%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2009-2013. All Rights Reserved.
%%
%% Licensed under the Apache License, Version 2.0 (the "License");
%% you may not use this file except in compliance with the License.
%% You may obtain a copy of the License at
%%
%% http://www.apache.org/licenses/LICENSE-2.0
%%
%% Unless required by applicable law or agreed to in writing, software
%% distributed under the License is distributed on an "AS IS" BASIS,
%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
%% See the License for the specific language governing permissions and
%% limitations under the License.
%%
%% %CopyrightEnd%
%%
-module(test_server_test_lib).
-export([parse_suite/1]).
-export([init/2, pre_init_per_testcase/3, post_end_per_testcase/4]).
%% for test_server_SUITE when node can not be started as slave
-export([prepare_tester_node/2]).
-include("test_server_test_lib.hrl").
%% The CTH hooks all tests
init(_Id, _Opts) ->
[].
pre_init_per_testcase(_TC,Config,State) ->
case os:type() of
{win32, _} ->
%% Extend timeout for windows as starting node
%% can take a long time there
test_server:timetrap( 120000 * test_server:timetrap_scale_factor());
_ ->
ok
end,
{start_slave(Config, 50),State}.
start_slave(Config,_Level) ->
[_,Host] = string:tokens(atom_to_list(node()), "@"),
ct:log("Trying to start ~s~n",
["test_server_tester@"++Host]),
case slave:start(Host, test_server_tester, []) of
{error,Reason} ->
test_server:fail(Reason);
{ok,Node} ->
ct:log("Node ~p started~n", [Node]),
IsCover = test_server:is_cover(),
if IsCover ->
cover:start(Node);
true->
ok
end,
prepare_tester_node(Node,Config)
end.
prepare_tester_node(Node,Config) ->
DataDir = proplists:get_value(data_dir, Config),
%% We would normally use priv_dir for temporary data,
%% but the pathnames gets too long on Windows.
%% Until the run-time system can support long pathnames,
%% use the data dir.
WorkDir = DataDir,
%% WorkDir as well as directory of Test Server suites
%% have to be in code path on Test Server node.
[_ | Parts] = lists:reverse(filename:split(DataDir)),
TSDir = filename:join(lists:reverse(Parts)),
AddPathDirs = case proplists:get_value(path_dirs, Config) of
undefined -> [];
Ds -> Ds
end,
PathDirs = [WorkDir,TSDir | AddPathDirs],
[true = rpc:call(Node, code, add_patha, [D]) || D <- PathDirs],
io:format("Dirs added to code path (on ~w):~n",
[Node]),
[io:format("~s~n", [D]) || D <- PathDirs],
true = rpc:call(Node, os, putenv,
["TEST_SERVER_FRAMEWORK", "undefined"]),
ok = rpc:call(Node, file, set_cwd, [WorkDir]),
[{node,Node}, {work_dir,WorkDir} | Config].
post_end_per_testcase(_TC, Config, Return, State) ->
Node = proplists:get_value(node, Config),
Cover = test_server:is_cover(),
if Cover-> cover:flush(Node);
true -> ok
end,
erlang:monitor_node(Node, true),
slave:stop(Node),
receive
{nodedown, Node} ->
if Cover -> cover:stop(Node);
true -> ok
end
after 5000 ->
erlang:monitor_node(Node, false),
receive {nodedown, Node} -> ok after 0 -> ok end %flush
end,
{Return, State}.
%% Parse an .suite log file
parse_suite(FileName) ->
case file:open(FileName, [read, raw, read_ahead]) of
{ok, Fd} ->
Data = parse_suite(Fd, #suite{ }),
file:close(Fd),
{ok, Data};
_ ->
error
end.
fline(Fd) ->
case prim_file:read_line(Fd) of
eof -> eof;
{ok, Line} -> Line
end.
parse_suite(Fd, S) ->
_Started = fline(Fd),
_Starting = fline(Fd),
"=cases" ++ NCases = fline(Fd),
"=user" ++ _User = fline(Fd),
"=host" ++ Host = fline(Fd),
"=hosts" ++ _Hosts = fline(Fd),
"=emulator_vsn" ++ Evsn = fline(Fd),
"=emulator" ++ Emu = fline(Fd),
"=otp_release" ++ OtpRel = fline(Fd),
"=started" ++ Start = fline(Fd),
NewS = parse_cases(Fd, S#suite{
n_cases_expected = list_to_int(clean(NCases)),
host = list_to_binary(clean(Host)),
emulator_vsn = list_to_binary(clean(Evsn)),
emulator = list_to_binary(clean(Emu)),
otp_release = list_to_binary(clean(OtpRel)),
started = list_to_binary(clean(Start))
}),
"=failed" ++ Failed = fline(Fd),
"=successful" ++ Succ = fline(Fd),
"=user_skipped" ++ UsrSkip = fline(Fd),
"=auto_skipped" ++ AutSkip = fline(Fd),
NewS#suite{ n_cases_failed = list_to_int(clean(Failed)),
n_cases_succ = list_to_int(clean(Succ)),
n_cases_user_skip = list_to_int(clean(UsrSkip)),
n_cases_auto_skip = list_to_int(clean(AutSkip)) }.
parse_cases(Fd, #suite{ n_cases = N,
cases = Cases } = S) ->
case parse_case(Fd) of
finished -> S#suite{ log_ok = true };
{eof, Tc} ->
S#suite{ n_cases = N + 1,
cases = [Tc#tc{ result = crashed }|Cases]};
{ok, Case} ->
parse_cases(Fd, S#suite{ n_cases = N + 1,
cases = [Case|Cases]})
end.
parse_case(Fd) -> parse_case(Fd, #tc{}).
parse_case(Fd, Tc) -> parse_case(fline(Fd), Fd, Tc).
parse_case(eof, _, Tc) -> {eof, Tc};
parse_case("=case" ++ Case, Fd, Tc) ->
Name = list_to_binary(clean(Case)),
parse_case(fline(Fd), Fd, Tc#tc{ name = Name });
parse_case("=logfile" ++ File, Fd, Tc) ->
Log = list_to_binary(clean(File)),
parse_case(fline(Fd), Fd, Tc#tc{ logfile = Log });
parse_case("=elapsed" ++ Elapsed, Fd, Tc) ->
{ok, [Time], _} = io_lib:fread("~f", clean(Elapsed)),
parse_case(fline(Fd), Fd, Tc#tc{ elapsed = Time });
parse_case("=result" ++ Result, _, Tc) ->
case clean(Result) of
"ok" ++ _ ->
{ok, Tc#tc{ result = ok } };
"failed" ++ _ ->
{ok, Tc#tc{ result = failed } };
"skipped" ++ _ ->
{ok, Tc#tc{ result = skip } };
"auto_skipped" ++ _ ->
{ok, Tc#tc{ result = auto_skip } }
end;
parse_case("=finished" ++ _ , _Fd, #tc{ name = undefined }) ->
finished;
parse_case(_, Fd, Tc) ->
parse_case(fline(Fd), Fd, Tc).
skip([]) -> [];
skip([$ |Ts]) -> skip(Ts);
skip(Ts) -> Ts.
%rmnl(L) -> L.
rmnl([]) -> [];
rmnl([$\n | Ts]) -> rmnl(Ts);
rmnl([T|Ts]) -> [T | rmnl(Ts)].
clean(L) ->
rmnl(skip(L)).
list_to_int(L) ->
try
list_to_integer(L)
catch
_:_ ->
0
end.