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%% This file is a copy of supervisor.erl from the R16B Erlang/OTP
%% distribution, with the following modifications:
%%
%% 1) the module name is supervisor2
%%
%% 2) a find_child/2 utility function has been added
%%
%% 3) Added an 'intrinsic' restart type. Like the transient type, this
%% type means the child should only be restarted if the child exits
%% abnormally. Unlike the transient type, if the child exits
%% normally, the supervisor itself also exits normally. If the
%% child is a supervisor and it exits normally (i.e. with reason of
%% 'shutdown') then the child's parent also exits normally.
%%
%% 4) child specifications can contain, as the restart type, a tuple
%% {permanent, Delay} | {transient, Delay} | {intrinsic, Delay}
%% where Delay >= 0 (see point (4) below for intrinsic). The delay,
%% in seconds, indicates what should happen if a child, upon being
%% restarted, exceeds the MaxT and MaxR parameters. Thus, if a
%% child exits, it is restarted as normal. If it exits sufficiently
%% quickly and often to exceed the boundaries set by the MaxT and
%% MaxR parameters, and a Delay is specified, then rather than
%% stopping the supervisor, the supervisor instead continues and
%% tries to start up the child again, Delay seconds later.
%%
%% Note that if a child is delay-restarted this will reset the
%% count of restarts towrds MaxR and MaxT. This matters if MaxT >
%% Delay, since otherwise we would fail to restart after the delay.
%%
%% Sometimes, you may wish for a transient or intrinsic child to
%% exit abnormally so that it gets restarted, but still log
%% nothing. gen_server will log any exit reason other than
%% 'normal', 'shutdown' or {'shutdown', _}. Thus the exit reason of
%% {'shutdown', 'restart'} is interpreted to mean you wish the
%% child to be restarted according to the delay parameters, but
%% gen_server will not log the error. Thus from gen_server's
%% perspective it's a normal exit, whilst from supervisor's
%% perspective, it's an abnormal exit.
%%
%% 5) normal, and {shutdown, _} exit reasons are all treated the same
%% (i.e. are regarded as normal exits)
%%
%% All modifications are (C) 2010-2013 GoPivotal, Inc.
%%
%% %CopyrightBegin%
%%
%% Copyright Ericsson AB 1996-2012. 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%
%%
-module(supervisor2).
-behaviour(gen_server).
%% External exports
-export([start_link/2, start_link/3,
start_child/2, restart_child/2,
delete_child/2, terminate_child/2,
which_children/1, count_children/1,
find_child/2, check_childspecs/1]).
%% Internal exports
-export([init/1, handle_call/3, handle_cast/2, handle_info/2,
terminate/2, code_change/3]).
-export([try_again_restart/3]).
%%--------------------------------------------------------------------------
-ifdef(use_specs).
-export_type([child_spec/0, startchild_ret/0, strategy/0, sup_name/0]).
-endif.
%%--------------------------------------------------------------------------
-ifdef(use_specs).
-type child() :: 'undefined' | pid().
-type child_id() :: term().
-type mfargs() :: {M :: module(), F :: atom(), A :: [term()] | undefined}.
-type modules() :: [module()] | 'dynamic'.
-type delay() :: non_neg_integer().
-type restart() :: 'permanent' | 'transient' | 'temporary' | 'intrinsic' | {'permanent', delay()} | {'transient', delay()} | {'intrinsic', delay()}.
-type shutdown() :: 'brutal_kill' | timeout().
-type worker() :: 'worker' | 'supervisor'.
-type sup_name() :: {'local', Name :: atom()} | {'global', Name :: atom()}.
-type sup_ref() :: (Name :: atom())
| {Name :: atom(), Node :: node()}
| {'global', Name :: atom()}
| pid().
-type child_spec() :: {Id :: child_id(),
StartFunc :: mfargs(),
Restart :: restart(),
Shutdown :: shutdown(),
Type :: worker(),
Modules :: modules()}.
-type strategy() :: 'one_for_all' | 'one_for_one'
| 'rest_for_one' | 'simple_one_for_one'.
-endif.
%%--------------------------------------------------------------------------
-ifdef(use_specs).
-record(child, {% pid is undefined when child is not running
pid = undefined :: child() | {restarting,pid()} | [pid()],
name :: child_id(),
mfargs :: mfargs(),
restart_type :: restart(),
shutdown :: shutdown(),
child_type :: worker(),
modules = [] :: modules()}).
-type child_rec() :: #child{}.
-else.
-record(child, {
pid = undefined,
name,
mfargs,
restart_type,
shutdown,
child_type,
modules = []}).
-endif.
-define(DICT, dict).
-define(SETS, sets).
-define(SET, set).
-ifdef(use_specs).
-record(state, {name,
strategy :: strategy(),
children = [] :: [child_rec()],
dynamics :: ?DICT:?DICT() | ?SETS:?SET(),
intensity :: non_neg_integer(),
period :: pos_integer(),
restarts = [],
module,
args}).
-type state() :: #state{}.
-else.
-record(state, {name,
strategy,
children = [],
dynamics,
intensity,
period,
restarts = [],
module,
args}).
-endif.
-define(is_simple(State), State#state.strategy =:= simple_one_for_one).
