%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2010. All Rights Reserved.
%%
%% The contents of this file are subject to the Erlang Public License,
%% Version 1.1, (the "License"); you may not use this file except in
%% compliance with the License. You should have received a copy of the
%% Erlang Public License along with this software. If not, it can be
%% retrieved online at http://www.erlang.org/.
%%
%% Software distributed under the License is distributed on an "AS IS"
%% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
%% the License for the specific language governing rights and limitations
%% under the License.
%%
%% %CopyrightEnd%
%%
-module(test_server).
-define(DEFAULT_TIMETRAP_SECS, 60).
%%% START %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-export([start/1,start/2]).
%%% TEST_SERVER_CTRL INTERFACE %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-export([run_test_case_apply/1,init_target_info/0,init_purify/0]).
-export([cover_compile/1,cover_analyse/2]).
%%% TEST_SERVER_SUP INTERFACE %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-export([get_loc/1]).
%%% TEST SUITE INTERFACE %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-export([lookup_config/2]).
-export([fail/0,fail/1,format/1,format/2,format/3]).
-export([capture_start/0,capture_stop/0,capture_get/0]).
-export([messages_get/0]).
-export([hours/1,minutes/1,seconds/1,sleep/1,adjusted_sleep/1,timecall/3]).
-export([timetrap_scale_factor/0,timetrap/1,timetrap_cancel/1]).
-export([m_out_of_n/3,do_times/4,do_times/2]).
-export([call_crash/3,call_crash/4,call_crash/5]).
-export([temp_name/1]).
-export([start_node/3, stop_node/1, wait_for_node/1, is_release_available/1]).
-export([app_test/1, app_test/2]).
-export([is_native/1]).
-export([comment/1]).
-export([os_type/0]).
-export([run_on_shielded_node/2]).
-export([is_cover/0,is_debug/0,is_commercial/0]).
-export([break/1,continue/0]).
%%% DEBUGGER INTERFACE %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-export([purify_new_leaks/0, purify_format/2, purify_new_fds_inuse/0,
purify_is_running/0]).
%%% PRIVATE EXPORTED %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-export([]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-record(state,{controller,jobs=[]}).
-include("test_server_internal.hrl").
-include_lib("kernel/include/file.hrl").
-define(pl2a(M), test_server_sup:package_atom(M)).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% **** START *** CODE FOR REMOTE TARGET ONLY ***
%%
%% test_server
%% This process is started only if the test is to be run on a remote target
%% The process is then started on target
%% A socket connection is established with the test_server_ctrl process
%% on host, and information about target is sent to host.
start([ControllerHost]) when is_atom(ControllerHost) ->
start(atom_to_list(ControllerHost));
start(ControllerHost) when is_list(ControllerHost) ->
start(ControllerHost,?MAIN_PORT).
start(ControllerHost,ControllerPort) ->
S = self(),
Pid = spawn(fun() -> init(ControllerHost,ControllerPort,S) end),
receive {Pid,started} -> {ok,Pid};
{Pid,Error} -> Error
end.
init(Host,Port,Starter) ->
global:register_name(?MODULE,self()),
process_flag(trap_exit,true),
test_server_sup:cleanup_crash_dumps(),
case gen_tcp:connect(Host,Port, [binary,
{reuseaddr,true},
{packet,2}]) of
{ok,MainSock} ->
Starter ! {self(),started},
request(MainSock,{target_info,init_target_info()}),
loop(#state{controller={Host,MainSock}});
Error ->
Starter ! {self(),{error,
{could_not_contact_controller,Error}}}
end.
init_target_info() ->
[$.|Emu] = code:objfile_extension(),
{_, OTPRel} = init:script_id(),
TestServerDir = filename:absname(filename:dirname(code:which(?MODULE))),
#target_info{os_family=test_server_sup:get_os_family(),
os_type=os:type(),
version=erlang:system_info(version),
system_version=erlang:system_info(system_version),
root_dir=code:root_dir(),
test_server_dir=TestServerDir,
emulator=Emu,
otp_release=OTPRel,
username=test_server_sup:get_username(),
cookie=atom_to_list(erlang:get_cookie())}.
loop(#state{controller={_,MainSock}} = State) ->
receive
{tcp, MainSock, <<1,Request/binary>>} ->
State1 = decode_main(binary_to_term(Request),State),
loop(State1);
{tcp_closed, MainSock} ->
gen_tcp:close(MainSock),
halt();
{'EXIT',Pid,Reason} ->
case lists:keysearch(Pid,1,State#state.jobs) of
{value,{Pid,Name}} ->
case Reason of
normal -> ignore;
_other -> request(MainSock,{job_proc_killed,Name,Reason})
end,
NewJobs = lists:keydelete(Pid,1,State#state.jobs),
loop(State#state{jobs = NewJobs});
false ->
loop(State)
end
end.
%% Decode request on main socket
decode_main({job,Port,Name},#state{controller={Host,_},jobs=Jobs}=State) ->
S = self(),
NewJob = spawn_link(fun() -> job(Host,Port,S) end),
receive {NewJob,started} -> State#state{jobs=[{NewJob,Name}|Jobs]};
{NewJob,_Error} -> State
end.
init_purify() ->
purify_new_leaks().
%% Temporary job process on target
%% This process will live while all test cases in the job are executed.
%% A socket connection is established with the job process on host.
job(Host,Port,Starter) ->
process_flag(trap_exit,true),
init_purify(),
case gen_tcp:connect(Host,Port, [binary,
{reuseaddr,true},
{packet,4},
{active,false}]) of
{ok,JobSock} ->
Starter ! {self(),started},
job(JobSock);
Error ->
Starter ! {self(),{error,
{could_not_contact_controller,Error}}}
end.
job(JobSock) ->
JobDir = get_jobdir(),
ok = file:make_dir(JobDir),
ok = file:make_dir(filename:join(JobDir,?priv_dir)),
put(test_server_job_sock,JobSock),
put(test_server_job_dir,JobDir),
{ok,Cwd} = file:get_cwd(),
job_loop(JobSock),
ok = file:set_cwd(Cwd),
send_privdir(JobDir,JobSock), % also recursively removes jobdir
ok.
get_jobdir() ->
Now = now(),
{{Y,M,D},{H,Mi,S}} = calendar:now_to_local_time(Now),
Basename = io_lib:format("~w-~2.2.0w-~2.2.0w_~2.2.0w.~2.2.0w.~2.2.0w_~w",
[Y,M,D,H,Mi,S,element(3,Now)]),
%% if target has a file master, don't use prim_file to look up cwd
case lists:keymember(master,1,init:get_arguments()) of
true ->
{ok,Cwd} = file:get_cwd(),
Cwd ++ "/" ++ Basename;
false ->
filename:absname(Basename)
end.
send_privdir(JobDir,JobSock) ->
LocalPrivDir = filename:join(JobDir,?priv_dir),
case file:list_dir(LocalPrivDir) of
{ok,List} when List/=[] ->
Tarfile0 = ?priv_dir ++ ".tar.gz",
Tarfile = filename:join(JobDir,Tarfile0),
{ok,Tar} = erl_tar:open(Tarfile,[write,compressed,cooked]),
ok = erl_tar:add(Tar,LocalPrivDir,?priv_dir,[]),
ok = erl_tar:close(Tar),
{ok,TarBin} = file:read_file(Tarfile),
file:delete(Tarfile),
ok = del_dir(JobDir),
request(JobSock,{{privdir,Tarfile0},TarBin});
_ ->
ok = del_dir(JobDir),
request(JobSock,{privdir,empty_priv_dir})
end.
del_dir(Dir) ->
case file:read_file_info(Dir) of
{ok,#file_info{type=directory}} ->
{ok,Cont} = file:list_dir(Dir),
lists:foreach(fun(F) -> del_dir(filename:join(Dir,F)) end, Cont),
ok = file:del_dir(Dir);
{ok,#file_info{}} ->
ok = file:delete(Dir);
_r ->
%% This might be a symlink - let's try to delete it!
catch file:delete(Dir),
ok
end.
%%
%% Receive and decode request on job socket
%%
job_loop(JobSock) ->
Request = recv(JobSock),
case decode_job(Request) of
ok -> job_loop(JobSock);
{stop,R} -> R
end.
decode_job({{beam,Mod,Which},Beam}) ->
% FIXME, shared directory structure on host and target required,
% "Library beams" are not loaded from HOST... /Patrik
code:add_patha(filename:dirname(Which)),
% End of Patriks uglyness...
{module,Mod} = code:load_binary(Mod,Which,Beam),
ok;
decode_job({{datadir,Tarfile0},Archive}) ->
JobDir = get(test_server_job_dir),
Tarfile = filename:join(JobDir,Tarfile0),
ok = file:write_file(Tarfile,Archive),
% Cooked is temporary removed/broken
% ok = erl_tar:extract(Tarfile,[compressed,{cwd,JobDir},cooked]),
ok = erl_tar:extract(Tarfile,[compressed,{cwd,JobDir}]),
ok = file:delete(Tarfile),
ok;
decode_job({test_case,Case}) ->
Result = run_test_case_apply(Case),
JobSock = get(test_server_job_sock),
request(JobSock,{test_case_result,Result}),
case test_server_sup:tar_crash_dumps() of
{error,no_crash_dumps} -> request(JobSock,{crash_dumps,no_crash_dumps});
{ok,TarFile} ->
{ok,TarBin} = file:read_file(TarFile),
file:delete(TarFile),
request(JobSock,{{crash_dumps,filename:basename(TarFile)},TarBin})
end,
ok;
decode_job({sync_apply,{M,F,A}}) ->
R = apply(M,F,A),
request(get(test_server_job_sock),{sync_result,R}),
ok;
decode_job(job_done) ->
{stop,stopped}.
