either: %%% {parallel,ListOfCasesAndGroups}, %%% {shuffle,ListOfCasesAndGroups}, or %%% ListOfCasesAndGroups. %%% %%% The two first and two last events in a group *may* be tc_start and tc_done %%% for init_per_group and end_per_group. %% group (not parallel or shuffle) locate(TEvs, Node, Evs, Config) when is_list(TEvs) -> case TEvs of [InitStart = {TEH,tc_start,{M,{init_per_group,GroupName,Props}}}, InitDone = {TEH,tc_done,{M,{init_per_group,GroupName,Props},R}} | TEvs1] -> case Evs of [{TEH,#event{name=tc_start, node=Node, data={M,{init_per_group,GroupName,Props}}}}, {TEH,#event{name=tc_done, node=Node, data={M,{init_per_group,GroupName,Props},Res}}} | Evs1] -> case result_match(R, Res) of false -> nomatch; true -> test_server:format("Found ~p!", [InitStart]), test_server:format("Found ~p!", [InitDone]), verify_events1(TEvs1, Evs1, Node, Config) end; _ -> nomatch end; _ -> verify_events1(TEvs, Evs, Node, Config) end; %% Parallel events: Each test case in the group should be specified in a list %% with the tc_start, followed by the tc_done event. The order of the cases %% is irrelevant, but it must be checked that every test case exists and %% that tc_done comes after tc_start. locate({parallel,TEvs}, Node, Evs, Config) -> Start = case TEvs of [InitStart = {TEH,tc_start,{M,{init_per_group,GroupName,Props}}}, InitDone = {TEH,tc_done,{M,{init_per_group,GroupName,Props},R}} | TEs] -> case Evs of [{TEH,#event{name=tc_start, node=Node, data={M,{init_per_group, GroupName,Props}}}}|Es] -> %% Use dropwhile here as a tc_done from a %% previous testcase might sneak in here EvsG = lists:dropwhile( fun({EH,#event{name=tc_done, node=EvNode, data={EvM,{init_per_group, EvGroupName, EvProps},EvR}}}) when TEH == EH, EvNode == Node, EvM == M, EvGroupName == GroupName, EvProps == Props -> case result_match(R, EvR) of true -> false; false -> true end; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({group_init_done_not_found, GroupName,Props}); (_) -> true end, Es), test_server:format("Found ~p!", [InitStart]), test_server:format("Found ~p!", [InitDone]), {TEs,EvsG}; _ -> nomatch end; _ -> {TEvs,Evs} end, case Start of nomatch -> nomatch; {TEvs1,Evs1} -> {TcDoneEvs,RemainEvs,_} = lists:foldl( %% tc_start event for a parallel test case fun(TEv={TEH,tc_start,{M,F}}, {Done,RemEvs,RemSize}) -> %% drop events until TEv is found Evs2 = lists:dropwhile( fun({EH,#event{name=tc_start, node=EvNode, data={Mod,Func}}}) when EH == TEH, EvNode == Node, Mod == M, Func == F -> false; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_start_not_found,TEv}); (_) -> true end, Evs1), %% split the list at the tc_done event and record the smallest %% list of remaining events (Evs) as possible RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_done, node=EvNode, data={Mod,Func,_}}}) when EH == TEH, EvNode == Node, Mod == M, Func == F -> false; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_done_not_found,TEv}); (_) -> true end, Evs2), case RemEvs1 of [] when Evs2 == [] -> exit({unmatched,TEv}); [] -> test_server:format("Found ~p!", [TEv]), exit({tc_done_not_found,TEv}); [TcDone|Evs3] -> test_server:format("Found ~p!", [TEv]), RemSize1 = length(Evs3), if RemSize1 < RemSize -> {[TcDone|Done],Evs3,RemSize1}; true -> {[TcDone|Done],RemEvs,RemSize} end end; %% tc_done event for a parallel test case (TEv={TEH,tc_done,{M,F,R}}, {Done,RemEvs,RemSize}) -> case [E || E={EH,#event{name=tc_done, node=EvNode, data={Mod,Func,Result}}} <- Done, EH == TEH, EvNode == Node, Mod == M, Func == F, result_match(R, Result)] of [TcDone|_] -> test_server:format("Found ~p!", [TEv]), {lists:delete(TcDone, Done),RemEvs,RemSize}; [] -> exit({unmatched,TEv}) end; %% tc_start event for end_per_group (TEv={TEH,tc_start,{M,{end_per_group,GroupName,Props}}}, {Done,RemEvs,_RemSize}) -> RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_start, node=EvNode, data={Mod,{end_per_group, EvGName,EvProps}}}}) when EH == TEH, EvNode == Node, Mod == M, EvGName == GroupName, EvProps == Props -> false; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_start_not_found,TEv}); (_) -> true end, RemEvs), case RemEvs1 of [] -> exit({end_per_group_not_found,TEv}); [_ | RemEvs2] -> test_server:format("Found ~p!", [TEv]), {Done,RemEvs2,length(RemEvs2)} end; %% tc_done event for end_per_group (TEv={TEH,tc_done,{M,{end_per_group,GroupName,Props},R}}, {Done,RemEvs,_RemSize}) -> RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_done, node=EvNode, data={Mod,{end_per_group, EvGName,EvProps},Res}}}) when EH == TEH, EvNode == Node, Mod == M, EvGName == GroupName, EvProps == Props -> case result_match(R, Res) of true -> false; false -> true end; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_done_not_found,TEv}); (_) -> true end, RemEvs), case RemEvs1 of [] -> exit({end_per_group_not_found,TEv}); [_ | RemEvs2] -> test_server:format("Found ~p!", [TEv]), {Done,RemEvs2,length(RemEvs2)} end; %% end_per_group auto- or user skipped (TEv={TEH,AutoOrUserSkip,{M,end_per_group,R}}, {Done,RemEvs,_RemSize}) when AutoOrUserSkip == tc_auto_skip; AutoOrUserSkip == tc_user_skip -> RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_auto_skip, node=EvNode, data={Mod,end_per_group,Reason}}}) when EH == TEH, EvNode == Node, Mod == M -> case match_data(R, Reason) of match -> false; _ -> true end; ({EH,#event{name=tc_user_skip, node=EvNode, data={Mod,end_per_group,Reason}}}) when EH == TEH, EvNode == Node, Mod == M -> case match_data(R, Reason) of match -> false; _ -> true end; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_auto_or_user_skip_not_found,TEv}); (_) -> true end, RemEvs), case RemEvs1 of [] -> exit({end_per_group_not_found,TEv}); [_AutoSkip | RemEvs2] -> {Done,RemEvs2,length(RemEvs2)} end; (TEv={TEH,N,D}, Acc) -> case [E || E={EH,#event{name=Name, node=EvNode, data=Data}} <- Evs1, EH == TEH, EvNode == Node, Name == N, match == match_data(D,Data)] of [] -> exit({unmatched,TEv}); _ -> test_server:format("Found ~p!", [TEv]), Acc end; %% start of a sub-group (SubGroupTEvs, Acc) when is_list(SubGroupTEvs) -> verify_events1(SubGroupTEvs, Evs1, Node, Config), Acc; (TEv={Prop,_SubGroupTEvs}, Acc) when Prop == shuffle ; Prop == parallel -> verify_events1([TEv], Evs1, Node, Config), Acc end, {[],Evs1,length(Evs1)}, TEvs1), case TcDoneEvs of [] -> test_server:format("Found all parallel events!", []), {Config,RemainEvs}; _ -> exit({unexpected_events,TcDoneEvs}) end