-define(is_permanent(R), ((R =:= permanent) orelse
(is_tuple(R) andalso
tuple_size(R) == 2 andalso
element(1, R) =:= permanent))).
-define(is_explicit_restart(R),
R == {shutdown, restart}).
-ifdef(use_specs).
-callback init(Args :: term()) ->
{ok, {{RestartStrategy :: strategy(),
MaxR :: non_neg_integer(),
MaxT :: non_neg_integer()},
[ChildSpec :: child_spec()]}}
| ignore.
-else.
-export([behaviour_info/1]).
behaviour_info(callbacks) ->
[{init,1}];
behaviour_info(_Other) ->
undefined.
-endif.
-define(restarting(_Pid_), {restarting,_Pid_}).
%%% ---------------------------------------------------
%%% This is a general process supervisor built upon gen_server.erl.
%%% Servers/processes should/could also be built using gen_server.erl.
%%% SupName = {local, atom()} | {global, atom()}.
%%% ---------------------------------------------------
-ifdef(use_specs).
-type startlink_err() :: {'already_started', pid()}
| {'shutdown', term()}
| term().
-type startlink_ret() :: {'ok', pid()} | 'ignore' | {'error', startlink_err()}.
-spec start_link(Module, Args) -> startlink_ret() when
Module :: module(),
Args :: term().
-endif.
start_link(Mod, Args) ->
gen_server:start_link(?MODULE, {self, Mod, Args}, []).
-ifdef(use_specs).
-spec start_link(SupName, Module, Args) -> startlink_ret() when
SupName :: sup_name(),
Module :: module(),
Args :: term().
-endif.
start_link(SupName, Mod, Args) ->
gen_server:start_link(SupName, ?MODULE, {SupName, Mod, Args}, []).
%%% ---------------------------------------------------
%%% Interface functions.
%%% ---------------------------------------------------
-ifdef(use_specs).
-type startchild_err() :: 'already_present'
| {'already_started', Child :: child()} | term().
-type startchild_ret() :: {'ok', Child :: child()}
| {'ok', Child :: child(), Info :: term()}
| {'error', startchild_err()}.
-spec start_child(SupRef, ChildSpec) -> startchild_ret() when
SupRef :: sup_ref(),
ChildSpec :: child_spec() | (List :: [term()]).
-endif.
start_child(Supervisor, ChildSpec) ->
call(Supervisor, {start_child, ChildSpec}).
-ifdef(use_specs).
-spec restart_child(SupRef, Id) -> Result when
SupRef :: sup_ref(),
Id :: child_id(),
Result :: {'ok', Child :: child()}
| {'ok', Child :: child(), Info :: term()}
| {'error', Error},
Error :: 'running' | 'restarting' | 'not_found' | 'simple_one_for_one' |
term().
-endif.
restart_child(Supervisor, Name) ->
call(Supervisor, {restart_child, Name}).
-ifdef(use_specs).
-spec delete_child(SupRef, Id) -> Result when
SupRef :: sup_ref(),
Id :: child_id(),
Result :: 'ok' | {'error', Error},
Error :: 'running' | 'restarting' | 'not_found' | 'simple_one_for_one'.
-endif.
delete_child(Supervisor, Name) ->
call(Supervisor, {delete_child, Name}).
%%-----------------------------------------------------------------
%% Func: terminate_child/2
%% Returns: ok | {error, Reason}
%% Note that the child is *always* terminated in some
%% way (maybe killed).
%%-----------------------------------------------------------------
-ifdef(use_specs).
-spec terminate_child(SupRef, Id) -> Result when
SupRef :: sup_ref(),
Id :: pid() | child_id(),
Result :: 'ok' | {'error', Error},
Error :: 'not_found' | 'simple_one_for_one'.
-endif.
terminate_child(Supervisor, Name) ->
call(Supervisor, {terminate_child, Name}).
-ifdef(use_specs).
-spec which_children(SupRef) -> [{Id,Child,Type,Modules}] when
SupRef :: sup_ref(),
Id :: child_id() | undefined,
Child :: child() | 'restarting',
Type :: worker(),
Modules :: modules().
-endif.
which_children(Supervisor) ->
call(Supervisor, which_children).
-ifdef(use_specs).
-spec count_children(SupRef) -> PropListOfCounts when
SupRef :: sup_ref(),
PropListOfCounts :: [Count],
Count :: {specs, ChildSpecCount :: non_neg_integer()}
| {active, ActiveProcessCount :: non_neg_integer()}
| {supervisors, ChildSupervisorCount :: non_neg_integer()}
|{workers, ChildWorkerCount :: non_neg_integer()}.
-endif.
count_children(Supervisor) ->
call(Supervisor, count_children).
-ifdef(use_specs).
-spec find_child(Supervisor, Name) -> [pid()] when
Supervisor :: sup_ref(),
Name :: child_id().
-endif.
find_child(Supervisor, Name) ->
[Pid || {Name1, Pid, _Type, _Modules} <- which_children(Supervisor),
Name1 =:= Name].
call(Supervisor, Req) ->
gen_server:call(Supervisor, Req, infinity).
-ifdef(use_specs).
-spec check_childspecs(ChildSpecs) -> Result when
ChildSpecs :: [child_spec()],
Result :: 'ok' | {'error', Error :: term()}.