%%
%% **** STOP *** CODE FOR REMOTE TARGET ONLY ***
%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% cover_compile({App,Include,Exclude,Cross}) ->
%% {ok,AnalyseModules} | {error,Reason}
%%
%% App = atom() , name of application to be compiled
%% Exclude = [atom()], list of modules to exclude
%% Include = [atom()], list of modules outside of App that should be included
%% in the cover compilation
%% Cross = [atoms()], list of modules outside of App shat should be included
%% in the cover compilation, but that shall not be part of
%% the cover analysis for this application.
%%
%% Cover compile the given application. Return {ok,AnalyseMods} if application
%% is found, else {error,application_not_found}.
cover_compile({none,_Exclude,Include,Cross}) ->
CompileMods = Include++Cross,
case length(CompileMods) of
0 ->
io:fwrite("WARNING: No modules to cover compile!\n\n",[]),
cover:start(), % start cover server anyway
{ok,[]};
N ->
io:fwrite("Cover compiling ~w modules - "
"this may take some time... ",[N]),
do_cover_compile(CompileMods),
io:fwrite("done\n\n",[]),
{ok,Include}
end;
cover_compile({App,all,Include,Cross}) ->
CompileMods = Include++Cross,
case length(CompileMods) of
0 ->
io:fwrite("WARNING: No modules to cover compile!\n\n",[]),
cover:start(), % start cover server anyway
{ok,[]};
N ->
io:fwrite("Cover compiling '~w' (~w files) - "
"this may take some time... ",[App,N]),
io:format("\nWARNING: All modules in \'~w\' are excluded\n"
"Only cover compiling modules in include list "
"and the modules\nin the cross cover file:\n"
"~p\n", [App,CompileMods]),
do_cover_compile(CompileMods),
io:fwrite("done\n\n",[]),
{ok,Include}
end;
cover_compile({App,Exclude,Include,Cross}) ->
case code:lib_dir(App) of
{error,bad_name} ->
case Include++Cross of
[] ->
io:format("\nWARNING: Can't find lib_dir for \'~w\'\n"
"Not cover compiling!\n\n",[App]),
{error,application_not_found};
CompileMods ->
io:fwrite("Cover compiling '~w' (~w files) - "
"this may take some time... ",
[App,length(CompileMods)]),
io:format("\nWARNING: Can't find lib_dir for \'~w\'\n"
"Only cover compiling modules in include list: "
"~p\n", [App,Include]),
do_cover_compile(CompileMods),
io:fwrite("done\n\n",[]),
{ok,Include}
end;
LibDir ->
EbinDir = filename:join([LibDir,"ebin"]),
WC = filename:join(EbinDir,"*.beam"),
AllMods = module_names(filelib:wildcard(WC)),
AnalyseMods = (AllMods ++ Include) -- Exclude,
CompileMods = AnalyseMods ++ Cross,
case length(CompileMods) of
0 ->
io:fwrite("WARNING: No modules to cover compile!\n\n",[]),
cover:start(), % start cover server anyway
{ok,[]};
N ->
io:fwrite("Cover compiling '~w' (~w files) - "
"this may take some time... ",[App,N]),
do_cover_compile(CompileMods),
io:fwrite("done\n\n",[]),
{ok,AnalyseMods}
end
end.
module_names(Beams) ->
[list_to_atom(filename:basename(filename:rootname(Beam))) || Beam <- Beams].
do_cover_compile(Modules) ->
do_cover_compile1(lists:usort(Modules)). % remove duplicates
do_cover_compile1([Dont|Rest]) when Dont=:=cover;
Dont=:=test_server;
Dont=:=test_server_ctrl ->
do_cover_compile1(Rest);
do_cover_compile1([M|Rest]) ->
case {code:is_sticky(M),code:is_loaded(M)} of
{true,_} ->
code:unstick_mod(M),
case cover:compile_beam(M) of
{ok,_} ->
ok;
Error ->
io:fwrite("\nWARNING: Could not cover compile ~w: ~p\n",
[M,Error])
end,
code:stick_mod(M),
do_cover_compile1(Rest);
{false,false} ->
case code:load_file(M) of
{module,_} ->
do_cover_compile1([M|Rest]);
Error ->
io:fwrite("\nWARNING: Could not load ~w: ~p\n",[M,Error]),
do_cover_compile1(Rest)
end;
{false,_} ->
case cover:compile_beam(M) of
{ok,_} ->
ok;
Error ->
io:fwrite("\nWARNING: Could not cover compile ~w: ~p\n",
[M,Error])
end,
do_cover_compile1(Rest)
end;
do_cover_compile1([]) ->
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% cover_analyse(Analyse,Modules) -> [{M,{Cov,NotCov,Details}}]
%%
%% Analyse = {details,Dir} | details | {overview,void()} | overview
%% Modules = [atom()], the modules to analyse
%%
%% Cover analysis. If this is a remote target, analyse_to_file can not be used.
%% In that case the analyse level 'line' is used instead if Analyse==details.
%%
%% If this is a local target, the test directory is given
%% (Analyse=={details,Dir}) and analyse_to_file can be used directly.
%%
%% If Analyse==overview | {overview,Dir} analyse_to_file is not used, only
%% an overview containing the number of covered/not covered lines in each module.
%%
%% Also, if a Dir exists, cover data will be exported to a file called
%% all.coverdata in that directory.
cover_analyse(Analyse,Modules) ->
io:fwrite("Cover analysing...\n",[]),
DetailsFun =
case Analyse of
{details,Dir} ->
case cover:export(filename:join(Dir,"all.coverdata")) of
ok ->
fun(M) ->
OutFile = filename:join(Dir,
atom_to_list(M) ++
".COVER.html"),
case cover:analyse_to_file(M,OutFile,[html]) of
{ok,_} ->
{file,OutFile};
Error ->
Error
end
end;
Error ->
fun(_) -> Error end
end;
details ->
fun(M) ->
case cover:analyse(M,line) of
{ok,Lines} ->
{lines,Lines};
Error ->
Error
end
end;
{overview,Dir} ->
case cover:export(filename:join(Dir,"all.coverdata")) of
ok ->
fun(_) -> undefined end;
Error ->
fun(_) -> Error end
end;
overview ->
fun(_) -> undefined end
end,
R = lists:map(
fun(M) ->
case cover:analyse(M,module) of
{ok,{M,{Cov,NotCov}}} ->
{M,{Cov,NotCov,DetailsFun(M)}};
Err ->
io:fwrite("WARNING: Analysis failed for ~w. Reason: ~p\n",
[M,Err]),
{M,Err}
end
end, Modules),
Sticky = unstick_all_sticky(node()),
cover:stop(),
stick_all_sticky(node(),Sticky),
R.
unstick_all_sticky(Node) ->
lists:filter(
fun(M) ->
case code:is_sticky(M) of
true ->
rpc:call(Node,code,unstick_mod,[M]),
true;
false ->
false
end
end,
cover:modules()).
stick_all_sticky(Node,Sticky) ->
lists:foreach(
fun(M) ->
rpc:call(Node,code,stick_mod,[M])
end,
Sticky).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% run_test_case_apply(Mod,Func,Args,Name,RunInit,TimetrapData) ->
%% {Time,Value,Loc,Opts,Comment} | {died,Reason,unknown,Comment}
%%
%% Time = float() (seconds)
%% Value = term()
%% Loc = term()
%% Comment = string()
%% Reason = term()
%%
%% Spawns off a process (case process) that actually runs the test suite.
%% The case process will have the job process as group leader, which makes
%% it possible to capture all it's output from io:format/2, etc.
%%
%% The job process then sits down and waits for news from the case process.
%% This might be io requests (which are redirected to the log files).
%%
%% Returns a tuple with the time spent (in seconds) in the test case,
%% the return value from the test case or an {'EXIT',Reason} if the case
%% failed, Loc points out where the test case crashed (if it did). Loc
%% is either the name of the function, or {<Module>,<Line>} of the last
%% line executed that had a ?line macro. If the test case did execute
%% erase/0 or similar, it may be empty. Comment is the last comment added
%% by test_server:comment/1, the reason if test_server:fail has been
%% called or the comment given by the return value {comment,Comment} from
%% a test case.
%%
%% {died,Reason,unknown,Comment} is returned if the test case was killed
%% by some other process. Reason is the kill reason provided.
%%
%% TimetrapData = {MultiplyTimetrap,ScaleTimetrap}, which indicates a
%% possible extension of all timetraps. Timetraps will be multiplied by
%% MultiplyTimetrap. If it is infinity, no timetraps will be started at all.
%% ScaleTimetrap indicates if test_server should attemp to automatically
%% compensate timetraps for runtime delays introduced by e.g. tools like
%% cover.
run_test_case_apply({CaseNum,Mod,Func,Args,Name,RunInit,TimetrapData}) ->
purify_format("Test case #~w ~w:~w/1", [CaseNum, Mod, Func]),
case os:getenv("TS_RUN_VALGRIND") of
false ->
ok;
_ ->
os:putenv("VALGRIND_LOGFILE_INFIX",atom_to_list(Mod)++"."++
atom_to_list(Func)++"-")
end,
test_server_h:testcase({Mod,Func,1}),
ProcBef = erlang:system_info(process_count),
Result = run_test_case_apply(Mod, Func, Args, Name, RunInit, TimetrapData),
ProcAft = erlang:system_info(process_count),
purify_new_leaks(),
DetFail = get(test_server_detected_fail),
{Result,DetFail,ProcBef,ProcAft}.
run_test_case_apply(Mod, Func, Args, Name, RunInit, TimetrapData) ->
case get(test_server_job_dir) of
undefined ->
%% i'm a local target
do_run_test_case_apply(Mod, Func, Args, Name, RunInit, TimetrapData);
JobDir ->
%% i'm a remote target
case Args of
[Config] when is_list(Config) ->
{value,{data_dir,HostDataDir}} =
lists:keysearch(data_dir, 1, Config),
DataBase = filename:basename(HostDataDir),
TargetDataDir = filename:join(JobDir, DataBase),
Config1 = lists:keyreplace(data_dir, 1, Config,
{data_dir,TargetDataDir}),
TargetPrivDir = filename:join(JobDir, ?priv_dir),
Config2 = lists:keyreplace(priv_dir, 1, Config1,
{priv_dir,TargetPrivDir}),
do_run_test_case_apply(Mod, Func, [Config2], Name, RunInit,
TimetrapData);
_other ->
do_run_test_case_apply(Mod, Func, Args, Name, RunInit,
TimetrapData)
end
end.
do_run_test_case_apply(Mod, Func, Args, Name, RunInit, TimetrapData) ->
{ok,Cwd} = file:get_cwd(),
Args2Print = case Args of
[Args1] when is_list(Args1) ->
lists:keydelete(tc_group_result, 1, Args1);
_ ->
Args
end,
print(minor, "Test case started with:\n~s:~s(~p)\n", [Mod,Func,Args2Print]),
print(minor, "Current directory is ~p\n", [Cwd]),
print_timestamp(minor,"Started at "),
TCCallback = get(test_server_testcase_callback),
Ref = make_ref(),
OldGLeader = group_leader(),
%% Set ourself to group leader for the spawned process
group_leader(self(),self()),
Pid =
spawn_link(
fun() ->
run_test_case_eval(Mod, Func, Args, Name, Ref,
RunInit, TimetrapData,
TCCallback)
end),
group_leader(OldGLeader, self()),
put(test_server_detected_fail, []),
run_test_case_msgloop(Ref, Pid, false, false, "", undefined).
