%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 2011-2016. 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(release_handler_SUITE).
-include_lib("common_test/include/ct.hrl").
-include("test_lib.hrl").
-compile(export_all).
% Default timetrap timeout (set in init_per_testcase).
%-define(default_timeout, ?t:minutes(40)).
-define(default_timeout, ?t:minutes(10)).
suite() ->
[{ct_hooks, [ts_install_cth]}].
init_per_suite(Config) ->
init_priv_dir(Config),
application:start(sasl),
Config.
end_per_suite(Config) ->
clean_priv_dir(Config,true),
ok.
all() ->
case os:type() of
{unix, _} -> unix_cases();
{win32, _} -> win32_cases()
end.
unix_cases() ->
RunErl = filename:join([code:root_dir(),"bin","run_erl"]),
RunErlCases = case filelib:is_file(RunErl) of
true -> [{group, release}];
false -> [no_run_erl]
end,
[target_system, target_system_unicode] ++ RunErlCases ++ cases().
win32_cases() ->
[{group,release} | cases()].
%% Cases that can be run on all platforms
cases() ->
[otp_2740, otp_2760, otp_5761, otp_9402, otp_9417,
otp_9395_check_old_code, otp_9395_check_and_purge,
otp_9395_update_many_mods, otp_9395_rm_many_mods,
instructions, eval_appup, eval_appup_with_restart,
supervisor_which_children_timeout,
release_handler_which_releases, install_release_syntax_check,
upgrade_supervisor, upgrade_supervisor_fail, otp_9864,
otp_10463_upgrade_script_regexp, no_dot_erlang, unicode_upgrade].
groups() ->
[{release,[],
[
{group,release_single},
{group,release_gg}
]},
{release_single,[],
[
upgrade,
upgrade_restart,
client1,
client2
]},
{release_gg,[],
[
upgrade_gg
]}].
%% {group,release}
%% Top group for all cases using run_erl
init_per_group(release, Config) ->
case {os:type(), os:version()} of
{{win32, nt}, Vsn} when Vsn > {6,1,999999} ->
{skip, "Requires admin privileges on Win 8 and later"};
_ ->
Dog = ?t:timetrap(?default_timeout),
P1gInstall = filename:join(priv_dir(Config),p1g_install),
ok = create_p1g(Config,P1gInstall),
ok = create_p1h(Config),
?t:timetrap_cancel(Dog)
end;
%% {group,release_single}
%% Subgroup of {group,release}, contains all cases that are not
%% related to global_group
init_per_group(release_single, Config) ->
Dog = ?t:timetrap(?default_timeout),
%% Create some more releases to upgrade to
ok = create_p1i(Config),
ok = create_p2a(Config),
ok = create_p2b(Config),
?t:timetrap_cancel(Dog);
%% {group,release_gg}
%% Subgroup of {group,release}. global_group tests.
init_per_group(release_gg, Config0) ->
Config = [{sname_prefix,release_gg}|Config0],
PrivDir = priv_dir(Config),
Dog = ?t:timetrap(?default_timeout),
reg_print_proc(), %% starts a printer process on this node
Snames = [Gg1Sname,Gg2Sname,Gg3Sname,Gg4Sname,Gg5Sname,Gg6Sname] =
gg_node_snames(Config),
%% kill all possible nodes which are to be used
ok = stop_nodes([node_name(Sname) || Sname <- Snames]),
%% For gg1, gg3, gg4 and gg5: create a target system running
%% P1G, and with P1H unpacked.
%% For gg2 and gg6: create a target system running P1H.
%% Use gg2 for unpacking and permanenting P1H.
ok = copy_installed(Config,p1g_install,[Gg2Sname]),
InstallNode = unpack_p1h(Config,Gg2Sname),
ok = copy_installed(Config,Gg2Sname,[Gg1Sname,Gg3Sname,Gg4Sname,Gg5Sname]),
ok = permanent_p1h(InstallNode),
ok = stop_nodes([InstallNode]),
ok = copy_installed(Config,Gg2Sname,[Gg6Sname]),
%% Replace the sys.config files
%% The reason for not creating the releases with these configs in
%% the first place (create_p1g, create_p1h) is that then the
%% InstallNode (gg2) will be very slow started since it will try
%% to synch with the other nodes in the global group.
%% Also, the rpc call for installing the P1H release (in
%% permanent_p1h/1) would return {rpc,nodedown} due to change of
%% global groups.
lists:foreach(
fun(Sname) ->
ReleasesDir = filename:join([PrivDir,Sname,"releases"]),
write_term_file(filename:join([ReleasesDir,"P1G","sys.config"]),
gg_config([Gg1Sname,Gg3Sname,Gg4Sname,Gg5Sname])),
write_term_file(filename:join([ReleasesDir,"P1H","sys.config"]),
gg_config([Gg1Sname,Gg2Sname,Gg4Sname,
Gg5Sname,Gg6Sname]))
end,
Snames),
?t:timetrap_cancel(Dog),
[{snames,Snames}|Config].
end_per_group(release, Config) ->
Dog = ?t:timetrap(?default_timeout),
stop_print_proc(),
case os:type() of
{win32,_} -> delete_all_services();
_ -> ok
end,
?t:timetrap_cancel(Dog),
Config;
end_per_group(_GroupName, Config) ->
Config.
init_per_testcase(Case, Config0) ->
Dog = test_server:timetrap(?default_timeout),
Config = [{sname_prefix,Case},{watchdog, Dog}|Config0],
try apply(?MODULE,Case,[cleanup,Config])
catch error:undef -> ok
end,
?t:format("~n======= init_per_testcase done =======~n",[]),
Config.
end_per_testcase(Case, Config) ->
?t:format("~n======= start end_per_testcase =======~n",[]),
Dog=?config(watchdog, Config),
test_server:timetrap_cancel(Dog),
try apply(?MODULE,Case,[cleanup,Config])
catch error:undef -> ok
end,
%% DEBUG
case ?config(tc_status,Config) of
ok ->
ok;
_Fail ->
%% save logs from master and client nodes
PrivDir = priv_dir(Config),
SaveDir = filename:join(PrivDir,save),
FailDir = filename:join(SaveDir,lists:concat(["failed-",Case])),
ok = filelib:ensure_dir(filename:join(FailDir,"*")),
LogDirs =
filelib:wildcard(filename:join([PrivDir,"*",log])) ++
filelib:wildcard(filename:join([PrivDir,"*",clients,
type1,"*",log])),
lists:foreach(
fun(LogDir) ->
["log",Sname|_] = lists:reverse(filename:split(LogDir)),
copy_tree(Config,LogDir,Sname,FailDir)
end,
LogDirs),
case filelib:is_file("sasl_erl_crash.dump") of
true ->
copy_file("sasl_erl_crash.dump",FailDir);
_ ->
ok
end
end,
%% End DEBUG
%% Remove any remaining sasl_erl_crash.dump
%% These can occur when a new master@<host> is started, before
%% the old usage of the name is unregistered, causing the node to
%% terminate. (This has no effect on the test case, as the node is
%% immediately restarted by heart and the test cases wait until
%% the node is actually up and running -- see wait_nodes_up/2)
file:delete("sasl_erl_crash.dump"),
ok.
gg_node_snames(Config) ->
[tc_sname(Config,X) || X <- [gg1,gg2,gg3,gg4,gg5,gg6]].
%%%-----------------------------------------------------------------
%%% TEST CASES
%% Executed instead of release group when no run_erl program exists
no_run_erl(Config) when is_list(Config) ->
{comment, "No run_erl program"}.
break(Config) ->
erlang:display(test_break),
?t:break(priv_dir(Config)),
ok.
%% Test upgrade and downgrade of erts and other apps on embedded node
upgrade(Conf) when is_list(Conf) ->
reg_print_proc(), %% starts a printer process on test_server node
?t:format("upgrade ~p~n",[reg_print_proc]),
PrivDir = priv_dir(Conf),
Sname = tc_sname(Conf), % nodename for use in this testcase
%% Copy the P1G release to a directory for use in this testcase
ok = copy_installed(Conf,p1g_install,[Sname]),
%% start the test node
[TestNode] = start_nodes(Conf,[Sname],"upgrade start"),
%% unpack and install P1H
ok = rpc_inst(TestNode, install_1, [PrivDir]),
stop_cover(TestNode),
reboot_and_wait(TestNode,"install_1"),
%% reinstall P1H and make it permanent
ok = rpc_inst(TestNode, install_2, []),
stop_cover(TestNode),
reboot_and_wait(TestNode,"install_2",[a]),
%% check that P1H is permanent, unpack and install P1I, unpack P2A
ok = rpc_inst(TestNode, install_3, [PrivDir]),
stop_cover(TestNode),
reboot_and_wait(TestNode,"install_3",[a]),
%% check that P1H is used, install P2A
TestNodeInit1 = rpc:call(TestNode,erlang,whereis,[init]),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_4, []),
wait_nodes_up([{TestNode,TestNodeInit1}],"install_4",[a]),
%% check that P2A is used, then downgrade to P1I
TestNodeInit2 = rpc:call(TestNode,erlang,whereis,[init]),
ok = rpc_inst(TestNode, install_5, []),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_5a, []),
wait_nodes_up([{TestNode,TestNodeInit2}],"install_5",[a]),
%% Check that P1I is used, then make P1I permanent and install P2A
TestNodeInit3 = rpc:call(TestNode,erlang,whereis,[init]),
ok = rpc_inst(TestNode, install_6, []),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_6a, []),
wait_nodes_up([{TestNode,TestNodeInit3}],"install_6",[a]),
%% check that P2A is used, then downgrade to P1H
TestNodeInit4 = rpc:call(TestNode,erlang,whereis,[init]),
ok = rpc_inst(TestNode, install_7, []),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_7a, []),
wait_nodes_up([{TestNode,TestNodeInit4}],"install_7",[a]),
%% check that P1H is used, then install P1I and check that it is permanent
%% then reinstall P2A
TestNodeInit5 = rpc:call(TestNode,erlang,whereis,[init]),
ok = rpc_inst(TestNode, install_8, []),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_8a, []),
wait_nodes_up([{TestNode,TestNodeInit5}],"install_8",[a]),
%% check that P2A is used, make P2A permanent
ok = rpc_inst(TestNode, install_9, []),
stop_cover(TestNode),
reboot_and_wait(TestNode,"install_9",[a]),
%% check that P2A is permanent, reboot to old P1H
TestNodeInit6 = rpc:call(TestNode,erlang,whereis,[init]),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_10, []),
wait_nodes_up([{TestNode,TestNodeInit6}],"install_10",[a]),
%% check that P1H is permanent, remove P1I and P2A
ok = rpc_inst(TestNode, install_11, []),
stop_cover(TestNode),
reboot_and_wait(TestNode,"install_11",[a]),
%% check that P1H is permanent, reboot old P1G
TestNodeInit7 = rpc:call(TestNode,erlang,whereis,[init]),
stop_cover(TestNode),
ok = rpc_inst(TestNode, install_12, []),
wait_nodes_up([{TestNode,TestNodeInit7}],"install_12"),
%% check that P1G is permanent, remove P1H
ok = rpc_inst(TestNode, install_13, []),
stop_cover(TestNode),
reboot_and_wait(TestNode,"install_13"),
%% check that P1G is permanent
ok = rpc_inst(TestNode, install_14, []),
ok.
upgrade(cleanup,Config) ->
TestNode = tc_full_node_name(Config),
ok = stop_nodes([TestNode]).
reboot_and_wait(Node,Tag) ->
reboot_and_wait(Node,Tag,[]).
reboot_and_wait(Node,Tag,Apps) ->
InitPid = rpc:call(Node,erlang,whereis,[init]),
ok = rpc:call(Node,init,reboot,[]),
wait_nodes_up([{Node,InitPid}],Tag,Apps).
%% Test upgrade and downgrade of erts in combination with the
%% restart_emulator option to systools:make_relup. For upgrade, this
%% should cause one restart before the upgrade code, and one
%% after. For downgrade, there will be one restart only - at the end.
upgrade_restart(Conf) when is_list(Conf) ->
reg_print_proc(), %% starts a printer process on test_server node
?t:format("upgrade_restart ~p~n",[reg_print_proc]),
PrivDir = priv_dir(Conf),
Sname = tc_sname(Conf), % nodename for use in this testcase
%% Copy the P1G release to a directory for use in this testcase
ok = copy_installed(Conf,p1g_install,[Sname]),
%% start the test node
[TestNode] = start_nodes(Conf,[Sname],"upgrade_restart start"),
%% unpack and install P2B
TestNodeInit1 = rpc:call(TestNode,erlang,whereis,[init]),
ok = rpc_inst(TestNode, upgrade_restart_1, [PrivDir]),
stop_cover(TestNode),
ok = rpc_inst(TestNode, upgrade_restart_1a, []),
wait_nodes_up([{TestNode,TestNodeInit1}],"upgrade_restart_1",[a]),
%% install P1G
case rpc_inst(TestNode, upgrade_restart_2, []) of
ok ->
ok;
{wait,TestNodeInit2a} ->
%% We catched the node too early - it was supposed to
%% restart twice, so let's wait for one more restart.
wait_nodes_up([{TestNode,TestNodeInit2a}],"upgrade_restart_2a",[]),
ok = rpc_inst(TestNode, upgrade_restart_2a, [])
end,
TestNodeInit2 = rpc:call(TestNode,erlang,whereis,[init]),
stop_cover(TestNode),
ok = rpc_inst(TestNode, upgrade_restart_2b, []),
wait_nodes_up([{TestNode,TestNodeInit2}],"upgrade_restart_2b",[]),
%% Check that P1G is going again
ok = rpc_inst(TestNode, upgrade_restart_3, []),
ok.
upgrade_restart(cleanup,Config) ->
TestNode = tc_full_node_name(Config),
ok = stop_nodes([TestNode]).
