%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 2006-2010. All Rights Reserved. %% %% The contents of this file are subject to the Erlang Public License, %% Version 1.1, (the "License"); you may not use this file except in %% compliance with the License. You should have received a copy of the %% Erlang Public License along with this software. If not, it can be %% retrieved online at http://www.erlang.org/. %% %% Software distributed under the License is distributed on an "AS IS" %% basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See %% the License for the specific language governing rights and limitations %% under the License. %% %% %CopyrightEnd% %% %%% @doc Distributed test execution control for Common Test. %%%
This module exports functions for running Common Test nodes %%% on multiple hosts in parallel.
-module(ct_master). -export([run/1,run/3,run/4]). -export([run_on_node/2,run_on_node/3]). -export([run_test/1,run_test/2]). -export([abort/0,abort/1,progress/0]). -export([init_master/7, init_node_ctrl/3]). -export([status/2]). -include("ct_event.hrl"). -include("ct_util.hrl"). -record(state, {node_ctrl_pids=[], logdirs=[], results=[], locks=[], blocked=[] }). %%%----------------------------------------------------------------- %%% @spec run_test(Node,Opts) -> ok %%% Node = atom() %%% Opts = [OptTuples] %%% OptTuples = {config,CfgFiles} | {dir,TestDirs} | {suite,Suites} | %%% {testcase,Cases} | {spec,TestSpecs} | {allow_user_terms,Bool} | %%% {logdir,LogDir} | {event_handler,EventHandlers} | %%% {silent_connections,Conns} | {cover,CoverSpecFile} | %%% {userconfig, UserCfgFiles} %%% CfgFiles = string() | [string()] %%% TestDirs = string() | [string()] %%% Suites = atom() | [atom()] %%% Cases = atom() | [atom()] %%% TestSpecs = string() | [string()] %%% LogDir = string() %%% EventHandlers = EH | [EH] %%% EH = atom() | {atom(),InitArgs} | {[atom()],InitArgs} %%% InitArgs = [term()] %%% Conns = all | [atom()] %%% %%% @doc Tests are spawned onNode
using ct:run_test/1
.
run_test(Node,Opts) ->
run_test([{Node,Opts}]).
%%% @hidden
run_test({Node,Opts}) ->
run_test([{Node,Opts}]);
run_test(NodeOptsList) when is_list(NodeOptsList) ->
start_master(NodeOptsList).
%%%-----------------------------------------------------------------
%%% @spec run(TestSpecs,AllowUserTerms,InclNodes,ExclNodes) -> ok
%%% TestSpecs = string() | [SeparateOrMerged]
%%% SeparateOrMerged = string() | [string()]
%%% AllowUserTerms = bool()
%%% InclNodes = [atom()]
%%% ExclNodes = [atom()]
%%%
%%% @doc Tests are spawned on the nodes as specified in TestSpecs
.
%%% Each specification in TestSpec will be handled separately. It is however possible
%%% to also specify a list of specifications that should be merged into one before
%%% the tests are executed. Any test without a particular node specification will
%%% also be executed on the nodes in InclNodes
. Nodes in the
%%% ExclNodes
list will be excluded from the test.
run([TS|TestSpecs],AllowUserTerms,InclNodes,ExclNodes) when is_list(TS),
is_list(InclNodes),
is_list(ExclNodes) ->
TS1 =
case TS of
List=[S|_] when is_list(S) -> List;
Spec -> [Spec]
end,
Result =
case catch ct_testspec:collect_tests_from_file(TS1,InclNodes,AllowUserTerms) of
{error,Reason} ->
{error,Reason};
TSRec=#testspec{logdir=AllLogDirs,
config=StdCfgFiles,
userconfig=UserCfgFiles,
init=AllInitOpts,
event_handler=AllEvHs} ->
AllCfgFiles = {StdCfgFiles, UserCfgFiles},
RunSkipPerNode = ct_testspec:prepare_tests(TSRec),
RunSkipPerNode2 = exclude_nodes(ExclNodes,RunSkipPerNode),
run_all(RunSkipPerNode2,AllLogDirs,AllCfgFiles,AllEvHs,[],[],AllInitOpts,TS1)
end,
[{TS,Result} | run(TestSpecs,AllowUserTerms,InclNodes,ExclNodes)];
run([],_,_,_) ->
[];
run(TS,AllowUserTerms,InclNodes,ExclNodes) when is_list(InclNodes), is_list(ExclNodes) ->
run([TS],AllowUserTerms,InclNodes,ExclNodes).