%% Ugly bug (pre R5A):
%% If this process (group leader of the test case) terminates before
%% all messages have been replied back to the io server, the io server
%% hangs. Fixed by the 20 milli timeout check here, and by using monitor in
%% io.erl (livrem OCH hangslen mao :)
%%
%% A test case is known to have failed if it returns {'EXIT', _} tuple,
%% or sends a message {failed, File, Line} to it's group_leader
%%
run_test_case_msgloop(Ref, Pid, CaptureStdout, Terminate, Comment, CurrConf) ->
%% NOTE: Keep job_proxy_msgloop/0 up to date when changes
%% are made in this function!
{Timeout,ReturnValue} =
case Terminate of
{true, ReturnVal} ->
{20, ReturnVal};
false ->
{infinity, should_never_appear}
end,
receive
{abort_current_testcase,Reason,From} ->
Line = get_loc(Pid),
Mon = erlang:monitor(process, Pid),
exit(Pid,{testcase_aborted,Reason,Line}),
erlang:yield(),
From ! {self(),abort_current_testcase,ok},
NewComment =
receive
{'DOWN', Mon, process, Pid, _} ->
Comment
after 10000 ->
%% Pid is probably trapping exits, hit it harder...
exit(Pid, kill),
%% here's the only place we know Reason, so we save
%% it as a comment, potentially replacing user data
Error = lists:flatten(io_lib:format("Aborted: ~p",[Reason])),
Error1 = lists:flatten([string:strip(S,left) ||
S <- string:tokens(Error,[$\n])]),
if length(Error1) > 63 ->
string:substr(Error1,1,60) ++ "...";
true ->
Error1
end
end,
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,NewComment,CurrConf);
{io_request,From,ReplyAs,{put_chars,io_lib,Func,[Format,Args]}}
when is_list(Format) ->
Msg = (catch io_lib:Func(Format,Args)),
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,io_lib,Func,[Format,Args]}}
when is_atom(Format) ->
Msg = (catch io_lib:Func(Format,Args)),
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,Bytes}} ->
run_test_case_msgloop_io(
ReplyAs,CaptureStdout,Bytes,From,put_chars),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,unicode,io_lib,Func,[Format,Args]}}
when is_list(Format) ->
Msg = unicode_to_latin1(catch io_lib:Func(Format,Args)),
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,latin1,io_lib,Func,[Format,Args]}}
when is_list(Format) ->
Msg = (catch io_lib:Func(Format,Args)),
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,unicode,io_lib,Func,[Format,Args]}}
when is_atom(Format) ->
Msg = unicode_to_latin1(catch io_lib:Func(Format,Args)),
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,latin1,io_lib,Func,[Format,Args]}}
when is_atom(Format) ->
Msg = (catch io_lib:Func(Format,Args)),
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,unicode,Bytes}} ->
run_test_case_msgloop_io(
ReplyAs,CaptureStdout,unicode_to_latin1(Bytes),From,put_chars),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{io_request,From,ReplyAs,{put_chars,latin1,Bytes}} ->
run_test_case_msgloop_io(
ReplyAs,CaptureStdout,Bytes,From,put_chars),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
IoReq when element(1, IoReq) == io_request ->
%% something else, just pass it on
group_leader() ! IoReq,
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{structured_io,ClientPid,Msg} ->
output(Msg, ClientPid),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{capture,NewCapture} ->
run_test_case_msgloop(Ref,Pid,NewCapture,Terminate,Comment,CurrConf);
{sync_apply,From,MFA} ->
sync_local_or_remote_apply(false,From,MFA),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{sync_apply_proxy,Proxy,From,MFA} ->
sync_local_or_remote_apply(Proxy,From,MFA),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{printout,Detail,Format,Args} ->
print(Detail,Format,Args),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{comment,NewComment} ->
Terminate1 =
case Terminate of
{true,{Time,Value,Loc,Opts,_OldComment}} ->
{true,{Time,Value,mod_loc(Loc),Opts,NewComment}};
Other ->
Other
end,
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate1,NewComment,CurrConf);
{set_curr_conf,NewCurrConf} ->
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,NewCurrConf);
{'EXIT',Pid,{Ref,Time,Value,Loc,Opts}} ->
RetVal = {Time/1000000,Value,mod_loc(Loc),Opts,Comment},
run_test_case_msgloop(Ref,Pid,CaptureStdout,{true,RetVal},Comment,undefined);
{'EXIT',Pid,Reason} ->
case Reason of
{timetrap_timeout,TVal,Loc} ->
%% convert Loc to form that can be formatted
case mod_loc(Loc) of
{FwMod,FwFunc,framework} ->
%% timout during framework call
spawn_fw_call(FwMod,FwFunc,Pid,
{framework_error,{timetrap,TVal}},
unknown,self(),Comment),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,
Comment,undefined);
Loc1 ->
{Mod,Func} = get_mf(Loc1),
%% call end_per_testcase on a separate process,
%% only so that the user has a chance to clean up
%% after init_per_testcase, even after a timetrap timeout
NewCurrConf =
case CurrConf of
{{Mod,Func},Conf} ->
EndConfPid =
call_end_conf(Mod,Func,Pid,
{timetrap_timeout,TVal},
Loc1,[{tc_status,
{failed,
timetrap_timeout}}|Conf],
TVal),
{EndConfPid,{Mod,Func},Conf};
_ ->
%% The framework functions mustn't execute on this
%% group leader process or io will cause deadlock,
%% so we spawn a dedicated process for the operation
%% and let the group leader go back to handle io.
spawn_fw_call(Mod,Func,Pid,{timetrap_timeout,TVal},
Loc1,self(),Comment),
undefined
end,
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,
Comment,NewCurrConf)
end;
{timetrap_timeout,TVal,Loc,InitOrEnd} ->
case mod_loc(Loc) of
{FwMod,FwFunc,framework} ->
%% timout during framework call
spawn_fw_call(FwMod,FwFunc,Pid,
{framework_error,{timetrap,TVal}},
unknown,self(),Comment);
Loc1 ->
{Mod,_Func} = get_mf(Loc1),
spawn_fw_call(Mod,InitOrEnd,Pid,{timetrap_timeout,TVal},
Loc1,self(),Comment)
end,
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{testcase_aborted,AbortReason,AbortLoc} ->
ErrorMsg = {testcase_aborted,AbortReason},
case mod_loc(AbortLoc) of
{FwMod,FwFunc,framework} ->
%% abort during framework call
spawn_fw_call(FwMod,FwFunc,Pid,
{framework_error,ErrorMsg},
unknown,self(),Comment),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,
Comment,undefined);
Loc1 ->
{Mod,Func} = get_mf(Loc1),
%% call end_per_testcase on a separate process, only so
%% that the user has a chance to clean up after init_per_testcase,
%% even after abortion
NewCurrConf =
case CurrConf of
{{Mod,Func},Conf} ->
TVal = case lists:keysearch(default_timeout,1,Conf) of
{value,{default_timeout,Tmo}} -> Tmo;
_ -> ?DEFAULT_TIMETRAP_SECS*1000
end,
EndConfPid =
call_end_conf(Mod,Func,Pid,ErrorMsg,
Loc1,
[{tc_status,{failed,ErrorMsg}}|Conf],
TVal),
{EndConfPid,{Mod,Func},Conf};
_ ->
spawn_fw_call(Mod,Func,Pid,ErrorMsg,
Loc1,self(),Comment),
undefined
end,
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,
Comment,NewCurrConf)
end;
killed ->
%% result of an exit(TestCase,kill) call, which is the
%% only way to abort a testcase process that traps exits
%% (see abort_current_testcase)
spawn_fw_call(undefined,undefined,Pid,testcase_aborted_or_killed,
unknown,self(),Comment),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
{fw_error,{FwMod,FwFunc,FwError}} ->
spawn_fw_call(FwMod,FwFunc,Pid,{framework_error,FwError},
unknown,self(),Comment),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
_Other ->
%% the testcase has terminated because of Reason (e.g. an exit
%% because a linked process failed)
spawn_fw_call(undefined,undefined,Pid,Reason,
unknown,self(),Comment),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf)
end;
{EndConfPid,{call_end_conf,Data,_Result}} ->
case CurrConf of
{EndConfPid,{Mod,Func},_Conf} ->
{_Mod,_Func,TCPid,TCExitReason,Loc} = Data,
spawn_fw_call(Mod,Func,TCPid,TCExitReason,Loc,self(),Comment),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,undefined);
_ ->
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf)
end;
{_FwCallPid,fw_notify_done,RetVal} ->
%% the framework has been notified, we're finished
run_test_case_msgloop(Ref,Pid,CaptureStdout,{true,RetVal},Comment,undefined);
{'EXIT',_FwCallPid,{fw_notify_done,Func,Error}} ->
%% a framework function failed
CB = os:getenv("TEST_SERVER_FRAMEWORK"),
Loc = case CB of
false ->
{test_server,Func};
_ ->
{list_to_atom(CB),Func}
end,
RetVal = {died,{framework_error,Loc,Error},Loc,"Framework error"},
run_test_case_msgloop(Ref,Pid,CaptureStdout,{true,RetVal},Comment,undefined);
{failed,File,Line} ->
put(test_server_detected_fail,
[{File, Line}| get(test_server_detected_fail)]),
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
_Other when not is_tuple(_Other) ->
%% ignore anything not generated by test server
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf);
_Other when element(1, _Other) /= 'EXIT',
element(1, _Other) /= started,
element(1, _Other) /= finished,
element(1, _Other) /= print ->
%% ignore anything not generated by test server
run_test_case_msgloop(Ref,Pid,CaptureStdout,Terminate,Comment,CurrConf)
after Timeout ->
ReturnValue
end.