%% Test upgrade and downgrade of erts, diskless
client1(Conf) when is_list(Conf) ->
reg_print_proc(), %% starts a printer process on test_server node
PrivDir = priv_dir(Conf),
Master = tc_sname(Conf,master),
Client = tc_sname(Conf,client),
MasterDir = filename:join(PrivDir,Master),
%% Copy the P1G release to a directory for use in this testcase
ok = copy_installed(Conf,p1g_install,[Master]),
ok = copy_client(Conf,Master,Client,client1),
%% start the master node
[TestNode] = start_nodes(Conf,[Master],"client1"),
ok = rpc_inst(TestNode, client1_1, [PrivDir,MasterDir,Client]),
ok.
client1(cleanup,Config) ->
MasterNode = tc_full_node_name(Config,master),
ClientNode = tc_full_node_name(Config,client),
ok = stop_nodes([MasterNode,ClientNode]).
%% Test diskless release handling when illegal master node
client2(Conf) when is_list(Conf) ->
reg_print_proc(), %% starts a printer process on test_server node
PrivDir = priv_dir(Conf),
Master = tc_sname(Conf,master),
Client = tc_sname(Conf,client),
%% Copy the P1G release to a directory for use in this testcase
ok = copy_installed(Conf,p1g_install,[Master]),
ok = copy_client(Conf,Master,Client,client2),
%% start the master node
[TestNode] = start_nodes(Conf,[Master],"client2"),
ok = rpc_inst(TestNode, client2, [PrivDir,Client]),
ok.
client2(cleanup,Config) ->
MasterNode = tc_full_node_name(Config,master),
ClientNode = tc_full_node_name(Config,client),
ok = stop_nodes([MasterNode,ClientNode]).
%% Test instructions _not_ tested by the installer module.
instructions(Conf) when is_list(Conf) ->
DataDir = ?config(data_dir, Conf),
Dir = filename:join(DataDir, "c"),
true = code:add_path(Dir),
check_bstate("no", []),
ok = application:start(c),
ok = wait_for(bb),
check_bstate("first", []),
FirstBB = whereis(bb),
case whereis(cc) of
Pid when is_pid(Pid) -> ok;
_ -> ?t:fail("cc not started")
end,
%% Stop and start cc process
S1 = [point_of_no_return,
{stop, [aa]},
{apply, {?MODULE, no_cc, []}},
{start, [aa]}],
{ok, _} = release_handler_1:eval_script(S1),
case whereis(cc) of
Pid2 when is_pid(Pid2) -> ok;
_ -> ?t:fail("cc not started")
end,
%% Make bb run old version of b.
S2 = [point_of_no_return,
{remove, {b, soft_purge, soft_purge}}],
{ok, [{b, soft_purge}]} = release_handler_1:eval_script(S2),
check_bstate("first", [FirstBB]),
false = code:is_loaded(b),
{error,{old_processes,b}} = release_handler_1:eval_script(S2),
check_bstate("first", [FirstBB]),
%% Let supervisor restart bb with new code
S3 = [point_of_no_return,
{purge, [b]}],
{ok, []} = release_handler_1:eval_script(S3),
ok = wait_for(bb),
check_bstate("second", []),
SecondBB = whereis(bb),
if
SecondBB =:= FirstBB -> ?t:fail("bb not killed");
true -> ok
end,
%% Restart bb yet another time
ok = application:stop(c),
ok = application:start(c),
ok = wait_for(bb),
check_bstate("third", []),
ThirdBB = whereis(bb),
case ThirdBB of
_ when is_pid(ThirdBB) -> ok;
undefined -> ?t:fail("bb not started")
end,
%% Make bb run old version of b.
%%c:l(b),
check_bstate("third", []),
false = code:purge(b),
check_bstate("third", []),
{module,b} = code:load_file(b),
check_bstate("third", [ThirdBB]),
%% Let supervisor restart bb yet another time
S4 = [point_of_no_return,
{remove, {b, brutal_purge, soft_purge}}],
{ok, HopefullyEmpty} = release_handler_1:eval_script(S4),
ok = wait_for(bb),
FourthBB = whereis(bb),
case HopefullyEmpty of
[{b, soft_purge}] ->
%% The process managed to start between purge and delete
check_bstate("fourth", [FourthBB]);
[] ->
%% The process started after delete
check_bstate("fourth", [])
end,
application:stop(c),
check_bstate("no", []),
ok.
instructions(cleanup,Conf) ->
application:stop(c),
really_del_code([aa,b,c_sup]),
code:del_path(filename:join(?config(data_dir,Conf), "c")),
ok.
really_del_code(Mods) ->
lists:foreach(fun(Mod) ->
code:purge(Mod), % remove old code
code:delete(Mod),% make current code old
code:purge(Mod) % remove old code
end,
Mods).
check_bstate(Slogan,ExpectedProcs) ->
BB = whereis(bb),
ActualProcs = lists:sort([P || P <- processes(),
erlang:check_process_code(P, b)]),
ExpectedProcs2 = lists:sort(ExpectedProcs),
?t:format("check_bstate:~n~p~n~p~n",
[{"bb process", Slogan, BB},
{"Processes running old b code", ActualProcs}]),
if
Slogan =:= "no", BB =/= undefined ->
?t:fail("instructions failed; process bb is running");
Slogan =/= "no", BB =:= undefined ->
?t:fail("instructions failed; process bb is not running");
ExpectedProcs2 =:= [], ActualProcs =/= ExpectedProcs2 ->
?t:fail("instructions failed; old b processes are running");
ActualProcs =/= ExpectedProcs2 ->
?t:fail("instructions failed; wrong number of old b processes are running");
true ->
ok
end.
wait_for(Name) ->
case whereis(Name) of
undefined ->
timer:sleep(100),
wait_for(Name);
Pid when is_pid(Pid) ->
ok
end.
no_cc() ->
case whereis(cc) of
Pid when is_pid(Pid) -> ?t:fail("cc not stopped");
_ -> ok
end.
%%%-----------------------------------------------------------------
%%% Testing of reported bugs and other tickets.
%%%-----------------------------------------------------------------
%%-----------------------------------------------------------------
%% release_handler_1:get_supervised_procs/0 test
%%-----------------------------------------------------------------
supervisor_which_children_timeout(Conf) ->
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"supervisor_which_children_timeout"),
DataDir = ?config(data_dir,Conf),
LibDir = filename:join([DataDir,release_handler_timeouts]),
Rel1 = create_and_install_fake_first_release(Dir,[{dummy,"0.1",LibDir}]),
{ok, Node} = t_start_node(supervisor_which_children_timeout, Rel1, []),
Proc = rpc:call(Node, erlang, whereis, [dummy_sup_2]),
ok = rpc:call(Node, sys, suspend, [Proc]),
Result = {badrpc, {'EXIT', {suspended_supervisor, _}}} =
rpc:call(Node, release_handler_1, get_supervised_procs, []),
?t:format("release_handler_1:get_supervised_procs/0: ~p~n", [Result]),
ok.
supervisor_which_children_timeout(cleanup, _Conf) ->
stop_node(node_name(supervisor_which_children_timeout)).
%% Test that check_install_release will fail for illegal relup
%% instructions, even after point of no return.
install_release_syntax_check(Conf) when is_list(Conf) ->
S1 = [point_of_no_return, illegal_instruction],
{error,{illegal_instruction_after_point_of_no_return,illegal_instruction}} =
release_handler_1:check_script(S1,[]),
S2 = [point_of_no_return,restart_new_emulator],
{error,{illegal_instruction_after_point_of_no_return,restart_new_emulator}} =
release_handler_1:check_script(S2,[]),
ok.
%%-----------------------------------------------------------------
%% release_handler:which_releases/0 and 1 test
%%-----------------------------------------------------------------
release_handler_which_releases(Conf) ->
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"release_handler_which_releases"),
DataDir = ?config(data_dir,Conf),
LibDir = filename:join([DataDir,release_handler_timeouts]),
Rel1 = create_and_install_fake_first_release(Dir,[{dummy,"0.1",LibDir}]),
{ok, Node} = t_start_node(release_handler_which_releases, Rel1, []),
Releases0 = rpc:call(Node, release_handler, which_releases, []),
Releases1 = rpc:call(Node, release_handler, which_releases, [permanent]),
Releases2 = rpc:call(Node, release_handler, which_releases, [old]),
1 = length(Releases0),
1 = length(Releases1),
0 = length(Releases2),
?t:format("release_handler:which_releases/0: ~p~n", [Releases0]),
?t:format("release_handler:which_releases/1: ~p~n", [Releases1]),
?t:format("release_handler:which_releases/1: ~p~n", [Releases2]),
ok.
release_handler_which_releases(cleanup,_Conf) ->
stop_node(node_name(release_handler_which_releases)).
%%-----------------------------------------------------------------
%% Ticket: OTP-2740
%% Slogan: vsn not numeric doesn't work so good in release_handling
%%-----------------------------------------------------------------
%% Test vsn.
otp_2740(Conf) ->
DataDir = ?config(data_dir, Conf),
Dir = filename:join(DataDir, "otp_2740"),
true = code:add_path(Dir),
{module, vsn_numeric} = c:l(vsn_numeric),
{module, vsn_tuple} = c:l(vsn_tuple),
{module, vsn_list} = c:l(vsn_list),
{module, vsn_atom} = c:l(vsn_atom),
{module, vsn_string} = c:l(vsn_string),
231894 = release_handler_1:get_current_vsn(vsn_numeric),
{tuple,["of",terms]} = release_handler_1:get_current_vsn(vsn_tuple),
[list,"of",{some,terms}] = release_handler_1:get_current_vsn(vsn_list),
atom = release_handler_1:get_current_vsn(vsn_atom),
"a string" = release_handler_1:get_current_vsn(vsn_string),
true = code:del_path(Dir),
ok.
%%-----------------------------------------------------------------
%% Ticket: OTP-2760
%% Slogan: when an application is removed from a node it is not unloaded
%%-----------------------------------------------------------------
%% Test that when an application is removed from a node it is also unloaded.
otp_2760(Conf) ->
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_2760"),
DataDir = ?config(data_dir,Conf),
LibDir = filename:join([DataDir,app1_app2,lib1]),
Rel1 = create_and_install_fake_first_release(Dir,[{app1,"1.0",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,"after",[],{[Rel1],[Rel1],[LibDir]}),
Rel2Dir = filename:dirname(Rel2),
%% Start a node with Rel1.boot and check that the app1 module is loaded
{ok, Node} = t_start_node(otp_2760, Rel1, []),
{file, _} = rpc:call(Node, code, is_loaded, [app1]),
%% Execute the relup script and check that app1 is unloaded
{ok, [{"after", [{_Rel1Vsn, _Descr, Script}], _}]} =
file:consult(filename:join(Rel2Dir, "relup")),
{ok, []} = rpc:call(Node, release_handler_1, eval_script, [Script]),
false = rpc:call(Node, code, is_loaded, [app1]),
ok.
otp_2760(cleanup,_Conf) ->
stop_node(node_name(otp_2760)).
%% Test upgrade using other filesystem than the defined in OTP and
%% option {update_paths, true}
otp_5761(Conf) when is_list(Conf) ->
%% In the following test case, the release upgrade is somewhat
%% simplified (since it is not this procedure in itself we want to
%% test, but that application code directories are set correctly.)
%% Existing Erlang release is used as base, instead of creating
%% a new one.
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_5761"),
RelDir = filename:join(?config(data_dir, Conf), "app1_app2"),
LibDir1 = filename:join(RelDir, "lib1"),
LibDir2 = filename:join(RelDir, "lib2"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{app1,"1.0",LibDir1},
{app2,"1.0",LibDir1}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{app1,"2.0",LibDir2},
{app2,"1.0",LibDir2}],
{[Rel1],[Rel1],[LibDir1]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_5761, Rel1, filename:join(Rel1Dir,"sys.config")),
%% Bind some variable names that will be used in patternmatching below
App11Dir = filename:join([LibDir1, "app1-1.0"]),
App12Dir = filename:join([LibDir2, "app1-2.0"]),
App2aDir = filename:join([LibDir1, "app2-1.0"]),
App2bDir = filename:join([LibDir2, "app2-1.0"]),
%% Make sure correct code paths are used
App11Dir = rpc:call(Node, code, lib_dir, [app1]),
App2aDir = rpc:call(Node, code, lib_dir, [app2]),
%% Unpack rel2 (make sure it does not work if an AppDir is bad)
LibDir3 = filename:join(RelDir, "lib3"),
{error, {no_such_directory, _}} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{app1,"2.0",LibDir2}, {app2,"1.0",LibDir3}]]),
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{app1,"2.0",LibDir2}, {app2,"1.0",LibDir2}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
%% Install RelVsn2 without {update_paths, true} option
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn2]),
App12Dir = rpc:call(Node, code, lib_dir, [app1]),
App2aDir = rpc:call(Node, code, lib_dir, [app2]),
%% Install RelVsn1 again
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn1]),
%% Install RelVsn2 with {update_paths, true} option
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release,
[RelVsn2, [{update_paths, true}]]),
App12Dir = rpc:call(Node, code, lib_dir, [app1]),
App2bDir = rpc:call(Node, code, lib_dir, [app2]),
%% Install RelVsn1 again
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release,
[RelVsn1, [{update_paths, true}]]),
App11Dir = rpc:call(Node, code, lib_dir, [app1]),
App2aDir = rpc:call(Node, code, lib_dir, [app2]),
ok.
otp_5761(cleanup,_Conf) ->
stop_node(node_name(otp_5761)).