%%%-----------------------------------------------------------------
%%% @spec run(TestSpecs,InclNodes,ExclNodes) -> ok
%%% TestSpecs = string() | [SeparateOrMerged]
%%% SeparateOrMerged = string() | [string()]
%%% InclNodes = [atom()]
%%% ExclNodes = [atom()]
%%%
%%% @equiv run(TestSpecs,false,InclNodes,ExclNodes)
run(TestSpecs,InclNodes,ExclNodes) ->
run(TestSpecs,false,InclNodes,ExclNodes).
%%%-----------------------------------------------------------------
%%% @spec run(TestSpecs) -> ok
%%% TestSpecs = string() | [SeparateOrMerged]
%%%
%%% @equiv run(TestSpecs,false,[],[])
run(TestSpecs=[TS|_]) when is_list(TS) ->
run(TestSpecs,false,[],[]);
run(TS) ->
run([TS],false,[],[]).
exclude_nodes([ExclNode|ExNs],RunSkipPerNode) ->
exclude_nodes(ExNs,lists:keydelete(ExclNode,1,RunSkipPerNode));
exclude_nodes([],RunSkipPerNode) ->
RunSkipPerNode.
%%%-----------------------------------------------------------------
%%% @spec run_on_node(TestSpecs,AllowUserTerms,Node) -> ok
%%% TestSpecs = string() | [SeparateOrMerged]
%%% SeparateOrMerged = string() | [string()]
%%% AllowUserTerms = bool()
%%% Node = atom()
%%%
%%% @doc Tests are spawned on Node
according to TestSpecs
.
run_on_node([TS|TestSpecs],AllowUserTerms,Node) when is_list(TS),is_atom(Node) ->
TS1 =
case TS of
[List|_] when is_list(List) -> List;
Spec -> [Spec]
end,
Result =
case catch ct_testspec:collect_tests_from_file(TS1,[Node],AllowUserTerms) of
{error,Reason} ->
{error,Reason};
TSRec=#testspec{logdir=AllLogDirs,
config=StdCfgFiles,
init=AllInitOpts,
userconfig=UserCfgFiles,
event_handler=AllEvHs} ->
AllCfgFiles = {StdCfgFiles, UserCfgFiles},
{Run,Skip} = ct_testspec:prepare_tests(TSRec,Node),
run_all([{Node,Run,Skip}],AllLogDirs,AllCfgFiles,AllEvHs,[],[],AllInitOpts,TS1)
end,
[{TS,Result} | run_on_node(TestSpecs,AllowUserTerms,Node)];
run_on_node([],_,_) ->
[];
run_on_node(TS,AllowUserTerms,Node) when is_atom(Node) ->
run_on_node([TS],AllowUserTerms,Node).
%%%-----------------------------------------------------------------
%%% @spec run_on_node(TestSpecs,Node) -> ok
%%% TestSpecs = string() | [SeparateOrMerged]
%%% SeparateOrMerged = string() | [string()]
%%% Node = atom()
%%%
%%% @equiv run_on_node(TestSpecs,false,Node)
run_on_node(TestSpecs,Node) ->
run_on_node(TestSpecs,false,Node).
