%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2004-2010. 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%
%%
%%% @doc Common Test Framework test execution control module.
%%%
%%% <p>This module is a proxy for calling and handling suite callbacks.</p>
-module(ct_suite_callback).
%% API Exports
-export([init/1]).
-export([init_tc/3]).
-export([end_tc/5]).
-export([terminate/1]).
-export([on_tc_skip/2]).
-export([on_tc_fail/2]).
-type proplist() :: [{atom(),term()}].
-define(config_name, suite_callbacks).
-define(LOCK_STATE_TIMEOUT, 500).
-define(LOCK_NAME, '$ct_suite_callback_lock').
%% -------------------------------------------------------------------------
%% API Functions
%% -------------------------------------------------------------------------
%% @doc Called before any suites are started
-spec init(State :: term()) -> ok |
{error, Reason :: term()}.
init(Opts) ->
call([{CB, call_id, undefined} || CB <- get_new_callbacks(Opts)],
ok, init, []).
%% @doc Called after all suites are done.
-spec terminate(Callbacks :: term()) ->
ok.
terminate(Callbacks) ->
call([{CBId, fun call_terminate/3} || {CBId,_,_} <- Callbacks],
ct_suite_callback_terminate_dummy, terminate, Callbacks),
ok.
%% @doc Called as each test case is started. This includes all configuration
%% tests.
-spec init_tc(Mod :: atom(), Func :: atom(), Args :: list()) ->
NewConfig :: proplist() |
{skip, Reason :: term()} |
{auto_skip, Reason :: term()} |
{fail, Reason :: term()}.
init_tc(ct_framework, _Func, Args) ->
Args;
init_tc(Mod, init_per_suite, Config) ->
Info = case catch proplists:get_value(suite_callbacks, Mod:suite()) of
List when is_list(List) ->
[{suite_callbacks,List}];
_Else ->
[]
end,
call(fun call_generic/3, Config ++ Info, [pre_init_per_suite, Mod]);
init_tc(Mod, end_per_suite, Config) ->
call(fun call_generic/3, Config, [pre_end_per_suite, Mod]);
init_tc(Mod, {init_per_group, GroupName, Opts}, Config) ->
maybe_start_locker(Mod, GroupName, Opts),
call(fun call_generic/3, Config, [pre_init_per_group, GroupName]);
init_tc(_Mod, {end_per_group, GroupName, _}, Config) ->
call(fun call_generic/3, Config, [pre_end_per_group, GroupName]);
init_tc(_Mod, TC, Config) ->
call(fun call_generic/3, Config, [pre_init_per_testcase, TC]).
%% @doc Called as each test case is completed. This includes all configuration
%% tests.
-spec end_tc(Mod :: atom(),
Func :: atom(),
Args :: list(),
Result :: term(),
Resturn :: term()) ->
NewConfig :: proplist() |
{skip, Reason :: term()} |
{auto_skip, Reason :: term()} |
{fail, Reason :: term()} |
ok.
end_tc(ct_framework, _Func, _Args, Result, _Return) ->
Result;
end_tc(Mod, init_per_suite, Config, _Result, Return) ->
call(fun call_generic/3, Return, [post_init_per_suite, Mod, Config],
'$ct_no_change');
end_tc(Mod, end_per_suite, Config, Result, _Return) ->
call(fun call_generic/3, Result, [post_end_per_suite, Mod, Config],
'$ct_no_change');
end_tc(_Mod, {init_per_group, GroupName, _}, Config, _Result, Return) ->
call(fun call_generic/3, Return, [post_init_per_group, GroupName, Config],
'$ct_no_change');
end_tc(Mod, {end_per_group, GroupName, Opts}, Config, Result, _Return) ->
Res = call(fun call_generic/3, Result,
[post_end_per_group, GroupName, Config], '$ct_no_change'),
maybe_stop_locker(Mod, GroupName,Opts),
Res;
end_tc(_Mod, TC, Config, Result, _Return) ->
call(fun call_generic/3, Result, [post_end_per_testcase, TC, Config],
'$ct_no_change').
on_tc_skip(How, {_Suite, Case, Reason}) ->
call(fun call_cleanup/3, {How, Reason}, [on_tc_skip, Case]).
on_tc_fail(_How, {_Suite, Case, Reason}) ->
call(fun call_cleanup/3, Reason, [on_tc_fail, Case]).
%% -------------------------------------------------------------------------
%% Internal Functions
%% -------------------------------------------------------------------------
call_id(Mod, Config, Meta) when is_atom(Mod) ->
call_id({Mod, []}, Config, Meta);
call_id({Mod, Opts}, Config, Scope) ->
Id = catch_apply(Mod,id,[Opts], make_ref()),
{Config, {Id, scope(Scope), {Mod, {Id,Opts}}}}.
call_init({Mod,{Id,Opts}},Config,_Meta) ->
NewState = Mod:init(Id, Opts),
{Config, {Mod, NewState}}.
call_terminate({Mod, State}, _, _) ->
catch_apply(Mod,terminate,[State], ok),
{[],{Mod,State}}.
call_cleanup({Mod, State}, Reason, [Function | Args]) ->
NewState = catch_apply(Mod,Function, Args ++ [Reason, State],
{Reason,State}),
{Reason, {Mod, NewState}}.
call_generic({Mod, State}, Value, [Function | Args]) ->
{NewValue, NewState} = catch_apply(Mod, Function, Args ++ [Value, State],
{Value,State}),
{NewValue, {Mod, NewState}}.