%% When a new version of an application is added, but no module is
%% changed - the path was not updated - i.e. code:priv_dir would point
%% to the old location.
otp_9402(Conf) when is_list(Conf) ->
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_9402"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{a,"1.1",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{a,"1.2",LibDir}],
{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_9402, Rel1, filename:join(Rel1Dir,"sys.config")),
%% Check path
Dir1 = filename:join([LibDir, "a-1.1"]),
Dir1 = rpc:call(Node, code, lib_dir, [a]),
ABeam = rpc:call(Node, code, which, [a]),
%% Install second release, with no changed modules
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{a,"1.2",LibDir}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn2]),
%% Check path
Dir2 = filename:join([LibDir, "a-1.2"]),
Dir2 = rpc:call(Node, code, lib_dir, [a]),
APrivDir2 = rpc:call(Node, code, priv_dir, [a]),
true = filelib:is_regular(filename:join(APrivDir2,"file")),
%% Just to make sure no modules have been re-loaded
ABeam = rpc:call(Node, code, which, [a]),
%% Install RelVsn1 again
{ok, _OtherVsn, []} =
rpc:call(Node, release_handler, install_release, [RelVsn1]),
%% Check path
Dir1 = rpc:call(Node, code, lib_dir, [a]),
APrivDir1 = rpc:call(Node, code, priv_dir, [a]),
false = filelib:is_regular(filename:join(APrivDir1,"file")),
%% Just to make sure no modules have been re-loaded
ABeam = rpc:call(Node, code, which, [a]),
ok.
otp_9402(cleanup,_Conf) ->
stop_node(node_name(otp_9402)).
%% When a module is deleted in an appup instruction, the upgrade
%% failed if the module was not loaded.
otp_9417(Conf) when is_list(Conf) ->
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_9417"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{b,"1.0",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{b,"2.0",LibDir}],
{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_9417, Rel1, filename:join(Rel1Dir,"sys.config")),
%% Check paths
Dir1 = filename:join([LibDir, "b-1.0"]),
Dir1 = rpc:call(Node, code, lib_dir, [b]),
BLibBeam = filename:join([Dir1,"ebin","b_lib.beam"]),
BLibBeam = rpc:call(Node,code,which,[b_lib]),
false = rpc:call(Node,code,is_loaded,[b_lib]),
false = rpc:call(Node,code,is_loaded,[b_server]),
%% Install second release, which removes b_lib module
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{b,"2.0",LibDir}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
{ok, _RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn2]),
%% Check that the module does no longer exist
false = rpc:call(Node, code, is_loaded, [b_lib]),
non_existing = rpc:call(Node, code, which, [b_lib]),
%% And check some paths
Dir2 = filename:join([LibDir, "b-2.0"]),
Dir2 = rpc:call(Node, code, lib_dir, [b]),
BServerBeam = filename:join([Dir2,"ebin","b_server.beam"]),
{file,BServerBeam} = rpc:call(Node,code,is_loaded,[b_server]),
ok.
otp_9417(cleanup,_Conf) ->
stop_node(node_name(otp_9417)).
%% OTP-9395 - performance problems when there are MANY processes
%% Test that the procedure of checking for old code before an upgrade
%% can be started is faster when there is no old code in
%% the system.
otp_9395_check_old_code(Conf) when is_list(Conf) ->
NProcs = 1000,
MPath = filename:join([?config(data_dir,Conf),"lib","many_mods-1.0","ebin"]),
code:add_path(MPath),
%% Start NProc processes, each referencing each module
{Modules,Pids} = m:start(NProcs),
%% Load each module again in order to get old code
[code:load_file(Mod) || Mod <- Modules],
true = erlang:check_old_code(m10),
S = [point_of_no_return |
[{remove,{M,soft_purge,soft_purge}} || M <- Modules]],
%% Do the old code check, then purge, and redo
{T1,{ok,PurgeMods}} = timer:tc(release_handler_1,check_script,[S,[]]),
true = (lists:sort(PurgeMods) == lists:sort(Modules)),
[code:purge(M) || M <- PurgeMods],
{T2,{ok,[]}} = timer:tc(release_handler_1,check_script,[S,[]]),
%% Cleanup
lists:foreach(fun(Pid) -> Pid ! stop end, Pids),
lists:foreach(fun(Mod) -> code:purge(Mod),
code:delete(Mod),
code:purge(Mod)
end, Modules),
code:del_path(MPath),
%% Test that second run was much faster than the first
if T2 > 0 ->
X = T1/T2,
ct:log("~p procs, ~p mods -> ~n"
"\tWith old code: ~.2f sec~n"
"\tAfter purge: ~.2f sec~n"
"\tT1/T2: ~.2f",
[NProcs,length(Modules),T1/1000000,T2/1000000,X]),
if X < 1 ->
ct:fail({no_improvement_after_purge,X});
true ->
ok
end;
T1 > 0 -> %% Means T1/T2 = infinite
ok;
true ->
ct:fail({unexpected_values,T1,T2})
end,
ok.
%% OTP-9395 - performance problems when there are MANY processes
%% Added option 'purge' to check_install_release
otp_9395_check_and_purge(Conf) when is_list(Conf) ->
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_9395_check_and_purge"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{b,"1.0",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{b,"2.0",LibDir}],
{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_9395_check_and_purge, Rel1,
filename:join(Rel1Dir,"sys.config")),
%% Make sure there is old code for b_lib and b_server
rpc:call(Node,code,load_file,[b_lib]),
rpc:call(Node,code,load_file,[b_lib]),
rpc:call(Node,code,load_file,[b_server]),
rpc:call(Node,code,load_file,[b_server]),
true = rpc:call(Node,erlang,check_old_code,[b_lib]),
true = rpc:call(Node,erlang,check_old_code,[b_server]),
%% Unpack second release, which removes b_lib module and loads b_server
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{b,"2.0",LibDir}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
%% Do check_install_release, and check that old code still exists
{ok, _RelVsn1, []} =
rpc:call(Node, release_handler, check_install_release, [RelVsn2]),
true = rpc:call(Node,erlang,check_old_code,[b_lib]),
true = rpc:call(Node,erlang,check_old_code,[b_server]),
%% Do check_install_release with option 'purge' and check that old
%% code is gone
{ok, _RelVsn1, []} =
rpc:call(Node, release_handler, check_install_release, [RelVsn2,[purge]]),
false = rpc:call(Node,erlang,check_old_code,[b_lib]),
false = rpc:call(Node,erlang,check_old_code,[b_server]),
ok.
otp_9395_check_and_purge(cleanup,_Conf) ->
stop_node(node_name(otp_9395_check_and_purge)).
%% OTP-9395 - performance problems when there are MANY processes
%% Upgrade which updates many modules (brutal_purge)
otp_9395_update_many_mods(Conf) when is_list(Conf) ->
%% "nain" is very slow - it fails this test quite often due to a
%% long sys call
%% /proc/cpuinfo: "clock: 1249MHz"
inet:gethostname() == {ok,"nain"} andalso throw({skip,"slow test host"}),
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_9395_update_many_mods"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{many_mods,"1.0",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{many_mods,"1.1",LibDir}],
{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_9395_update_many_mods, Rel1,
filename:join(Rel1Dir,"sys.config")),
%% Start a lot of processes on the new node, all with refs to each
%% module that will be updated
NProcs = 1000,
{Modules,Pids1} = rpc:call(Node,m,start,[NProcs]),
%% Then load modules in order to get old code
[rpc:call(Node,code,load_file,[Mod]) || Mod <- Modules],
true = rpc:call(Node,erlang,check_old_code,[m10]),
%% Unpack second release, which updates all mX modules
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{many_mods,"1.1",LibDir}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
%% First, install release directly and check how much time it takes
rpc:call(Node,erlang,garbage_collect,[]),
rpc:call(Node,erlang,system_flag,[scheduler_wall_time,true]),
{TInst0,{ok, _, []}} =
timer:tc(rpc,call,[Node, release_handler, install_release, [RelVsn2]]),
SWT0 = rpc:call(Node,erlang,statistics,[scheduler_wall_time]),
% ct:log("install_release: ~.2f",[TInst0/1000000]),
%% Restore to old release, spawn processes again and load to get old code
{_,RelVsn1} = init:script_id(),
{_TInst1,{ok, _, []}} =
timer:tc(rpc,call,[Node, release_handler, install_release, [RelVsn1]]),
% ct:log("install_release: ~.2f",[_TInst1/1000000]),
[exit(Pid,kill) || Pid <- Pids1],
{Modules,_Pids2} = rpc:call(Node,m,start,[NProcs]),
[rpc:call(Node,code,load_file,[Mod]) || Mod <- Modules],
true = rpc:call(Node,erlang,check_old_code,[m10]),
%% Run check_install_release with purge before install this time
{_TCheck,{ok, _RelVsn1, []}} =
timer:tc(rpc,call,[Node, release_handler, check_install_release,
[RelVsn2,[purge]]]),
% ct:log("check_install_release with purge: ~.2f",[_TCheck/1000000]),
%% Finally install release after check and purge, and check that
%% this install was faster than the first.
rpc:call(Node,erlang,system_flag,[scheduler_wall_time,false]),
rpc:call(Node,erlang,garbage_collect,[]),
rpc:call(Node,erlang,system_flag,[scheduler_wall_time,true]),
{TInst2,{ok, _RelVsn1, []}} =
timer:tc(rpc,call,[Node, release_handler, install_release, [RelVsn2]]),
SWT2 = rpc:call(Node,erlang,statistics,[scheduler_wall_time]),
% ct:log("install_release: ~.2f",[TInst2/1000000]),
%% Calculate and print real time and CPU utilization
SumFun = fun({_,A,T},{AAcc,TAcc}) -> {A+AAcc,T+TAcc} end,
{SumA0,SumT0} = lists:foldl(SumFun,{0,0},SWT0),
{SumA2,SumT2} = lists:foldl(SumFun,{0,0},SWT2),
TI0=TInst0/1000000,
TI2=TInst2/1000000,
CPU0=SumA0/SumT0,
CPU2=SumA2/SumT2,
X0 = TI0*CPU0,
X2 = TI2*CPU2,
ct:log("First run: T=~.2fsec, CPU=~.2f, T*CPU=~.2f~n"
"Second run: T=~.2fsec, CPU=~.2f, T*CPU=~.2f~n",
[TI0, CPU0, X0, TI2, CPU2, X2]),
true = (X2 =< X0), % disregarding wait time for file access etc.
ok.
otp_9395_update_many_mods(cleanup,_Conf) ->
stop_node(node_name(otp_9395_update_many_mods)).