run_test_case_msgloop_io(ReplyAs,CaptureStdout,Msg,From,Func) ->
case Msg of
{'EXIT',_} ->
From ! {io_reply,ReplyAs,{error,Func}};
_ ->
From ! {io_reply,ReplyAs,ok}
end,
if CaptureStdout /= false ->
CaptureStdout ! {captured,Msg};
true ->
ok
end,
output({minor,Msg},From).
output(Msg,Sender) ->
local_or_remote_apply({test_server_ctrl,output,[Msg,Sender]}).
call_end_conf(Mod,Func,TCPid,TCExitReason,Loc,Conf,TVal) ->
Starter = self(),
Data = {Mod,Func,TCPid,TCExitReason,Loc},
EndConfProc =
fun() ->
Supervisor = self(),
EndConfApply =
fun() ->
case catch apply(Mod,end_per_testcase,[Func,Conf]) of
{'EXIT',Why} ->
group_leader() ! {printout,12,
"ERROR! ~p:end_per_testcase(~p, ~p)"
" crashed!\n\tReason: ~p\n",
[Mod,Func,Conf,Why]};
_ ->
ok
end,
Supervisor ! {self(),end_conf}
end,
Pid = spawn_link(EndConfApply),
receive
{Pid,end_conf} ->
Starter ! {self(),{call_end_conf,Data,ok}};
{'EXIT',Pid,Reason} ->
Starter ! {self(),{call_end_conf,Data,{error,Reason}}}
after TVal ->
Starter ! {self(),{call_end_conf,Data,{error,timeout}}}
end
end,
spawn_link(EndConfProc).
spawn_fw_call(Mod,{init_per_testcase,Func},Pid,{timetrap_timeout,TVal}=Why,
Loc,SendTo,Comment) ->
FwCall =
fun() ->
Skip = {skip,{failed,{Mod,init_per_testcase,Why}}},
%% if init_per_testcase fails, the test case
%% should be skipped
case catch do_end_tc_call(Mod,Func,{Pid,Skip,[[]]},Why) of
{'EXIT',FwEndTCErr} ->
exit({fw_notify_done,end_tc,FwEndTCErr});
_ ->
ok
end,
%% finished, report back
SendTo ! {self(),fw_notify_done,
{TVal/1000,Skip,Loc,[],Comment}}
end,
spawn_link(FwCall);
spawn_fw_call(Mod,{end_per_testcase,Func},Pid,{timetrap_timeout,TVal}=Why,
Loc,SendTo,_Comment) ->
FwCall =
fun() ->
Conf = [{tc_status,ok}],
%% if end_per_testcase fails, the test case should be
%% reported successful with a warning printed as comment
case catch do_end_tc_call(Mod,Func,{Pid,
{failed,{Mod,end_per_testcase,Why}},
[Conf]}, Why) of
{'EXIT',FwEndTCErr} ->
exit({fw_notify_done,end_tc,FwEndTCErr});
_ ->
ok
end,
%% finished, report back
SendTo ! {self(),fw_notify_done,
{TVal/1000,{error,{Mod,end_per_testcase,Why}},Loc,[],
["<font color=\"red\">"
"WARNING: end_per_testcase timed out!"
"</font>"]}}
end,
spawn_link(FwCall);
spawn_fw_call(FwMod,FwFunc,_Pid,{framework_error,FwError},_,SendTo,_Comment) ->
FwCall =
fun() ->
test_server_sup:framework_call(report, [framework_error,
{{FwMod,FwFunc},FwError}]),
Comment =
lists:flatten(
io_lib:format("<font color=\"red\">"
"WARNING! ~w:~w failed!</font>", [FwMod,FwFunc])),
%% finished, report back
SendTo ! {self(),fw_notify_done,
{died,{error,{FwMod,FwFunc,FwError}},{FwMod,FwFunc},[],Comment}}
end,
spawn_link(FwCall);
spawn_fw_call(Mod,Func,Pid,Error,Loc,SendTo,Comment) ->
FwCall =
fun() ->
case catch fw_error_notify(Mod,Func,[],
Error,Loc) of
{'EXIT',FwErrorNotifyErr} ->
exit({fw_notify_done,error_notification,
FwErrorNotifyErr});
_ ->
ok
end,
Conf = [{tc_status,{failed,timetrap_timeout}}],
case catch do_end_tc_call(Mod,Func,{Pid,Error,[Conf]},Error) of
{'EXIT',FwEndTCErr} ->
exit({fw_notify_done,end_tc,FwEndTCErr});
_ ->
ok
end,
%% finished, report back
SendTo ! {self(),fw_notify_done,{died,Error,Loc,Comment}}
end,
spawn_link(FwCall).
%% The job proxy process forwards messages between the test case
%% process on a shielded node (and its descendants) and the job process.
%%
%% The job proxy process have to be started by the test-case process
%% on the shielded node!
start_job_proxy() ->
group_leader(spawn(fun () -> job_proxy_msgloop() end), self()), ok.
%% The io_reply_proxy is not the most satisfying solution but it works...
io_reply_proxy(ReplyTo) ->
receive
IoReply when is_tuple(IoReply),
element(1, IoReply) == io_reply ->
ReplyTo ! IoReply;
_ ->
io_reply_proxy(ReplyTo)
end.
job_proxy_msgloop() ->
receive
%%
%% Messages that need intervention by proxy...
%%
%% io stuff ...
IoReq when tuple_size(IoReq) >= 2,
element(1, IoReq) == io_request ->
ReplyProxy = spawn(fun () -> io_reply_proxy(element(2, IoReq)) end),
group_leader() ! setelement(2, IoReq, ReplyProxy);
%% test_server stuff...
{sync_apply, From, MFA} ->
group_leader() ! {sync_apply_proxy, self(), From, MFA};
{sync_result_proxy, To, Result} ->
To ! {sync_result, Result};
%%
%% Messages that need no intervention by proxy...
%%
Msg ->
group_leader() ! Msg
end,
job_proxy_msgloop().
%% A test case is known to have failed if it returns {'EXIT', _} tuple,
%% or sends a message {failed, File, Line} to it's group_leader
run_test_case_eval(Mod, Func, Args0, Name, Ref, RunInit,
TimetrapData, TCCallback) ->
put(test_server_multiply_timetraps,TimetrapData),
{{Time,Value},Loc,Opts} =
case test_server_sup:framework_call(init_tc,[?pl2a(Mod),Func,Args0],
{ok, Args0}) of
{ok,Args} ->
run_test_case_eval1(Mod, Func, Args, Name, RunInit, TCCallback);
Error = {error,_Reason} ->
NewResult = do_end_tc_call(Mod,Func,{Error,Args0},
{skip,{failed,Error}}),
{{0,NewResult},{Mod,Func},[]};
{fail,Reason} ->
[Conf] = Args0,
Conf1 = [{tc_status,{failed,Reason}} | Conf],
fw_error_notify(Mod, Func, Conf, Reason),
NewResult = do_end_tc_call(Mod,Func, {{error,Reason},[Conf1]},
{fail, Reason}),
{{0,NewResult},{Mod,Func},[]};
Skip = {skip,_Reason} ->
NewResult = do_end_tc_call(Mod,Func,{Skip,Args0},Skip),
{{0,NewResult},{Mod,Func},[]};
{auto_skip,Reason} ->
NewResult = do_end_tc_call(Mod, Func, {{skip,Reason},Args0},
{skip, {fw_auto_skip,Reason}}),
{{0,NewResult},{Mod,Func},[]}
end,
exit({Ref,Time,Value,Loc,Opts}).
