%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2004-2011. 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% %% %%% @doc Common Test Framework test execution control module. %%% %%%
This module exports functions for installing and running tests %%% withing the Common Test Framework.
-module(ct_run). %% Script interface -export([script_start/0,script_usage/0]). %% User interface -export([install/1,install/2,run/1,run/2,run/3,run_test/1, run_testspec/1,step/3,step/4,refresh_logs/1]). %% Exported for VTS -export([run_make/3,do_run/4,tests/1,tests/2,tests/3]). %% Misc internal functions -export([variables_file_name/1,script_start1/2,run_test1/1]). -include("ct_event.hrl"). -include("ct_util.hrl"). -define(abs(Name), filename:absname(Name)). -define(testdir(Name, Suite), ct_util:get_testdir(Name, Suite)). -record(opts, {label, profile, vts, shell, cover, coverspec, step, logdir, logopts = [], config = [], event_handlers = [], ct_hooks = [], include = [], silent_connections, stylesheet, multiply_timetraps = 1, scale_timetraps = false, testspecs = [], tests}). %%%----------------------------------------------------------------- %%% @spec script_start() -> void() %%% %%% @doc Start tests via the ct_run program or script. %%% %%%Example:./ct_run -config config.ctc -dir
%%% $TEST_DIR
Example:./ct_run -config config.ctc -suite
%%% $SUITE_PATH/$SUITE_NAME [-case $CASE_NAME]
ct_run
.
script_usage() ->
io:format("\n\nUsage:\n\n"),
io:format("Run tests in web based GUI:\n\n"
"\tct_run -vts [-browser Browser]"
"\n\t[-config ConfigFile1 ConfigFile2 .. ConfigFileN]"
"\n\t[-decrypt_key Key] | [-decrypt_file KeyFile]"
"\n\t[-dir TestDir1 TestDir2 .. TestDirN] |"
"\n\t[-suite Suite [-case Case]]"
"\n\t[-logopts LogOpt1 LogOpt2 .. LogOptN]"
"\n\t[-include InclDir1 InclDir2 .. InclDirN]"
"\n\t[-no_auto_compile]"
"\n\t[-multiply_timetraps N]"
"\n\t[-scale_timetraps]"
"\n\t[-basic_html]\n\n"),
io:format("Run tests from command line:\n\n"
"\tct_run [-dir TestDir1 TestDir2 .. TestDirN] |"
"\n\t[-suite Suite1 Suite2 .. SuiteN [-case Case1 Case2 .. CaseN]]"
"\n\t[-step [config | keep_inactive]]"
"\n\t[-config ConfigFile1 ConfigFile2 .. ConfigFileN]"
"\n\t[-userconfig CallbackModule ConfigFile1 .. ConfigFileN]"
"\n\t[-decrypt_key Key] | [-decrypt_file KeyFile]"
"\n\t[-logdir LogDir]"
"\n\t[-silent_connections [ConnType1 ConnType2 .. ConnTypeN]]"
"\n\t[-stylesheet CSSFile]"
"\n\t[-cover CoverCfgFile]"
"\n\t[-event_handler EvHandler1 EvHandler2 .. EvHandlerN]"
"\n\t[-logopts LogOpt1 LogOpt2 .. LogOptN]"
"\n\t[-ct_hooks CTHook1 CTHook2 .. CTHookN]"
"\n\t[-include InclDir1 InclDir2 .. InclDirN]"
"\n\t[-no_auto_compile]"
"\n\t[-multiply_timetraps N]"
"\n\t[-scale_timetraps]"
"\n\t[-basic_html]"
"\n\t[-repeat N [-force_stop]] |"
"\n\t[-duration HHMMSS [-force_stop]] |"
"\n\t[-until [YYMoMoDD]HHMMSS [-force_stop]]\n\n"),
io:format("Run tests using test specification:\n\n"
"\tct_run -spec TestSpec1 TestSpec2 .. TestSpecN"
"\n\t[-config ConfigFile1 ConfigFile2 .. ConfigFileN]"
"\n\t[-decrypt_key Key] | [-decrypt_file KeyFile]"
"\n\t[-logdir LogDir]"
"\n\t[-allow_user_terms]"
"\n\t[-silent_connections [ConnType1 ConnType2 .. ConnTypeN]]"
"\n\t[-stylesheet CSSFile]"
"\n\t[-cover CoverCfgFile]"
"\n\t[-event_handler EvHandler1 EvHandler2 .. EvHandlerN]"
"\n\t[-logopts LogOpt1 LogOpt2 .. LogOptN]"
"\n\t[-ct_hooks CTHook1 CTHook2 .. CTHookN]"
"\n\t[-include InclDir1 InclDir2 .. InclDirN]"
"\n\t[-no_auto_compile]"
"\n\t[-multiply_timetraps N]"
"\n\t[-scale_timetraps]"
"\n\t[-basic_html]"
"\n\t[-repeat N [-force_stop]] |"
"\n\t[-duration HHMMSS [-force_stop]] |"
"\n\t[-until [YYMoMoDD]HHMMSS [-force_stop]]\n\n"),
io:format("Refresh the HTML index files:\n\n"
"\tct_run -refresh_logs [LogDir]"
"[-logdir LogDir] "
"[-basic_html]\n\n"),
io:format("Run CT in interactive mode:\n\n"
"\tct_run -shell"
"\n\t[-config ConfigFile1 ConfigFile2 .. ConfigFileN]"
"\n\t[-decrypt_key Key] | [-decrypt_file KeyFile]\n\n").
%%%-----------------------------------------------------------------
%%% @hidden
%%% @equiv ct:install/1
install(Opts) ->
install(Opts, ".").
install(Opts, LogDir) ->
ConfOpts = ct_config:add_default_callback(Opts),
case application:get_env(common_test, decrypt) of
{ok,_} ->
ok;
_ ->
case lists:keysearch(decrypt, 1, Opts) of
{value,{_,KeyOrFile}} ->
application:set_env(common_test, decrypt, KeyOrFile);
false ->
application:unset_env(common_test, decrypt)
end
end,
case whereis(ct_util_server) of
undefined ->
VarFile = variables_file_name(LogDir),
case file:open(VarFile, [write]) of
{ok,Fd} ->
[io:format(Fd, "~p.\n", [Opt]) || Opt <- ConfOpts ],
file:close(Fd),
ok;
{error,Reason} ->
io:format("CT failed to install configuration data. Please "
"verify that the log directory exists and that "
"write permission is set.\n\n", []),
{error,{VarFile,Reason}}
end;
_ ->
io:format("It is not possible to install CT while running "
"in interactive mode.\n"
"To exit this mode, run ct:stop_interactive().\n"
"To enter the interactive mode again, "
"run ct:start_interactive()\n\n", []),
{error,interactive_mode}
end.
variables_file_name(Dir) ->
filename:join(Dir, "variables-"++atom_to_list(node())).
%%%-----------------------------------------------------------------
%%% @spec run_test(Opts) -> Result
%%% Opts = [tuple()]
%%% Result = [TestResult] | {error,Reason}
%%%
%%% @doc Start tests from the erlang shell or from an erlang program.
%%% @equiv ct:run_test/1
%%%-----------------------------------------------------------------
run_test(StartOpt) when is_tuple(StartOpt) ->
run_test([StartOpt]);
run_test(StartOpts) when is_list(StartOpts) ->
case proplists:get_value(refresh_logs, StartOpts) of
undefined ->
Tracing = start_trace(StartOpts),
{ok,Cwd} = file:get_cwd(),
io:format("~nCommon Test starting (cwd is ~s)~n~n", [Cwd]),
Res =
case ct_repeat:loop_test(func, StartOpts) of
false ->
case catch run_test1(StartOpts) of
{'EXIT',Reason} ->
file:set_cwd(Cwd),
{error,Reason};
Result ->
Result
end;
Result ->
Result
end,
stop_trace(Tracing),
Res;
RefreshDir ->
refresh_logs(?abs(RefreshDir)),
ok
end.