end; %% Shuffled events: Each test case in the group should be specified in a list %% with the tc_start, followed by the tc_done event. The order of the cases %% is irrelevant, but it must be checked that every test case exists and %% that the tc_done event follows the tc_start. locate({shuffle,TEvs}, Node, Evs, Config) -> Start = case TEvs of [InitStart = {TEH,tc_start,{M,{init_per_group,GroupName,Props}}}, InitDone = {TEH,tc_done,{M,{init_per_group,GroupName,Props},R}} | TEs] -> case Evs of [{TEH,#event{name=tc_start, node=Node, data={M,{init_per_group,GroupName,EvProps}}}}, {TEH,#event{name=tc_done, node=Node, data={M,{init_per_group,GroupName,EvProps},Res}}} | Es] -> case result_match(R, Res) of true -> case proplists:get_value(shuffle, Props) of '_' -> case proplists:get_value(shuffle, EvProps) of false -> exit({no_shuffle_prop_found, {M,init_per_group, GroupName,EvProps}}); _ -> PropsCmp = proplists:delete(shuffle, EvProps), PropsCmp = proplists:delete(shuffle, Props) end; _ -> Props = EvProps end, test_server:format("Found ~p!", [InitStart]), test_server:format("Found ~p!", [InitDone]), {TEs,Es}; false -> nomatch end; _ -> nomatch end; _ -> {TEvs,Evs} end, case Start of nomatch -> nomatch; {TEvs1,Evs1} -> {TcDoneEvs,RemainEvs,_} = lists:foldl( %% tc_start event for a test case fun(TEv={TEH,tc_start,{M,F}}, {Done,RemEvs,RemSize}) -> %% drop events until TEv is found Evs2 = lists:dropwhile( fun({EH,#event{name=tc_start, node=EvNode, data={Mod,Func}}}) when EH == TEH, EvNode == Node, Mod == M, Func == F -> false; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_start_not_found,TEv}); (_) -> true end, Evs1), %% verify the tc_done event comes next in Evs case Evs2 of [] -> exit({unmatched,TEv}); [_TcStart, TcDone={TEH,#event{name=tc_done, node=Node, data={M,F,_}}} | Evs3] -> test_server:format("Found ~p!", [TEv]), RemSize1 = length(Evs3), if RemSize1 < RemSize -> {[TcDone|Done],Evs3,RemSize1}; true -> {[TcDone|Done],RemEvs,RemSize} end end; %% tc_done event for a test case (TEv={TEH,tc_done,{M,F,R}}, {Done,RemEvs,RemSize}) -> case [E || E={EH,#event{name=tc_done, node=EvNode, data={Mod,Func,Result}}} <- Done, EH == TEH, EvNode == Node, Mod == M, Func == F, result_match(R, Result)] of [TcDone|_] -> test_server:format("Found ~p!", [TEv]), {lists:delete(TcDone, Done),RemEvs,RemSize}; [] -> exit({unmatched,TEv}) end; %% tc_start event for end_per_group (TEv={TEH,tc_start,{M,{end_per_group,GroupName,Props}}}, {Done,RemEvs,_RemSize}) -> RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_start, node=EvNode, data={Mod,{end_per_group, EvGName,_}}}}) when EH == TEH, EvNode == Node, Mod == M, EvGName == GroupName -> false; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_start_not_found,TEv}); (_) -> true end, RemEvs), case RemEvs1 of [] -> exit({end_per_group_not_found,TEv}); [{_,#event{data={_,{_,_,EvProps1}}}} | RemEvs2] -> case proplists:get_value(shuffle, Props) of '_' -> case proplists:get_value(shuffle, EvProps1) of false -> exit({no_shuffle_prop_found, {M,end_per_group,GroupName,EvProps1}}); _ -> PropsCmp1 = proplists:delete(shuffle, EvProps1), PropsCmp1 = proplists:delete(shuffle, Props) end; _ -> Props = EvProps1 