run_all([{Node,Run,Skip}|Rest],AllLogDirs,
{AllStdCfgFiles, AllUserCfgFiles}=AllCfgFiles,
AllEvHs,NodeOpts,LogDirs,InitOptions,Specs) ->
LogDir =
lists:foldl(fun({N,Dir},_Found) when N == Node ->
Dir;
({_N,_Dir},Found) ->
Found;
(Dir,".") ->
Dir;
(_Dir,Found) ->
Found
end,".",AllLogDirs),
StdCfgFiles =
lists:foldr(fun({N,F},Fs) when N == Node -> [F|Fs];
({_N,_F},Fs) -> Fs;
(F,Fs) -> [F|Fs]
end,[],AllStdCfgFiles),
UserCfgFiles =
lists:foldr(fun({N,F},Fs) when N == Node -> [{userconfig, F}|Fs];
({_N,_F},Fs) -> Fs;
(F,Fs) -> [{userconfig, F}|Fs]
end,[],AllUserCfgFiles),
EvHs =
lists:foldr(fun({N,H,A},Hs) when N == Node -> [{H,A}|Hs];
({_N,_H,_A},Hs) -> Hs;
({H,A},Hs) -> [{H,A}|Hs]
end,[],AllEvHs),
NO = {Node,[{prepared_tests,{Run,Skip},Specs},
{logdir,LogDir},
{config,StdCfgFiles},
{event_handler,EvHs}] ++ UserCfgFiles},
run_all(Rest,AllLogDirs,AllCfgFiles,AllEvHs,[NO|NodeOpts],[LogDir|LogDirs],InitOptions,Specs);
run_all([],AllLogDirs,_,AllEvHs,NodeOpts,LogDirs,InitOptions,Specs) ->
Handlers = [{H,A} || {Master,H,A} <- AllEvHs, Master == master],
MasterLogDir = case lists:keysearch(master,1,AllLogDirs) of
{value,{_,Dir}} -> Dir;
false -> "."
end,
log(tty,"Master Logdir","~s",[MasterLogDir]),
start_master(lists:reverse(NodeOpts),Handlers,MasterLogDir,LogDirs,InitOptions,Specs),
ok.
%%%-----------------------------------------------------------------
%%% @spec abort() -> ok
%%%
%%% @doc Stops all running tests.
abort() ->
call(abort).
%%%-----------------------------------------------------------------
%%% @spec abort(Nodes) -> ok
%%% Nodes = atom() | [atom()]
%%%
%%% @doc Stops tests on specified nodes.
abort(Nodes) when is_list(Nodes) ->
call({abort,Nodes});
abort(Node) when is_atom(Node) ->
abort([Node]).
%%%-----------------------------------------------------------------
%%% @spec progress() -> [{Node,Status}]
%%% Node = atom()
%%% Status = finished_ok | ongoing | aborted | {error,Reason}
%%% Reason = term()
%%%
%%% @doc Returns test progress. If Status
is ongoing
,
%%% tests are running on the node and have not yet finished.
progress() ->
call(progress).
%%%-----------------------------------------------------------------
%%% MASTER, runs on central controlling node.
%%%-----------------------------------------------------------------
start_master(NodeOptsList) ->
start_master(NodeOptsList,[],".",[],[],[]).
start_master(NodeOptsList,EvHandlers,MasterLogDir,LogDirs,InitOptions,Specs) ->
Master = spawn_link(?MODULE,init_master,[self(),NodeOptsList,EvHandlers,
MasterLogDir,LogDirs,InitOptions,Specs]),
receive
{Master,Result} -> Result
end.
%%% @hidden
init_master(Parent,NodeOptsList,EvHandlers,MasterLogDir,LogDirs,InitOptions,Specs) ->
case whereis(ct_master) of
undefined ->
register(ct_master,self()),
ok;
_Pid ->
io:format("~nWarning: ct_master already running!~n"),
exit(aborted)
% case io:get_line('[y/n]>') of
% "y\n" ->
% ok;
% "n\n" ->
% exit(aborted);
% _ ->
% init_master(NodeOptsList,LogDirs)
% end
end,
%% start master logger
{MLPid,_} = ct_master_logs:start(MasterLogDir,
[N || {N,_} <- NodeOptsList]),
log(all,"Master Logger process started","~w",[MLPid]),
case Specs of
[] -> ok;
_ ->
SpecsStr = lists:map(fun(Name) ->
Name ++ " "
end,Specs),
ct_master_logs:log("Test Specification file(s)","~s",
[lists:flatten(SpecsStr)])
end,
%% start master event manager and add default handler
ct_master_event:start_link(),
ct_master_event:add_handler(),
%% add user handlers for master event manager
Add = fun({H,Args}) ->
log(all,"Adding Event Handler","~p",[H]),
case gen_event:add_handler(?CT_MEVMGR_REF,H,Args) of
ok -> ok;
{'EXIT',Why} -> exit(Why);
Other -> exit({event_handler,Other})
end
end,
lists:foreach(Add,EvHandlers),
%% double check event manager is started and registered
case whereis(?CT_MEVMGR) of
undefined ->
exit({?CT_MEVMGR,undefined});
Pid when is_pid(Pid) ->
ok
end,
init_master1(Parent,NodeOptsList,InitOptions,LogDirs).