-endif.
check_childspecs(ChildSpecs) when is_list(ChildSpecs) ->
case check_startspec(ChildSpecs) of
{ok, _} -> ok;
Error -> {error, Error}
end;
check_childspecs(X) -> {error, {badarg, X}}.
%%%-----------------------------------------------------------------
%%% Called by timer:apply_after from restart/2
-ifdef(use_specs).
-spec try_again_restart(SupRef, Child, Reason) -> ok when
SupRef :: sup_ref(),
Child :: child_id() | pid(),
Reason :: term().
-endif.
try_again_restart(Supervisor, Child, Reason) ->
cast(Supervisor, {try_again_restart, Child, Reason}).
cast(Supervisor, Req) ->
gen_server:cast(Supervisor, Req).
%%% ---------------------------------------------------
%%%
%%% Initialize the supervisor.
%%%
%%% ---------------------------------------------------
-ifdef(use_specs).
-type init_sup_name() :: sup_name() | 'self'.
-type stop_rsn() :: {'shutdown', term()}
| {'bad_return', {module(),'init', term()}}
| {'bad_start_spec', term()}
| {'start_spec', term()}
| {'supervisor_data', term()}.
-spec init({init_sup_name(), module(), [term()]}) ->
{'ok', state()} | 'ignore' | {'stop', stop_rsn()}.
-endif.
init({SupName, Mod, Args}) ->
process_flag(trap_exit, true),
case Mod:init(Args) of
{ok, {SupFlags, StartSpec}} ->
case init_state(SupName, SupFlags, Mod, Args) of
{ok, State} when ?is_simple(State) ->
init_dynamic(State, StartSpec);
{ok, State} ->
init_children(State, StartSpec);
Error ->
{stop, {supervisor_data, Error}}
end;
ignore ->
ignore;
Error ->
{stop, {bad_return, {Mod, init, Error}}}
end.
init_children(State, StartSpec) ->
SupName = State#state.name,
case check_startspec(StartSpec) of
{ok, Children} ->
case start_children(Children, SupName) of
{ok, NChildren} ->
{ok, State#state{children = NChildren}};
{error, NChildren, Reason} ->
terminate_children(NChildren, SupName),
{stop, {shutdown, Reason}}
end;
Error ->
{stop, {start_spec, Error}}
end.
init_dynamic(State, [StartSpec]) ->
case check_startspec([StartSpec]) of
{ok, Children} ->
{ok, State#state{children = Children}};
Error ->
{stop, {start_spec, Error}}
end;
init_dynamic(_State, StartSpec) ->
{stop, {bad_start_spec, StartSpec}}.
%%-----------------------------------------------------------------
%% Func: start_children/2
%% Args: Children = [child_rec()] in start order
%% SupName = {local, atom()} | {global, atom()} | {pid(), Mod}
%% Purpose: Start all children. The new list contains #child's
%% with pids.
%% Returns: {ok, NChildren} | {error, NChildren, Reason}
%% NChildren = [child_rec()] in termination order (reversed
%% start order)
%%-----------------------------------------------------------------
start_children(Children, SupName) -> start_children(Children, [], SupName).
start_children([Child|Chs], NChildren, SupName) ->
case do_start_child(SupName, Child) of
{ok, undefined} when Child#child.restart_type =:= temporary ->
start_children(Chs, NChildren, SupName);
{ok, Pid} ->
start_children(Chs, [Child#child{pid = Pid}|NChildren], SupName);
{ok, Pid, _Extra} ->
start_children(Chs, [Child#child{pid = Pid}|NChildren], SupName);
{error, Reason} ->
report_error(start_error, Reason, Child, SupName),
{error, lists:reverse(Chs) ++ [Child | NChildren],
{failed_to_start_child,Child#child.name,Reason}}
end;
start_children([], NChildren, _SupName) ->
{ok, NChildren}.
do_start_child(SupName, Child) ->
#child{mfargs = {M, F, Args}} = Child,
case catch apply(M, F, Args) of
{ok, Pid} when is_pid(Pid) ->
NChild = Child#child{pid = Pid},
report_progress(NChild, SupName),
{ok, Pid};
{ok, Pid, Extra} when is_pid(Pid) ->
NChild = Child#child{pid = Pid},
report_progress(NChild, SupName),
{ok, Pid, Extra};
ignore ->
{ok, undefined};
{error, What} -> {error, What};
What -> {error, What}
end.
do_start_child_i(M, F, A) ->
case catch apply(M, F, A) of
{ok, Pid} when is_pid(Pid) ->
{ok, Pid};
{ok, Pid, Extra} when is_pid(Pid) ->
{ok, Pid, Extra};
ignore ->
{ok, undefined};
{error, Error} ->
{error, Error};
What ->
{error, What}
end.
%%% ---------------------------------------------------
%%%
%%% Callback functions.
%%%
%%% ---------------------------------------------------
-ifdef(use_specs).
-type call() :: 'which_children' | 'count_children' | {_, _}. % XXX: refine
-spec handle_call(call(), term(), state()) -> {'reply', term(), state()}.