run_test1(StartOpts) ->
%% label
Label = get_start_opt(label, fun(Lbl) when is_list(Lbl) -> Lbl;
(Lbl) when is_atom(Lbl) -> atom_to_list(Lbl)
end, StartOpts),
%% profile
Profile = get_start_opt(profile, fun(Prof) when is_list(Prof) -> Prof;
(Prof) when is_atom(Prof) -> atom_to_list(Prof)
end, StartOpts),
%% logdir
LogDir = get_start_opt(logdir, fun(LD) when is_list(LD) -> LD end,
StartOpts),
%% logopts
LogOpts = get_start_opt(logopts, value, [], StartOpts),
%% config & userconfig
CfgFiles = ct_config:get_config_file_list(StartOpts),
%% event handlers
EvHandlers =
case proplists:get_value(event_handler, StartOpts) of
undefined ->
[];
H when is_atom(H) ->
[{H,[]}];
H ->
Hs =
if is_tuple(H) -> [H];
is_list(H) -> H;
true -> []
end,
lists:flatten(
lists:map(fun(EH) when is_atom(EH) ->
{EH,[]};
({HL,Args}) when is_list(HL) ->
[{EH,Args} || EH <- HL];
({EH,Args}) when is_atom(EH) ->
{EH,Args};
(_) ->
[]
end, Hs))
end,
%% CT Hooks
CTHooks = get_start_opt(ct_hooks, value, [], StartOpts),
%% silent connections
SilentConns = get_start_opt(silent_connections,
fun(all) -> [];
(Conns) -> Conns
end, StartOpts),
%% stylesheet
Stylesheet = get_start_opt(stylesheet,
fun(SS) -> ?abs(SS) end,
StartOpts),
%% code coverage
Cover = get_start_opt(cover,
fun(CoverFile) -> ?abs(CoverFile) end, StartOpts),
%% timetrap manipulation
MultiplyTT = get_start_opt(multiply_timetraps, value, 1, StartOpts),
ScaleTT = get_start_opt(scale_timetraps, value, false, StartOpts),
%% auto compile & include files
Include =
case proplists:get_value(auto_compile, StartOpts) of
undefined ->
application:set_env(common_test, auto_compile, true),
InclDirs =
case proplists:get_value(include, StartOpts) of
undefined ->
[];
Incl when is_list(hd(Incl)) ->
Incl;
Incl when is_list(Incl) ->
[Incl]
end,
case os:getenv("CT_INCLUDE_PATH") of
false ->
application:set_env(common_test, include, InclDirs),
InclDirs;
CtInclPath ->
InclDirs1 = string:tokens(CtInclPath, [$:,$ ,$,]),
AllInclDirs = InclDirs1++InclDirs,
application:set_env(common_test, include, AllInclDirs),
AllInclDirs
end;
ACBool ->
application:set_env(common_test, auto_compile, ACBool),
[]
end,
%% decrypt config file
case proplists:get_value(decrypt, StartOpts) of
undefined ->
application:unset_env(common_test, decrypt);
Key={key,_} ->
application:set_env(common_test, decrypt, Key);
{file,KeyFile} ->
application:set_env(common_test, decrypt, {file,?abs(KeyFile)})
end,
%% basic html - used by ct_logs
case proplists:get_value(basic_html, StartOpts) of
undefined ->
application:set_env(common_test, basic_html, false);
BasicHtmlBool ->
application:set_env(common_test, basic_html, BasicHtmlBool)
end,
%% stepped execution
Step = get_start_opt(step, value, StartOpts),
Opts = #opts{label = Label, profile = Profile,
cover = Cover, step = Step, logdir = LogDir,
logopts = LogOpts, config = CfgFiles,
event_handlers = EvHandlers,
ct_hooks = CTHooks,
include = Include,
silent_connections = SilentConns,
stylesheet = Stylesheet,
multiply_timetraps = MultiplyTT,
scale_timetraps = ScaleTT},
%% test specification
case proplists:get_value(spec, StartOpts) of
undefined ->
case lists:keysearch(prepared_tests, 1, StartOpts) of
{value,{_,{Run,Skip},Specs}} -> % use prepared tests
run_prepared(Run, Skip, Opts#opts{testspecs = Specs},
StartOpts);
false ->
run_dir(Opts, StartOpts)
end;
Specs ->
Relaxed = get_start_opt(allow_user_terms, value, false, StartOpts),
%% using testspec(s) as input for test
run_spec_file(Relaxed, Opts#opts{testspecs = Specs}, StartOpts)
end.
run_spec_file(Relaxed,
Opts = #opts{testspecs = Specs, config = CfgFiles},
StartOpts) ->
Specs1 = case Specs of
[X|_] when is_integer(X) -> [Specs];
_ -> Specs
end,
AbsSpecs = lists:map(fun(SF) -> ?abs(SF) end, Specs1),
log_ts_names(AbsSpecs),
case catch ct_testspec:collect_tests_from_file(AbsSpecs, Relaxed) of
{Error,CTReason} when Error == error ; Error == 'EXIT' ->
exit(CTReason);
TS ->
SpecOpts = get_data_for_node(TS, node()),
Label = choose_val(Opts#opts.label,
SpecOpts#opts.label),
Profile = choose_val(Opts#opts.profile,
SpecOpts#opts.profile),
LogDir = choose_val(Opts#opts.logdir,
SpecOpts#opts.logdir),
AllLogOpts = merge_vals([Opts#opts.logopts,
SpecOpts#opts.logopts]),
AllConfig = merge_vals([CfgFiles, SpecOpts#opts.config]),
Cover = choose_val(Opts#opts.cover,
SpecOpts#opts.cover),
MultTT = choose_val(Opts#opts.multiply_timetraps,
SpecOpts#opts.multiply_timetraps),
ScaleTT = choose_val(Opts#opts.scale_timetraps,
SpecOpts#opts.scale_timetraps),
AllEvHs = merge_vals([Opts#opts.event_handlers,
SpecOpts#opts.event_handlers]),
AllInclude = merge_vals([Opts#opts.include,
SpecOpts#opts.include]),
AllCTHooks = merge_vals([Opts#opts.ct_hooks,
SpecOpts#opts.ct_hooks]),
application:set_env(common_test, include, AllInclude),
case check_and_install_configfiles(AllConfig,
which(logdir,LogDir),
AllEvHs,
AllCTHooks) of
ok ->
Opts1 = Opts#opts{label = Label,
profile = Profile,
cover = Cover,
logdir = which(logdir, LogDir),
logopts = AllLogOpts,
config = AllConfig,
event_handlers = AllEvHs,
include = AllInclude,
testspecs = AbsSpecs,
multiply_timetraps = MultTT,
scale_timetraps = ScaleTT,
ct_hooks = AllCTHooks},
{Run,Skip} = ct_testspec:prepare_tests(TS, node()),
reformat_result(catch do_run(Run, Skip, Opts1, StartOpts));
{error,GCFReason} ->
exit(GCFReason)
end
end.
run_prepared(Run, Skip, Opts = #opts{logdir = LogDir,
config = CfgFiles,
event_handlers = EvHandlers,
ct_hooks = CTHooks},
StartOpts) ->
LogDir1 = which(logdir, LogDir),
case check_and_install_configfiles(CfgFiles, LogDir1,
EvHandlers, CTHooks) of
ok ->
reformat_result(catch do_run(Run, Skip, Opts#opts{logdir = LogDir1},
StartOpts));
{error,Reason} ->
exit(Reason)
end.
check_config_file(Callback, File)->
case code:is_loaded(Callback) of
false ->
case code:load_file(Callback) of
{module,_} -> ok;
{error,Why} -> exit({cant_load_callback_module,Why})
end;
_ ->
ok
end,
case Callback:check_parameter(File) of
{ok,{file,File}}->
?abs(File);
{ok,{config,_}}->
File;
{error,{wrong_config,Message}}->
exit({wrong_config,{Callback,Message}});
{error,{nofile,File}}->
exit({no_such_file,?abs(File)})
end.