run_test_case_eval1(Mod, Func, Args, Name, RunInit, TCCallback) ->
case RunInit of
run_init ->
put(test_server_init_or_end_conf,{init_per_testcase,Func}),
put(test_server_loc, {Mod,{init_per_testcase,Func}}),
ensure_timetrap(Args),
case init_per_testcase(Mod, Func, Args) of
Skip = {skip,Reason} ->
Line = get_loc(),
Conf = [{tc_status,{skipped,Reason}}],
NewRes = do_end_tc_call(Mod,Func,{Skip,[Conf]}, Skip),
{{0,NewRes},Line,[]};
{skip_and_save,Reason,SaveCfg} ->
Line = get_loc(),
Conf = [{tc_status,{skipped,Reason}},{save_config,SaveCfg}],
NewRes = do_end_tc_call(Mod, Func, {{skip, Reason}, [Conf]},
{skip, Reason}),
{{0,NewRes},Line,[]};
{ok,NewConf} ->
put(test_server_init_or_end_conf,undefined),
%% call user callback function if defined
NewConf1 = user_callback(TCCallback, Mod, Func, init, NewConf),
%% save current state in controller loop
group_leader() ! {set_curr_conf,{{Mod,Func},NewConf1}},
put(test_server_loc, {Mod,Func}),
%% execute the test case
{{T,Return},Loc} = {ts_tc(Mod, Func, [NewConf1]),get_loc()},
{EndConf,TSReturn,FWReturn} =
case Return of
{E,TCError} when E=='EXIT' ; E==failed ->
fw_error_notify(Mod, Func, NewConf1,
TCError, mod_loc(Loc)),
{[{tc_status,{failed,TCError}}|NewConf1],
Return,{error,TCError}};
SaveCfg={save_config,_} ->
{[{tc_status,ok},SaveCfg|NewConf1],Return,ok};
{skip_and_save,Why,SaveCfg} ->
Skip = {skip,Why},
{[{tc_status,{skipped,Why}},{save_config,SaveCfg}|NewConf1],
Skip,Skip};
{skip,Why} ->
{[{tc_status,{skipped,Why}}|NewConf1],Return,Return};
_ ->
{[{tc_status,ok}|NewConf1],Return,ok}
end,
%% clear current state in controller loop
group_leader() ! {set_curr_conf,undefined},
%% call user callback function if defined
EndConf1 = user_callback(TCCallback, Mod, Func, 'end', EndConf),
{FWReturn1,TSReturn1,EndConf2} =
case end_per_testcase(Mod, Func, EndConf1) of
SaveCfg1={save_config,_} ->
{FWReturn,TSReturn,[SaveCfg1|lists:keydelete(save_config, 1, EndConf1)]};
{fail,ReasonToFail} -> % user has failed the testcase
fw_error_notify(Mod, Func, EndConf1, ReasonToFail),
{{error,ReasonToFail},{failed,ReasonToFail},EndConf1};
{failed,{_,end_per_testcase,_}} = Failure -> % unexpected termination
{Failure,TSReturn,EndConf1};
_ ->
{FWReturn,TSReturn,EndConf1}
end,
put(test_server_init_or_end_conf,undefined),
case do_end_tc_call(Mod, Func, {FWReturn1,[EndConf2]}, TSReturn1) of
{failed,Reason} = NewReturn ->
fw_error_notify(Mod,Func,EndConf2, Reason),
{{T,NewReturn},{Mod,Func},[]};
NewReturn ->
{{T,NewReturn},Loc,[]}
end
end;
skip_init ->
%% call user callback function if defined
Args1 = user_callback(TCCallback, Mod, Func, init, Args),
ensure_timetrap(Args1),
%% ts_tc does a catch
put(test_server_loc, {Mod,Func}),
%% if this is a named conf group, the test case (init or end conf)
%% should be called with the name as the first argument
Args2 = if Name == undefined -> Args1;
true -> [Name | Args1]
end,
%% execute the conf test case
{{T,Return},Loc} = {ts_tc(Mod, Func, Args2),get_loc()},
%% call user callback function if defined
Return1 = user_callback(TCCallback, Mod, Func, 'end', Return),
{Return2,Opts} = process_return_val([Return1], Mod, Func,
Args1, Loc, Return1),
{{T,Return2},Loc,Opts}
end.
do_end_tc_call(M,F,Res,Return) ->
Ref = make_ref(),
case test_server_sup:framework_call(
end_tc, [?pl2a(M),F,Res], Ref) of
{fail,FWReason} ->
{failed,FWReason};
Ref ->
case test_server_sup:framework_call(
end_tc, [?pl2a(M),F,Res, Return], ok) of
{fail,FWReason} ->
{failed,FWReason};
ok ->
case Return of
{fail,Reason} ->
{failed,Reason};
Return ->
Return
end;
NewReturn ->
NewReturn
end;
_ ->
Return
end.
%% the return value is a list and we have to check if it contains
%% the result of an end conf case or if it's a Config list
process_return_val([Return], M,F,A, Loc, Final) when is_list(Return) ->
ReturnTags = [skip,skip_and_save,save_config,comment,return_group_result],
%% check if all elements in the list are valid end conf return value tuples
case lists:all(fun(Val) when is_tuple(Val) ->
lists:any(fun(T) -> T == element(1, Val) end, ReturnTags);
(ok) ->
true;
(_) ->
false
end, Return) of
true -> % must be return value from end conf case
process_return_val1(Return, M,F,A, Loc, Final, []);
false -> % must be Config value from init conf case
case do_end_tc_call(M,F,{ok,A}, Return) of
{failed, FWReason} = Failed ->
fw_error_notify(M,F,A, FWReason),
{Failed, []};
NewReturn ->
{NewReturn, []}
end
end;
%% the return value is not a list, so it's the return value from an
%% end conf case or it's a dummy value that can be ignored
process_return_val(Return, M,F,A, Loc, Final) ->
process_return_val1(Return, M,F,A, Loc, Final, []).
process_return_val1([Failed={E,TCError}|_], M,F,A=[Args], Loc, _, SaveOpts)
when E=='EXIT';
E==failed ->
fw_error_notify(M,F,A, TCError, mod_loc(Loc)),
case do_end_tc_call(M,F,{{error,TCError},
[[{tc_status,{failed,TCError}}|Args]]}, Failed) of
{failed,FWReason} ->
{{failed,FWReason},SaveOpts};
NewReturn ->
{NewReturn,SaveOpts}
end;
process_return_val1([SaveCfg={save_config,_}|Opts], M,F,[Args], Loc, Final, SaveOpts) ->
process_return_val1(Opts, M,F,[[SaveCfg|Args]], Loc, Final, SaveOpts);
process_return_val1([{skip_and_save,Why,SaveCfg}|Opts], M,F,[Args], Loc, _, SaveOpts) ->
process_return_val1(Opts, M,F,[[{save_config,SaveCfg}|Args]], Loc, {skip,Why}, SaveOpts);
process_return_val1([GR={return_group_result,_}|Opts], M,F,A, Loc, Final, SaveOpts) ->
process_return_val1(Opts, M,F,A, Loc, Final, [GR|SaveOpts]);
process_return_val1([RetVal={Tag,_}|Opts], M,F,A, Loc, _, SaveOpts) when Tag==skip;
Tag==comment ->
process_return_val1(Opts, M,F,A, Loc, RetVal, SaveOpts);
process_return_val1([_|Opts], M,F,A, Loc, Final, SaveOpts) ->
process_return_val1(Opts, M,F,A, Loc, Final, SaveOpts);
process_return_val1([], M,F,A, _Loc, Final, SaveOpts) ->
case do_end_tc_call(M,F,{Final,A}, Final) of
{failed,FWReason} ->
{{failed,FWReason},SaveOpts};
NewReturn ->
{NewReturn,lists:reverse(SaveOpts)}
end.
user_callback(undefined, _, _, _, Args) ->
Args;
user_callback({CBMod,CBFunc}, Mod, Func, InitOrEnd, [Args]) when is_list(Args) ->
case catch apply(CBMod, CBFunc, [InitOrEnd,Mod,Func,Args]) of
Args1 when is_list(Args1) ->
[Args1];
_ ->
[Args]
end;
user_callback({CBMod,CBFunc}, Mod, Func, InitOrEnd, Args) ->
case catch apply(CBMod, CBFunc, [InitOrEnd,Mod,Func,Args]) of
Args1 when is_list(Args1) ->
Args1;
_ ->
Args
end.
init_per_testcase(Mod, Func, Args) ->
case code:is_loaded(Mod) of
false -> code:load_file(Mod);
_ -> ok
end,
%% init_per_testcase defined, returns new configuration
case erlang:function_exported(Mod,init_per_testcase,2) of
true ->
case catch my_apply(Mod, init_per_testcase, [Func|Args]) of
{'$test_server_ok',{Skip,Reason}} when Skip==skip;
Skip==skipped ->
{skip,Reason};
{'$test_server_ok',Res={skip_and_save,_,_}} ->
Res;
{'$test_server_ok',NewConf} when is_list(NewConf) ->
case lists:filter(fun(T) when is_tuple(T) -> false;
(_) -> true end, NewConf) of
[] ->
{ok,NewConf};
Bad ->
group_leader() ! {printout,12,
"ERROR! init_per_testcase has returned "
"bad elements in Config: ~p\n",[Bad]},
{skip,{failed,{Mod,init_per_testcase,bad_return}}}
end;
{'$test_server_ok',_Other} ->
group_leader() ! {printout,12,
"ERROR! init_per_testcase did not return "
"a Config list.\n",[]},
{skip,{failed,{Mod,init_per_testcase,bad_return}}};
{'EXIT',Reason} ->
Line = get_loc(),
FormattedLoc = test_server_sup:format_loc(mod_loc(Line)),
group_leader() ! {printout,12,
"ERROR! init_per_testcase crashed!\n"
"\tLocation: ~s\n\tReason: ~p\n",
[FormattedLoc,Reason]},
{skip,{failed,{Mod,init_per_testcase,Reason}}};
Other ->
Line = get_loc(),
FormattedLoc = test_server_sup:format_loc(mod_loc(Line)),
group_leader() ! {printout,12,
"ERROR! init_per_testcase thrown!\n"
"\tLocation: ~s\n\tReason: ~p\n",
[FormattedLoc, Other]},
{skip,{failed,{Mod,init_per_testcase,Other}}}
end;
false ->
%% Optional init_per_testcase not defined
%% keep quiet.
[Config] = Args,
{ok, Config}
end.
end_per_testcase(Mod, Func, Conf) ->
case erlang:function_exported(Mod,end_per_testcase,2) of
true ->
do_end_per_testcase(Mod,end_per_testcase,Func,Conf);
false ->
%% Backwards compatibility!
case erlang:function_exported(Mod,fin_per_testcase,2) of
true ->
do_end_per_testcase(Mod,fin_per_testcase,Func,Conf);
false ->
ok
end
end.
do_end_per_testcase(Mod,EndFunc,Func,Conf) ->
put(test_server_init_or_end_conf,{EndFunc,Func}),
put(test_server_loc, {Mod,{EndFunc,Func}}),
case catch my_apply(Mod, EndFunc, [Func,Conf]) of
{'$test_server_ok',SaveCfg={save_config,_}} ->
SaveCfg;
{'$test_server_ok',{fail,_}=Fail} ->
Fail;
{'$test_server_ok',_} ->
ok;
{'EXIT',Reason} = Why ->
comment(io_lib:format("<font color=\"red\">"
"WARNING: ~w crashed!"