%% OTP-9395 - performance problems when there are MANY processes
%% Upgrade which removes many modules (brutal_purge)
otp_9395_rm_many_mods(Conf) when is_list(Conf) ->
%% "nain" is very slow - it fails this test quite often due to a
%% long sys call
%% /proc/cpuinfo: "clock: 1249MHz"
inet:gethostname() == {ok,"nain"} andalso throw({skip,"slow test host"}),
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_9395_rm_many_mods"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{many_mods,"1.0",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{many_mods,"2.0",LibDir}],
{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_9395_rm_many_mods, Rel1,
filename:join(Rel1Dir,"sys.config")),
%% Start a lot of processes on the new node, all with refs to each
%% module that will be updated
NProcs = 1000,
{Modules,Pids1} = rpc:call(Node,m,start,[NProcs]),
%% Then load modules in order to get old code
[rpc:call(Node,code,load_file,[Mod]) || Mod <- Modules],
true = rpc:call(Node,erlang,check_old_code,[m10]),
%% Unpack second release, which removes all mX modules
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{many_mods,"2.0",LibDir}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
%% First, install release directly and check how much time it takes
rpc:call(Node,erlang,garbage_collect,[]),
rpc:call(Node,erlang,system_flag,[scheduler_wall_time,true]),
{TInst0,{ok, _, []}} =
timer:tc(rpc,call,[Node, release_handler, install_release, [RelVsn2]]),
SWT0 = rpc:call(Node,erlang,statistics,[scheduler_wall_time]),
% ct:log("install_release: ~.2f",[TInst0/1000000]),
%% Restore to old release, spawn processes again and load to get old code
{_,RelVsn1} = init:script_id(),
{_TInst1,{ok, _, []}} =
timer:tc(rpc,call,[Node, release_handler, install_release, [RelVsn1]]),
% ct:log("install_release: ~.2f",[_TInst1/1000000]),
[exit(Pid,kill) || Pid <- Pids1],
{Modules,_Pids2} = rpc:call(Node,m,start,[NProcs]),
[rpc:call(Node,code,load_file,[Mod]) || Mod <- Modules],
true = rpc:call(Node,erlang,check_old_code,[m10]),
%% Run check_install_release with purge before install this time
{_TCheck,{ok, _RelVsn1, []}} =
timer:tc(rpc,call,[Node, release_handler, check_install_release,
[RelVsn2,[purge]]]),
% ct:log("check_install_release with purge: ~.2f",[_TCheck/1000000]),
%% Finally install release after check and purge, and check that
%% this install was faster than the first.
rpc:call(Node,erlang,system_flag,[scheduler_wall_time,false]),
rpc:call(Node,erlang,garbage_collect,[]),
rpc:call(Node,erlang,system_flag,[scheduler_wall_time,true]),
{TInst2,{ok, _RelVsn1, []}} =
timer:tc(rpc,call,[Node, release_handler, install_release, [RelVsn2]]),
SWT2 = rpc:call(Node,erlang,statistics,[scheduler_wall_time]),
% ct:log("install_release: ~.2f",[TInst2/1000000]),
%% Calculate and print real time and CPU utilization
SumFun = fun({_,A,T},{AAcc,TAcc}) -> {A+AAcc,T+TAcc} end,
{SumA0,SumT0} = lists:foldl(SumFun,{0,0},SWT0),
{SumA2,SumT2} = lists:foldl(SumFun,{0,0},SWT2),
TI0=TInst0/1000000,
TI2=TInst2/1000000,
CPU0=SumA0/SumT0,
CPU2=SumA2/SumT2,
X0 = TI0*CPU0,
X2 = TI2*CPU2,
ct:log("First run: T=~.2fsec, CPU=~.2f, T*CPU=~.2f~n"
"Second run: T=~.2fsec, CPU=~.2f, T*CPU=~.2f~n",
[TI0, CPU0, X0, TI2, CPU2, X2]),
true = (X2 =< X0), % disregarding wait time for file access etc.
ok.
otp_9395_rm_many_mods(cleanup,_Conf) ->
stop_node(node_name(otp_9395_rm_many_mods)).
otp_9864(Conf) ->
case os:type() of
{win32,_} ->
{skip,"Testing handling of symlinks - skipped on windows"};
_ ->
do_otp_9864(Conf)
end.
do_otp_9864(Conf) ->
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"otp_9864"),
RelDir = filename:join(?config(data_dir, Conf), "app1_app2"),
%% Copy libs to priv_dir because remove_release will remove some
%% of these again, and we don't want to remove anything from
%% data_dir
copy_tree(Conf,filename:join(RelDir, "lib1"),Dir),
copy_tree(Conf,filename:join(RelDir, "lib2"),Dir),
LibDir1 = filename:join(Dir, "lib1"),
LibDir2 = filename:join(Dir, "lib2"),
%% Create the releases
Rel1 = create_and_install_fake_first_release(Dir,
[{app1,"1.0",LibDir1},
{app2,"1.0",LibDir1}]),
Rel2 = create_fake_upgrade_release(Dir,
"2",
[{app1,"2.0",LibDir2},
{app2,"1.0",LibDir2}],
{[Rel1],[Rel1],[LibDir1]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(otp_9864, Rel1, filename:join(Rel1Dir,"sys.config")),
%% Unpack rel2 (make sure it does not work if an AppDir is bad)
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{app1,"2.0",LibDir2}, {app2,"1.0",LibDir2}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
%% Install RelVsn2
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn2]),
%% Create a symlink inside release 2
Releases2Dir = filename:join([Dir,"releases","2"]),
Link = filename:join(Releases2Dir,"foo_symlink_dir"),
file:make_symlink(Releases2Dir,Link),
%% Back down to RelVsn1
{ok, RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn1]),
%% This will fail if symlinks are not handled
ok = rpc:call(Node, release_handler, remove_release, [RelVsn2]),
ok.
otp_9864(cleanup,_Conf) ->
stop_node(node_name(otp_9864)).
upgrade_supervisor(Conf) when is_list(Conf) ->
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"upgrade_supervisor"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Lib1 = [{a,"1.0",LibDir}],
Lib2 = [{a,"9.0",LibDir}],
Rel1 = create_and_install_fake_first_release(Dir,Lib1),
Rel2 = create_fake_upgrade_release(Dir,"2",Lib2,{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(upgrade_supervisor, Rel1,
filename:join(Rel1Dir,"sys.config")),
%% Check path
Dir1 = filename:join([LibDir, "a-1.0"]),
Dir1 = rpc:call(Node, code, lib_dir, [a]),
ASupBeam1 = filename:join([Dir1,ebin,"a_sup.beam"]),
ASupBeam1 = rpc:call(Node, code, which, [a_sup]),
%% Install second release, with no changed modules
{ok, RelVsn2} = rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", Lib2]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
{ok, _RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn2]),
%% Check that libdir is changed
Dir2 = filename:join([LibDir, "a-9.0"]),
Dir2 = rpc:call(Node, code, lib_dir, [a]),
ASupBeam2 = filename:join([Dir2,ebin,"a_sup.beam"]),
ASupBeam2 = rpc:call(Node, code, which, [a_sup]),
%% Check that the restart strategy and child spec is updated
{status, _, {module, _}, [_, _, _, _, [_,_,{data,[{"State",State}]}|_]]} =
rpc:call(Node,sys,get_status,[a_sup]),
{state,_,RestartStrategy,[Child],_,_,_,_,_,_,_} = State,
one_for_all = RestartStrategy, % changed from one_for_one
{child,_,_,_,_,brutal_kill,_,_} = Child, % changed from timeout 2000
ok.
upgrade_supervisor(cleanup,_Condf) ->
stop_node(node_name(upgrade_supervisor)).
%% Check that if the supervisor fails, then the upgrade is rolled back
%% and an ok error message is returned
upgrade_supervisor_fail(Conf) when is_list(Conf) ->
%% Set some paths
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"upgrade_supervisor_fail"),
LibDir = filename:join(?config(data_dir, Conf), "lib"),
%% Create the releases
Lib1 = [{a,"1.0",LibDir}],
Lib2 = [{a,"9.1",LibDir}],
Rel1 = create_and_install_fake_first_release(Dir,Lib1),
Rel2 = create_fake_upgrade_release(Dir,"2",Lib2,{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(upgrade_supervisor_fail, Rel1,
filename:join(Rel1Dir,"sys.config")),
%% Check path
Dir1 = filename:join([LibDir, "a-1.0"]),
Dir1 = rpc:call(Node, code, lib_dir, [a]),
ASupBeam1 = filename:join([Dir1,ebin,"a_sup.beam"]),
ASupBeam1 = rpc:call(Node, code, which, [a_sup]),
%% Install second release, with no changed modules
{ok, RelVsn2} = rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", Lib2]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
ok = net_kernel:monitor_nodes(true),
{error,{code_change_failed,_Pid,a_sup,_Vsn,
{error,{invalid_shutdown,brutal_kil}}}} =
rpc:call(Node, release_handler, install_release,
[RelVsn2, [{error_action,reboot}]]),
%% Check that the upgrade is terminated - normally this would be a
%% rollback, but
%%
%% 1. Default rollback is done with init:restart(), which does not
%% reboot the emulator, it only restarts the system inside the
%% running erlang node.
%%
%% 2. This does not work well on a slave node since, if timing is
%% right (bad), the slave node will get the nodedown from its
%% master (because distribution is terminated as part of
%% init:restart()) and then it will do halt() and thus never be
%% restarted (see slave:wloop/1)
%%
%% 3. Sometimes, though, init:restart() will manage to finish its
%% job before the nodedown is received, making the node
%% actually restart - in which case it might very well confuse
%% the next test case.
%%
%% 4. So, to avoid unstability we use {error_action,reboot} above,
%% to ensure that the node is actually stopped. Of course, in a
%% real system this must be used together with heart
%% supervision, and then the node will be restarted anyway. But
%% here in this simple test case we are satisfied to see that
%% the node terminates.
receive {nodedown,Node} -> ok
after 10000 -> ct:fail(failed_upgrade_never_restarted_node)
end,
ok.
upgrade_supervisor_fail(cleanup,_Condf) ->
stop_node(node_name(upgrade_supervisor_fail)).
%% Test upgrade and downgrade of applications
eval_appup(Conf) when is_list(Conf) ->
%% OTP-6162
%% Create an ETS table which is updated by app1 if there is any
%% change made to the application configuration parameter 'var'
%% (see config_change/3 in myrel/lib1|2/app1-1|2.0/src/app1.erl)
ets:new(otp_6162, [set, public, named_table]),
%% Set some paths
RelDir = filename:join(?config(data_dir, Conf), "app1_app2"),
App11Dir = filename:join([RelDir, "lib1", "app1-1.0"]),
App12Dir = filename:join([RelDir, "lib2", "app1-2.0"]),
EbinDir = filename:join(App11Dir, "ebin"),
%% Start app1-1.0
code:add_patha(EbinDir),
ok = application:start(app1),
App11Dir = code:lib_dir(app1),
ok = gen_server:call(harry, error),
%% Read appup script
{ok,"2.0",UpScript} = release_handler:upgrade_script(app1,App12Dir),
[{load_object_code,_},
point_of_no_return,
{load,_}] = UpScript,
%% Upgrade to app1-2.0
{ok, []} = release_handler:upgrade_app(app1, App12Dir),
App12Dir = code:lib_dir(app1),
error = gen_server:call(harry, error),
%% OTP-6162
%% Value of config parameter 'var' should now be 'val2'
%% (see myrel/lib2/app1-2.0/ebin/app1.app)
[{var,val2}] = ets:lookup(otp_6162, var),
%% Read appup script
{ok,DnScript} = release_handler:downgrade_script(app1,"1.0",App11Dir),
[{load_object_code,_},
point_of_no_return,
{load,_}] = DnScript,
%% Downgrade to app1-1.0
{ok, []} = release_handler:downgrade_app(app1,"1.0",App11Dir),
App11Dir = code:lib_dir(app1),
ok = gen_server:call(harry, error),
%% OTP-6162
%% Value of config parameter 'var' should now be 'val1'
%% (see myrel/lib1/app1-1.0/ebin/app1.app)
[{var,val1}] = ets:lookup(otp_6162, var),
ok = application:stop(app1),
ok = application:unload(app1),
true = code:del_path(EbinDir),
ok.
%% Test upgrade and downgrade of applications when appup contains
%% restart_emulator and restart_new_emulator instructions
eval_appup_with_restart(Conf) when is_list(Conf) ->
%% Set some paths
RelDir = filename:join(?config(data_dir, Conf), "app1_app2"),
App11Dir = filename:join([RelDir, "lib1", "app1-1.0"]),
App13Dir = filename:join([RelDir, "lib3", "app1-3.0"]), %restart_emulator
App14Dir = filename:join([RelDir, "lib4", "app1-4.0"]), %restart_new_emulator
EbinDir1 = filename:join(App11Dir, "ebin"),
EbinDir3 = filename:join(App13Dir, "ebin"),
EbinDir4 = filename:join(App14Dir, "ebin"),
%% Start app1-1.0
code:add_patha(EbinDir1),
ok = application:start(app1),
App11Dir = code:lib_dir(app1),
%% Read appup script
{ok,"3.0",UpScript3} = release_handler:upgrade_script(app1,App13Dir),
[{load_object_code,_},
point_of_no_return,
{load,_},
restart_emulator] = UpScript3,
%% Upgrade to app1-3.0 - restart_emulator
restart_emulator = release_handler:upgrade_app(app1, App13Dir),
App13Dir = code:lib_dir(app1),
%% Fake full upgrade to 3.0
{ok,AppSpec} = file:consult(filename:join([App13Dir,"ebin","app1.app"])),
application_controller:change_application_data(AppSpec,[]),
%% Read appup script
{ok,"4.0",UpScript4} = release_handler:upgrade_script(app1,App14Dir),
[restart_new_emulator,point_of_no_return] = UpScript4,
%% Try pgrade to app1-4.0 - restart_new_emulator
{error,restart_new_emulator} = release_handler:upgrade_app(app1, App14Dir),
App13Dir = code:lib_dir(app1),
%% Read appup script
{ok,DnScript1} = release_handler:downgrade_script(app1,"1.0",App11Dir),
[{load_object_code,_},
point_of_no_return,
{load,_},
restart_emulator] = DnScript1,
%% Still running 3.0 - downgrade to app1-1.0 - restart_emulator
restart_emulator = release_handler:downgrade_app(app1,"1.0",App11Dir),
App11Dir = code:lib_dir(app1),
ok = application:stop(app1),
ok = application:unload(app1),
true = code:del_path(EbinDir1),
%% Start again as version 4.0
code:add_patha(EbinDir4),
ok = application:start(app1),
App14Dir = code:lib_dir(app1),
%% Read appup script
{ok,DnScript3} = release_handler:downgrade_script(app1,"3.0",App13Dir),
[point_of_no_return,restart_emulator] = DnScript3,
%% Downgrade to app1-3.0 - restart_new_emulator
restart_emulator = release_handler:downgrade_app(app1,"3.0",App13Dir),
App13Dir = code:lib_dir(app1),
ok = application:stop(app1),
ok = application:unload(app1),
true = code:del_path(EbinDir3),
false = code:del_path(EbinDir1),
false = code:del_path(EbinDir4),
ok.