run_dir(Opts = #opts{logdir = LogDir,
config = CfgFiles,
event_handlers = EvHandlers,
ct_hooks = CTHook }, StartOpts) ->
LogDir1 = which(logdir, LogDir),
Opts1 = Opts#opts{logdir = LogDir1},
AbsCfgFiles =
lists:map(fun({Callback,FileList})->
case code:is_loaded(Callback) of
{file,_Path}->
ok;
false ->
case code:load_file(Callback) of
{module,Callback}->
ok;
{error,_}->
exit({no_such_module,Callback})
end
end,
{Callback,
lists:map(fun(File)->
check_config_file(Callback, File)
end, FileList)}
end, CfgFiles),
case install([{config,AbsCfgFiles},
{event_handler,EvHandlers},
{ct_hooks, CTHook}], LogDir1) of
ok -> ok;
{error,IReason} -> exit(IReason)
end,
case {proplists:get_value(dir, StartOpts),
proplists:get_value(suite, StartOpts),
groups_and_cases(proplists:get_value(group, StartOpts),
proplists:get_value(testcase, StartOpts))} of
%% flag specified without data
{_,_,Error={error,_}} ->
Error;
{_,[],_} ->
{error,no_suite_specified};
{[],_,_} ->
{error,no_dir_specified};
{Dirs=[Hd|_],undefined,[]} when is_list(Dirs), not is_integer(Hd) ->
Dirs1 = [if is_atom(D) -> atom_to_list(D);
true -> D end || D <- Dirs],
reformat_result(catch do_run(tests(Dirs1), [], Opts1, StartOpts));
{Dir=[Hd|_],undefined,[]} when is_list(Dir) and is_integer(Hd) ->
reformat_result(catch do_run(tests(Dir), [], Opts1, StartOpts));
{Dir,undefined,[]} when is_atom(Dir) ->
reformat_result(catch do_run(tests(atom_to_list(Dir)),
[], Opts1, StartOpts));
{undefined,Suites=[Hd|_],[]} when not is_integer(Hd) ->
Suites1 = [suite_to_test(S) || S <- Suites],
reformat_result(catch do_run(tests(Suites1), [], Opts1, StartOpts));
{undefined,Suite,[]} when is_atom(Suite) and
(Suite /= undefined) ->
{Dir,Mod} = suite_to_test(Suite),
reformat_result(catch do_run(tests(Dir, Mod), [], Opts1, StartOpts));
{undefined,Suite,GsAndCs} when is_atom(Suite) and
(Suite /= undefined) ->
{Dir,Mod} = suite_to_test(Suite),
reformat_result(catch do_run(tests(Dir, Mod, GsAndCs),
[], Opts1, StartOpts));
{undefined,[Hd,_|_],_GsAndCs} when not is_integer(Hd) ->
exit(multiple_suites_and_cases);
{undefined,Suite=[Hd|Tl],GsAndCs} when is_integer(Hd) ;
(is_list(Hd) and (Tl == [])) ;
(is_atom(Hd) and (Tl == [])) ->
{Dir,Mod} = suite_to_test(Suite),
reformat_result(catch do_run(tests(Dir, Mod, GsAndCs),
[], Opts1, StartOpts));
{[Hd,_|_],_Suites,[]} when is_list(Hd) ; not is_integer(Hd) ->
exit(multiple_dirs_and_suites);
{undefined,undefined,GsAndCs} when GsAndCs /= [] ->
exit(incorrect_start_options);
{Dir,Suite,GsAndCs} when is_integer(hd(Dir)) ;
(is_atom(Dir) and (Dir /= undefined)) ;
((length(Dir) == 1) and is_atom(hd(Dir))) ;
((length(Dir) == 1) and is_list(hd(Dir))) ->
Dir1 = if is_atom(Dir) -> atom_to_list(Dir);
true -> Dir end,
if Suite == undefined ->
exit(incorrect_start_options);
is_integer(hd(Suite)) ;
(is_atom(Suite) and (Suite /= undefined)) ;
((length(Suite) == 1) and is_atom(hd(Suite))) ;
((length(Suite) == 1) and is_list(hd(Suite))) ->
{Dir2,Mod} = suite_to_test(Dir1, Suite),
case GsAndCs of
[] ->
reformat_result(catch do_run(tests(Dir2, Mod),
[], Opts1, StartOpts));
_ ->
reformat_result(catch do_run(tests(Dir2, Mod, GsAndCs),
[], Opts1, StartOpts))
end;
is_list(Suite) -> % multiple suites
case [suite_to_test(Dir1, S) || S <- Suite] of
[_,_|_] when GsAndCs /= [] ->
exit(multiple_suites_and_cases);
[{Dir2,Mod}] when GsAndCs /= [] ->
reformat_result(catch do_run(tests(Dir2, Mod, GsAndCs),
[], Opts1, StartOpts));
DirMods ->
reformat_result(catch do_run(tests(DirMods),
[], Opts1, StartOpts))
end
end;
{Dir,Suite,GsAndCs} ->
exit({incorrect_start_options,{Dir,Suite,GsAndCs}})
end.
%%%-----------------------------------------------------------------
%%% @spec run_testspec(TestSpec) -> Result
%%% TestSpec = [term()]
%%%
%%% @doc Run test specified by TestSpec
. The terms are
%%% the same as those used in test specification files.
%%% @equiv ct:run_testspec/1
%%%-----------------------------------------------------------------
run_testspec(TestSpec) ->
{ok,Cwd} = file:get_cwd(),
io:format("~nCommon Test starting (cwd is ~s)~n~n", [Cwd]),
case catch run_testspec1(TestSpec) of
{'EXIT',Reason} ->
file:set_cwd(Cwd),
{error,Reason};
Result ->
Result
end.
run_testspec1(TestSpec) ->
case catch ct_testspec:collect_tests_from_list(TestSpec, false) of
{E,CTReason} when E == error ; E == 'EXIT' ->
exit(CTReason);
TS ->
Opts = get_data_for_node(TS, node()),
AllInclude =
case os:getenv("CT_INCLUDE_PATH") of
false ->
Opts#opts.include;
CtInclPath ->
EnvInclude = string:tokens(CtInclPath, [$:,$ ,$,]),
EnvInclude++Opts#opts.include
end,
application:set_env(common_test, include, AllInclude),
LogDir1 = which(logdir,Opts#opts.logdir),
case check_and_install_configfiles(Opts#opts.config, LogDir1,
Opts#opts.event_handlers,
Opts#opts.ct_hooks) of
ok ->
Opts1 = Opts#opts{testspecs = [],
logdir = LogDir1,
include = AllInclude},
{Run,Skip} = ct_testspec:prepare_tests(TS, node()),
reformat_result(catch do_run(Run, Skip, Opts1, []));
{error,GCFReason} ->
exit(GCFReason)
end
end.
get_data_for_node(#testspec{label = Labels,
profile = Profiles,
logdir = LogDirs,
logopts = LogOptsList,
cover = CoverFs,
config = Cfgs,
userconfig = UsrCfgs,
event_handler = EvHs,
ct_hooks = CTHooks,
include = Incl,
multiply_timetraps = MTs,
scale_timetraps = STs}, Node) ->
Label = proplists:get_value(Node, Labels),
Profile = proplists:get_value(Node, Profiles),
LogDir = case proplists:get_value(Node, LogDirs) of
undefined -> ".";
Dir -> Dir
end,
LogOpts = case proplists:get_value(Node, LogOptsList) of
undefined -> [];
LOs -> LOs
end,
Cover = proplists:get_value(Node, CoverFs),
MT = proplists:get_value(Node, MTs),
ST = proplists:get_value(Node, STs),
ConfigFiles = [{?ct_config_txt,F} || {N,F} <- Cfgs, N==Node] ++
[CBF || {N,CBF} <- UsrCfgs, N==Node],
EvHandlers = [{H,A} || {N,H,A} <- EvHs, N==Node],
FiltCTHooks = [Hook || {N,Hook} <- CTHooks, N==Node],
Include = [I || {N,I} <- Incl, N==Node],
#opts{label = Label,
profile = Profile,
logdir = LogDir,
logopts = LogOpts,
cover = Cover,
config = ConfigFiles,
event_handlers = EvHandlers,
ct_hooks = FiltCTHooks,
include = Include,
multiply_timetraps = MT,
scale_timetraps = ST}.
refresh_logs(LogDir) ->
{ok,Cwd} = file:get_cwd(),
case file:set_cwd(LogDir) of
E = {error,_Reason} ->
E;
_ ->
case catch ct_logs:make_all_suites_index(refresh) of
{'EXIT',ASReason} ->
file:set_cwd(Cwd),
{error,{all_suites_index,ASReason}};
_ ->
case catch ct_logs:make_all_runs_index(refresh) of
{'EXIT',ARReason} ->
file:set_cwd(Cwd),
{error,{all_runs_index,ARReason}};
_ ->
file:set_cwd(Cwd),
io:format("Logs in ~s refreshed!~n",[LogDir]),
ok
end
end
end.
which(logdir, undefined) ->
".";
which(logdir, Dir) ->
Dir.
choose_val(undefined, V1) ->
V1;
choose_val(V0, _V1) ->
V0.
merge_vals(Vs) ->
lists:append(Vs).
listify([C|_]=Str) when is_integer(C) -> [Str];
listify(L) when is_list(L) -> L;
listify(E) -> [E].
delistify([E]) -> E;
delistify(E) -> E.
%%%-----------------------------------------------------------------
%%% @hidden
%%% @equiv ct:run/3
run(TestDir, Suite, Cases) ->
install([]),
reformat_result(catch do_run(tests(TestDir, Suite, Cases), [])).
%%%-----------------------------------------------------------------
%%% @hidden
%%% @equiv ct:run/2
run(TestDir, Suite) when is_list(TestDir), is_integer(hd(TestDir)) ->
install([]),
reformat_result(catch do_run(tests(TestDir, Suite), [])).
%%%-----------------------------------------------------------------
%%% @hidden
%%% @equiv ct:run/1
run(TestDirs) ->
install([]),
reformat_result(catch do_run(tests(TestDirs), [])).
reformat_result({'EXIT',{user_error,Reason}}) ->
{error,Reason};
reformat_result({user_error,Reason}) ->
{error,Reason};
reformat_result(Result) ->
Result.
suite_to_test(Suite) when is_atom(Suite) ->
suite_to_test(atom_to_list(Suite));
suite_to_test(Suite) when is_list(Suite) ->
{filename:dirname(Suite),
list_to_atom(filename:rootname(filename:basename(Suite)))}.
suite_to_test(Dir, Suite) when is_atom(Suite) ->
suite_to_test(Dir, atom_to_list(Suite));
suite_to_test(Dir, Suite) when is_list(Suite) ->
case filename:dirname(Suite) of
"." ->
{Dir,list_to_atom(filename:rootname(Suite))};
DirName -> % ignore Dir
File = filename:basename(Suite),
{DirName,list_to_atom(filename:rootname(File))}
end.
groups_and_cases(Gs, Cs) when ((Gs == undefined) or (Gs == [])) and
((Cs == undefined) or (Cs == [])) ->
[];
groups_and_cases(Gs, Cs) when Gs == undefined ; Gs == [] ->
[ensure_atom(C) || C <- listify(Cs)];
groups_and_cases(Gs, Cs) when Cs == undefined ; Cs == [] ->
[{ensure_atom(G),all} || G <- listify(Gs)];
groups_and_cases(G, Cs) when is_atom(G) ->
[{G,[ensure_atom(C) || C <- listify(Cs)]}];
groups_and_cases([G], Cs) ->
[{ensure_atom(G),[ensure_atom(C) || C <- listify(Cs)]}];
groups_and_cases([_,_|_] , Cs) when Cs =/= [] ->
{error,multiple_groups_and_cases};
groups_and_cases(_Gs, _Cs) ->
{error,incorrect_group_or_case_option}.