init_master1(Parent,NodeOptsList,InitOptions,LogDirs) ->
{Inaccessible,NodeOptsList1,InitOptions1} = init_nodes(NodeOptsList,InitOptions),
case Inaccessible of
[] ->
init_master2(Parent,NodeOptsList,LogDirs);
_ ->
io:format("~nThe following nodes are inaccessible: ~p~n~n",
[Inaccessible]),
io:format("Proceed(p), Rescan(r) or Abort(a)? "),
case io:get_line('[p/r/a]>') of
"p\n" ->
log(html,"Inaccessible Nodes",
"Proceeding without: ~p",[Inaccessible]),
init_master2(Parent,NodeOptsList1,LogDirs);
"r\n" ->
init_master1(Parent,NodeOptsList,InitOptions1,LogDirs);
_ ->
log(html,"Aborting Tests","",[]),
ct_master_event:stop(),
ct_master_logs:stop(),
exit(aborted)
end
end.
init_master2(Parent,NodeOptsList,LogDirs) ->
process_flag(trap_exit,true),
Cookie = erlang:get_cookie(),
log(all,"Cookie","~w",[Cookie]),
log(all,"Starting Tests",
"Tests starting on: ~p",[[N || {N,_} <- NodeOptsList]]),
SpawnAndMon =
fun({Node,Opts}) ->
monitor_node(Node,true),
log(all,"Test Info","Starting test(s) on ~p...",[Node]),
{spawn_link(Node,?MODULE,init_node_ctrl,[self(),Cookie,Opts]),Node}
end,
NodeCtrlPids = lists:map(SpawnAndMon,NodeOptsList),
Result = master_loop(#state{node_ctrl_pids=NodeCtrlPids,
logdirs=LogDirs}),
Parent ! {self(),Result}.
master_loop(#state{node_ctrl_pids=[],
logdirs=LogDirs,
results=Finished}) ->
Str =
lists:map(fun({Node,Result}) ->
io_lib:format("~-40.40.*s~p\n",[$_,atom_to_list(Node),Result])
end,lists:reverse(Finished)),
log(all,"TEST RESULTS",Str,[]),
log(all,"Info","Updating log files",[]),
refresh_logs(LogDirs,[]),
ct_master_event:stop(),
ct_master_logs:stop(),
ok;
master_loop(State=#state{node_ctrl_pids=NodeCtrlPids,
results=Results,
locks=Locks,
blocked=Blocked}) ->
receive
{'EXIT',Pid,Reason} ->
case get_node(Pid,NodeCtrlPids) of
{Node,NodeCtrlPids1} ->
monitor_node(Node,false),
case Reason of
normal ->
log(all,"Test Info",
"Test(s) on node ~w finished.",[Node]),
master_loop(State#state{node_ctrl_pids=NodeCtrlPids1});
Bad ->
Error =
case Bad of
What when What=/=killed,is_atom(What) ->
{error,Bad};
_ ->
Bad
end,
log(all,"Test Info",
"Test on node ~w failed! Reason: ~p",[Node,Error]),
{Locks1,Blocked1} =
update_queue(exit,Node,Locks,Blocked),
master_loop(State#state{node_ctrl_pids=NodeCtrlPids1,
results=[{Node,Error}|Results],
locks=Locks1,
blocked=Blocked1})
end;
undefined ->
%% ignore (but report) exit from master_logger etc
log(all,"Test Info",
"Warning! Process ~p has terminated. Reason: ~p",
[Pid,Reason]),
master_loop(State)
end;
{nodedown,Node} ->
case get_pid(Node,NodeCtrlPids) of
{_Pid,NodeCtrlPids1} ->
monitor_node(Node,false),
log(all,"Test Info","No connection to testnode ~w!",[Node]),
{Locks1,Blocked1} =