-endif.
handle_call({start_child, EArgs}, _From, State) when ?is_simple(State) ->
Child = hd(State#state.children),
#child{mfargs = {M, F, A}} = Child,
Args = A ++ EArgs,
case do_start_child_i(M, F, Args) of
{ok, undefined} when Child#child.restart_type =:= temporary ->
{reply, {ok, undefined}, State};
{ok, Pid} ->
NState = save_dynamic_child(Child#child.restart_type, Pid, Args, State),
{reply, {ok, Pid}, NState};
{ok, Pid, Extra} ->
NState = save_dynamic_child(Child#child.restart_type, Pid, Args, State),
{reply, {ok, Pid, Extra}, NState};
What ->
{reply, What, State}
end;
%% terminate_child for simple_one_for_one can only be done with pid
handle_call({terminate_child, Name}, _From, State) when not is_pid(Name),
?is_simple(State) ->
{reply, {error, simple_one_for_one}, State};
handle_call({terminate_child, Name}, _From, State) ->
case get_child(Name, State, ?is_simple(State)) of
{value, Child} ->
case do_terminate(Child, State#state.name) of
#child{restart_type=RT} when RT=:=temporary; ?is_simple(State) ->
{reply, ok, state_del_child(Child, State)};
NChild ->
{reply, ok, replace_child(NChild, State)}
end;
false ->
{reply, {error, not_found}, State}
end;
%%% The requests delete_child and restart_child are invalid for
%%% simple_one_for_one supervisors.
handle_call({_Req, _Data}, _From, State) when ?is_simple(State) ->
{reply, {error, simple_one_for_one}, State};
handle_call({start_child, ChildSpec}, _From, State) ->
case check_childspec(ChildSpec) of
{ok, Child} ->
{Resp, NState} = handle_start_child(Child, State),
{reply, Resp, NState};
What ->
{reply, {error, What}, State}
end;
handle_call({restart_child, Name}, _From, State) ->
case get_child(Name, State) of
{value, Child} when Child#child.pid =:= undefined ->
case do_start_child(State#state.name, Child) of
{ok, Pid} ->
NState = replace_child(Child#child{pid = Pid}, State),
{reply, {ok, Pid}, NState};
{ok, Pid, Extra} ->
NState = replace_child(Child#child{pid = Pid}, State),
{reply, {ok, Pid, Extra}, NState};
Error ->
{reply, Error, State}
end;
{value, #child{pid=?restarting(_)}} ->
{reply, {error, restarting}, State};
{value, _} ->
{reply, {error, running}, State};
_ ->
{reply, {error, not_found}, State}
end;
handle_call({delete_child, Name}, _From, State) ->
case get_child(Name, State) of
{value, Child} when Child#child.pid =:= undefined ->
NState = remove_child(Child, State),
{reply, ok, NState};
{value, #child{pid=?restarting(_)}} ->
{reply, {error, restarting}, State};
{value, _} ->
{reply, {error, running}, State};
_ ->
{reply, {error, not_found}, State}
end;
handle_call(which_children, _From, #state{children = [#child{restart_type = temporary,
child_type = CT,
modules = Mods}]} =
State) when ?is_simple(State) ->
Reply = lists:map(fun(Pid) -> {undefined, Pid, CT, Mods} end,
?SETS:to_list(dynamics_db(temporary, State#state.dynamics))),
{reply, Reply, State};
handle_call(which_children, _From, #state{children = [#child{restart_type = RType,
child_type = CT,
modules = Mods}]} =
State) when ?is_simple(State) ->
Reply = lists:map(fun({?restarting(_),_}) -> {undefined,restarting,CT,Mods};
({Pid, _}) -> {undefined, Pid, CT, Mods} end,
?DICT:to_list(dynamics_db(RType, State#state.dynamics))),
{reply, Reply, State};
handle_call(which_children, _From, State) ->
Resp =
lists:map(fun(#child{pid = ?restarting(_), name = Name,
child_type = ChildType, modules = Mods}) ->
{Name, restarting, ChildType, Mods};
(#child{pid = Pid, name = Name,
child_type = ChildType, modules = Mods}) ->
{Name, Pid, ChildType, Mods}
end,
State#state.children),
{reply, Resp, State};
handle_call(count_children, _From, #state{children = [#child{restart_type = temporary,
child_type = CT}]} = State)
when ?is_simple(State) ->
{Active, Count} =
?SETS:fold(fun(Pid, {Alive, Tot}) ->
case is_pid(Pid) andalso is_process_alive(Pid) of
true ->{Alive+1, Tot +1};
false ->
{Alive, Tot + 1}
end
end, {0, 0}, dynamics_db(temporary, State#state.dynamics)),
Reply = case CT of
supervisor -> [{specs, 1}, {active, Active},
{supervisors, Count}, {workers, 0}];
worker -> [{specs, 1}, {active, Active},
{supervisors, 0}, {workers, Count}]
end,
{reply, Reply, State};
handle_call(count_children, _From, #state{children = [#child{restart_type = RType,
child_type = CT}]} = State)
when ?is_simple(State) ->
{Active, Count} =
?DICT:fold(fun(Pid, _Val, {Alive, Tot}) ->
case is_pid(Pid) andalso is_process_alive(Pid) of
true ->
{Alive+1, Tot +1};
false ->
{Alive, Tot + 1}
end
end, {0, 0}, dynamics_db(RType, State#state.dynamics)),
Reply = case CT of
supervisor -> [{specs, 1}, {active, Active},
{supervisors, Count}, {workers, 0}];
worker -> [{specs, 1}, {active, Active},
{supervisors, 0}, {workers, Count}]
end,
{reply, Reply, State};
handle_call(count_children, _From, State) ->
%% Specs and children are together on the children list...