tests(TestDir, Suites, []) when is_list(TestDir), is_integer(hd(TestDir)) ->
[{?testdir(TestDir,Suites),ensure_atom(Suites),all}];
tests(TestDir, Suite, Cases) when is_list(TestDir), is_integer(hd(TestDir)) ->
[{?testdir(TestDir,Suite),ensure_atom(Suite),Cases}].
tests([{Dir,Suite}],Cases) ->
[{?testdir(Dir,Suite),ensure_atom(Suite),Cases}];
tests(TestDir, Suite) when is_list(TestDir), is_integer(hd(TestDir)) ->
tests(TestDir, ensure_atom(Suite), all).
tests(DirSuites) when is_list(DirSuites), is_tuple(hd(DirSuites)) ->
[{?testdir(Dir,Suite),ensure_atom(Suite),all} || {Dir,Suite} <- DirSuites];
tests(TestDir) when is_list(TestDir), is_integer(hd(TestDir)) ->
tests([TestDir]);
tests(TestDirs) when is_list(TestDirs), is_list(hd(TestDirs)) ->
[{?testdir(TestDir,all),all,all} || TestDir <- TestDirs].
do_run(Tests, Misc) when is_list(Misc) ->
do_run(Tests, Misc, ".", []).
do_run(Tests, Misc, LogDir, LogOpts) when is_list(Misc),
is_list(LogDir),
is_list(LogOpts) ->
Opts =
case proplists:get_value(step, Misc) of
undefined ->
#opts{};
StepOpts ->
#opts{step = StepOpts}
end,
Opts1 =
case proplists:get_value(cover, Misc) of
undefined ->
Opts;
CoverFile ->
Opts#opts{cover = CoverFile}
end,
do_run(Tests, [], Opts1#opts{logdir = LogDir}, []);
do_run(Tests, Skip, Opts, Args) when is_record(Opts, opts) ->
#opts{label = Label, profile = Profile, cover = Cover} = Opts,
%% label - used by ct_logs
TestLabel =
if Label == undefined -> undefined;
is_atom(Label) -> atom_to_list(Label);
is_list(Label) -> Label;
true -> undefined
end,
application:set_env(common_test, test_label, TestLabel),
%% profile - used in ct_util
TestProfile =
if Profile == undefined -> undefined;
is_atom(Profile) -> atom_to_list(Profile);
is_list(Profile) -> Profile;
true -> undefined
end,
application:set_env(common_test, profile, TestProfile),
case code:which(test_server) of
non_existing ->
exit({error,no_path_to_test_server});
_ ->
Opts1 = if Cover == undefined ->
Opts;
true ->
case ct_cover:get_spec(Cover) of
{error,Reason} ->
exit({error,Reason});
CoverSpec ->
Opts#opts{coverspec = CoverSpec}
end
end,
%% This env variable is used by test_server to determine
%% which framework it runs under.
case os:getenv("TEST_SERVER_FRAMEWORK") of
false ->
os:putenv("TEST_SERVER_FRAMEWORK", "ct_framework");
"ct_framework" ->
ok;
Other ->
erlang:display(list_to_atom("Note: TEST_SERVER_FRAMEWORK = " ++ Other))
end,
case ct_util:start(Opts#opts.logdir) of
{error,interactive_mode} ->
io:format("CT is started in interactive mode. "
"To exit this mode, run ct:stop_interactive().\n"
"To enter the interactive mode again, "
"run ct:start_interactive()\n\n",[]),
{error,interactive_mode};
_Pid ->
%% save stylesheet info
ct_util:set_testdata({stylesheet,Opts#opts.stylesheet}),
%% save logopts
ct_util:set_testdata({logopts,Opts#opts.logopts}),
%% enable silent connections
case Opts#opts.silent_connections of
[] ->
Conns = ct_util:override_silence_all_connections(),
ct_logs:log("Silent connections", "~p", [Conns]);
Conns when is_list(Conns) ->
ct_util:override_silence_connections(Conns),
ct_logs:log("Silent connections", "~p", [Conns]);
_ ->
ok
end,
log_ts_names(Opts1#opts.testspecs),
TestSuites = suite_tuples(Tests),
{_TestSuites1,SuiteMakeErrors,AllMakeErrors} =
case application:get_env(common_test, auto_compile) of
{ok,false} ->
{TestSuites1,SuitesNotFound} =
verify_suites(TestSuites),
{TestSuites1,SuitesNotFound,SuitesNotFound};
_ ->
{SuiteErrs,HelpErrs} = auto_compile(TestSuites),
{TestSuites,SuiteErrs,SuiteErrs++HelpErrs}
end,
case continue(AllMakeErrors) of
true ->
SavedErrors = save_make_errors(SuiteMakeErrors),
ct_repeat:log_loop_info(Args),
{Tests1,Skip1} = final_tests(Tests,Skip,SavedErrors),
R = (catch do_run_test(Tests1, Skip1, Opts1)),
case R of
{EType,_} = Error when EType == user_error ;
EType == error ->
ct_util:stop(clean),
exit(Error);
_ ->
ct_util:stop(normal),
R
end;
false ->
io:nl(),
ct_util:stop(clean),
BadMods =
lists:foldr(
fun({{_,_},Ms}, Acc) ->
Ms ++ lists:foldl(
fun(M, Acc1) ->
lists:delete(M, Acc1)
end, Acc, Ms)
end, [], AllMakeErrors),
{error,{make_failed,BadMods}}
end
end
end.
%% attempt to compile the modules specified in TestSuites
auto_compile(TestSuites) ->
io:format("~nCommon Test: Running make in test directories...~n"),
UserInclude =
case application:get_env(common_test, include) of
{ok,UserInclDirs} when length(UserInclDirs) > 0 ->
io:format("Including the following directories:~n"),
[begin io:format("~p~n",[UserInclDir]), {i,UserInclDir} end ||
UserInclDir <- UserInclDirs];
_ ->
[]
end,
SuiteMakeErrors =
lists:flatmap(fun({TestDir,Suite} = TS) ->
case run_make(suites, TestDir, Suite, UserInclude) of
{error,{make_failed,Bad}} ->
[{TS,Bad}];
{error,_} ->
[{TS,[filename:join(TestDir,"*_SUITE")]}];
_ ->
[]
end
end, TestSuites),
%% try to compile other modules than SUITEs in the test directories
{_,HelpMakeErrors} =
lists:foldl(
fun({Dir,Suite}, {Done,Failed}) ->
case lists:member(Dir, Done) of
false ->
Failed1 =
case run_make(helpmods, Dir, Suite, UserInclude) of
{error,{make_failed,BadMods}} ->
[{{Dir,all},BadMods}|Failed];
{error,_} ->
[{{Dir,all},[Dir]}|Failed];
_ ->
Failed
end,
{[Dir|Done],Failed1};
true -> % already visited
{Done,Failed}
end
end, {[],[]}, TestSuites),
{SuiteMakeErrors,lists:reverse(HelpMakeErrors)}.
%% verify that specified test suites exist (if auto compile is disabled)
verify_suites(TestSuites) ->
io:nl(),
Verify =
fun({Dir,Suite}=DS,{Found,NotFound}) ->
case locate_test_dir(Dir, Suite) of
{ok,TestDir} ->
if Suite == all ->
{[DS|Found],NotFound};
true ->
Beam = filename:join(TestDir,
atom_to_list(Suite)++".beam"),
case filelib:is_regular(Beam) of
true ->
{[DS|Found],NotFound};
false ->
case code:is_loaded(Suite) of
{file,SuiteFile} ->
%% test suite is already loaded and
%% since auto_compile == false,
%% let's assume the user has
%% loaded the beam file explicitly
ActualDir = filename:dirname(SuiteFile),
{[{ActualDir,Suite}|Found],NotFound};
false ->
Name =
filename:join(TestDir,
atom_to_list(Suite)),
io:format(user,
"Suite ~w not found"
"in directory ~s~n",
[Suite,TestDir]),
{Found,[{DS,[Name]}|NotFound]}
end
end
end;
{error,_Reason} ->
case code:is_loaded(Suite) of
{file,SuiteFile} ->
%% test suite is already loaded and since
%% auto_compile == false, let's assume the
%% user has loaded the beam file explicitly
ActualDir = filename:dirname(SuiteFile),
{[{ActualDir,Suite}|Found],NotFound};
false ->
io:format(user, "Directory ~s is invalid~n", [Dir]),
Name = filename:join(Dir, atom_to_list(Suite)),
{Found,[{DS,[Name]}|NotFound]}
end
end
end,
{ActualFound,Missing} = lists:foldl(Verify, {[],[]}, TestSuites),
{lists:reverse(ActualFound),lists:reverse(Missing)}.
save_make_errors([]) ->
[];
save_make_errors(Errors) ->
Suites = get_bad_suites(Errors,[]),
ct_logs:log("MAKE RESULTS",
"Error compiling or locating the following suites: ~n~p",[Suites]),
%% save the info for logger
file:write_file(?missing_suites_info,term_to_binary(Errors)),
Errors.
get_bad_suites([{{_TestDir,_Suite},Failed}|Errors], BadSuites) ->
get_bad_suites(Errors,BadSuites++Failed);
get_bad_suites([], BadSuites) ->
BadSuites.