%% Test the example/target_system.erl module
target_system(Conf) when is_list(Conf) ->
PrivDir = priv_dir(Conf),
target_system1(Conf,PrivDir).
target_system1(Conf,PrivDir) ->
DataDir = ?config(data_dir,Conf),
TargetCreateDir = filename:join([PrivDir,"target_system","create"]),
TargetInstallDir = filename:join([PrivDir,"target_system","install"]),
ok = filelib:ensure_dir(filename:join(TargetCreateDir,"xx")),
ok = filelib:ensure_dir(filename:join(TargetInstallDir,"xx")),
%% Create the .rel file
RelName = filename:join(TargetCreateDir,"ts-1.0"),
RelFile = RelName++".rel",
RelVsn = "R1A",
create_rel_file(RelFile,RelName,RelVsn,current,[{a, "1.0"}]),
%% Build the target_system module
ExamplesEbin = filename:join([code:lib_dir(sasl),examples,ebin]),
TSPath =
case filelib:is_file(filename:join(ExamplesEbin,"target_system.beam")) of
true ->
ExamplesEbin;
false ->
{ok,_} =
compile:file(filename:join(DataDir,"target_system.erl"),
[{outdir,TargetCreateDir}]),
TargetCreateDir
end,
code:add_path(TSPath),
%% Create the release
target_system:create(RelName,[{path,[filename:join([DataDir,
lib,
"a-1.0",
ebin])]}]),
%% Install the release
target_system:install(RelName,TargetInstallDir),
code:del_path(TSPath),
%% Check that all files exist in installation
ErtsDir = app_dir(erts,current),
true = filelib:is_dir(filename:join(TargetInstallDir,ErtsDir)),
LibDir = filename:join(TargetInstallDir,lib),
KernelVsn = vsn(kernel,current),
StdlibVsn = vsn(stdlib,current),
SaslVsn = vsn(sasl,current),
RelFileBasename = filename:basename(RelFile),
KernelLibDir = filename:join(LibDir,"kernel-"++KernelVsn),
true = filelib:is_dir(KernelLibDir),
true = filelib:is_dir(filename:join(LibDir,"stdlib-"++StdlibVsn)),
true = filelib:is_dir(filename:join(LibDir,"sasl-"++SaslVsn)),
true = filelib:is_dir(filename:join(LibDir,"a-1.0")),
RelDir = filename:join(TargetInstallDir,releases),
true = filelib:is_regular(filename:join(RelDir,"RELEASES")),
true = filelib:is_regular(filename:join(RelDir,"start_erl.data")),
true = filelib:is_regular(filename:join(RelDir,RelFileBasename)),
true = filelib:is_dir(filename:join(RelDir,RelVsn)),
StartBoot = filename:join([RelDir,RelVsn,"start.boot"]),
true = filelib:is_regular(StartBoot),
true = filelib:is_regular(filename:join([RelDir,RelVsn,RelFileBasename])),
BinDir = filename:join(TargetInstallDir,bin),
Erl = filename:join(BinDir,erl),
true = filelib:is_regular(Erl),
true = filelib:is_regular(filename:join(BinDir,"start.boot")),
true = filelib:is_regular(filename:join(BinDir,start_erl)),
true = filelib:is_regular(filename:join(BinDir,start)),
true = filelib:is_regular(filename:join(BinDir,epmd)),
true = filelib:is_regular(filename:join(BinDir,run_erl)),
true = filelib:is_regular(filename:join(BinDir,to_erl)),
%% Check content of files
ErtsVsn = vsn(erts,current),
{ok,SED} = file:read_file(filename:join(RelDir,"start_erl.data")),
[ErtsVsn,RelVsn] = string:tokens(binary_to_list(SED),"\s\n"),
%% Check that installation can be started
Sname = list_to_atom(atom_to_list(?MODULE) ++ "-target_system"),
{ok,Node} = start_target_node_with_erl(Erl,Sname,StartBoot),
TargetInstallDir = rpc:call(Node,code,root_dir,[]),
KernelLibDir = rpc:call(Node,code,lib_dir,[kernel]),
[{RelName,RelVsn,_Apps,permanent}] =
rpc:call(Node,release_handler,which_releases,[]),
?t:format("Target node ok:~nRootDir: ~ts~nKernelLibDir: ~ts~nRelease: ~ts",
[TargetInstallDir,KernelLibDir,RelName]),
ok.
target_system(cleanup,_Conf) ->
Sname = list_to_atom(atom_to_list(?MODULE) ++ "-target_system"),
stop_target_node(node_name(Sname)),
ok.
start_target_node_with_erl(Erl,Sname,Boot) ->
FullName = node_name(Sname),
FilenameMode = case file:native_name_encoding() of
latin1 -> "+fnl";
utf8 -> "+fnui"
end,
Args = [FilenameMode,"-detached", "-noinput","-sname",atom_to_list(Sname),
"-boot",filename:rootname(Boot)],
?t:format("Starting node ~p: ~ts~n",
[FullName, lists:flatten([[X," "] || X <- [Erl|Args]])]),
case rh_test_lib:cmd(Erl,Args,[]) of
ok ->
ok = wait_nodes_up([FullName],"target_system test node"),
{ok,FullName};
Error ->
?t:fail({failed_to_start_node, FullName, Error})
end.
stop_target_node(Node) ->
monitor_node(Node, true),
_ = rpc:call(Node,erlang,halt,[]),
receive {nodedown, Node} -> ok end.
%% Test that the example/target_system.erl module can create and
%% install under a path which includes unicode characters
target_system_unicode(Conf) when is_list(Conf) ->
PrivDir = priv_dir(Conf),
UnicodePrivDir = filename:join(PrivDir,"αβ"),
PA = filename:dirname(code:which(?MODULE)),
%% Make sure this runs on a node with unicode file name mode
Sname = list_to_atom(atom_to_list(?MODULE) ++ "-target_system_unicode"),
{ok,Node} = ?t:start_node(Sname,peer,[{args,"+fnui -pa " ++ PA}]),
ok = rpc:call(Node,file,make_dir,[UnicodePrivDir]),
case rpc:call(Node,application,start,[sasl]) of
ok -> ok;
{error,{already_started,sasl}} -> ok;
Error -> ?t:fail({failed_to_start_sasl_on_test_node,Node,Error})
end,
ok = rpc:call(Node,?MODULE,target_system1,[Conf,UnicodePrivDir]),
ok.
target_system_unicode(cleanup,Conf) ->
Sname = list_to_atom(atom_to_list(?MODULE) ++ "-target_system_unicode"),
Node = node_name(Sname),
_ = rpc:call(Node,?MODULE,target_system,[cleanup,Conf]),
_ = stop_node(Node),
ok.
%%%=================================================================
%%% Testing global groups.
%%%=================================================================
%% This test case involves P1G and P1H with the sys.config as
%% specified in gg_config/1. The test case checks that the global
%% group information is correct before and after the upgrade and also
%% after terminating one of the nodes. The flow is as follows:
%% 1. Start all four nodes of global group gg1 with P1G
%% 2. Terminate one of the nodes, and upgrade the others to P1H. P1H
%% config adds to more nodes to the global group.
%% 3. Start the two remaining nodes with P1H
upgrade_gg(Conf) ->
[Gg1Sname,Gg2Sname,Gg3Sname,Gg4Sname,Gg5Sname,Gg6Sname] =
?config(snames,Conf),
%% start gg1, gg3, gg4, gg5 and check that global group info is ok
Nodes1 = [Gg1,Gg3,Gg4,Gg5] =
start_nodes(Conf,[Gg1Sname,Gg3Sname,Gg4Sname,Gg5Sname],"upgrade_gg"),
[check_gg_info(Node,Nodes1,[],Nodes1--[Node]) || Node <- Nodes1],
%% register a process on each of the nodes
ok = rpc:call(Gg1, installer, reg_proc, [reg1]),
ok = rpc:call(Gg3, installer, reg_proc, [reg3]),
ok = rpc:call(Gg4, installer, reg_proc, [reg4]),
ok = rpc:call(Gg5, installer, reg_proc, [reg5]),
are_names_reg_gg(Gg1, [reg1, reg3, reg4, reg5]),
%% Stop gg3, then upgrade gg1, gg4 and gg5 to P1H
ok = stop_nodes([Gg3]),
ok = install_release_changed_gg(Gg1,"P1H"),
ok = install_release_changed_gg(Gg4,"P1H"),
ok = install_release_changed_gg(Gg5,"P1H"),
%% Check global group info
Gg2 = node_name(Gg2Sname),
Gg6 = node_name(Gg6Sname),
Nodes2 = [Gg1,Gg4,Gg5],
[check_gg_info(Node,Nodes2,[Gg2,Gg6],Nodes2--[Node]) || Node <- Nodes2],
%% start gg2 and gg6
[Gg2,Gg6] = start_nodes(Conf,[Gg2Sname,Gg6Sname],"upgrade_gg start gg2/gg6"),
%% reg proc on each of the nodes
ok = rpc:call(Gg2, installer, reg_proc, [reg2]),
ok = rpc:call(Gg6, installer, reg_proc, [reg6]),
are_names_reg_gg(Gg1, [reg1, reg2, reg4, reg5, reg6]),
%% Check global group info
Nodes3 = [Gg1,Gg2,Gg4,Gg5,Gg6],
[check_gg_info(Node,Nodes3,[],Nodes3--[Node]) || Node <- Nodes3],
ok.
upgrade_gg(cleanup,Config) ->
Snames = ?config(snames,Config),
NodeNames = [node_name(Sname) || Sname <- Snames],
ok = stop_nodes(NodeNames).
%%%-----------------------------------------------------------------
%%% OTP-10463, Bug - release_handler could not handle regexp in appup
%%% files.
otp_10463_upgrade_script_regexp(Config) ->
DataDir = ?config(data_dir,Config),
code:add_path(filename:join([DataDir,regexp_appup,app1,ebin])),
application:start(app1),
{ok,"1.1",_} = release_handler:upgrade_script(app1,code:lib_dir(app1)),
ok.
otp_10463_upgrade_script_regexp(cleanup,Config) ->
DataDir = ?config(data_dir,Config),
application:stop(app1),
code:del_path(filename:join([DataDir,regexp_appup,app1,ebin])),
ok.
no_dot_erlang(_Conf) ->
case init:get_argument(home) of
{ok,[[Home]]} when is_list(Home) ->
no_dot_erlang_1(Home);
_ -> ok
end.
no_dot_erlang_1(Home) ->
DotErlang = filename:join(Home, ".erlang"),
BupErlang = filename:join(Home, ".erlang_testbup"),
try
{ok, Wd} = file:get_cwd(),
case filelib:is_file(DotErlang) of
true -> {ok, _} = file:copy(DotErlang, BupErlang);
false -> ok
end,
Erl0 = filename:join([code:root_dir(),"bin","erl"]),
Erl = filename:nativename(Erl0),
Quote = "\"",
Args = " -noinput -run c pwd -run erlang halt",
ok = file:write_file(DotErlang, <<"io:put_chars(\"DOT_ERLANG_READ\\n\").\n">>),
CMD1 = Quote ++ Erl ++ Quote ++ Args ,
case os:cmd(CMD1) of
"DOT_ERLANG_READ" ++ _ ->
io:format("~p: Success~n", [?LINE]);
Other1 ->
io:format("Failed: ~ts~n",[CMD1]),
io:format("Expected: ~s ++ _~n",["DOT_ERLANG_READ "]),
io:format("Got: ~ts~n",[Other1]),
exit({failed_to_start, test_error})
end,
NO_DOT_ERL = " -boot no_dot_erlang",
CMD2 = Quote ++ Erl ++ Quote ++ NO_DOT_ERL ++ Args,
case lists:prefix(Wd, Other2 = os:cmd(CMD2)) of
true -> io:format("~p: Success~n", [?LINE]);
false ->
io:format("Failed: ~ts~n",[CMD2]),
io:format("Expected: ~s~n",["TESTOK"]),
io:format("Got: ~ts~n",[Other2]),
exit({failed_to_start, no_dot_erlang})
end
after
case filelib:is_file(BupErlang) of
true ->
{ok, _} = file:copy(BupErlang, DotErlang),
_ = file:delete(BupErlang);
false ->
_ = file:delete(DotErlang)
end
end.