{Specs, Active, Supers, Workers} =
lists:foldl(fun(Child, Counts) ->
count_child(Child, Counts)
end, {0,0,0,0}, State#state.children),
%% Reformat counts to a property list.
Reply = [{specs, Specs}, {active, Active},
{supervisors, Supers}, {workers, Workers}],
{reply, Reply, State}.
count_child(#child{pid = Pid, child_type = worker},
{Specs, Active, Supers, Workers}) ->
case is_pid(Pid) andalso is_process_alive(Pid) of
true -> {Specs+1, Active+1, Supers, Workers+1};
false -> {Specs+1, Active, Supers, Workers+1}
end;
count_child(#child{pid = Pid, child_type = supervisor},
{Specs, Active, Supers, Workers}) ->
case is_pid(Pid) andalso is_process_alive(Pid) of
true -> {Specs+1, Active+1, Supers+1, Workers};
false -> {Specs+1, Active, Supers+1, Workers}
end.
%%% If a restart attempt failed, this message is sent via
%%% timer:apply_after(0,...) in order to give gen_server the chance to
%%% check it's inbox before trying again.
-ifdef(use_specs).
-spec handle_cast({try_again_restart, child_id() | pid(), term()}, state()) ->
{'noreply', state()} | {stop, shutdown, state()}.
-endif.
handle_cast({try_again_restart,Pid,Reason}, #state{children=[Child]}=State)
when ?is_simple(State) ->
RT = Child#child.restart_type,
RPid = restarting(Pid),
case dynamic_child_args(RPid, dynamics_db(RT, State#state.dynamics)) of
{ok, Args} ->
{M, F, _} = Child#child.mfargs,
NChild = Child#child{pid = RPid, mfargs = {M, F, Args}},
try_restart(Child#child.restart_type, Reason, NChild, State);
error ->
{noreply, State}
end;
handle_cast({try_again_restart,Name,Reason}, State) ->
%% we still support >= R12-B3 in which lists:keyfind/3 doesn't exist
case lists:keysearch(Name,#child.name,State#state.children) of
{value, Child = #child{pid=?restarting(_), restart_type=RestartType}} ->
try_restart(RestartType, Reason, Child, State);
_ ->
{noreply,State}
end.
%%
%% Take care of terminated children.
%%
-ifdef(use_specs).
-spec handle_info(term(), state()) ->
{'noreply', state()} | {'stop', 'shutdown', state()}.
-endif.
handle_info({'EXIT', Pid, Reason}, State) ->
case restart_child(Pid, Reason, State) of
{ok, State1} ->
{noreply, State1};
{shutdown, State1} ->
{stop, shutdown, State1}
end;
handle_info({delayed_restart, {RestartType, Reason, Child}}, State)
when ?is_simple(State) ->
try_restart(RestartType, Reason, Child, State#state{restarts = []}); %% [1]
handle_info({delayed_restart, {RestartType, Reason, Child}}, State) ->
case get_child(Child#child.name, State) of
{value, Child1} ->
try_restart(RestartType, Reason, Child1,
State#state{restarts = []}); %% [1]
_What ->
{noreply, State}
end;
%% [1] When we receive a delayed_restart message we want to reset the
%% restarts field since otherwise the MaxT might not have elapsed and
%% we would just delay again and again. Since a common use of the
%% delayed restart feature is for MaxR = 1, MaxT = some huge number
%% (so that we don't end up bouncing around in non-delayed restarts)
%% this is important.
handle_info(Msg, State) ->
error_logger:error_msg("Supervisor received unexpected message: ~p~n",
[Msg]),
{noreply, State}.
%%
%% Terminate this server.
%%
-ifdef(use_specs).
-spec terminate(term(), state()) -> 'ok'.
-endif.
terminate(_Reason, #state{children=[Child]} = State) when ?is_simple(State) ->
terminate_dynamic_children(Child, dynamics_db(Child#child.restart_type,
State#state.dynamics),
State#state.name);
terminate(_Reason, State) ->
terminate_children(State#state.children, State#state.name).
%%
%% Change code for the supervisor.
%% Call the new call-back module and fetch the new start specification.
%% Combine the new spec. with the old. If the new start spec. is
%% not valid the code change will not succeed.
%% Use the old Args as argument to Module:init/1.
%% NOTE: This requires that the init function of the call-back module
%% does not have any side effects.
%%
-ifdef(use_specs).
-spec code_change(term(), state(), term()) ->
{'ok', state()} | {'error', term()}.