end, test_server:format("Found ~p!", [TEv]), {Done,RemEvs2,length(RemEvs2)} end; %% tc_done event for end_per_group (TEv={TEH,tc_done,{M,{end_per_group,GroupName,Props},R}}, {Done,RemEvs,_RemSize}) -> RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_done, node=EvNode, data={Mod,{end_per_group, EvGName,_},Res}}}) when EH == TEH, EvNode == Node, Mod == M, EvGName == GroupName -> case result_match(R, Res) of true -> false; false -> true end; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_done_not_found,TEv}); (_) -> true end, RemEvs), case RemEvs1 of [] -> exit({end_per_group_not_found,TEv}); [{_,#event{data={_,{_,_,EvProps1},_}}} | RemEvs2] -> case proplists:get_value(shuffle, Props) of '_' -> case proplists:get_value(shuffle, EvProps1) of false -> exit({no_shuffle_prop_found, {M,end_per_group,GroupName,EvProps1}}); _ -> PropsCmp1 = proplists:delete(shuffle, EvProps1), PropsCmp1 = proplists:delete(shuffle, Props) end; _ -> Props = EvProps1 end, test_server:format("Found ~p!", [TEv]), {Done,RemEvs2,length(RemEvs2)} end; %% end_per_group auto-or user skipped (TEv={TEH,AutoOrUserSkip,{M,end_per_group,R}}, {Done,RemEvs,_RemSize}) when AutoOrUserSkip == tc_auto_skip; AutoOrUserSkip == tc_user_skip -> RemEvs1 = lists:dropwhile( fun({EH,#event{name=tc_auto_skip, node=EvNode, data={Mod,end_per_group,Reason}}}) when EH == TEH, EvNode == Node, Mod == M, Reason == R -> false; ({EH,#event{name=tc_user_skip, node=EvNode, data={Mod,end_per_group,Reason}}}) when EH == TEH, EvNode == Node, Mod == M, Reason == R -> false; ({EH,#event{name=stop_logging, node=EvNode,data=_}}) when EH == TEH, EvNode == Node -> exit({tc_auto_skip_not_found,TEv}); (_) -> true end, RemEvs), case RemEvs1 of [] -> exit({end_per_group_not_found,TEv}); [_AutoSkip | RemEvs2] -> {Done,RemEvs2,length(RemEvs2)} end; %% match other event than test case (TEv={TEH,N,D}, Acc) when D == '_' -> case [E || E={EH,#event{name=Name, node=EvNode, data=_}} <- Evs1, EH == TEH, EvNode == Node, Name == N] of [] -> exit({unmatched,TEv}); _ -> test_server:format("Found ~p!", [TEv]), Acc end; (TEv={TEH,N,D}, Acc) -> case [E || E={EH,#event{name=Name, node=EvNode, data=Data}} <- Evs1, EH == TEH, EvNode == Node, Name == N, Data == D] of [] -> exit({unmatched,TEv}); _ -> test_server:format("Found ~p!", [TEv]), Acc end; %% start of a sub-group (SubGroupTEvs, Acc) when is_list(SubGroupTEvs) -> verify_events1(SubGroupTEvs, Evs1, Node, Config), Acc; (TEv={Prop,_SubGroupTEvs}, Acc) when Prop == shuffle ; Prop == parallel -> verify_events1([TEv], Evs1, Node, Config), Acc end, {[],Evs1,length(Evs1)}, TEvs1), case TcDoneEvs of [] -> test_server:format("Found all shuffled events!", []), {Config,RemainEvs}; _ -> exit({unexpected_events,TcDoneEvs}) end end; locate({TEH,Name,{'DEF','RUNDIR'}}, Node, [Ev|Evs], Config) -> case Ev of {TEH,#event{name=Name, node=Node, data=EvData}} -> {_,{_,LogDir}} = lists:keysearch(logdir, 1, get_opts(Config)), D = filename:join(LogDir, "ct_run." ++ atom_to_list(Node)), case string:str(EvData, D) of 0 -> exit({badmatch,EvData}); _ -> ok end, {Config,Evs}; _ -> nomatch end; locate({TEH,Name,{'DEF',{'START_TIME','LOGDIR'}}}, Node, [Ev|Evs], Config) -> case Ev of {TEH,#event{name=Name, node=Node, data=EvData}} -> case EvData of {DT={{_,_,_},{_,_,_}},Dir} when is_list(Dir) -> {_,{_,LogDir}} = lists:keysearch(logdir, 1, get_opts(Config)), D = filename:join(LogDir, "ct_run." ++ atom_to_list(Node)), case string:str(Dir, D) of 0 -> exit({badmatch,Dir}); _ -> ok end, {[{start_time,DT}|Config],Evs}; Data -> exit({badmatch,Data}) end; _ -> nomatch end; locate({TEH,Name,{'DEF','STOP_TIME'}}, Node, [Ev|Evs], Config) -> case Ev of {TEH,#event{name=Name, node=Node, data=EvData}} -> case EvData of DT={{_,_,_},{_,_,_}} -> {[{stop_time,DT}|Config],Evs}; Data -> exit({badmatch,Data}) end; _ -> nomatch end; %% to match variable data as a result of an aborted test case locate({TEH,tc_done,{undefined,undefined,{testcase_aborted, {abort_current_testcase,Func},'_'}}}, Node, [Ev|Evs], Config) -> case Ev of {TEH,#event{name=tc_done, node=Node, data={undefined,undefined, {testcase_aborted,{abort_current_testcase,Func},_}}}} -> {Config,Evs}; _ -> nomatch end; %% to match variable data as a result of a failed test case locate({TEH,tc_done,{Mod,Func,R={SkipOrFail,{_ErrInd,ErrInfo}}}}, Node, [Ev|Evs], Config) when ((SkipOrFail == skipped) or (SkipOrFail == failed)) and ((size(ErrInfo) == 2) or (size(ErrInfo) == 3)) -> case Ev of {TEH,#event{name=tc_done, node=Node, data={Mod,Func,Result}}} -> case result_match(R, Result) of true -> {Config,Evs}; false -> nomatch end; _ -> nomatch end; %% Negative matching: Given two events, the first should not be present before %% the other is matched. locate({negative,NotMatch, Match} = Neg, Node, Evs, Config) -> case locate(NotMatch, Node, Evs, Config) of nomatch -> locate(Match, Node, Evs, Config); _ -> exit({found_negative_event,Neg}) end; %% matches any event of type Name locate({TEH,Name,Data}, Node, [{TEH,#event{name=Name, data = EvData, node = Node}}|Evs], Config) -> case match_data(Data, EvData) of match -> {Config,Evs}; _ -> nomatch end; locate({_TEH,_Name,_Data}, _Node, [_|_Evs], _Config) -> nomatch. match_data(Data, EvData) -> try do_match_data(Data, EvData) catch _:_ -> nomatch end. do_match_data(D,D) -> match; do_match_data('_',_) -> match; do_match_data(Fun,Data) when is_function(Fun) -> Fun(Data); do_match_data('$proplist',Proplist) -> do_match_data( fun(List) -> lists:foreach(fun({_,_}) -> ok end,List) end,Proplist); do_match_data([H1|MatchT],[H2|ValT]) -> do_match_data(H1,H2), do_match_data(MatchT,ValT); do_match_data(Tuple1,Tuple2) when is_tuple(Tuple1),is_tuple(Tuple2) -> do_match_data(tuple_to_list(Tuple1),tuple_to_list(Tuple2)); do_match_data([],[]) -> match. result_match({SkipOrFail,{ErrorInd,{Why,'_'}}}, {SkipOrFail,{ErrorInd,{Why,_Stack}}}) -> true; result_match({SkipOrFail,{ErrorInd,{EMod,EFunc,{Why,'_'}}}}, {SkipOrFail,{ErrorInd,{EMod,EFunc,{Why,_Stack}}}}) -> true; result_match({failed,{timetrap_timeout,{'$approx',Num}}}, {failed,{timetrap_timeout,Value}}) -> if Value >= trunc(Num-0.05*Num), Value =< trunc(Num+0.05*Num) -> true; true -> false end; result_match({user_timetrap_error,{Why,'_'}}, {user_timetrap_error,{Why,_Stack}}) -> true; result_match(Result, Result) -> true; result_match(_, _) -> false. log_events(TC, Events, EvLogDir, Opts) -> LogFile = filename:join(EvLogDir, atom_to_list(TC)++".events"), {ok,Dev} = file:open(LogFile, [write]), io:format(Dev, "[~n", []), log_events1(Events, Dev, " "), file:close(Dev), FullLogFile = join_abs_dirs(proplists:get_value(net_dir, Opts), LogFile), io:format("Events written to logfile: ~s~n", [FullLogFile,FullLogFile]), io:format(user, "Events written to logfile: ~p~n", [LogFile]). log_events1(Evs, Dev, "") -> log_events1(Evs, Dev, " "); log_events1([E={_EH,tc_start,{_M,{init_per_group,_GrName,Props}}} | Evs], Dev, Ind) -> case get_prop(Props) of undefined -> io:format(Dev, "~s[~p,~n", [Ind,E]), log_events1(Evs, Dev, Ind++" "); Prop -> io:format(Dev, "~s{~w,~n~s[~p,~n", [Ind,Prop,Ind++" ",E]), log_events1(Evs, Dev, Ind++" ") end; log_events1([E={_EH,tc_done,{_M,{init_per_group,_GrName,_Props},_R}} | Evs], Dev, Ind) -> io:format(Dev, "~s~p,~n", [Ind,E]), log_events1(Evs, Dev, Ind++" "); log_events1([E={_EH,tc_start,{_M,{end_per_group,_GrName,_Props}}} | Evs], Dev, Ind) -> Ind1 = Ind -- " ", io:format(Dev, "~s~p,~n", [Ind1,E]), log_events1(Evs, Dev, Ind1); log_events1([E={_EH,tc_done,{_M,{end_per_group,_GrName,Props},_R}} | Evs], Dev, Ind) -> case get_prop(Props) of undefined -> io:format(Dev, "~s~p],~n", [Ind,E]), log_events1(Evs, Dev, Ind--" "); _Prop -> io:format(Dev, "~s~p]},~n", [Ind,E]), log_events1(Evs, Dev, Ind--" ") end; log_events1([E={_EH,tc_auto_skip,{_M,end_per_group,_Reason}} | Evs], Dev, Ind) -> io:format(Dev, "~s~p],~n", [Ind,E]), log_events1(Evs, Dev, Ind--" "); log_events1([E={_EH,tc_user_skip,{_M,end_per_group,_Reason}} | Evs], Dev, Ind) -> io:format(Dev, "~s~p],~n", [Ind,E]), log_events1(Evs, Dev, Ind--" "); log_events1([E], Dev, Ind) -> io:format(Dev, "~s~p~n].~n", [Ind,E]), ok; log_events1([E | Evs], Dev, Ind) -> io:format(Dev, "~s~p,~n", [Ind,E]), log_events1(Evs, Dev, Ind); log_events1([], _Dev, _Ind) -> ok. get_prop(Props) -> case lists:member(parallel, Props) of true -> parallel; false -> case lists:member(shuffle, Props) of true -> shuffle; false -> case lists:keysearch(shuffle, 1, Props) of {value,_} -> shuffle; _ -> undefined end end end. reformat([{_EH,#event{name=start_write_file,data=_}} | Events], EH) -> reformat(Events, EH); reformat([{_EH,#event{name=finished_write_file,data=_}} | Events], EH) -> reformat(Events, EH); reformat([{_EH,#event{name=start_make,data=_}} | Events], EH) -> reformat(Events, EH); reformat([{_EH,#event{name=finished_make,data=_}} | Events], EH) -> reformat(Events, EH); reformat([{_EH,#event{name=start_logging,data=_}} | Events], EH) -> [{EH,start_logging,{'DEF','RUNDIR'}} | reformat(Events, EH)]; reformat([{_EH,#event{name=test_start,data=_}} | Events], EH) -> [{EH,test_start,{'DEF',{'START_TIME','LOGDIR'}}} | reformat(Events, EH)]; reformat([{_EH,#event{name=test_done,data=_}} | Events], EH) -> [{EH,test_done,{'DEF','STOP_TIME'}} | reformat(Events, EH)]; reformat([{_EH,#event{name=tc_logfile,data=_}} | Events], EH) -> reformat(Events, EH); reformat([{_EH,#event{name=test_stats,data=Data}} | Events], EH) -> [{EH,test_stats,Data} | reformat(Events, EH)]; %% use this to only print the last test_stats event: %% case [N || {_,#event{name=N}} <- Events, N == test_stats] of %% [] -> % last stats event %% [{EH,test_stats,Data} | reformat(Events, EH)]; %% _ -> %% reformat(Events, EH) %% end; reformat([{_EH,#event{name=Name,data=Data}} | Events], EH) -> [{EH,Name,Data} | reformat(Events, EH)]; reformat([], _EH) -> []. %%%----------------------------------------------------------------- %%% MISC HELP FUNCTIONS join_abs_dirs(undefined, Dir2) -> Dir2; join_abs_dirs(Dir1, Dir2) -> case filename:pathtype(Dir2) of relative -> filename:join(Dir1, Dir2); _ -> [_Abs|Parts] = filename:split(Dir2), filename:join(Dir1, filename:join(Parts)) end. create_tmp_logdir(Tmp) -> LogDir = filename:join(Tmp,"ct"), file:make_dir(LogDir), LogDir. delete_old_logs({win32,_}, Config) -> case {proplists:get_value(priv_dir, Config), proplists:get_value(logdir, get_opts(Config))} of {LogDir,LogDir} -> ignore; {_,LogDir} -> % using tmp for logs catch delete_dirs(LogDir) end; delete_old_logs(_, Config) -> case os:getenv("CT_USE_TMP_DIR") of false -> ignore; _ -> catch delete_dirs(proplists:get_value(logdir, get_opts(Config))) end. delete_dirs(LogDir) -> Now = calendar:datetime_to_gregorian_seconds(calendar:local_time()), SaveTime = list_to_integer(os:getenv("CT_SAVE_OLD_LOGS", "28800")), Deadline = Now - SaveTime, Dirs = filelib:wildcard(filename:join(LogDir,"ct_run*")), Dirs2Del = lists:foldl(fun(Dir, Del) -> [S,Mi,H,D,Mo,Y|_] = lists:reverse(string:tokens(Dir, [$.,$-,$_])), S2I = fun(Str) -> list_to_integer(Str) end, DT = {{S2I(Y),S2I(Mo),S2I(D)}, {S2I(H),S2I(Mi),S2I(S)}}, Then = calendar:datetime_to_gregorian_seconds(DT), if Then > Deadline -> Del; true -> [Dir | Del] end end, [], Dirs), case length(Dirs2Del) of 0 -> test_server:format(0, "No log directories older than ~w secs.", [SaveTime]); N -> test_server:format(0, "Deleting ~w directories older than ~w secs.", [N,SaveTime]) end, delete_dirs(LogDir, Dirs2Del). delete_dirs(_, []) -> ok; delete_dirs(LogDir, [Dir | Dirs]) -> test_server:format(0, "Removing old log directory: ~s", [Dir]), case catch rm_rec(Dir) of {_,Reason} -> test_server:format(0, "Delete failed! (~p)", [Reason]); ok -> ok end, delete_dirs(LogDir, Dirs). rm_rec(Dir) -> %% ensure we're removing the ct_run directory case lists:reverse(filename:split(Dir)) of [[$c,$t,$_,$r,$u,$n,$.|_]|_] -> rm_dir(filename:absname(Dir)); _ -> {error,{invalid_logdir,Dir}} end. rm_dir(Dir) -> case file:list_dir(Dir) of {error,Errno} -> exit({ls_failed,Dir,Errno}); {ok,Files} -> rm_files([filename:join(Dir, F) || F <- Files]), file:del_dir(Dir) end. rm_files([F | Fs]) -> Base = filename:basename(F), if Base == "." ; Base == ".." -> rm_files(Fs); true -> case file:read_file_info(F) of {ok,#file_info{type=directory}} -> rm_dir(F), rm_files(Fs); {ok,_Regular} -> case file:delete(F) of ok -> rm_files(Fs); {error,Errno} -> exit({del_failed,F,Errno}) end end end; rm_files([]) -> ok. %%%----------------------------------------------------------------- %%% slave_stop(Node) -> Cover = test_server:is_cover(), if Cover-> cover:flush(Node); true -> ok end, erlang:monitor_node(Node, true), slave:stop(Node), receive {nodedown, Node} -> if Cover -> cover:stop(Node); true -> ok end after 5000 -> erlang:monitor_node(Node, false), receive {nodedown, Node} -> ok after 0 -> ok end %flush end, ok.