update_queue(exit,Node,Locks,Blocked),
master_loop(State#state{node_ctrl_pids=NodeCtrlPids1,
results=[{Node,nodedown}|Results],
locks=Locks1,
blocked=Blocked1});
undefined ->
master_loop(State)
end;
{Pid,{result,Result}} ->
{Node,_} = get_node(Pid,NodeCtrlPids),
master_loop(State#state{results=[{Node,Result}|Results]});
{call,progress,From} ->
reply(master_progress(NodeCtrlPids,Results),From),
master_loop(State);
{call,abort,From} ->
lists:foreach(fun({Pid,Node}) ->
log(all,"Test Info",
"Aborting tests on ~w",[Node]),
exit(Pid,kill)
end,NodeCtrlPids),
reply(ok,From),
master_loop(State);
{call,{abort,Nodes},From} ->
lists:foreach(fun(Node) ->
case lists:keysearch(Node,2,NodeCtrlPids) of
{value,{Pid,Node}} ->
log(all,"Test Info",
"Aborting tests on ~w",[Node]),
exit(Pid,kill);
false ->
ok
end
end,Nodes),
reply(ok,From),
master_loop(State);
{call,#event{name=Name,node=Node,data=Data},From} ->
{Op,Lock} =
case Name of
start_make ->
{take,{make,Data}};
finished_make ->
{release,{make,Data}};
start_write_file ->
{take,{write_file,Data}};
finished_write_file ->
{release,{write_file,Data}}
end,
{Locks1,Blocked1} =
update_queue(Op,Node,From,Lock,Locks,Blocked),
if Op == release -> reply(ok,From);
true -> ok
end,
master_loop(State#state{locks=Locks1,
blocked=Blocked1});
{cast,Event} when is_record(Event,event) ->
ct_master_event:notify(Event),
master_loop(State)
end.
update_queue(take,Node,From,Lock={Op,Resource},Locks,Blocked) ->
%% Locks: [{{Operation,Resource},Node},...]
%% Blocked: [{{Operation,Resource},Node,WaitingPid},...]
case lists:keysearch(Lock,1,Locks) of
{value,{_Lock,Owner}} -> % other node has lock
log(html,"Lock Info","Node ~p blocked on ~w by ~w. Resource: ~p",
[Node,Op,Owner,Resource]),
Blocked1 = Blocked ++ [{Lock,Node,From}],
{Locks,Blocked1};
false -> % go ahead
Locks1 = [{Lock,Node}|Locks],
reply(ok,From),
{Locks1,Blocked}
end;
update_queue(release,Node,_From,Lock={Op,Resource},Locks,Blocked) ->
Locks1 = lists:delete({Lock,Node},Locks),
case lists:keysearch(Lock,1,Blocked) of
{value,E={Lock,SomeNode,WaitingPid}} ->
Blocked1 = lists:delete(E,Blocked),
log(html,"Lock Info","Node ~p proceeds with ~w. Resource: ~p",
[SomeNode,Op,Resource]),
reply(ok,WaitingPid), % waiting process may start
{Locks1,Blocked1};
false ->
{Locks1,Blocked}
end.
update_queue(exit,Node,Locks,Blocked) ->
NodeLocks = lists:foldl(fun({L,N},Ls) when N == Node ->
[L|Ls];
(_,Ls) ->
Ls
end,[],Locks),
release_locks(Node,NodeLocks,Locks,Blocked).
release_locks(Node,[Lock|Ls],Locks,Blocked) ->
{Locks1,Blocked1} = update_queue(release,Node,undefined,Lock,Locks,Blocked),
release_locks(Node,Ls,Locks1,Blocked1);
release_locks(_,[],Locks,Blocked) ->
{Locks,Blocked}.