-endif.
code_change(_, State, _) ->
case (State#state.module):init(State#state.args) of
{ok, {SupFlags, StartSpec}} ->
case catch check_flags(SupFlags) of
ok ->
{Strategy, MaxIntensity, Period} = SupFlags,
update_childspec(State#state{strategy = Strategy,
intensity = MaxIntensity,
period = Period},
StartSpec);
Error ->
{error, Error}
end;
ignore ->
{ok, State};
Error ->
Error
end.
check_flags({Strategy, MaxIntensity, Period}) ->
validStrategy(Strategy),
validIntensity(MaxIntensity),
validPeriod(Period),
ok;
check_flags(What) ->
{bad_flags, What}.
update_childspec(State, StartSpec) when ?is_simple(State) ->
case check_startspec(StartSpec) of
{ok, [Child]} ->
{ok, State#state{children = [Child]}};
Error ->
{error, Error}
end;
update_childspec(State, StartSpec) ->
case check_startspec(StartSpec) of
{ok, Children} ->
OldC = State#state.children, % In reverse start order !
NewC = update_childspec1(OldC, Children, []),
{ok, State#state{children = NewC}};
Error ->
{error, Error}
end.
update_childspec1([Child|OldC], Children, KeepOld) ->
case update_chsp(Child, Children) of
{ok,NewChildren} ->
update_childspec1(OldC, NewChildren, KeepOld);
false ->
update_childspec1(OldC, Children, [Child|KeepOld])
end;
update_childspec1([], Children, KeepOld) ->
%% Return them in (kept) reverse start order.
lists:reverse(Children ++ KeepOld).
update_chsp(OldCh, Children) ->
case lists:map(fun(Ch) when OldCh#child.name =:= Ch#child.name ->
Ch#child{pid = OldCh#child.pid};
(Ch) ->
Ch
end,
Children) of
Children ->
false; % OldCh not found in new spec.
NewC ->
{ok, NewC}
end.
%%% ---------------------------------------------------
%%% Start a new child.
%%% ---------------------------------------------------
handle_start_child(Child, State) ->
case get_child(Child#child.name, State) of
false ->
case do_start_child(State#state.name, Child) of
{ok, undefined} when Child#child.restart_type =:= temporary ->
{{ok, undefined}, State};
{ok, Pid} ->
{{ok, Pid}, save_child(Child#child{pid = Pid}, State)};
{ok, Pid, Extra} ->
{{ok, Pid, Extra}, save_child(Child#child{pid = Pid}, State)};
{error, What} ->
{{error, {What, Child}}, State}
end;
{value, OldChild} when is_pid(OldChild#child.pid) ->
{{error, {already_started, OldChild#child.pid}}, State};
{value, _OldChild} ->
{{error, already_present}, State}
end.
%%% ---------------------------------------------------
%%% Restart. A process has terminated.
%%% Returns: {ok, state()} | {shutdown, state()}
%%% ---------------------------------------------------
restart_child(Pid, Reason, #state{children = [Child]} = State) when ?is_simple(State) ->
RestartType = Child#child.restart_type,
case dynamic_child_args(Pid, dynamics_db(RestartType, State#state.dynamics)) of
{ok, Args} ->
{M, F, _} = Child#child.mfargs,
NChild = Child#child{pid = Pid, mfargs = {M, F, Args}},
do_restart(RestartType, Reason, NChild, State);
error ->
{ok, State}
end;
restart_child(Pid, Reason, State) ->
Children = State#state.children,
%% we still support >= R12-B3 in which lists:keyfind/3 doesn't exist
case lists:keysearch(Pid, #child.pid, Children) of
{value, #child{restart_type = RestartType} = Child} ->
do_restart(RestartType, Reason, Child, State);
false ->
{ok, State}
end.
try_restart(RestartType, Reason, Child, State) ->
case handle_restart(RestartType, Reason, Child, State) of
{ok, NState} -> {noreply, NState};
{shutdown, State2} -> {stop, shutdown, State2}
end.
do_restart(RestartType, Reason, Child, State) ->
maybe_report_error(RestartType, Reason, Child, State),
handle_restart(RestartType, Reason, Child, State).
maybe_report_error(permanent, Reason, Child, State) ->
report_child_termination(Reason, Child, State);
maybe_report_error({permanent, _}, Reason, Child, State) ->
report_child_termination(Reason, Child, State);
maybe_report_error(_Type, Reason, Child, State) ->
case is_abnormal_termination(Reason) of
true -> report_child_termination(Reason, Child, State);
false -> ok
end.
report_child_termination(Reason, Child, State) ->
report_error(child_terminated, Reason, Child, State#state.name).
handle_restart(permanent, _Reason, Child, State) ->
restart(Child, State);
handle_restart(transient, Reason, Child, State) ->
restart_if_explicit_or_abnormal(fun restart/2,
fun delete_child_and_continue/2,
Reason, Child, State);
handle_restart(intrinsic, Reason, Child, State) ->
restart_if_explicit_or_abnormal(fun restart/2,
fun delete_child_and_stop/2,
Reason, Child, State);
handle_restart(temporary, _Reason, Child, State) ->
delete_child_and_continue(Child, State);
handle_restart({permanent, _Delay}=Restart, Reason, Child, State) ->
do_restart_delay(Restart, Reason, Child, State);
handle_restart({transient, _Delay}=Restart, Reason, Child, State) ->
restart_if_explicit_or_abnormal(defer_to_restart_delay(Restart, Reason),
fun delete_child_and_continue/2,
Reason, Child, State);
handle_restart({intrinsic, _Delay}=Restart, Reason, Child, State) ->
restart_if_explicit_or_abnormal(defer_to_restart_delay(Restart, Reason),
fun delete_child_and_stop/2,
Reason, Child, State).