%%%-----------------------------------------------------------------
%%% Test unicode handling. Make sure that release name, application
%%% description, and application environment variables may contain
%%% unicode characters.
unicode_upgrade(Conf) ->
%% Set some paths
DataDir = ?config(data_dir, Conf),
PrivDir = priv_dir(Conf),
Dir = filename:join(PrivDir,"unicode"),
LibDir0 = filename:join(DataDir, "unicode"),
LibDir =
case {file:native_name_encoding(),os:type()} of
{utf8,{Os,_}} when Os =/= win32 ->
LD = filename:join(DataDir,"unicode_αβ"),
file:make_symlink("unicode",LD),
LD;
_ ->
LibDir0
end,
%% Create the releases
RelName = "unicode_rel_αβ",
Rel1 = create_and_install_fake_first_release(Dir,{RelName,"1"},
[{u,"1.0",LibDir}]),
Rel2 = create_fake_upgrade_release(Dir,
{RelName,"2"},
[{u,"1.1",LibDir}],
{[Rel1],[Rel1],[LibDir]}),
Rel1Dir = filename:dirname(Rel1),
Rel2Dir = filename:dirname(Rel2),
%% Start a slave node
{ok, Node} = t_start_node(unicode_upgrade, Rel1,
filename:join(Rel1Dir,"sys.config"), "+pc unicode"),
%% Check
Dir1 = filename:join([LibDir, "u-1.0"]),
Dir1 = rpc:call(Node, code, lib_dir, [u]),
UBeam1 = filename:join([Dir1,"ebin","u.beam"]),
UBeam1 = rpc:call(Node,code,which,[u]),
{RelName,"1"} = rpc:call(Node,init,script_id,[]),
{Env,state} = rpc:call(Node,u,u,[]),
'val_αβ' = proplists:get_value('key_αβ',Env),
[{RelName,"1",_,permanent}|_] =
rpc:call(Node,release_handler,which_releases,[]),
{ok,ReleasesDir} = rpc:call(Node,application,get_env,[sasl,releases_dir]),
{ok,[[{release,RelName,"1",_,_,permanent}|_]]} =
file:consult(filename:join(ReleasesDir,"RELEASES")),
%% Install second release
{ok, RelVsn2} =
rpc:call(Node, release_handler, set_unpacked,
[Rel2++".rel", [{u,"1.1",LibDir}]]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "relup")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "start.boot")]),
ok = rpc:call(Node, release_handler, install_file,
[RelVsn2, filename:join(Rel2Dir, "sys.config")]),
{ok, _RelVsn1, []} =
rpc:call(Node, release_handler, install_release, [RelVsn2]),
%% And check
Dir2 = filename:join([LibDir, "u-1.1"]),
Dir2 = rpc:call(Node, code, lib_dir, [u]),
UBeam2 = filename:join([Dir2,"ebin","u.beam"]),
{file,UBeam2} = rpc:call(Node,code,is_loaded,[u]),
{RelName,"1"} = rpc:call(Node,init,script_id,[]),
{Env,{state,'αβ'}} = rpc:call(Node,u,u,[]),
[{RelName,"2",_,current}|_] =
rpc:call(Node,release_handler,which_releases,[]),
{ok,ReleasesDir2} = rpc:call(Node,application,get_env,[sasl,releases_dir]),
{ok,<<"%% coding: utf-8\n[{release,\"unicode_rel_αβ\",\"2\""/utf8,_/binary>>}=
file:read_file(filename:join(ReleasesDir2,"RELEASES")),
ok.
unicode_upgrade(cleanup,_Conf) ->
stop_node(node_name(unicode_upgrade)).
%%%=================================================================
%%% Misceleaneous functions
%%%=================================================================
stop_nodes(Nodes) ->
?t:format("Stopping nodes: ~p~n",[Nodes]),
Running =
lists:foldl(fun(Node,Acc) ->
Now = now(),
stop_cover(Node),
case rpc:call(Node,installer,stop,[Now]) of
{badrpc,nodedown} ->
Acc;
Other ->
?t:format("Stop ~p(~p): ~p~n",
[Node,Now,Other]),
[Node|Acc]
end
end, [], Nodes),
wait_nodes_down(Running).
wait_nodes_down(Nodes) ->
?t:format( "wait_nodes_down ~p:",[Nodes]),
wait_nodes_down(Nodes, 30).
wait_nodes_down(Nodes, 0) ->
test_server:fail({error, {"could not kill nodes", Nodes}});
wait_nodes_down(Nodes, N) ->
Fun = fun(Node, A) ->
case net_adm:ping(Node) of
pong ->
?t:format( " net_adm:ping(~p) = pong", [Node]),
[Node|A];
pang ->
?t:format( " net_adm:ping(~p) = pang", [Node]),
A
end
end,
Pang = lists:foldl(Fun, [], Nodes),
case Pang of
[] ->
?t:format("",[]),
ok;
_ ->
timer:sleep(1000),
wait_nodes_down(Pang, N-1)
end.
wait_nodes_up(Nodes, Tag) ->
wait_nodes_up(Nodes, Tag, []).
wait_nodes_up(Nodes0, Tag, Apps) ->
?t:format("wait_nodes_up(~p, ~p, ~p):",[Nodes0, Tag, Apps]),
Nodes = fix_nodes(Nodes0),
wait_nodes_up(Nodes, Tag, lists:umerge(Apps,[kernel,stdlib,sasl]), 60).
fix_nodes([{Node,InitPid}|Nodes]) ->
[{Node,InitPid} | fix_nodes(Nodes)];
fix_nodes([Node|Nodes]) ->
[{Node,fake_init_pid} | fix_nodes(Nodes)];
fix_nodes([]) ->
[].
wait_nodes_up(Nodes, Tag, Apps, 0) ->
test_server:fail({error, {"nodes not started", Nodes, Tag, Apps}});
wait_nodes_up(Nodes, Tag, Apps, N) ->
Fun =
fun(NodeInfo={Node,OldInitPid}, A) ->
case rpc:call(Node, application, which_applications, []) of
{badrpc, nodedown} ->
?t:format( " ~p = {badarg, nodedown}",[Node]),
[NodeInfo | A];
List when is_list(List)->
?t:format( " ~p = [~p]",[Node, List]),
case lists:all(fun(App) ->
lists:keymember(App,1,List)
end, Apps) of
true ->
case rpc:call(Node,erlang,whereis,[init]) of
OldInitPid ->
[NodeInfo | A];
_ ->
start_cover(Node),
A
end;
false ->
[NodeInfo | A]
end
end
end,
Pang = lists:foldl(Fun,[],Nodes),
case Pang of
[] ->
?t:format("",[]),
ok;
_ ->
timer:sleep(2000),
wait_nodes_up(Pang, Tag, Apps, N-1)
end.
are_names_reg_gg(Node, Names) ->
?t:format( "are_names_reg_gg ~p~n",[Names]),
are_names_reg_gg(Node, Names, 30).
are_names_reg_gg(Node, Names, N) ->
case lists:sort(rpc:call(Node, global, registered_names, [])) of
Names ->
ok;
Regs when N > 0 ->
timer:sleep(1000),
?t:format( "are_names_reg_gg Regs ~p~n",[Regs]),
are_names_reg_gg(Node, Names, N-1);
Regs ->
?t:fail({error, {"Names not registered",
{{"should :", Names},
{"was :", Regs}}}})
end.
t_start_node(Name, Boot, SysConfig) ->
t_start_node(Name, Boot, SysConfig, "").
t_start_node(Name, Boot, SysConfig, ArgStr) ->
Args =
case Boot of
[] -> [];
_ -> " -boot " ++ Boot
end ++
case SysConfig of
[] -> [];
_ -> " -config " ++ SysConfig
end ++
" " ++ ArgStr,
test_server:start_node(Name, peer, [{args, Args}]).
stop_node(Node) ->
?t:stop_node(Node).
copy_client(Conf,Master,Sname,Client) ->
?t:format("copy_client(Conf)"),
DataDir = ?config(data_dir, Conf),
MasterDir = filename:join(priv_dir(Conf),Master),
{ClientArgs,RelCliDir} = rh_test_lib:get_client_args(Client,Sname,MasterDir,
node_name(Master)),
Cli = filename:join([MasterDir, RelCliDir]),
ok = filelib:ensure_dir(filename:join([Cli,"bin","."])),
ok = filelib:ensure_dir(filename:join([Cli,"releases","."])),
ok = filelib:ensure_dir(filename:join([Cli,"log","."])),
P1GOrig = filename:join([MasterDir, "releases", "P1G"]),
ok = copy_tree(Conf,P1GOrig,filename:join(Cli,"releases")),
case os:type() of
{unix,_} ->
ok = subst_file(filename:join([DataDir, "start_client"]),
filename:join([Cli,"bin","start"]),
[{"ROOT",MasterDir},
{"CLIENTARGS",ClientArgs}],
[{chmod,8#0755}]);
_ ->
ok
end,
StartErlData = filename:join([MasterDir, "releases", "start_erl.data"]),
CliRelDir = filename:join([Cli, "releases"]),
copy_file(StartErlData, CliRelDir),
RR = filename:join([MasterDir, "releases", "RELEASES"]),
copy_file(RR, CliRelDir),
ok.
clean_priv_dir(Conf,Save) ->
PrivDir = priv_dir(Conf),
rh_test_lib:clean_dir(PrivDir,Save),
case file:list_dir(PrivDir) of
{ok,[]} -> _ = file:del_dir(PrivDir);
_ -> ok
end.
node_name(Sname) when is_atom(Sname) ->
{ok,Host} = inet:gethostname(),
list_to_atom(atom_to_list(Sname) ++ "@" ++ Host).
copy_file(Src, Dest) ->
copy_file(Src, Dest, []).
copy_file(Src, Dest, Opts) ->
case file:copy(Src,Dest) of
{ok,_} ->
preserve(Src,Dest,Opts),
chmod(Dest,Opts),
ok;
{error,eisdir} ->
NewDest = filename:join(Dest, filename:basename(Src)),
case file:copy(Src,NewDest) of
{ok,_} ->
preserve(Src,NewDest,Opts),
chmod(NewDest,Opts);
{error,Reason} ->
copy_error(Src,Dest,Reason)
end;
{error,Reason} ->
copy_error(Src,Dest,Reason)
end.
preserve(Src,Dest,Opts) ->
case lists:member(preserve, Opts) of
true ->
{ok, FileInfo} = file:read_file_info(Src),
ok = file:write_file_info(Dest, FileInfo);
false ->
ok
end.
chmod(Dest,Opts) ->
case lists:keyfind(chmod,1,Opts) of
{chmod,Mode} ->
ok = file:change_mode(Dest, Mode);
false ->
ok
end.
copy_error(Src, Dest, Reason) ->
?t:format("Copy ~ts to ~ts failed: ~ts\n",
[Src,Dest,file:format_error(Reason)]),
?t:fail(file_copy_failed).
copy_tree(Conf, Src, DestDir) ->
case catch copy_tree(Conf, Src, filename:basename(Src), DestDir) of
ok ->
ok;
{'EXIT', {{badmatch,Error},_Stack}} ->
%% Most probably, an erl_tar call has failed.
%% Known to happen on some platforms (symbolic_link_too_long)
Error;
{'EXIT', Reason} ->
{error, Reason}
end.
copy_tree(Conf, Src, NewName, DestDir) ->
PrivDir = priv_dir(Conf),
TempTarName = filename:join(PrivDir, "temp_tar_file.tar"),
%% Not compressing tar file here since that would increase test
%% suite time by almost 100%, and the tar file is deleted
%% imediately anyway.
{ok,Tar} = erl_tar:open(TempTarName, [write]),
ok = erl_tar:add(Tar, Src, NewName, []),
ok = erl_tar:close(Tar),
ok = erl_tar:extract(TempTarName, [{cwd,DestDir}]),
ok = file:delete(TempTarName),
ok.
%% subst_file(Src, Dest, Vars)
%% Src = Dest = string(), filename and path
%% Vars = [{Var, Val}]
%% Var = Val = string()
%% Substitute all occurrences of %Var% for Val in Src, using the list
%% of variables in Vars. Result is written to Dest.
%%
subst_file(Src, Dest, Vars) ->
subst_file(Src, Dest, Vars, []).
subst_file(Src, Dest, Vars, Opts) ->
{ok, Bin} = file:read_file(Src),
Conts = binary_to_list(Bin), % The source will always be latin1
NConts = subst(Conts, Vars),
%% The destination must be utf8 if file name encoding is unicode
Enc = file:native_name_encoding(),
ok = file:write_file(Dest, unicode:characters_to_binary(NConts,Enc,Enc)),
preserve(Src,Dest,Opts),
chmod(Dest,Opts).
subst(Str, Vars) ->
subst(Str, Vars, []).
subst([$%, C| Rest], Vars, Result) when $A =< C, C =< $Z ->
subst_var([C| Rest], Vars, Result, []);
subst([$%, C| Rest], Vars, Result) when $a =< C, C =< $z ->
subst_var([C| Rest], Vars, Result, []);
subst([$%, C| Rest], Vars, Result) when C == $_ ->
subst_var([C| Rest], Vars, Result, []);
subst([C| Rest], Vars, Result) ->
subst(Rest, Vars, [C| Result]);
subst([], _Vars, Result) ->
lists:reverse(Result).
subst_var([$%| Rest], Vars, Result, VarAcc) ->
Key = lists:reverse(VarAcc),
case lists:keysearch(Key, 1, Vars) of
{value, {Key, Value}} ->
subst(Rest, Vars, lists:reverse(Value, Result));
false ->
subst(Rest, Vars, [$%| VarAcc ++ [$%| Result]])
end;
subst_var([C| Rest], Vars, Result, VarAcc) ->
subst_var(Rest, Vars, Result, [C| VarAcc]);
subst_var([], Vars, Result, VarAcc) ->
subst([], Vars, [VarAcc ++ [$%| Result]]).
priv_dir(Conf) ->
%% Due to problem with long paths on windows => creating a new
%% priv_dir under data_dir
%% And get rid of trailing slash (absname does that)
%% And if file name translation mode is utf8, use a path with
%% unicode characters
PrivDir =
case file:native_name_encoding() of
utf8 ->
"priv_dir_αβ";
_ ->
"priv_dir"
end,
filename:absname(filename:join([?config(data_dir, Conf),PrivDir])).
init_priv_dir(Conf) ->
Dir = priv_dir(Conf),
case filelib:is_dir(Dir) of
true ->
clean_priv_dir(Conf,false);
false ->
ok
end,
filelib:ensure_dir(filename:join(Dir,"*")).
latest_version(Dir) ->
List = filelib:wildcard(Dir ++ "*"),
lists:last(lists:sort(List)).