get_node(Pid,NodeCtrlPids) ->
case lists:keysearch(Pid,1,NodeCtrlPids) of
{value,{Pid,Node}} ->
{Node,lists:keydelete(Pid,1,NodeCtrlPids)};
false ->
undefined
end.
get_pid(Node,NodeCtrlPids) ->
case lists:keysearch(Node,2,NodeCtrlPids) of
{value,{Pid,Node}} ->
{Pid,lists:keydelete(Node,2,NodeCtrlPids)};
false ->
undefined
end.
ping_nodes(NodeOptions)->
ping_nodes(NodeOptions, [], []).
ping_nodes([NO={Node,_Opts}|NOs],Inaccessible,NodeOpts) ->
case net_adm:ping(Node) of
pong ->
ping_nodes(NOs,Inaccessible,[NO|NodeOpts]);
_ ->
ping_nodes(NOs,[Node|Inaccessible],NodeOpts)
end;
ping_nodes([],Inaccessible,NodeOpts) ->
{lists:reverse(Inaccessible),lists:reverse(NodeOpts)}.
master_progress(NodeCtrlPids,Results) ->
Results ++ lists:map(fun({_Pid,Node}) ->
{Node,ongoing}
end,NodeCtrlPids).
%% refresh those dirs where more than one node has written logs
refresh_logs([D|Dirs],Refreshed) ->
case lists:member(D,Dirs) of
true ->
case lists:keymember(D,1,Refreshed) of
true ->
refresh_logs(Dirs,Refreshed);
false ->
{ok,Cwd} = file:get_cwd(),
case catch ct_run:refresh_logs(D) of
{'EXIT',Reason} ->
file:set_cwd(Cwd),
refresh_logs(Dirs,[{D,{error,Reason}}|Refreshed]);
Result ->
refresh_logs(Dirs,[{D,Result}|Refreshed])
end
end;
false ->
refresh_logs(Dirs,Refreshed)
end;
refresh_logs([],Refreshed) ->
Str =
lists:map(fun({D,Result}) ->
io_lib:format("Refreshing logs in ~p... ~p",[D,Result])
end,Refreshed),
log(all,"Info",Str,[]).
%%%-----------------------------------------------------------------
%%% NODE CONTROLLER, runs and controls tests on a test node.
%%%-----------------------------------------------------------------
%%% @hidden
init_node_ctrl(MasterPid,Cookie,Opts) ->
%% make sure tests proceed even if connection to master is lost
process_flag(trap_exit, true),
MasterNode = node(MasterPid),
group_leader(whereis(user),self()),
io:format("~n********** node_ctrl process ~p started on ~p **********~n",
[self(),node()]),
%% initially this node must have the same cookie as the master node
%% but now we set it explicitly for the connection so that test suites
%% can change the cookie for the node if they wish
case erlang:get_cookie() of
Cookie -> % first time or cookie not changed
erlang:set_cookie(node(MasterPid),Cookie);
_ ->
ok
end,
case whereis(ct_util_server) of
undefined -> ok;
Pid -> exit(Pid,kill)
end,
%% start a local event manager
ct_event:start_link(),
ct_event:add_handler([{master,MasterPid}]),
%% log("Running test with options: ~p~n", [Opts]),
Result = case (catch ct:run_test(Opts)) of
ok -> finished_ok;
Other -> Other
end,
%% stop local event manager
ct_event:stop(),
case net_adm:ping(MasterNode) of
pong ->
MasterPid ! {self(),{result,Result}};
pang ->
io:format("Warning! Connection to master node ~p is lost. "
"Can't report result!~n~n", [MasterNode])
end.
%%%-----------------------------------------------------------------
%%% Event handling
%%%-----------------------------------------------------------------
%%% @hidden
status(MasterPid,Event=#event{name=start_make}) ->
call(MasterPid,Event);
status(MasterPid,Event=#event{name=finished_make}) ->
call(MasterPid,Event);
status(MasterPid,Event=#event{name=start_write_file}) ->
call(MasterPid,Event);
status(MasterPid,Event=#event{name=finished_write_file}) ->
call(MasterPid,Event);
status(MasterPid,Event) ->
cast(MasterPid,Event).