%%%-----------------------------------------------------------------
%%% @hidden
%%% @equiv ct:step/3
step(TestDir, Suite, Case) ->
step(TestDir, Suite, Case, []).
%%%-----------------------------------------------------------------
%%% @hidden
%%% @equiv ct:step/4
step(TestDir, Suite, Case, Opts) when is_list(TestDir), is_atom(Suite), is_atom(Case),
Suite =/= all, Case =/= all ->
do_run([{TestDir,Suite,Case}], [{step,Opts}]).
%%%-----------------------------------------------------------------
%%% Internal
suite_tuples([{TestDir,Suites,_} | Tests]) when is_list(Suites) ->
lists:map(fun(S) -> {TestDir,S} end, Suites) ++ suite_tuples(Tests);
suite_tuples([{TestDir,Suite,_} | Tests]) when is_atom(Suite) ->
[{TestDir,Suite} | suite_tuples(Tests)];
suite_tuples([]) ->
[].
final_tests(Tests, Skip, Bad) ->
{Tests1,Skip1} = final_tests1(Tests, [], Skip, Bad),
Skip2 = final_skip(Skip1, []),
{Tests1,Skip2}.
final_tests1([{TestDir,Suites,_}|Tests], Final, Skip, Bad) when
is_list(Suites), is_atom(hd(Suites)) ->
% Separate =
% fun(S,{DoSuite,Dont}) ->
% case lists:keymember({TestDir,S},1,Bad) of
% false ->
% {[S|DoSuite],Dont};
% true ->
% SkipIt = {TestDir,S,"Make failed"},
% {DoSuite,Dont++[SkipIt]}
% end
% end,
% {DoSuites,Skip1} =
% lists:foldl(Separate,{[],Skip},Suites),
% Do = {TestDir,lists:reverse(DoSuites),all},
Skip1 = [{TD,S,"Make failed"} || {{TD,S},_} <- Bad, S1 <- Suites,
S == S1, TD == TestDir],
Final1 = [{TestDir,S,all} || S <- Suites],
final_tests1(Tests, lists:reverse(Final1)++Final, Skip++Skip1, Bad);
final_tests1([{TestDir,all,all}|Tests], Final, Skip, Bad) ->
MissingSuites =
case lists:keysearch({TestDir,all}, 1, Bad) of
{value,{_,Failed}} ->
[list_to_atom(filename:basename(F)) || F <- Failed];
false ->
[]
end,
Missing = [{TestDir,S,"Make failed"} || S <- MissingSuites],
Final1 = [{TestDir,all,all}|Final],
final_tests1(Tests, Final1, Skip++Missing, Bad);
final_tests1([{TestDir,Suite,Cases}|Tests], Final, Skip, Bad) when
Cases==[]; Cases==all ->
final_tests1([{TestDir,[Suite],all}|Tests], Final, Skip, Bad);
final_tests1([{TestDir,Suite,GrsOrCs}|Tests], Final, Skip, Bad) when
is_list(GrsOrCs) ->
case lists:keymember({TestDir,Suite}, 1, Bad) of
true ->
Skip1 = Skip ++ [{TestDir,Suite,all,"Make failed"}],
final_tests1(Tests, [{TestDir,Suite,all}|Final], Skip1, Bad);
false ->
GrsOrCs1 =
lists:flatmap(
%% for now, only flat group defs are allowed as
%% start options and test spec terms
fun({all,all}) ->
ct_framework:make_all_conf(TestDir,
Suite, []);
({skipped,Group,TCs}) ->
[ct_framework:make_conf(TestDir, Suite,
Group, [skipped], TCs)];
({Group,TCs}) ->
[ct_framework:make_conf(TestDir, Suite,
Group, [], TCs)];
(TC) ->
[TC]
end, GrsOrCs),
Do = {TestDir,Suite,GrsOrCs1},
final_tests1(Tests, [Do|Final], Skip, Bad)
end;
final_tests1([], Final, Skip, _Bad) ->
{lists:reverse(Final),Skip}.
final_skip([{TestDir,Suite,{all,all},Reason}|Skips], Final) ->
SkipConf = ct_framework:make_conf(TestDir, Suite, all, [], all),
Skip = {TestDir,Suite,SkipConf,Reason},
final_skip(Skips, [Skip|Final]);
final_skip([{TestDir,Suite,{Group,TCs},Reason}|Skips], Final) ->
Conf = ct_framework:make_conf(TestDir, Suite, Group, [], TCs),
Skip = {TestDir,Suite,Conf,Reason},
final_skip(Skips, [Skip|Final]);
final_skip([Skip|Skips], Final) ->
final_skip(Skips, [Skip|Final]);
final_skip([], Final) ->
lists:reverse(Final).
continue([]) ->
true;
continue(_MakeErrors) ->
io:nl(),
OldGl = group_leader(),
case set_group_leader_same_as_shell() of
true ->
S = self(),
io:format("Failed to compile or locate one or more test suites\n"
"Press \'c\' to continue or \'a\' to abort.\n"
"Will continue in 15 seconds if no answer is given!\n"),
Pid = spawn(fun() ->
case io:get_line('(c/a) ') of
"c\n" ->
S ! true;
_ ->
S ! false
end
end),
group_leader(OldGl, self()),
receive R when R==true; R==false ->
R
after 15000 ->
exit(Pid, kill),
io:format("... timeout - continuing!!\n"),
true
end;
false -> % no shell process to use
true
end.
set_group_leader_same_as_shell() ->
%%! Locate the shell process... UGLY!!!
GS2or3 = fun(P) ->
case process_info(P,initial_call) of
{initial_call,{group,server,X}} when X == 2 ; X == 3 ->
true;
_ ->
false
end
end,
case [P || P <- processes(), GS2or3(P),
true == lists:keymember(shell,1,element(2,process_info(P,dictionary)))] of
[GL|_] ->
group_leader(GL, self());
[] ->
false
end.
check_and_add([{TestDir0,M,_} | Tests], Added) ->
case locate_test_dir(TestDir0, M) of
{ok,TestDir} ->
case lists:member(TestDir, Added) of
true ->
check_and_add(Tests, Added);
false ->
true = code:add_patha(TestDir),
check_and_add(Tests, [TestDir|Added])
end;
{error,_} ->
{error,{invalid_directory,TestDir0}}
end;
check_and_add([], _) ->
ok.
do_run_test(Tests, Skip, Opts) ->
case check_and_add(Tests, []) of
ok ->
ct_util:set_testdata({stats,{0,0,{0,0}}}),
ct_util:set_testdata({cover,undefined}),
test_server_ctrl:start_link(local),
case Opts#opts.coverspec of
CovData={CovFile,
CovNodes,
_CovImport,
CovExport,
#cover{app = CovApp,
level = CovLevel,
excl_mods = CovExcl,
incl_mods = CovIncl,
cross = CovCross,
src = _CovSrc}} ->
ct_logs:log("COVER INFO","Using cover specification file: ~s~n"
"App: ~w~n"
"Cross cover: ~w~n"
"Including ~w modules~n"
"Excluding ~w modules",
[CovFile,CovApp,CovCross,length(CovIncl),length(CovExcl)]),
%% cover export file will be used for export and import
%% between tests so make sure it doesn't exist initially
case filelib:is_file(CovExport) of
true ->
DelResult = file:delete(CovExport),
ct_logs:log("COVER INFO",
"Warning! Export file ~s already exists. "
"Deleting with result: ~p",
[CovExport,DelResult]);
false ->
ok
end,
%% tell test_server which modules should be cover compiled
%% note that actual compilation is done when tests start
test_server_ctrl:cover(CovApp, CovFile, CovExcl, CovIncl,
CovCross, CovExport, CovLevel),
%% save cover data (used e.g. to add nodes dynamically)
ct_util:set_testdata({cover,CovData}),
%% start cover on specified nodes
if (CovNodes /= []) and (CovNodes /= undefined) ->
ct_logs:log("COVER INFO",
"Nodes included in cover session: ~w",
[CovNodes]),
cover:start(CovNodes);
true ->
ok
end,
true;
_ ->
false
end,
%% let test_server expand the test tuples and count no of cases
{Suites,NoOfCases} = count_test_cases(Tests, Skip),
Suites1 = delete_dups(Suites),
NoOfTests = length(Tests),
NoOfSuites = length(Suites1),
ct_util:warn_duplicates(Suites1),
{ok,Cwd} = file:get_cwd(),
io:format("~nCWD set to: ~p~n", [Cwd]),
if NoOfCases == unknown ->
io:format("~nTEST INFO: ~w test(s), ~w suite(s)~n~n",
[NoOfTests,NoOfSuites]),
ct_logs:log("TEST INFO","~w test(s), ~w suite(s)",
[NoOfTests,NoOfSuites]);
true ->
io:format("~nTEST INFO: ~w test(s), ~w case(s) in ~w suite(s)~n~n",
[NoOfTests,NoOfCases,NoOfSuites]),
ct_logs:log("TEST INFO","~w test(s), ~w case(s) in ~w suite(s)",
[NoOfTests,NoOfCases,NoOfSuites])
end,
test_server_ctrl:multiply_timetraps(Opts#opts.multiply_timetraps),
test_server_ctrl:scale_timetraps(Opts#opts.scale_timetraps),
ct_event:notify(#event{name=start_info,
node=node(),
data={NoOfTests,NoOfSuites,NoOfCases}}),
CleanUp = add_jobs(Tests, Skip, Opts, []),
unlink(whereis(test_server_ctrl)),
catch test_server_ctrl:wait_finish(),
%% check if last testcase has left a "dead" trace window
%% behind, and if so, kill it
case ct_util:get_testdata(interpret) of
{_What,kill,{TCPid,AttPid}} ->
ct_util:kill_attached(TCPid, AttPid);
_ ->
ok
end,
lists:foreach(fun(Suite) ->
maybe_cleanup_interpret(Suite, Opts#opts.step)
end, CleanUp);
Error ->
Error
end.