%% A printer process which receives messages from other nodes and
%% prints in the log
reg_print_proc() ->
catch unregister(rh_print),
Pid = spawn_link(?MODULE, rh_print, []),
register(rh_print, Pid),
ok.
rh_print() ->
receive
{print, {Module,Line}, [H|T]} ->
?t:format("=== ~p:~p - ~p",[Module,Line,H]),
lists:foreach(fun(Term) -> ?t:format(" ~tp",[Term]) end, T),
?t:format("",[]),
rh_print();
kill ->
exit(normal)
end.
stop_print_proc() ->
case whereis(rh_print) of %%removes the printer process
undefined ->
ok;
Pid when is_pid(Pid) ->
rh_print ! kill
end.
%% Create the first target release, vsn P1G. This release is used for
%% all test cases in {group,release}
create_p1g(Conf,TargetDir) ->
DataDir = ?config(data_dir,Conf),
PrivDir = priv_dir(Conf),
ErtsDir = app_dir(erts,old),
KernelDir = app_dir(kernel,old),
StdlibDir = app_dir(stdlib,old),
%% Fake earlier version of kernel and stdlib
SystemLib = system_lib(PrivDir),
ok = filelib:ensure_dir(filename:join(SystemLib,"*")),
KernelLib = code:lib_dir(kernel),
StdlibLib = code:lib_dir(stdlib),
ok = copy_tree(Conf,KernelLib,KernelDir,SystemLib),
ok = copy_tree(Conf,StdlibLib,StdlibDir,SystemLib),
fix_version(SystemLib,kernel),
fix_version(SystemLib,stdlib),
%% Create dirs
BinDir = filename:join(TargetDir,bin),
ReleasesDir = filename:join(TargetDir,releases),
LogDir = filename:join(TargetDir,log),
ok = filelib:ensure_dir(filename:join(BinDir,"*")),
ok = filelib:ensure_dir(filename:join(ReleasesDir,"*")),
ok = filelib:ensure_dir(filename:join(LogDir,"*")),
%% Copy stuff
ErtsLatest = latest_version(filename:join(code:root_dir(),"erts")),
ok = copy_tree(Conf, ErtsLatest, ErtsDir, TargetDir),
ErtsBinDir = filename:join([TargetDir,ErtsDir,bin]),
case os:type() of
{unix, _} ->
copy_file(filename:join([ErtsBinDir, "epmd"]), BinDir, [preserve]),
copy_file(filename:join([ErtsBinDir, "run_erl"]), BinDir, [preserve]),
copy_file(filename:join([ErtsBinDir, "to_erl"]), BinDir, [preserve]),
%% Create the start_erl shell script
ok = subst_file(filename:join([ErtsBinDir,"start_erl.src"]),
filename:join([BinDir,"start_erl"]),
[{"EMU","beam"}],
[{chmod,8#0755}]);
{win32,_} ->
%% Add a batch file to use as HEART_COMMAND
ok = copy_file(filename:join(DataDir, "heart_restart.bat"),
ErtsBinDir,[preserve])
end,
copy_file(filename:join(DataDir, "../installer.beam"),
filename:join([DataDir,lib,"installer-1.0",ebin])),
copy_file(filename:join(DataDir, "../rh_test_lib.beam"),
filename:join([DataDir,lib,"installer-1.0",ebin])),
%% Create .rel, .script and .boot files
RelName = "rel0",
RelVsn = "P1G",
RelDir = filename:join(PrivDir,RelName),
RelFileName = filename:join(RelDir,RelName),
RelFile = RelFileName ++ ".rel",
ok = filelib:ensure_dir(RelFile),
TarFile = create_basic_release(Conf,RelFile,RelVsn,{old,false}),
%% Extract tar file in target directory (i.e. same directory as erts etc.)
ok = erl_tar:extract(TarFile, [{cwd, TargetDir}, compressed]),
%% Create start_erl.data
StartErlDataFile = filename:join([ReleasesDir, "start_erl.data"]),
StartErlData = io_lib:fwrite("~s ~s~n", [vsn(erts,old), RelVsn]),
ok = file:write_file(StartErlDataFile, StartErlData),
%% Create RELEASES
ok = release_handler:create_RELEASES(TargetDir,ReleasesDir,RelFile,[]),
ok.
fix_version(SystemLib,App) ->
FromVsn = re:replace(vsn(App,current),"\\.","\\\\.",[{return,binary}]),
ToVsn = re:replace(vsn(App,old),"\\.","\\\\.",[{return,binary}]),
Rootname = filename:join([SystemLib,app_dir(App,old),ebin,atom_to_list(App)]),
AppFile = Rootname ++ ".app",
{ok,OrigApp} = file:read_file(AppFile),
ok = file:write_file(AppFile,re:replace(OrigApp,FromVsn,ToVsn,
[{return,binary}])),
AppupFile = Rootname ++ ".appup",
{ok,OrigAppup} = file:read_file(AppupFile),
ok = file:write_file(AppupFile,re:replace(OrigAppup,FromVsn,ToVsn,
[{return,binary}])).
%% Create version P1H - which is P1G + a-1.0
%% Must have run create_p1g first!!
create_p1h(Conf) ->
create_upgrade_release(Conf,"rel1","P1H",{old,false},[{a,"1.0"}],
[{a,[{key2,val2}]}],[{"rel0",[new_appl]}]).
%% Create version P1I - which is P1H, but with application a upgraded to a-1.1
%% Must have run create_p1h first!!
create_p1i(Conf) ->
create_upgrade_release(Conf,"rel2","P1I",{old,false},[{a,"1.1"}],
[{a,[{key2,newval2}]}],
[{"rel1",[{extra,gott}]}]).
%% Create version P2A - which is P1I, but with erts-<latest>
%% Must have run create_p1i first!!
create_p2a(Conf) ->
create_upgrade_release(Conf,"rel3","P2A",{current,code:root_dir()},
[{a,"1.1"}],[{a,[{key2,newval2}]}],
[{"rel1",[new_emu,new_appl]},{"rel2",[new_emu]}],
[{"rel1",[old_emu,old_appl]},{"rel2",[old_emu]}]).
%% Create version P2B - which is P2A, but with relup containing an
%% extra reboot.
%% Can be upgraded to from P1G - so must have run create_p1g first!!
create_p2b(Conf) ->
create_upgrade_release(Conf,"rel4","P2B",{current,code:root_dir()},
[{a,"1.1"}],[{a,[{key2,newval2}]}],
[{"rel0",[new_emu,add_appl]}],
[{"rel0",[old_emu,rm_appl]}],
[restart_emulator]).
%% Create a release tar package which can be installed on top of P1G
create_upgrade_release(Conf,RelName,RelVsn,Erts,Apps,Config,UpFrom) ->
create_upgrade_release(Conf,RelName,RelVsn,Erts,Apps,Config,UpFrom,[]).
create_upgrade_release(Conf,RelName,RelVsn,Erts,Apps,Config,UpFrom,DownTo) ->
create_upgrade_release(Conf,RelName,RelVsn,Erts,Apps,Config,UpFrom,DownTo,[]).
create_upgrade_release(Conf,RelName,RelVsn,Erts,Apps,Config,UpFrom0,DownTo0,RelupOpts) ->
PrivDir = priv_dir(Conf),
RelDir = filename:join(PrivDir,RelName),
RelFileName = filename:join(RelDir,RelName),
RelFile = RelFileName ++ ".rel",
ok = filelib:ensure_dir(RelFile),
UpFrom = [{filename:join([PrivDir,UpFromName,UpFromName]),Descr} ||
{UpFromName,Descr} <- UpFrom0],
DownTo = [{filename:join([PrivDir,DownToName,DownToName]),Descr} ||
{DownToName,Descr} <- DownTo0],
create_basic_release(Conf,RelFile,RelVsn,Erts,Apps,Config,
UpFrom,DownTo,RelupOpts),
ok.
%% Create .rel, .script, .boot, sys.config and tar
create_basic_release(Conf,RelFile,RelVsn,{Erts,ErtsDir}) ->
create_basic_release(Conf, RelFile,RelVsn,{Erts,ErtsDir},[],[],[],[],[]).
create_basic_release(Conf,RelFile,RelVsn,{Erts,ErtsDir},ExtraApps,Config,UpFrom,DownTo,RelupOpts) ->
DataDir = ?config(data_dir,Conf),
PrivDir = priv_dir(Conf),
SystemLib = system_lib(PrivDir),
LibPath = [filename:join([SystemLib,"*",ebin]),
filename:join([DataDir,lib,"*",ebin])],
RelDir = filename:dirname(RelFile),
RelFileName = filename:rootname(RelFile),
%% Create .rel file
create_installer_rel_file(RelFile,RelVsn,Erts,ExtraApps),
%% Generate .script and .boot
ok = systools:make_script(RelFileName,
[{path,LibPath},
{outdir,RelDir}]),
%% Generate relup
ok = systools:make_relup(RelFileName,UpFrom,DownTo,[{path,LibPath},
{outdir,RelDir} |
RelupOpts]),
%% Create sys.config
ok = write_term_file(filename:join(RelDir,"sys.config"),Config),
%% Create tar file (i.e. collect all lib/app-*/* and system files)
ok = systools:make_tar(RelFileName,
[{path,LibPath},
{outdir,RelDir} |
case ErtsDir of
false -> [];
_ -> [{erts,ErtsDir}]
end]),
TarFileName = RelFileName ++ ".tar.gz",
case os:type() of
{win32,_} when ErtsDir=/=false -> modify_tar_win32(Conf, TarFileName);
_ -> ok
end,
TarFileName.
%% Create a .rel file
create_installer_rel_file(RelFile,RelVsn,Erts,ExtraApps) ->
create_rel_file(RelFile,"SASL-test",RelVsn,Erts,
[{installer,"1.0"}|ExtraApps]).
create_rel_file(RelFile,RelName,RelVsn,Erts,ExtraApps) ->
ErtsVsn = vsn(erts,Erts),
KernelVsn = vsn(kernel,Erts),
StdlibVsn = vsn(stdlib,Erts),
SaslVsn = vsn(sasl,current),
application:load(tools),
ToolsVsn = vsn(tools,current),
application:load(runtime_tools),
RuntimeToolsVsn = vsn(runtime_tools,current),
RelFileContent = {release,
{RelName, RelVsn},
{erts, ErtsVsn},
[{kernel, KernelVsn},
{stdlib, StdlibVsn},
{sasl, SaslVsn},
{runtime_tools, RuntimeToolsVsn},
{tools, ToolsVsn} |
ExtraApps]},
ok = write_term_file(RelFile,RelFileContent).
%% Insert a term in a file, which can be read with file:consult/1.
write_term_file(File,Term) ->
Str = io_lib:format("%% ~s~n~tp.~n",[epp:encoding_to_string(utf8),Term]),
Bin = unicode:characters_to_binary(Str),
ok = file:write_file(File,Bin).
%% Check that global group info is correct - try again for a maximum of 5 sec
check_gg_info(Node,OtherAlive,OtherDead,Synced) ->
check_gg_info(Node,OtherAlive,OtherDead,Synced,5).
check_gg_info(Node,OtherAlive,OtherDead,Synced,N) ->
GGI = rpc:call(Node, global_group, info, []),
GI = rpc:call(Node, global, info,[]),
try do_check_gg_info(OtherAlive,OtherDead,Synced,GGI,GI)
catch _:E when N==0 ->
?t:format("~nERROR: check_gg_info failed for ~p:~n~p~n"
"when GGI was: ~p~nand GI was: ~p~n",
[Node,{E,erlang:get_stacktrace()},GGI,GI]),
?t:fail("check_gg_info failed");
_:E ->
?t:format("~nWARNING: check_gg_info failed for ~p:~n~p~n"
"when GGI was: ~p~nand GI was: ~p~n",
[Node,{E,erlang:get_stacktrace()},GGI,GI]),
timer:sleep(1000),
check_gg_info(Node,OtherAlive,OtherDead,Synced,N-1)
end.
do_check_gg_info(OtherAlive,OtherDead,Synced,GGI,GI) ->
{_,gg1} = lists:keyfind(own_group_name,1,GGI),
{_,synced} = lists:keyfind(state,1,GGI),
{_,AllNodes} = lists:keyfind(own_group_nodes,1,GGI),
true = lists:sort(AllNodes) =:= lists:sort(OtherAlive++OtherDead),
{_,[]} = lists:keyfind(sync_error,1,GGI),
{_,[{gg2,[_,_]}]} = lists:keyfind(other_groups,1,GGI),
%% There is a known bug in global_group (OTP-9177) which causes
%% the following to fail every now and then:
%% {_,SyncedNodes} = lists:keyfind(synced_nodes,1,GGI),
%% true = lists:sort(SyncedNodes) =:= lists:sort(Synced),
%% {_,NoContact} = lists:keyfind(no_contact,1,GGI),
%% true = lists:sort(NoContact) =:= lists:sort(OtherDead),
%% Therefore we use global:info instead for this part
{state,_,_,SyncedNodes,_,_,_,_,_,_,_} = GI,
true = lists:sort(SyncedNodes) =:= lists:sort(Synced),
%% .. and we only check that all OtherDead are listed as
%% no_contact (due to th bug there might be more nodes in this
%% list)
{_,NoContact} = lists:keyfind(no_contact,1,GGI),
true =
lists:sort(OtherDead) =:=
lists:sort([NC || NC <- NoContact,lists:member(NC,OtherDead)]),
ok.