%%%-----------------------------------------------------------------
%%% Internal
%%%-----------------------------------------------------------------
log(To,Heading,Str,Args) ->
if To == all ; To == tty ->
Str1 = ["=== ",Heading," ===\n",io_lib:format(Str,Args),"\n"],
io:format(Str1,[]);
true ->
ok
end,
if To == all ; To == html ->
ct_master_logs:log(Heading,Str,Args);
true ->
ok
end.
call(Msg) ->
call(whereis(ct_master),Msg).
call(undefined,_Msg) ->
{error,not_running};
call(Pid,Msg) ->
Ref = erlang:monitor(process,Pid),
Pid ! {call,Msg,self()},
Return = receive
{Pid,Result} ->
Result;
{'DOWN', Ref, _, _, _} ->
{error,master_died}
end,
erlang:demonitor(Ref, [flush]),
Return.
reply(Result,To) ->
To ! {self(),Result},
ok.
init_nodes(NodeOptions, InitOptions)->
ping_nodes(NodeOptions),
start_nodes(InitOptions),
eval_on_nodes(InitOptions),
{Inaccessible, NodeOptions1}=ping_nodes(NodeOptions),
InitOptions1 = filter_accessible(InitOptions, Inaccessible),
{Inaccessible, NodeOptions1, InitOptions1}.
% only nodes which are inaccessible now, should be initiated later
filter_accessible(InitOptions, Inaccessible)->
[{Node,Option}||{Node,Option}<-InitOptions, lists:member(Node, Inaccessible)].
start_nodes(InitOptions)->
lists:foreach(fun({NodeName, Options})->
[NodeS,HostS]=string:tokens(atom_to_list(NodeName), "@"),
Node=list_to_atom(NodeS),
Host=list_to_atom(HostS),
HasNodeStart = lists:keymember(node_start, 1, Options),
IsAlive = lists:member(NodeName, nodes()),
case {HasNodeStart, IsAlive} of
{false, false}->
io:format("WARNING: Node ~p is not alive but has no node_start option~n", [NodeName]);
{false, true}->
io:format("Node ~p is alive~n", [NodeName]);
{true, false}->
{node_start, NodeStart} = lists:keyfind(node_start, 1, Options),
{value, {callback_module, Callback}, NodeStart2}=
lists:keytake(callback_module, 1, NodeStart),
case Callback:start(Host, Node, NodeStart2) of
{ok, NodeName} ->
io:format("Node ~p started successfully with callback ~p~n", [NodeName,Callback]);
{error, Reason, _NodeName} ->
io:format("Failed to start node ~p with callback ~p! Reason: ~p~n", [NodeName, Callback, Reason])
end;
{true, true}->
io:format("WARNING: Node ~p is alive but has node_start option~n", [NodeName])
end
end,
InitOptions).
eval_on_nodes(InitOptions)->
lists:foreach(fun({NodeName, Options})->
HasEval = lists:keymember(eval, 1, Options),
IsAlive = lists:member(NodeName, nodes()),
case {HasEval, IsAlive} of
{false,_}->
ok;
{true,false}->
io:format("WARNING: Node ~p is not alive but has eval option ~n", [NodeName]);
{true,true}->
{eval, MFAs} = lists:keyfind(eval, 1, Options),
evaluate(NodeName, MFAs)
end
end,
InitOptions).
evaluate(Node, [{M,F,A}|MFAs])->
case rpc:call(Node, M, F, A) of
{badrpc,Reason}->
io:format("WARNING: Failed to call ~p:~p/~p on node ~p due to ~p~n", [M,F,length(A),Node,Reason]);
Result->
io:format("Called ~p:~p/~p on node ~p, result: ~p~n", [M,F,length(A),Node,Result])
end,
evaluate(Node, MFAs);
evaluate(_Node, [])->
ok.
%cast(Msg) ->
% cast(whereis(ct_master),Msg).
cast(undefined,_Msg) ->
{error,not_running};
cast(Pid,Msg) ->
Pid ! {cast,Msg},
ok.