delete_dups([S | Suites]) ->
Suites1 = lists:delete(S, Suites),
[S | delete_dups(Suites1)];
delete_dups([]) ->
[].
count_test_cases(Tests, Skip) ->
SendResult = fun(Me, Result) -> Me ! {no_of_cases,Result} end,
TSPid = test_server_ctrl:start_get_totals(SendResult),
Ref = erlang:monitor(process, TSPid),
add_jobs(Tests, Skip, #opts{}, []),
Counted = (catch count_test_cases1(length(Tests), 0, [], Ref)),
erlang:demonitor(Ref, [flush]),
case Counted of
{error,{test_server_died}} = Error ->
throw(Error);
{error,Reason} ->
unlink(whereis(test_server_ctrl)),
test_server_ctrl:stop(),
throw({user_error,Reason});
Result ->
test_server_ctrl:stop_get_totals(),
Result
end.
count_test_cases1(0, N, Suites, _) ->
{lists:flatten(Suites), N};
count_test_cases1(Jobs, N, Suites, Ref) ->
receive
{_,{error,_Reason} = Error} ->
throw(Error);
{no_of_cases,{Ss,N1}} ->
count_test_cases1(Jobs-1, add_known(N,N1), [Ss|Suites], Ref);
{'DOWN', Ref, _, _, Info} ->
throw({error,{test_server_died,Info}})
end.
add_known(unknown, _) ->
unknown;
add_known(_, unknown) ->
unknown;
add_known(N, N1) ->
N+N1.
add_jobs([{TestDir,all,_}|Tests], Skip, Opts, CleanUp) ->
Name = get_name(TestDir),
case catch test_server_ctrl:add_dir_with_skip(Name, TestDir,
skiplist(TestDir,Skip)) of
{'EXIT',_} ->
CleanUp;
_ ->
wait_for_idle(),
add_jobs(Tests, Skip, Opts, CleanUp)
end;
add_jobs([{TestDir,[Suite],all}|Tests], Skip, Opts, CleanUp) when is_atom(Suite) ->
add_jobs([{TestDir,Suite,all}|Tests], Skip, Opts, CleanUp);
add_jobs([{TestDir,Suites,all}|Tests], Skip, Opts, CleanUp) when is_list(Suites) ->
Name = get_name(TestDir) ++ ".suites",
case catch test_server_ctrl:add_module_with_skip(Name, Suites,
skiplist(TestDir,Skip)) of
{'EXIT',_} ->
CleanUp;
_ ->
wait_for_idle(),
add_jobs(Tests, Skip, Opts, CleanUp)
end;
add_jobs([{TestDir,Suite,all}|Tests], Skip, Opts, CleanUp) ->
case maybe_interpret(Suite, all, Opts) of
ok ->
Name = get_name(TestDir) ++ "." ++ atom_to_list(Suite),
case catch test_server_ctrl:add_module_with_skip(Name, [Suite],
skiplist(TestDir,Skip)) of
{'EXIT',_} ->
CleanUp;
_ ->
wait_for_idle(),
add_jobs(Tests, Skip, Opts, [Suite|CleanUp])
end;
Error ->
Error
end;
%% group (= conf case in test_server)
add_jobs([{TestDir,Suite,Confs}|Tests], Skip, Opts, CleanUp) when
element(1, hd(Confs)) == conf ->
Group = fun(Conf) -> proplists:get_value(name, element(2, Conf)) end,
TestCases = fun(Conf) -> element(4, Conf) end,
TCTestName = fun(all) -> "";
([C]) when is_atom(C) -> "." ++ atom_to_list(C);
(Cs) when is_list(Cs) -> ".cases"
end,
GrTestName =
case Confs of
[Conf] ->
"." ++ atom_to_list(Group(Conf)) ++ TCTestName(TestCases(Conf));
_ ->
".groups"
end,
TestName = get_name(TestDir) ++ "." ++ atom_to_list(Suite) ++ GrTestName,
case maybe_interpret(Suite, init_per_group, Opts) of
ok ->
case catch test_server_ctrl:add_conf_with_skip(TestName, Suite, Confs,
skiplist(TestDir,Skip)) of
{'EXIT',_} ->
CleanUp;
_ ->
wait_for_idle(),
add_jobs(Tests, Skip, Opts, [Suite|CleanUp])
end;
Error ->
Error
end;
%% test case
add_jobs([{TestDir,Suite,[Case]}|Tests], Skip, Opts, CleanUp) when is_atom(Case) ->
add_jobs([{TestDir,Suite,Case}|Tests], Skip, Opts, CleanUp);
add_jobs([{TestDir,Suite,Cases}|Tests], Skip, Opts, CleanUp) when is_list(Cases) ->
Cases1 = lists:map(fun({GroupName,_}) when is_atom(GroupName) -> GroupName;
(Case) -> Case
end, Cases),
case maybe_interpret(Suite, Cases1, Opts) of
ok ->
Name = get_name(TestDir) ++ "." ++ atom_to_list(Suite) ++ ".cases",
case catch test_server_ctrl:add_cases_with_skip(Name, Suite, Cases1,
skiplist(TestDir,Skip)) of
{'EXIT',_} ->
CleanUp;
_ ->
wait_for_idle(),
add_jobs(Tests, Skip, Opts, [Suite|CleanUp])
end;
Error ->
Error
end;
add_jobs([{TestDir,Suite,Case}|Tests], Skip, Opts, CleanUp) when is_atom(Case) ->
case maybe_interpret(Suite, Case, Opts) of
ok ->
Name = get_name(TestDir) ++ "." ++ atom_to_list(Suite) ++ "." ++
atom_to_list(Case),
case catch test_server_ctrl:add_case_with_skip(Name, Suite, Case,
skiplist(TestDir,Skip)) of
{'EXIT',_} ->
CleanUp;
_ ->
wait_for_idle(),
add_jobs(Tests, Skip, Opts, [Suite|CleanUp])
end;
Error ->
Error
end;
add_jobs([], _, _, CleanUp) ->
CleanUp.
wait_for_idle() ->
ct_util:update_last_run_index(),
Notify = fun(Me) -> Me ! idle end,
case catch test_server_ctrl:idle_notify(Notify) of
{'EXIT',_} ->
error;
TSPid ->
%% so we don't hang forever if test_server dies
Ref = erlang:monitor(process, TSPid),
Result = receive
idle -> ok;
{'DOWN', Ref, _, _, _} -> error
end,
erlang:demonitor(Ref, [flush]),
ct_util:update_last_run_index(),
Result
end.
skiplist(Dir, [{Dir,all,Cmt}|Skip]) ->
%% we need to turn 'all' into list of modules since
%% test_server doesn't do skips on Dir level
Ss = filelib:wildcard(filename:join(Dir, "*_SUITE.beam")),
[{list_to_atom(filename:basename(S,".beam")),Cmt} || S <- Ss] ++ skiplist(Dir,Skip);
skiplist(Dir, [{Dir,S,Cmt}|Skip]) ->
[{S,Cmt} | skiplist(Dir, Skip)];
skiplist(Dir, [{Dir,S,C,Cmt}|Skip]) ->
[{S,C,Cmt} | skiplist(Dir, Skip)];
skiplist(Dir, [_|Skip]) ->
skiplist(Dir, Skip);
skiplist(_Dir, []) ->
[].
get_name(Dir) ->
TestDir =
case filename:basename(Dir) of
"test" ->
filename:dirname(Dir);
_ ->
Dir
end,
Base = filename:basename(TestDir),
case filename:basename(filename:dirname(TestDir)) of
"" ->
Base;
TopDir ->
TopDir ++ "." ++ Base
end.
run_make(TestDir, Mod, UserInclude) ->
run_make(suites, TestDir, Mod, UserInclude).