%% Return the configuration (to be inserted in sys.config) for global group tests
gg_config(Snames) ->
Nodes = [node_name(Sname) || Sname <- Snames],
[{kernel, [{sync_nodes_optional, Nodes},
{sync_nodes_timeout, 10000},
{global_groups,
[{gg1, Nodes},
{gg2, [node_name(Sname) || Sname <- [ggq,ggw]]}]}]},
{a, [{key2, val2}]}].
%% Start a node with short name SnameStr, and unpack P1H
unpack_p1h(Conf,Sname) ->
PrivDir = priv_dir(Conf),
[Node] = start_nodes(Conf,[Sname],"create_p1h"),
ok = rpc_inst(Node, unpack_p1h, [PrivDir]),
Node.
%% On the given node, install P1H and make it permanent
%% This function is to be called after unpack_p1h/2, with the same node.
permanent_p1h(Node) ->
ok = rpc_inst(Node, permanent_p1h, []).
%% For each node in ToNodes, create a target installation which is
%% indentical to the target installation for FromNode.
copy_installed(Conf,FromNode,ToNodes) ->
PrivDir = priv_dir(Conf),
DataDir = ?config(data_dir,Conf),
%% Instead of using copy_tree on the complete node directory, I'm
%% splitting this in separate tar files per subdirectory so the
%% log directory can be completely skipped. The reason for this is
%% that the tar file might become faulty if the node is alive and
%% writing to the log while the tar is created.
FromDir = filename:join(PrivDir,FromNode),
{ok,FromDirNames} = file:list_dir(FromDir),
TempTarFiles =
[begin
TempTarFile = filename:join(PrivDir,"temp_" ++ FDN ++ ".tar"),
{ok,Tar} = erl_tar:open(TempTarFile,[write]),
ok = erl_tar:add(Tar,filename:join(FromDir,FDN),FDN,[]),
ok = erl_tar:close(Tar),
TempTarFile
end || FDN <- FromDirNames, FDN=/="log"],
lists:foreach(
fun(Node) ->
NodeDir = filename:join(PrivDir,Node),
ok = filelib:ensure_dir(filename:join([NodeDir,"log","*"])),
lists:foreach(
fun(TempTarFile) ->
ok = erl_tar:extract(TempTarFile,[{cwd,NodeDir}])
end, TempTarFiles),
case os:type() of
{unix,_} ->
%% Create start script
%% Using a customized start script from DataDir
%% where some options (heart and nodename) are
%% added compared to the start.src in the erlang
%% distribution.
ok = subst_file(filename:join(DataDir, "start"),
filename:join([NodeDir, "bin", "start"]),
[{"ROOT",NodeDir}],
[preserve]);
{win32,_} ->
%% Write erl.ini
ErtsDirs =
filelib:wildcard(filename:join(NodeDir,"erts-*")),
lists:foreach(
fun(ErtsDir) ->
ok = subst_file(
filename:join(DataDir, "erl.ini.src"),
filename:join([ErtsDir, "bin", "erl.ini"]),
[{"ROOTDIR",NodeDir},
{"BINDIR",filename:join(ErtsDir,"bin")}])
end,
ErtsDirs),
%% The service on windows runs as local
%% administrator (not otptest user), so we need
%% to chmod the release in order to allow the
%% executing node to install releases, write
%% logs etc.
chmod_release_win32(NodeDir)
end
end,
ToNodes),
lists:foreach(fun(TempTarFile) -> file:delete(TempTarFile) end, TempTarFiles),
ok.
chmod_release_win32(Dir) ->
os:cmd("echo y|cacls " ++ Dir ++ " /T /E /G Administrators:F").
start_nodes(Conf,Snames,Tag) ->
PrivDir = priv_dir(Conf),
Nodes =
lists:map(
fun(Sname) ->
NodeDir = filename:join(PrivDir,Sname),
Node = node_name(Sname),
case os:type() of
{unix,_} ->
start_node_unix(Sname,NodeDir);
{win32,_} ->
start_node_win32(Sname,NodeDir)
end,
Node
end,
Snames),
wait_nodes_up(Nodes,Tag),
Nodes.
start_node_unix(Sname,NodeDir) ->
Script = filename:join([NodeDir,"bin","start"]),
?t:format("Starting ~p: ~ts~n", [Sname,Script]),
case rh_test_lib:cmd(Script,[],[{"NODENAME",atom_to_list(Sname)}]) of
ok ->
{ok,node_name(Sname)};
Error ->
?t:fail({failed_to_start_node, Sname, Error})
end.
start_node_win32(Sname,NodeDir) ->
Name = atom_to_list(Sname) ++ "_P1G",
ErtsBinDir = filename:join([NodeDir,app_dir(erts,old),"bin"]),
StartErlArgs = rh_test_lib:get_start_erl_args(NodeDir),
ServiceArgs = rh_test_lib:get_service_args(NodeDir, Sname, StartErlArgs),
Erlsrv = filename:nativename(filename:join(ErtsBinDir,"erlsrv")),
rh_test_lib:erlsrv(Erlsrv,stop,Name),
rh_test_lib:erlsrv(Erlsrv,remove,Name),
ok = rh_test_lib:erlsrv(Erlsrv,add,Name,ServiceArgs),
ok = rh_test_lib:erlsrv(Erlsrv,start,Name),
ok.
%% Create a unique node name for each test case
tc_sname(Config) ->
tc_sname(Config,"").
tc_sname(Config,Fix) when is_atom(Fix) ->
tc_sname(Config,atom_to_list(Fix));
tc_sname(Config,Fix) when is_list(Fix) ->
list_to_atom(
atom_to_list(?MODULE)
++ "-" ++ atom_to_list(?config(sname_prefix, Config)) ++
case Fix of
"" -> "";
_ -> "-" ++ Fix
end).
tc_full_node_name(Config) ->
tc_full_node_name(Config,"").
tc_full_node_name(Config,Fix) ->
node_name(tc_sname(Config,Fix)).
%% When installing a release for which the sys.config includes added
%% or changed global group(s), this node (test_sever@host) will be
%% disconnected from the test node (Node) by global_group.erl. This
%% will cause the rpc:call to terminate with {badrpc,nodedown} even if
%% the installation succeeds. This function installs the release,
%% accepts the faulty return value and then checks if the release was
%% successfully installed.
install_release_changed_gg(Node,RelVsn) ->
stop_cover(Node),
{badrpc,nodedown} = rpc:call(Node,release_handler,install_release,[RelVsn]),
timer:sleep(100),
wait_installed(Node,RelVsn,4).
wait_installed(Node,RelVsn,0) ->
?t:fail("install_release_changed_gg failed for " ++ RelVsn ++
" on " ++ atom_to_list(Node));
wait_installed(Node,RelVsn,N) ->
Rels = rpc:call(Node,release_handler,which_releases,[]),
case lists:keyfind(RelVsn, 2, Rels) of
{"SASL-test", RelVsn, _Libs, current} ->
start_cover(Node),
ok;
_ ->
timer:sleep(500),
wait_installed(Node,RelVsn,N-1)
end.
%% Start/stop cover measurements on the given node
start_cover(Node) ->
cover_fun(Node,start).
stop_cover(Node) ->
cover_fun(Node,stop).
cover_fun(Node,Func) ->
case ?t:is_cover() of
true ->
cover:Func(Node);
false ->
ok
end.
%%%-----------------------------------------------------------------
%%% Create a fake release ....
%% This function will create and install a release build on the
%% current running OTP release. It includes kernel, stdlib and sasl,
%% and possibly other applications if they are listed in AppDirs =
%% [{App,Vsn,LibDir}]
create_and_install_fake_first_release(Dir,AppDirs) ->
create_and_install_fake_first_release(Dir,init:script_id(),AppDirs).
create_and_install_fake_first_release(Dir,{RelName,RelVsn},AppDirs) ->
{Rel,_} = create_fake_release(Dir,RelName,RelVsn,AppDirs),
ReleasesDir = filename:join(Dir, "releases"),
RelDir = filename:dirname(Rel),
%% And install it
RelVsnDir = filename:join(ReleasesDir, RelVsn),
ok = filelib:ensure_dir(filename:join(RelVsnDir,"*")),
ok = copy_file(Rel++".rel",RelVsnDir),
ok = copy_file(Rel++".boot",filename:join(RelVsnDir, "start.boot")),
ok = copy_file(filename:join(RelDir,"sys.config"),RelVsnDir),
ok = release_handler:create_RELEASES(code:root_dir(),
ReleasesDir,
Rel++".rel",
AppDirs),
Rel.
%% This function create a new release, including a relup file. It can
%% be upgraded to from the release created by
%% create_and_install_fake_first_release/2. Unpack first by calls to
%% release_handler:set_unpacked and release_handler:install_file.
create_fake_upgrade_release(Dir,RelVsn,AppDirs,UpgrInstr) when not is_tuple(RelVsn) ->
{RelName,_} = init:script_id(),
create_fake_upgrade_release(Dir,{RelName,RelVsn},AppDirs,UpgrInstr);
create_fake_upgrade_release(Dir,{RelName,RelVsn},AppDirs,{UpFrom,DownTo,ExtraLibs}) ->
%% Create a new release
{Rel,Paths} = create_fake_release(Dir,RelName,RelVsn,AppDirs),
RelDir = filename:dirname(Rel),
%% And a relup file so it can be upgraded to
RelupPath = Paths ++ [filename:join([Lib,"*","ebin"]) || Lib <- ExtraLibs],
ok = systools:make_relup(Rel,UpFrom,DownTo,[{path,RelupPath},
{outdir,RelDir}]),
Rel.
create_fake_release(Dir,RelName,RelVsn,AppDirs) ->
%% Create .rel files
RelDir = filename:join(Dir,"rel_" ++ RelVsn),
Rel = filename:join([RelDir,"rel_" ++ RelVsn]),
ok = filelib:ensure_dir(Rel),
{Apps,Paths} =
lists:foldl(fun({App,Vsn,Lib},{As,Ps}) ->
{[{App,Vsn}|As],
lists:umerge([filename:join([Lib,"*",ebin])],Ps)}
end,
{[],[]},
AppDirs),
create_rel_file(Rel++".rel",RelName,RelVsn,current,Apps),
%% Generate boot scripts
ok = systools:make_script(Rel,[local,
{path, Paths},
{outdir,RelDir}]),
ok = copy_file(Rel++".boot", filename:join(RelDir,"start.boot")),
%% Use an own 'releases' directory - we don't want to change the
%% contents of $OTP_ROOT/releases
%% Inform SASL about this via sys.config
ReleasesDir = filename:join(Dir, "releases"),
Config = [{sasl,[{releases_dir,ReleasesDir}]}],
ok = write_term_file(filename:join(RelDir,"sys.config"), Config),
{Rel,Paths}.
rpc_inst(Node,Func,Args) ->
rpc:call(Node,installer,Func,[node()|Args]).
delete_all_services() ->
ErlSrv = erlsrv:erlsrv(erlang:system_info(version)),
[_|Serviceinfo] = string:tokens(os:cmd("\"" ++ ErlSrv ++ "\" list"),"\n"),
Services =
[lists:takewhile(fun($\t) -> false; (_) -> true end,S)
|| S <- Serviceinfo],
?t:format("Services to remove: ~p~n",[Services]),
lists:foreach(fun(S) ->
rh_test_lib:erlsrv(ErlSrv,stop,S),
rh_test_lib:erlsrv(ErlSrv,remove,S)
end,
Services).
modify_tar_win32(Conf, TarFileName) ->
DataDir = ?config(data_dir,Conf),
PrivDir = priv_dir(Conf),
TmpDir = filename:join(PrivDir,"tmp_modify_tar_win32"),
ok = erl_tar:extract(TarFileName,[{cwd,TmpDir},compressed]),
ErtsBinDir = filelib:wildcard(filename:join([TmpDir,"erts-*","bin"])),
ok = copy_file(filename:join(DataDir, "heart_restart.bat"),
ErtsBinDir,[preserve]),
{ok,Fs} = file:list_dir(TmpDir),
{ok,T} = erl_tar:open(TarFileName,[write,compressed]),
[ok = erl_tar:add(T,filename:join(TmpDir,F),F,[]) || F <- Fs],
ok = erl_tar:close(T),
ok.
app_dir(App,Vsn) ->
atom_to_list(App) ++ "-" ++ vsn(App,Vsn).
vsn(erts,old) -> ?ertsvsn;
vsn(kernel,old) -> ?kernelvsn;
vsn(stdlib,old) -> ?stdlibvsn;
vsn(erts,current) -> erlang:system_info(version);
vsn(App,current) ->
{ok,Vsn} = application:get_key(App,vsn),
Vsn.
system_lib(PrivDir) ->
filename:join(PrivDir,"system_lib").