"</font>\n",[EndFunc])),
group_leader() ! {printout,12,
"WARNING: ~w crashed!\n"
"Reason: ~p\n"
"Line: ~s\n",
[EndFunc, Reason,
test_server_sup:format_loc(
mod_loc(get_loc()))]},
{failed,{Mod,end_per_testcase,Why}};
Other ->
comment(io_lib:format("<font color=\"red\">"
"WARNING: ~w thrown!"
"</font>\n",[EndFunc])),
group_leader() ! {printout,12,
"WARNING: ~w thrown!\n"
"Reason: ~p\n"
"Line: ~s\n",
[EndFunc, Other,
test_server_sup:format_loc(
mod_loc(get_loc()))]},
{failed,{Mod,end_per_testcase,Other}}
end.
get_loc() ->
case catch test_server_line:get_lines() of
[] ->
get(test_server_loc);
{'EXIT',_} ->
get(test_server_loc);
Loc ->
Loc
end.
get_loc(Pid) ->
{dictionary,Dict} = process_info(Pid, dictionary),
lists:foreach(fun({Key,Val}) -> put(Key,Val) end,Dict),
get_loc().
get_mf([{M,F,_}|_]) -> {M,F};
get_mf([{M,F}|_]) -> {M,F};
get_mf(_) -> {undefined,undefined}.
mod_loc(Loc) ->
%% handle diff line num versions
case Loc of
[{{_M,_F},_L}|_] ->
[{?pl2a(M),F,L} || {{M,F},L} <- Loc];
[{_M,_F}|_] ->
[{?pl2a(M),F} || {M,F} <- Loc];
{{M,F},L} ->
[{?pl2a(M),F,L}];
{M,ForL} ->
[{?pl2a(M),ForL}];
_ ->
Loc
end.
fw_error_notify(Mod, Func, Args, Error) ->
test_server_sup:framework_call(error_notification,
[?pl2a(Mod),Func,[Args],
{Error,unknown}]).
fw_error_notify(Mod, Func, Args, Error, Loc) ->
test_server_sup:framework_call(error_notification,
[?pl2a(Mod),Func,[Args],
{Error,Loc}]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% print(Detail,Format,Args) -> ok
%% Detail = integer()
%% Format = string()
%% Args = [term()]
%%
%% Just like io:format, except that depending on the Detail value, the output
%% is directed to console, major and/or minor log files.
print(Detail,Format,Args) ->
local_or_remote_apply({test_server_ctrl,print,[Detail,Format,Args]}).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% print_timsteamp(Detail,Leader) -> ok
%%
%% Prints Leader followed by a time stamp (date and time). Depending on
%% the Detail value, the output is directed to console, major and/or minor
%% log files.
print_timestamp(Detail,Leader) ->
local_or_remote_apply({test_server_ctrl,print_timestamp,[Detail,Leader]}).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% lookup_config(Key,Config) -> {value,{Key,Value}} | undefined
%% Key = term()
%% Value = term()
%% Config = [{Key,Value},...]
%%
%% Looks up a specific key in the config list, and returns the value
%% of the associated key, or undefined if the key doesn't exist.
lookup_config(Key,Config) ->
case lists:keysearch(Key,1,Config) of
{value,{Key,Val}} ->
Val;
_ ->
io:format("Could not find element ~p in Config.~n",[Key]),
undefined
end.
%% timer:tc/3
ts_tc(M, F, A) ->
Before = erlang:now(),
Val = (catch my_apply(M, F, A)),
After = erlang:now(),
Result = case Val of
{'$test_server_ok', R} ->
R; % test case ok
{'EXIT',_Reason} = R ->
R; % test case crashed
Other ->
{failed, {thrown,Other}} % test case was thrown
end,
Elapsed =
(element(1,After)*1000000000000
+element(2,After)*1000000+element(3,After)) -
(element(1,Before)*1000000000000
+element(2,Before)*1000000+element(3,Before)),
{Elapsed, Result}.
my_apply(M, F, A) ->
{'$test_server_ok',apply(M, F, A)}.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% TEST SUITE SUPPORT FUNCTIONS %%
%% %%
%% Note: Some of these functions have been moved to test_server_sup %%
%% in an attempt to keep this modules small (yeah, right!) %%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
unicode_to_latin1(Chars) when is_list(Chars); is_binary(Chars) ->
lists:flatten(
[ case X of
High when High > 255 ->
io_lib:format("\\{~.8B}",[X]);
Low ->
Low
end || X <- unicode:characters_to_list(Chars,unicode) ]);
unicode_to_latin1(Garbage) ->
Garbage.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% format(Format) -> IoLibReturn
%% format(Detail,Format) -> IoLibReturn
%% format(Format,Args) -> IoLibReturn
%% format(Detail,Format,Args) -> IoLibReturn
%% Detail = integer()
%% Format = string()
%% Args = [term(),...]
%% IoLibReturn = term()
%%
%% Logs the Format string and Args, similar to io:format/1/2 etc. If
%% Detail is not specified, the default detail level (which is 50) is used.
%% Which log files the string will be logged in depends on the thresholds
%% set with set_levels/3. Typically with default detail level, only the
%% minor log file is used.
format(Format) ->
format(minor, Format, []).
format(major, Format) ->
format(major, Format, []);
format(minor, Format) ->
format(minor, Format, []);
format(Detail, Format) when is_integer(Detail) ->
format(Detail, Format, []);
format(Format, Args) ->
format(minor, Format, Args).
format(Detail, Format, Args) ->
Str =
case catch io_lib:format(Format,Args) of
{'EXIT',_} ->
io_lib:format("illegal format; ~p with args ~p.\n",
[Format,Args]);
Valid -> Valid
end,
log({Detail, Str}).
log(Msg) ->
group_leader() ! {structured_io, self(), Msg},
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% capture_start() -> ok
%% capture_stop() -> ok
%%
%% Starts/stops capturing all output from io:format, and similar. Capturing
%% output doesn't stop output from happening. It just makes it possible
%% to retrieve the output using capture_get/0.
%% Starting and stopping capture doesn't affect already captured output.
%% All output is stored as messages in the message queue until retrieved
capture_start() ->
group_leader() ! {capture,self()},
ok.
capture_stop() ->
group_leader() ! {capture,false},
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% capture_get() -> Output
%% Output = [string(),...]
%%
%% Retrieves all the captured output since last call to capture_get/0.
%% Note that since output arrive as messages to the process, it takes
%% a short while from the call to io:format until all output is available
%% by capture_get/0. It is not necessary to call capture_stop/0 before
%% retreiving the output.
capture_get() ->
test_server_sup:capture_get([]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% messages_get() -> Messages
%% Messages = [term(),...]
%%
%% Returns all messages in the message queue.
messages_get() ->
test_server_sup:messages_get([]).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% sleep(Time) -> ok
%% Time = integer() | float() | infinity
%%
%% Sleeps the specified number of milliseconds. This sleep also accepts
%% floating point numbers (which are truncated) and the atom 'infinity'.
sleep(infinity) ->
receive
after infinity ->
ok
end;
sleep(MSecs) ->
receive
after trunc(MSecs) ->
ok
end,
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% adjusted_sleep(Time) -> ok
%% Time = integer() | float() | infinity
%%
%% Sleeps the specified number of milliseconds, multiplied by the
%% 'multiply_timetraps' value (if set) and possibly also automatically scaled
%% up if 'scale_timetraps' is set to true (which is default).
%% This function also accepts floating point numbers (which are truncated) and
%% the atom 'infinity'.
adjusted_sleep(infinity) ->
receive
after infinity ->
ok
end;
adjusted_sleep(MSecs) ->
{Multiplier,ScaleFactor} =
case test_server_ctrl:get_timetrap_parameters() of
{undefined,undefined} ->
{1,1};
{undefined,false} ->
{1,1};
{undefined,true} ->
{1,timetrap_scale_factor()};
{infinity,_} ->
{infinity,1};
{Mult,undefined} ->
{Mult,1};
{Mult,false} ->
{Mult,1};
{Mult,true} ->
{Mult,timetrap_scale_factor()}
end,
receive
after trunc(MSecs*Multiplier*ScaleFactor) ->
ok
end,
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% fail(Reason) -> exit({suite_failed,Reason})
%%
%% Immediately calls exit. Included because test suites are easier
%% to read when using this function, rather than exit directly.
fail(Reason) ->
comment(cast_to_list(Reason)),
exit({suite_failed,Reason}).
cast_to_list(X) when is_list(X) -> X;
cast_to_list(X) when is_atom(X) -> atom_to_list(X);
cast_to_list(X) -> lists:flatten(io_lib:format("~p", [X])).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% fail() -> exit(suite_failed)
%%
%% Immediately calls exit. Included because test suites are easier
%% to read when using this function, rather than exit directly.
fail() ->
exit(suite_failed).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% break(Comment) -> ok
%%
%% Break a test case so part of the test can be done manually.