run_make(Targets, TestDir0, Mod, UserInclude) when is_list(Mod) ->
run_make(Targets, TestDir0, list_to_atom(Mod), UserInclude);
run_make(Targets, TestDir0, Mod, UserInclude) ->
case locate_test_dir(TestDir0, Mod) of
{ok,TestDir} ->
%% send a start_make notification which may suspend
%% the process if some other node is compiling files
%% in the same directory
ct_event:sync_notify(#event{name=start_make,
node=node(),
data=TestDir}),
{ok,Cwd} = file:get_cwd(),
ok = file:set_cwd(TestDir),
TestServerInclude = get_dir(test_server, "include"),
CtInclude = get_dir(common_test, "include"),
XmerlInclude = get_dir(xmerl, "include"),
ErlFlags = UserInclude ++ [{i,TestServerInclude},
{i,CtInclude},
{i,XmerlInclude},
debug_info],
Result =
if Mod == all ; Targets == helpmods ->
case (catch ct_make:all([noexec|ErlFlags])) of
{'EXIT',_} = Failure ->
Failure;
MakeInfo ->
FileTest = fun(F, suites) -> is_suite(F);
(F, helpmods) -> not is_suite(F)
end,
Files = lists:flatmap(fun({F,out_of_date}) ->
case FileTest(F, Targets) of
true -> [F];
false -> []
end;
(_) ->
[]
end, MakeInfo),
(catch ct_make:files(Files, [load|ErlFlags]))
end;
true ->
(catch ct_make:files([Mod], [load|ErlFlags]))
end,
ok = file:set_cwd(Cwd),
%% send finished_make notification
ct_event:notify(#event{name=finished_make,
node=node(),
data=TestDir}),
case Result of
{up_to_date,_} ->
ok;
{'EXIT',Reason} ->
io:format("{error,{make_crashed,~p}\n", [Reason]),
{error,{make_crashed,TestDir,Reason}};
{error,ModInfo} ->
io:format("{error,make_failed}\n", []),
Bad = [filename:join(TestDir, M) || {M,R} <- ModInfo,
R == error],
{error,{make_failed,Bad}}
end;
{error,_} ->
io:format("{error,{invalid_directory,~p}}\n", [TestDir0]),
{error,{invalid_directory,TestDir0}}
end.
get_dir(App, Dir) ->
filename:join(code:lib_dir(App), Dir).
maybe_interpret(Suite, Cases, #opts{step = StepOpts}) when StepOpts =/= undefined ->
%% if other suite has run before this one, check if last testcase
%% has left a "dead" trace window behind, and if so, kill it
case ct_util:get_testdata(interpret) of
{_What,kill,{TCPid,AttPid}} ->
ct_util:kill_attached(TCPid, AttPid);
_ ->
ok
end,
maybe_interpret1(Suite, Cases, StepOpts);
maybe_interpret(_, _, _) ->
ok.
maybe_interpret1(Suite, all, StepOpts) ->
case i:ii(Suite) of
{module,_} ->
i:iaa([break]),
case get_all_testcases(Suite) of
{error,_} ->
{error,no_testcases_found};
Cases ->
maybe_interpret2(Suite, Cases, StepOpts)
end;
error ->
{error,could_not_interpret_module}
end;
maybe_interpret1(Suite, Case, StepOpts) when is_atom(Case) ->
maybe_interpret1(Suite, [Case], StepOpts);
maybe_interpret1(Suite, Cases, StepOpts) when is_list(Cases) ->
case i:ii(Suite) of
{module,_} ->
i:iaa([break]),
maybe_interpret2(Suite, Cases, StepOpts);
error ->
{error,could_not_interpret_module}
end.
maybe_interpret2(Suite, Cases, StepOpts) ->
set_break_on_config(Suite, StepOpts),
[i:ib(Suite, Case, 1) || Case <- Cases],
test_server_ctrl:multiply_timetraps(infinity),
WinOp = case lists:member(keep_inactive, ensure_atom(StepOpts)) of
true -> no_kill;
false -> kill
end,
ct_util:set_testdata({interpret,{{Suite,Cases},WinOp,
{undefined,undefined}}}),
ok.
set_break_on_config(Suite, StepOpts) ->
case lists:member(config, ensure_atom(StepOpts)) of
true ->
i:ib(Suite, init_per_suite, 1),
i:ib(Suite, init_per_testcase, 2),
i:ib(Suite, end_per_testcase, 2),
i:ib(Suite, end_per_suite, 1);
false ->
ok
end.
maybe_cleanup_interpret(_, undefined) ->
ok;
maybe_cleanup_interpret(Suite, _) ->
i:iq(Suite).
log_ts_names([]) ->
ok;
log_ts_names(Specs) ->
List = lists:map(fun(Name) ->
Name ++ " "
end, Specs),
ct_logs:log("Test Specification file(s)", "~s",
[lists:flatten(List)]).
merge_arguments(Args) ->
merge_arguments(Args, []).
merge_arguments([LogDir={logdir,_}|Args], Merged) ->
merge_arguments(Args, handle_arg(replace, LogDir, Merged));
merge_arguments([CoverFile={cover,_}|Args], Merged) ->
merge_arguments(Args, handle_arg(replace, CoverFile, Merged));
merge_arguments([{'case',TC}|Args], Merged) ->
merge_arguments(Args, handle_arg(merge, {testcase,TC}, Merged));
merge_arguments([Arg|Args], Merged) ->
merge_arguments(Args, handle_arg(merge, Arg, Merged));
merge_arguments([], Merged) ->
Merged.
handle_arg(replace, {Key,Elems}, [{Key,_}|Merged]) ->
[{Key,Elems}|Merged];
handle_arg(merge, {event_handler_init,Elems}, [{event_handler_init,PrevElems}|Merged]) ->
[{event_handler_init,PrevElems++["add"|Elems]}|Merged];
handle_arg(merge, {userconfig,Elems}, [{userconfig,PrevElems}|Merged]) ->
[{userconfig,PrevElems++["add"|Elems]}|Merged];
handle_arg(merge, {Key,Elems}, [{Key,PrevElems}|Merged]) ->
[{Key,PrevElems++Elems}|Merged];
handle_arg(Op, Arg, [Other|Merged]) ->
[Other|handle_arg(Op, Arg, Merged)];
handle_arg(_,Arg,[]) ->
[Arg].
get_start_opt(Key, IfExists, Args) ->
get_start_opt(Key, IfExists, undefined, Args).
get_start_opt(Key, IfExists, IfNotExists, Args) ->
try try_get_start_opt(Key, IfExists, IfNotExists, Args) of
Result ->
Result
catch
error:_ ->
exit({user_error,{bad_argument,Key}})
end.
try_get_start_opt(Key, IfExists, IfNotExists, Args) ->
case lists:keysearch(Key, 1, Args) of
{value,{Key,Val}} when is_function(IfExists) ->
IfExists(Val);
{value,{Key,Val}} when IfExists == value ->
Val;
{value,{Key,_Val}} ->
IfExists;
_ ->
IfNotExists
end.
ct_hooks_args2opts(Args) ->
ct_hooks_args2opts(
proplists:get_value(ct_hooks, Args, []),[]).
ct_hooks_args2opts([CTH,Arg,Prio,"and"| Rest],Acc) ->
ct_hooks_args2opts(Rest,[{list_to_atom(CTH),
parse_cth_args(Arg),
parse_cth_args(Prio)}|Acc]);
ct_hooks_args2opts([CTH,Arg,"and"| Rest],Acc) ->
ct_hooks_args2opts(Rest,[{list_to_atom(CTH),
parse_cth_args(Arg)}|Acc]);
ct_hooks_args2opts([CTH], Acc) ->
ct_hooks_args2opts([CTH,"and"],Acc);
ct_hooks_args2opts([CTH, "and" | Rest], Acc) ->
ct_hooks_args2opts(Rest,[list_to_atom(CTH)|Acc]);
ct_hooks_args2opts([CTH, Args], Acc) ->
ct_hooks_args2opts([CTH, Args, "and"],Acc);
ct_hooks_args2opts([CTH, Args, Prio], Acc) ->
ct_hooks_args2opts([CTH, Args, Prio, "and"],Acc);
ct_hooks_args2opts([],Acc) ->
lists:reverse(Acc).
parse_cth_args(String) ->
try
true = io_lib:printable_list(String),
{ok,Toks,_} = erl_scan:string(String++"."),
{ok, Args} = erl_parse:parse_term(Toks),
Args
catch _:_ ->
String
end.
event_handler_args2opts(Args) ->
case proplists:get_value(event_handler, Args) of
undefined ->
event_handler_args2opts([], Args);
EHs ->
event_handler_args2opts([{list_to_atom(EH),[]} || EH <- EHs], Args)
end.
event_handler_args2opts(Default, Args) ->
case proplists:get_value(event_handler_init, Args) of
undefined ->
Default;
EHs ->
event_handler_init_args2opts(EHs)
end.
event_handler_init_args2opts([EH, Arg, "and" | EHs]) ->
[{list_to_atom(EH),lists:flatten(io_lib:format("~s",[Arg]))} |
event_handler_init_args2opts(EHs)];
event_handler_init_args2opts([EH, Arg]) ->
[{list_to_atom(EH),lists:flatten(io_lib:format("~s",[Arg]))}];
event_handler_init_args2opts([]) ->
[].