%% Generic call function
call(Fun, Config, Meta) ->
maybe_lock(),
CBs = get_callbacks(),
Res = call([{CBId,Fun} || {CBId,_, _} <- CBs] ++
get_new_callbacks(Config, Fun),
remove(?config_name,Config), Meta, CBs),
maybe_unlock(),
Res.
call(Fun, Config, Meta, NoChangeRet) when is_function(Fun) ->
case call(Fun,Config,Meta) of
Config -> NoChangeRet;
NewReturn -> NewReturn
end;
call([{CB, call_id, NextFun} | Rest], Config, Meta, CBs) ->
try
{Config, {NewId, _, _} = NewCB} = call_id(CB, Config, Meta),
{NewCBs, NewRest} =
case lists:keyfind(NewId, 1, CBs) of
false when NextFun =:= undefined ->
{CBs ++ [NewCB],
[{NewId, fun call_init/3} | Rest]};
ExistingCB when is_tuple(ExistingCB) ->
{CBs, Rest};
_ ->
{CBs ++ [NewCB],
[{NewId, fun call_init/3},{NewId,NextFun} | Rest]}
end,
call(NewRest, Config, Meta, NewCBs)
catch Error:Reason ->
Trace = erlang:get_stacktrace(),
ct_logs:log("Suite Callback","Failed to start a SCB: ~p:~p",
[Error,{Reason,Trace}]),
call([], {fail,"Failed to start SCB"
", see the CT Log for details"}, Meta, CBs)
end;
call([{CBId, Fun} | Rest], Config, Meta, CBs) ->
try
{_,Scope,ModState} = lists:keyfind(CBId, 1, CBs),
{NewConf, NewCBInfo} = Fun(ModState, Config, Meta),
NewCalls = get_new_callbacks(NewConf, Fun),
NewCBs = lists:keyreplace(CBId, 1, CBs, {CBId, Scope, NewCBInfo}),
call(NewCalls ++ Rest, remove(?config_name, NewConf), Meta,
terminate_if_scope_ends(CBId, Meta, NewCBs))
catch throw:{error_in_scb_call,Reason} ->
call(Rest, {fail, Reason}, Meta,
terminate_if_scope_ends(CBId, Meta, CBs))
end;
call([], Config, _Meta, CBs) ->
save_suite_data_async(CBs),
Config.
remove(Key,List) when is_list(List) ->
[Conf || Conf <- List, is_tuple(Conf) =:= false
orelse element(1, Conf) =/= Key];
remove(_, Else) ->
Else.
%% Translate scopes, i.e. init_per_group,group1 -> end_per_group,group1 etc
scope([pre_init_per_testcase, TC|_]) ->
[post_end_per_testcase, TC];
scope([pre_init_per_group, GroupName|_]) ->
[post_end_per_group, GroupName];
scope([post_init_per_group, GroupName|_]) ->
[post_end_per_group, GroupName];
scope([pre_init_per_suite, SuiteName|_]) ->
[post_end_per_suite, SuiteName];
scope([post_init_per_suite, SuiteName|_]) ->
[post_end_per_suite, SuiteName];
scope(init) ->
none.
terminate_if_scope_ends(CBId, [Function,Tag|T], CBs) when T =/= [] ->
terminate_if_scope_ends(CBId,[Function,Tag],CBs);
terminate_if_scope_ends(CBId, Function, CBs) ->
case lists:keyfind(CBId, 1, CBs) of
{CBId, Function, _ModState} = CB ->
terminate([CB]),
lists:keydelete(CBId, 1, CBs);
_ ->
CBs
end.
%% Fetch callback functions
get_new_callbacks(Config, Fun) ->
lists:foldl(fun(NewCB, Acc) ->
[{NewCB, call_id, Fun} | Acc]
end, [], get_new_callbacks(Config)).
get_new_callbacks(Config) when is_list(Config) ->
lists:flatmap(fun({?config_name, CallbackConfigs}) ->
CallbackConfigs;
(_) ->
[]
end, Config);
get_new_callbacks(_Config) ->
[].
save_suite_data_async(CBs) ->
ct_util:save_suite_data_async(?config_name, CBs).
get_callbacks() ->
ct_util:read_suite_data(?config_name).
catch_apply(M,F,A, Default) ->
try
apply(M,F,A)
catch error:Reason ->
case erlang:get_stacktrace() of
%% Return the default if it was the SCB module which did not have the function.
[{M,F,A}|_] when Reason == undef ->
Default;
Trace ->
ct_logs:log("Suite Callback","Call to SCB failed: ~p:~p",
[error,{Reason,Trace}]),
throw({error_in_scb_call,
lists:flatten(
io_lib:format("~p:~p/~p SCB call failed",
[M,F,length(A)]))})
end
end.
%% We need to lock around the state for parallel groups only. This is because
%% we will get several processes reading and writing the state for a single
%% scb at the same time.
maybe_start_locker(Mod,GroupName,Opts) ->
case lists:member(parallel,Opts) of
true ->
{ok, _Pid} = ct_suite_callback_lock:start({Mod,GroupName});
false ->
ok
end.
maybe_stop_locker(Mod,GroupName,Opts) ->
case lists:member(parallel,Opts) of
true ->
stopped = ct_suite_callback_lock:stop({Mod,GroupName});
false ->
ok
end.
maybe_lock() ->
locked = ct_suite_callback_lock:request().
maybe_unlock() ->
unlocked = ct_suite_callback_lock:release().