restart_if_explicit_or_abnormal(RestartHow, Otherwise, Reason, Child, State) ->
case ?is_explicit_restart(Reason) orelse is_abnormal_termination(Reason) of
true -> RestartHow(Child, State);
false -> Otherwise(Child, State)
end.
defer_to_restart_delay(Restart, Reason) ->
fun(Child, State) -> do_restart_delay(Restart, Reason, Child, State) end.
delete_child_and_continue(Child, State) ->
{ok, state_del_child(Child, State)}.
delete_child_and_stop(Child, State) ->
{shutdown, state_del_child(Child, State)}.
is_abnormal_termination(normal) -> false;
is_abnormal_termination(shutdown) -> false;
is_abnormal_termination({shutdown, _}) -> false;
is_abnormal_termination(_Other) -> true.
do_restart_delay({RestartType, Delay}, Reason, Child, State) ->
case add_restart(State) of
{ok, NState} ->
maybe_restart(NState#state.strategy, Child, NState);
{terminate, _NState} ->
%% we've reached the max restart intensity, but the
%% add_restart will have added to the restarts
%% field. Given we don't want to die here, we need to go
%% back to the old restarts field otherwise we'll never
%% attempt to restart later, which is why we ignore
%% NState for this clause.
_TRef = erlang:send_after(trunc(Delay*1000), self(),
{delayed_restart,
{{RestartType, Delay}, Reason, Child}}),
{ok, state_del_child(Child, State)}
end.
restart(Child, State) ->
case add_restart(State) of
{ok, NState} ->
maybe_restart(NState#state.strategy, Child, NState);
{terminate, NState} ->
report_error(shutdown, reached_max_restart_intensity,
Child, State#state.name),
{shutdown, remove_child(Child, NState)}
end.
maybe_restart(Strategy, Child, State) ->
case restart(Strategy, Child, State) of
{try_again, Reason, NState2} ->
%% Leaving control back to gen_server before
%% trying again. This way other incoming requsts
%% for the supervisor can be handled - e.g. a
%% shutdown request for the supervisor or the
%% child.
Id = if ?is_simple(State) -> Child#child.pid;
true -> Child#child.name
end,
timer:apply_after(0,?MODULE,try_again_restart,[self(),Id,Reason]),
{ok,NState2};
Other ->
Other
end.
restart(simple_one_for_one, Child, State) ->
#child{pid = OldPid, mfargs = {M, F, A}} = Child,
Dynamics = ?DICT:erase(OldPid, dynamics_db(Child#child.restart_type,
State#state.dynamics)),
case do_start_child_i(M, F, A) of
{ok, Pid} ->
NState = State#state{dynamics = ?DICT:store(Pid, A, Dynamics)},
{ok, NState};
{ok, Pid, _Extra} ->
NState = State#state{dynamics = ?DICT:store(Pid, A, Dynamics)},
{ok, NState};
{error, Error} ->
NState = State#state{dynamics = ?DICT:store(restarting(OldPid), A,
Dynamics)},
report_error(start_error, Error, Child, State#state.name),
{try_again, Error, NState}
end;
restart(one_for_one, Child, State) ->
OldPid = Child#child.pid,
case do_start_child(State#state.name, Child) of
{ok, Pid} ->
NState = replace_child(Child#child{pid = Pid}, State),
{ok, NState};
{ok, Pid, _Extra} ->
NState = replace_child(Child#child{pid = Pid}, State),
{ok, NState};
{error, Reason} ->
NState = replace_child(Child#child{pid = restarting(OldPid)}, State),
report_error(start_error, Reason, Child, State#state.name),
{try_again, Reason, NState}
end;
restart(rest_for_one, Child, State) ->
{ChAfter, ChBefore} = split_child(Child#child.pid, State#state.children),
ChAfter2 = terminate_children(ChAfter, State#state.name),
case start_children(ChAfter2, State#state.name) of
{ok, ChAfter3} ->
{ok, State#state{children = ChAfter3 ++ ChBefore}};
{error, ChAfter3, Reason} ->
NChild = Child#child{pid=restarting(Child#child.pid)},
NState = State#state{children = ChAfter3 ++ ChBefore},
{try_again, Reason, replace_child(NChild,NState)}
end;
restart(one_for_all, Child, State) ->
Children1 = del_child(Child#child.pid, State#state.children),
Children2 = terminate_children(Children1, State#state.name),
case start_children(Children2, State#state.name) of
{ok, NChs} ->
{ok, State#state{children = NChs}};
{error, NChs, Reason} ->
NChild = Child#child{pid=restarting(Child#child.pid)},
NState = State#state{children = NChs},
{try_again, Reason, replace_child(NChild,NState)}
end.
restarting(Pid) when is_pid(Pid) -> ?restarting(Pid);
restarting(RPid) -> RPid.