%% This function reads pa and pz arguments, converts dirs from relative
%% to absolute, and re-inserts them in the code path. The order of the
%% dirs in the code path remain the same. Note however that since this
%% function is only used for arguments "pre run_test erl_args", the order
%% relative dirs "post run_test erl_args" is not kept!
rel_to_abs(CtArgs) ->
{PA,PZ} = get_pa_pz(CtArgs, [], []),
io:format(user, "~n", []),
[begin
code:del_path(filename:basename(D)),
Abs = filename:absname(D),
code:add_pathz(Abs),
if D /= Abs ->
io:format(user, "Converting ~p to ~p and re-inserting "
"with add_pathz/1~n",
[D, Abs]);
true ->
ok
end
end || D <- PZ],
[begin
code:del_path(filename:basename(D)),
Abs = filename:absname(D),
code:add_patha(Abs),
if D /= Abs ->
io:format(user, "Converting ~p to ~p and re-inserting "
"with add_patha/1~n",
[D, Abs]);
true ->ok
end
end || D <- PA],
io:format(user, "~n", []).
get_pa_pz([{pa,Dirs} | Args], PA, PZ) ->
get_pa_pz(Args, PA ++ Dirs, PZ);
get_pa_pz([{pz,Dirs} | Args], PA, PZ) ->
get_pa_pz(Args, PA, PZ ++ Dirs);
get_pa_pz([_ | Args], PA, PZ) ->
get_pa_pz(Args, PA, PZ);
get_pa_pz([], PA, PZ) ->
{PA,PZ}.
%% This function translates ct:run_test/1 start options
%% to ct_run start arguments (on the init arguments format) -
%% this is useful mainly for testing the ct_run start functions.
opts2args(EnvStartOpts) ->
lists:flatmap(fun({config,CfgFiles}) ->
[{ct_config,[CfgFiles]}];
({userconfig,{CBM,CfgStr=[X|_]}}) when is_integer(X) ->
[{userconfig,[atom_to_list(CBM),CfgStr]}];
({userconfig,{CBM,CfgStrs}}) when is_list(CfgStrs) ->
[{userconfig,[atom_to_list(CBM) | CfgStrs]}];
({userconfig,UserCfg}) when is_list(UserCfg) ->
Strs =
lists:map(fun({CBM,CfgStr=[X|_]}) when is_integer(X) ->
[atom_to_list(CBM),CfgStr,"and"];
({CBM,CfgStrs}) when is_list(CfgStrs) ->
[atom_to_list(CBM) | CfgStrs] ++ ["and"]
end, UserCfg),
[_LastAnd|StrsR] = lists:reverse(lists:flatten(Strs)),
[{userconfig,lists:reverse(StrsR)}];
({testcase,Case}) when is_atom(Case) ->
[{'case',[atom_to_list(Case)]}];
({testcase,Cases}) ->
[{'case',[atom_to_list(C) || C <- Cases]}];
({'case',Cases}) ->
[{'case',[atom_to_list(C) || C <- Cases]}];
({allow_user_terms,true}) ->
[{allow_user_terms,[]}];
({allow_user_terms,false}) ->
[];
({auto_compile,false}) ->
[{no_auto_compile,[]}];
({auto_compile,true}) ->
[];
({scale_timetraps,true}) ->
[{scale_timetraps,[]}];
({scale_timetraps,false}) ->
[];
({force_stop,true}) ->
[{force_stop,[]}];
({force_stop,false}) ->
[];
({decrypt,{key,Key}}) ->
[{ct_decrypt_key,[Key]}];
({decrypt,{file,File}}) ->
[{ct_decrypt_file,[File]}];
({basic_html,true}) ->
({basic_html,[]});
({basic_html,false}) ->
[];
({event_handler,EH}) when is_atom(EH) ->
[{event_handler,[atom_to_list(EH)]}];
({event_handler,EHs}) when is_list(EHs) ->
[{event_handler,[atom_to_list(EH) || EH <- EHs]}];
({event_handler,{EH,Arg}}) when is_atom(EH) ->
ArgStr = lists:flatten(io_lib:format("~p", [Arg])),
[{event_handler_init,[atom_to_list(EH),ArgStr]}];
({event_handler,{EHs,Arg}}) when is_list(EHs) ->
ArgStr = lists:flatten(io_lib:format("~p", [Arg])),
Strs = lists:map(fun(EH) ->
[atom_to_list(EH),ArgStr,"and"]
end, EHs),
[_LastAnd|StrsR] = lists:reverse(lists:flatten(Strs)),
[{event_handler_init,lists:reverse(StrsR)}];
({logopts,LOs}) when is_list(LOs) ->
[{logopts,[atom_to_list(LO) || LO <- LOs]}];
({ct_hooks,[]}) ->
[];
({ct_hooks,CTHs}) when is_list(CTHs) ->
io:format(user,"ct_hooks: ~p",[CTHs]),
Strs = lists:flatmap(
fun({CTH,Arg,Prio}) ->
[atom_to_list(CTH),
lists:flatten(
io_lib:format("~p",[Arg])),
lists:flatten(
io_lib:format("~p",[Prio])),
"and"];
({CTH,Arg}) ->
[atom_to_list(CTH),
lists:flatten(
io_lib:format("~p",[Arg])),
"and"];
(CTH) when is_atom(CTH) ->
[atom_to_list(CTH),"and"]
end,CTHs),
[_LastAnd|StrsR] = lists:reverse(Strs),
io:format(user,"return: ~p",[lists:reverse(StrsR)]),
[{ct_hooks,lists:reverse(StrsR)}];
({Opt,As=[A|_]}) when is_atom(A) ->
[{Opt,[atom_to_list(Atom) || Atom <- As]}];
({Opt,Strs=[S|_]}) when is_list(S) ->
[{Opt,Strs}];
({Opt,A}) when is_atom(A) ->
[{Opt,[atom_to_list(A)]}];
({Opt,I}) when is_integer(I) ->
[{Opt,[integer_to_list(I)]}];
({Opt,S}) when is_list(S) ->
[{Opt,[S]}];
(Opt) ->
Opt
end, EnvStartOpts).
locate_test_dir(Dir, Suite) ->
TestDir = case ct_util:is_test_dir(Dir) of
true -> Dir;
false -> ct_util:get_testdir(Dir, Suite)
end,
case filelib:is_dir(TestDir) of
true -> {ok,TestDir};
false -> {error,invalid}
end.
is_suite(Mod) when is_atom(Mod) ->
is_suite(atom_to_list(Mod));
is_suite(ModOrFile) when is_list(ModOrFile) ->
case lists:reverse(filename:basename(ModOrFile, ".erl")) of
[$E,$T,$I,$U,$S,$_|_] ->
true;
_ ->
case lists:reverse(filename:basename(ModOrFile, ".beam")) of
[$E,$T,$I,$U,$S,$_|_] ->
true;
_ ->
false
end
end.
get_all_testcases(Suite) ->
%%! this needs to be updated to handle testcase groups later!!
case catch Suite:all() of
{'EXIT',Why} ->
{error,Why};
{skip,_} ->
[];
Cases ->
AllCases =
lists:foldl(fun({sequence,SeqName}, All) ->
case catch Suite:sequences() of
{'EXIT',_} ->
All;
Seqs ->
case proplists:get_value(SeqName, Seqs) of
undefined ->
All;
SeqCases ->
lists:reverse(SeqCases) ++ All
end
end;
(Case,All) ->
[Case|All]
end, [], Cases),
lists:reverse(AllCases)
end.
%% Internal tracing support. If {ct_trace,TraceSpec} is present, the
%% TraceSpec file will be consulted and dbg used to trace function
%% calls during test run. Expected terms in TraceSpec:
%% {m,Mod} or {f,Mod,Func}.
start_trace(Args) ->
case lists:keysearch(ct_trace,1,Args) of
{value,{ct_trace,File}} ->
TraceSpec = delistify(File),
case file:consult(TraceSpec) of
{ok,Terms} ->
case catch do_trace(Terms) of
ok ->
true;
{_,Error} ->
io:format("Warning! Tracing not started. Reason: ~p~n~n",
[Error]),
false
end;
{_,Error} ->
io:format("Warning! Tracing not started. Reason: ~p~n~n",
[Error]),
false
end;
false ->
false
end.
do_trace(Terms) ->
dbg:tracer(),
dbg:p(self(), [sos,call]),
lists:foreach(fun({m,M}) ->
case dbg:tpl(M,x) of
{error,What} -> exit({error,{tracing_failed,What}});
_ -> ok
end;
({me,M}) ->
case dbg:tp(M,[{'_',[],[{exception_trace},
{message,{caller}}]}]) of
{error,What} -> exit({error,{tracing_failed,What}});
_ -> ok
end;
({f,M,F}) ->
case dbg:tpl(M,F,[{'_',[],[{exception_trace},
{message,{caller}}]}]) of
{error,What} -> exit({error,{tracing_failed,What}});
_ -> ok
end;
(Huh) ->
exit({error,{unrecognized_trace_term,Huh}})
end, Terms),
ok.
stop_trace(true) ->
dbg:stop_clear();
stop_trace(false) ->
ok.
ensure_atom(Atom) when is_atom(Atom) ->
Atom;
ensure_atom(String) when is_list(String), is_integer(hd(String)) ->
list_to_atom(String);
ensure_atom(List) when is_list(List) ->
[ensure_atom(Item) || Item <- List];
ensure_atom(Other) ->
Other.