%% Use continue/0 to continue.
break(Comment) ->
case erase(test_server_timetraps) of
undefined -> ok;
List -> lists:foreach(fun(Ref) -> timetrap_cancel(Ref) end,List)
end,
io:format(user,
"\n\n\n--- SEMIAUTOMATIC TESTING ---"
"\nThe test case executes on process ~w"
"\n\n\n~s"
"\n\n\n-----------------------------\n\n"
"Continue with --> test_server:continue().\n",
[self(),Comment]),
case whereis(test_server_break_process) of
undefined ->
spawn_break_process(self());
OldBreakProcess ->
OldBreakProcess ! cancel,
spawn_break_process(self())
end,
receive continue -> ok end.
spawn_break_process(Pid) ->
spawn(fun() ->
register(test_server_break_process,self()),
receive
continue -> continue(Pid);
cancel -> ok
end
end).
continue() ->
case whereis(test_server_break_process) of
undefined ->
ok;
BreakProcess ->
BreakProcess ! continue
end.
continue(Pid) ->
Pid ! continue.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% timetrap_scale_factor() -> Factor
%%
%% Returns the amount to scale timetraps with.
timetrap_scale_factor() ->
F0 = case test_server:purify_is_running() of
true -> 5;
false -> 1
end,
F1 = case {is_debug(), has_lock_checking()} of
{true,_} -> 6 * F0;
{false,true} -> 2 * F0;
{false,false} -> F0
end,
F2 = case has_superfluous_schedulers() of
true -> 3*F1;
false -> F1
end,
F = case test_server_sup:get_os_family() of
vxworks -> 5 * F2;
_ -> F2
end,
case test_server:is_cover() of
true -> 10 * F;
false -> F
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% timetrap(Timeout) -> Handle
%% Handle = term()
%%
%% Creates a time trap, that will kill the calling process if the
%% trap is not cancelled with timetrap_cancel/1, within Timeout milliseconds.
timetrap(Timeout0) ->
Timeout = time_ms(Timeout0),
cancel_default_timetrap(),
case get(test_server_multiply_timetraps) of
undefined -> timetrap1(Timeout, true);
{undefined,false} -> timetrap1(Timeout, false);
{undefined,_} -> timetrap1(Timeout, true);
{infinity,_} -> infinity;
{Int,Scale} -> timetrap1(Timeout*Int, Scale)
end.
timetrap1(Timeout, Scale) ->
Ref = spawn_link(test_server_sup,timetrap,[Timeout,Scale,self()]),
case get(test_server_timetraps) of
undefined -> put(test_server_timetraps,[Ref]);
List -> put(test_server_timetraps,[Ref|List])
end,
Ref.
ensure_timetrap(Config) ->
case get(test_server_timetraps) of
[_|_] ->
ok;
_ ->
case get(test_server_default_timetrap) of
undefined -> ok;
Garbage ->
erase(test_server_default_timetrap),
format("=== WARNING: garbage in test_server_default_timetrap: ~p~n",
[Garbage])
end,
DTmo = case lists:keysearch(default_timeout,1,Config) of
{value,{default_timeout,Tmo}} -> Tmo;
_ -> ?DEFAULT_TIMETRAP_SECS
end,
format("=== test_server setting default timetrap of ~p seconds~n",
[DTmo]),
put(test_server_default_timetrap, timetrap(seconds(DTmo)))
end.
cancel_default_timetrap() ->
case get(test_server_default_timetrap) of
undefined ->
ok;
TimeTrap when is_pid(TimeTrap) ->
timetrap_cancel(TimeTrap),
erase(test_server_default_timetrap),
format("=== test_server canceled default timetrap since another timetrap was set~n"),
ok;
Garbage ->
erase(test_server_default_timetrap),
format("=== WARNING: garbage in test_server_default_timetrap: ~p~n",
[Garbage]),
error
end.
time_ms({hours,N}) -> hours(N);
time_ms({minutes,N}) -> minutes(N);
time_ms({seconds,N}) -> seconds(N);
time_ms({Other,_N}) ->
format("=== ERROR: Invalid time specification: ~p. "
"Should be seconds, minutes, or hours.~n", [Other]),
exit({invalid_time_spec,Other});
time_ms(Ms) when is_integer(Ms) -> Ms;
time_ms(Other) -> exit({invalid_time_spec,Other}).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% timetrap_cancel(Handle) -> ok
%% Handle = term()
%%
%% Cancels a time trap.
timetrap_cancel(infinity) ->
ok;
timetrap_cancel(Handle) ->
case get(test_server_timetraps) of
undefined -> ok;
[Handle] -> erase(test_server_timetraps);
List -> put(test_server_timetraps,lists:delete(Handle,List))
end,
test_server_sup:timetrap_cancel(Handle).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% hours(N) -> Milliseconds
%% minutes(N) -> Milliseconds
%% seconds(N) -> Milliseconds
%% N = integer() | float()
%% Milliseconds = integer()
%%
%% Transforms the named units to milliseconds. Fractions in the input
%% are accepted. The output is an integer.
hours(N) -> trunc(N * 1000 * 60 * 60).
minutes(N) -> trunc(N * 1000 * 60).
seconds(N) -> trunc(N * 1000).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% timecall(M,F,A) -> {Time,Val}
%% Time = float()
%%
%% Measures the time spent evaluating MFA. The measurement is done with
%% erlang:now/0, and should have pretty good accuracy on most platforms.
%% The function is not evaluated in a catch context.
timecall(M, F, A) ->
test_server_sup:timecall(M,F,A).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% do_times(N,M,F,A) -> ok
%% do_times(N,Fun) ->
%% N = integer()
%% Fun = fun() -> void()
%%
%% Evaluates MFA or Fun N times, and returns ok.
do_times(N,M,F,A) when N>0 ->
apply(M,F,A),
do_times(N-1,M,F,A);
do_times(0,_,_,_) ->
ok.
do_times(N,Fun) when N>0 ->
Fun(),
do_times(N-1,Fun);
do_times(0,_) ->
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% m_out_of_n(M,N,Fun) -> ok | exit({m_out_of_n_failed,{R,left_to_do}})
%% M = integer()
%% N = integer()
%% Fun = fun() -> void()
%% R = integer()
%%
%% Repeats evaluating the given function until it succeeded (didn't crash)
%% M times. If, after N times, M successful attempts have not been
%% accomplished, the process crashes with reason {m_out_of_n_failed
%% {R,left_to_do}}, where R indicates how many cases that remained to be
%% successfully completed.
%%
%% For example:
%% m_out_of_n(1,4,fun() -> tricky_test_case() end)
%% Tries to run tricky_test_case() up to 4 times,
%% and is happy if it succeeds once.
%%
%% m_out_of_n(7,8,fun() -> clock_sanity_check() end)
%% Tries running clock_sanity_check() up to 8
%% times and allows the function to fail once.
%% This might be useful if clock_sanity_check/0
%% is known to fail if the clock crosses an hour
%% boundary during the test (and the up to 8
%% test runs could never cross 2 boundaries)
m_out_of_n(0,_,_) ->
ok;
m_out_of_n(M,0,_) ->
exit({m_out_of_n_failed,{M,left_to_do}});
m_out_of_n(M,N,Fun) ->
case catch Fun() of
{'EXIT',_} ->
m_out_of_n(M,N-1,Fun);
_Other ->
m_out_of_n(M-1,N-1,Fun)
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%call_crash(M,F,A)
%%call_crash(Time,M,F,A)
%%call_crash(Time,Crash,M,F,A)
%% M - atom()
%% F - atom()
%% A - [term()]
%% Time - integer() in milliseconds.
%% Crash - term()
%%
%% Spaws a new process that calls MFA. The call is considered
%% successful if the call crashes with the given reason (Crash),
%% or any other reason if Crash is not specified.
%% ** The call must terminate withing the given Time (defaults
%% to infinity), or it is considered a failure (exit with reason
%% 'call_crash_timeout' is generated).
call_crash(M,F,A) ->
call_crash(infinity,M,F,A).
call_crash(Time,M,F,A) ->
call_crash(Time,any,M,F,A).
call_crash(Time,Crash,M,F,A) ->
test_server_sup:call_crash(Time,Crash,M,F,A).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% start_node(SlaveName, Type, Options) ->
%% {ok, Slave} | {error, Reason}
%%
%% SlaveName = string(), atom().
%% Type = slave | peer
%% Options = [{tuple(), term()}]
%%
%% OptionList is a tuplelist wich may contain one
%% or more of these members:
%%
%% Slave and Peer:
%% {remote, true} - Start the node on a remote host. If not specified,
%% the node will be started on the local host (with
%% some exceptions, for instance VxWorks,
%% where all nodes are started on a remote host).
%% {args, Arguments} - Arguments passed directly to the node.
%% {cleanup, false} - Nodes started with this option will not be killed
%% by the test server after completion of the test case
%% Therefore it is IMPORTANT that the USER terminates
%% the node!!
%% {erl, ReleaseList} - Use an Erlang emulator determined by ReleaseList
%% when starting nodes, instead of the same emulator
%% as the test server is running. ReleaseList is a list
%% of specifiers, where a specifier is either
%% {release, Rel}, {prog, Prog}, or 'this'. Rel is
%% either the name of a release, e.g., "r7a" or
%% 'latest'. 'this' means using the same emulator as
%% the test server. Prog is the name of an emulator
%% executable. If the list has more than one element,
%% one of them is picked randomly. (Only
%% works on Solaris and Linux, and the test
%% server gives warnings when it notices that
%% nodes are not of the same version as
%% itself.)
%%
%% Peer only:
%% {wait, false} - Don't wait for the node to be started.
%% {fail_on_error, false} - Returns {error, Reason} rather than failing
%% the test case. This option can only be used with
%% peer nodes.
%% Note that slave nodes always act as if they had
%% fail_on_error==false.
%%
start_node(Name, Type, Options) ->
lists:foreach(
fun(N) ->
case firstname(N) of
Name ->
format("=== WARNING: Trying to start node \'~w\' when node"
" with same first name exists: ~w", [Name, N]);
_other -> ok
end
end,
nodes()),
group_leader() ! {sync_apply,
self(),
{test_server_ctrl,start_node,[Name,Type,Options]}},
Result = receive {sync_result,R} -> R end,
case Result of
{ok,Node} ->
%% Cannot run cover on shielded node or on a node started
%% by a shielded node.
Cover = case is_cover() of
true ->
not is_shielded(Name) andalso same_version(Node);
false ->
false
end,
net_adm:ping(Node),
case Cover of
true ->
Sticky = unstick_all_sticky(Node),
cover:start(Node),
stick_all_sticky(Node,Sticky);
_ ->
ok
end,
{ok,Node};
{fail,Reason} -> fail(Reason);
Error -> Error
end.
firstname(N) ->
list_to_atom(upto($@,atom_to_list(N))).
%% This should!!! crash if H is not member in list.
upto(H, [H | _T]) -> [];
upto(H, [X | T]) -> [X | upto(H,T)].
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% wait_for_node(Name) -> ok | {error,timeout}
%%
%% If a node is started with the options {wait,false}, this function
%% can be used to wait for the node to come up from the
%% test server point of view (i.e. wait until it has contacted
%% the test server controller after startup)
wait_for_node(Slave) ->
group_leader() ! {sync_apply,
self(),
{test_server_ctrl,wait_for_node,[Slave]}},
receive {sync_result,R} -> R end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% stop_node(Name) -> true|false
%%
%% Kills a (remote) node.
%% Also inform test_server_ctrl so it can clean up!
stop_node(Slave) ->
Nocover = is_shielded(Slave) orelse not same_version(Slave),
case is_cover() of
true when not Nocover ->
Sticky = unstick_all_sticky(Slave),
cover:stop(Slave),
stick_all_sticky(Slave,Sticky);
_ ->
ok
end,
group_leader() ! {sync_apply,self(),{test_server_ctrl,stop_node,[Slave]}},
Result = receive {sync_result,R} -> R end,
case Result of
ok ->
erlang:monitor_node(Slave, true),
slave:stop(Slave),
receive
{nodedown, Slave} ->
format(minor, "Stopped slave node: ~p", [Slave]),
format(major, "=node_stop ~p", [Slave]),
true
after 30000 ->
format("=== WARNING: Node ~p does not seem to terminate.",
[Slave]),
false
end;
{error, _Reason} ->
%% Either, the node is already dead or it was started
%% with the {cleanup,false} option, or it was started
%% in some other way than test_server:start_node/3
format("=== WARNING: Attempt to stop a nonexisting slavenode (~p)~n"
"=== Trying to kill it anyway!!!",
[Slave]),
case net_adm:ping(Slave)of
pong ->
slave:stop(Slave),
true;
pang ->
false
end
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% is_release_available(Release) -> true | false
%% Release -> string()
%%
%% Test if a release (such as "r10b") is available to be
%% started using start_node/3.
is_release_available(Release) ->
group_leader() ! {sync_apply,
self(),
{test_server_ctrl,is_release_available,[Release]}},
receive {sync_result,R} -> R end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% run_on_shielded_node(Fun, CArgs) -> term()
%% Fun -> function()
%% CArg -> list()
%%
%%
%% Fun is executed in a process on a temporarily created
%% hidden node. Communication with the job process goes
%% via a job proxy process on the hidden node, i.e. the
%% group leader of the test case process is the job proxy
%% process. This makes it possible to start nodes from the
%% hidden node that are unaware of the test server node.
%% Without the job proxy process all processes would have
%% a process residing on the test_server node as group_leader.
%%
%% Fun - Function to execute
%% CArg - Extra command line arguments to use when starting
%% the shielded node.
%%
%% If Fun is successfully executed, the result is returned.
%%
run_on_shielded_node(Fun, CArgs) when is_function(Fun), is_list(CArgs) ->
{A,B,C} = now(),
Name = "shielded_node-" ++ integer_to_list(A) ++ "-" ++ integer_to_list(B)
++ "-" ++ integer_to_list(C),
Node = case start_node(Name, slave, [{args, "-hidden " ++ CArgs}]) of
{ok, N} -> N;
Err -> fail({failed_to_start_shielded_node, Err})
end,
Master = self(),
Ref = make_ref(),
Slave = spawn(Node,
fun () ->
start_job_proxy(),
receive
Ref ->
Master ! {Ref, Fun()}
end,
receive after infinity -> infinity end
end),
MRef = erlang:monitor(process, Slave),
Slave ! Ref,
receive
{'DOWN', MRef, _, _, Info} ->
stop_node(Node),
fail(Info);
{Ref, Res} ->
stop_node(Node),
receive
{'DOWN', MRef, _, _, _} ->
Res
end
end.
%% Return true if Name or node() is a shielded node
is_shielded(Name) ->
case {cast_to_list(Name),atom_to_list(node())} of
{"shielded_node"++_,_} -> true;
{_,"shielded_node"++_} -> true;
_ -> false
end.
same_version(Name) ->
ThisVersion = erlang:system_info(version),
OtherVersion = rpc:call(Name, erlang, system_info, [version]),
ThisVersion =:= OtherVersion.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% temp_name(Stem) -> string()
%% Stem = string()
%%
%% Create a unique file name, based on (starting with) Stem.
%% A filename of the form <Stem><Number> is generated, and the
%% function checks that that file doesn't already exist.
temp_name(Stem) ->
{A,B,C} = erlang:now(),
RandomNum = A bxor B bxor C,
RandomName = Stem ++ integer_to_list(RandomNum),
{ok,Files} = file:list_dir(filename:dirname(Stem)),
case lists:member(RandomName,Files) of
true ->
%% oh, already exists - bad luck. Try again.
temp_name(Stem); %% recursively try again
false ->
RandomName
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% app_test/1
%%
app_test(App) ->
app_test(App, pedantic).
app_test(App, Mode) ->
test_server_sup:app_test(App, Mode).
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% is_native(Mod) -> true | false
%%
%% Checks wether the module is natively compiled or not.
is_native(Mod) ->
case catch Mod:module_info(native_addresses) of
[_|_] -> true;
_Other -> false
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% comment(String) -> ok
%%
%% The given String will occur in the comment field
%% of the table on the test suite result page. If
%% called several times, only the last comment is
%% printed.
%% comment/1 is also overwritten by the return value
%% {comment,Comment} or fail/1 (which prints Reason
%% as a comment).
comment(String) ->
group_leader() ! {comment,String},
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% os_type() -> OsType
%%
%% Returns the OsType of the target node. OsType is
%% the same as returned from os:type()
os_type() ->
test_server_ctrl:get_target_os_type().
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% is_cover() -> boolean()
%%
%% Returns true if cover is running, else false
is_cover() ->
case whereis(cover_server) of
undefined -> false;
_ -> true
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% is_debug() -> boolean()
%%
%% Returns true if the emulator is debug-compiled, false otherwise.
is_debug() ->
case catch erlang:system_info(debug_compiled) of
{'EXIT', _} ->
case string:str(erlang:system_info(system_version), "debug") of
Int when is_integer(Int), Int > 0 -> true;
_ -> false
end;
Res ->
Res
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% has_lock_checking() -> boolean()
%%
%% Returns true if the emulator has lock checking enabled, false otherwise.
has_lock_checking() ->
case catch erlang:system_info(lock_checking) of
{'EXIT', _} -> false;
Res -> Res
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% has_superfluous_schedulers() -> boolean()
%%
%% Returns true if the emulator has more scheduler threads than logical
%% processors, false otherwise.
has_superfluous_schedulers() ->
case catch {erlang:system_info(schedulers),
erlang:system_info(logical_processors)} of
{S, P} when is_integer(S), is_integer(P), S > P -> true;
_ -> false
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% is_commercial_build() -> boolean()
%%
%% Returns true if the current emulator is commercially supported.
%% (The emulator will not have "[source]" in its start-up message.)
%% We might want to do more tests on a commercial platform, for instance
%% ensuring that all applications have documentation).
is_commercial() ->
case string:str(erlang:system_info(system_version), "source") of
Int when is_integer(Int), Int > 0 -> false;
_ -> true
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% DEBUGGER INTERFACE %%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% purify_is_running() -> false|true
%%
%% Tests if Purify is currently running.
purify_is_running() ->
case catch erlang:system_info({error_checker, running}) of
{'EXIT', _} -> false;
Res -> Res
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% purify_new_leaks() -> false|BytesLeaked
%% BytesLeaked = integer()
%%
%% Checks for new memory leaks if Purify is active.
%% Returns the number of bytes leaked, or false if Purify
%% is not running.
purify_new_leaks() ->
case catch erlang:system_info({error_checker, memory}) of
{'EXIT', _} -> false;
Leaked when is_integer(Leaked) -> Leaked
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% purify_new_fds_inuse() -> false|FdsInuse
%% FdsInuse = integer()
%%
%% Checks for new file descriptors in use.
%% Returns the number of new file descriptors in use, or false
%% if Purify is not running.
purify_new_fds_inuse() ->
case catch erlang:system_info({error_checker, fd}) of
{'EXIT', _} -> false;
Inuse when is_integer(Inuse) -> Inuse
end.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% purify_format(Format, Args) -> ok
%% Format = string()
%% Args = lists()
%%
%% Outputs the formatted string to Purify's logfile,if Purify is active.
purify_format(Format, Args) ->
(catch erlang:system_info({error_checker, io_lib:format(Format, Args)})),
ok.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%
%% Generic send functions for communication with host
%%
sync_local_or_remote_apply(Proxy,From,{M,F,A} = MFA) ->
case get(test_server_job_sock) of
undefined ->
%% i'm a local target
Result = apply(M,F,A),
if is_pid(Proxy) -> Proxy ! {sync_result_proxy,From,Result};
true -> From ! {sync_result,Result}
end;
JobSock ->
%% i'm a remote target
request(JobSock,{sync_apply,MFA}),
{sync_result,Result} = recv(JobSock),
if is_pid(Proxy) -> Proxy ! {sync_result_proxy,From,Result};
true -> From ! {sync_result,Result}
end
end.
local_or_remote_apply({M,F,A} = MFA) ->
case get(test_server_job_sock) of
undefined ->
%% i'm a local target
apply(M,F,A),
ok;
JobSock ->
%% i'm a remote target
request(JobSock,{apply,MFA}),
ok
end.
request(Sock,Request) ->
gen_tcp:send(Sock,<<1,(term_to_binary(Request))/binary>>).
%%
%% Generic receive function for communication with host
%%
recv(Sock) ->
case gen_tcp:recv(Sock,0) of
{error,closed} ->
gen_tcp:close(Sock),
exit(connection_lost);
{ok,<<1,Request/binary>>} ->
binary_to_term(Request);
{ok,<<0,B/binary>>} ->
B
end.