%%-----------------------------------------------------------------
%% Func: terminate_children/2
%% Args: Children = [child_rec()] in termination order
%% SupName = {local, atom()} | {global, atom()} | {pid(),Mod}
%% Returns: NChildren = [child_rec()] in
%% startup order (reversed termination order)
%%-----------------------------------------------------------------
terminate_children(Children, SupName) ->
terminate_children(Children, SupName, []).
%% Temporary children should not be restarted and thus should
%% be skipped when building the list of terminated children, although
%% we do want them to be shut down as many functions from this module
%% use this function to just clear everything.
terminate_children([Child = #child{restart_type=temporary} | Children], SupName, Res) ->
do_terminate(Child, SupName),
terminate_children(Children, SupName, Res);
terminate_children([Child | Children], SupName, Res) ->
NChild = do_terminate(Child, SupName),
terminate_children(Children, SupName, [NChild | Res]);
terminate_children([], _SupName, Res) ->
Res.
do_terminate(Child, SupName) when is_pid(Child#child.pid) ->
case shutdown(Child#child.pid, Child#child.shutdown) of
ok ->
ok;
{error, normal} when not ?is_permanent(Child#child.restart_type) ->
ok;
{error, OtherReason} ->
report_error(shutdown_error, OtherReason, Child, SupName)
end,
Child#child{pid = undefined};
do_terminate(Child, _SupName) ->
Child#child{pid = undefined}.
%%-----------------------------------------------------------------
%% Shutdowns a child. We must check the EXIT value
%% of the child, because it might have died with another reason than
%% the wanted. In that case we want to report the error. We put a
%% monitor on the child an check for the 'DOWN' message instead of
%% checking for the 'EXIT' message, because if we check the 'EXIT'
%% message a "naughty" child, who does unlink(Sup), could hang the
%% supervisor.
%% Returns: ok | {error, OtherReason} (this should be reported)
%%-----------------------------------------------------------------
shutdown(Pid, brutal_kill) ->
case monitor_child(Pid) of
ok ->
exit(Pid, kill),
receive
{'DOWN', _MRef, process, Pid, killed} ->
ok;
{'DOWN', _MRef, process, Pid, OtherReason} ->
{error, OtherReason}
end;
{error, Reason} ->
{error, Reason}
end;
shutdown(Pid, Time) ->
case monitor_child(Pid) of
ok ->
exit(Pid, shutdown), %% Try to shutdown gracefully
receive
{'DOWN', _MRef, process, Pid, shutdown} ->
ok;
{'DOWN', _MRef, process, Pid, OtherReason} ->
{error, OtherReason}
after Time ->
exit(Pid, kill), %% Force termination.
receive
{'DOWN', _MRef, process, Pid, OtherReason} ->
{error, OtherReason}
end
end;
{error, Reason} ->
{error, Reason}
end.
%% Help function to shutdown/2 switches from link to monitor approach
monitor_child(Pid) ->
%% Do the monitor operation first so that if the child dies
%% before the monitoring is done causing a 'DOWN'-message with
%% reason noproc, we will get the real reason in the 'EXIT'-message
%% unless a naughty child has already done unlink...
erlang:monitor(process, Pid),
unlink(Pid),
receive
%% If the child dies before the unlik we must empty
%% the mail-box of the 'EXIT'-message and the 'DOWN'-message.
{'EXIT', Pid, Reason} ->
receive
{'DOWN', _, process, Pid, _} ->
{error, Reason}
end
after 0 ->
%% If a naughty child did unlink and the child dies before
%% monitor the result will be that shutdown/2 receives a
%% 'DOWN'-message with reason noproc.
%% If the child should die after the unlink there
%% will be a 'DOWN'-message with a correct reason
%% that will be handled in shutdown/2.
ok
end.
%%-----------------------------------------------------------------
%% Func: terminate_dynamic_children/3
%% Args: Child = child_rec()
%% Dynamics = ?DICT() | ?SET()
%% SupName = {local, atom()} | {global, atom()} | {pid(),Mod}
%% Returns: ok
%%
%%
%% Shutdown all dynamic children. This happens when the supervisor is
%% stopped. Because the supervisor can have millions of dynamic children, we
%% can have an significative overhead here.
%%-----------------------------------------------------------------
terminate_dynamic_children(Child, Dynamics, SupName) ->
{Pids, EStack0} = monitor_dynamic_children(Child, Dynamics),
Sz = ?SETS:size(Pids),
EStack = case Child#child.shutdown of
brutal_kill ->
?SETS:fold(fun(P, _) -> exit(P, kill) end, ok, Pids),
wait_dynamic_children(Child, Pids, Sz, undefined, EStack0);
infinity ->
?SETS:fold(fun(P, _) -> exit(P, shutdown) end, ok, Pids),
wait_dynamic_children(Child, Pids, Sz, undefined, EStack0);
Time ->
?SETS:fold(fun(P, _) -> exit(P, shutdown) end, ok, Pids),
TRef = erlang:start_timer(Time, self(), kill),
wait_dynamic_children(Child, Pids, Sz, TRef, EStack0)
end,
%% Unroll stacked errors and report them
?DICT:fold(fun(Reason, Ls, _) ->
report_error(shutdown_error, Reason,
Child#child{pid=Ls}, SupName)
end, ok, EStack).
monitor_dynamic_children(#child{restart_type=temporary}, Dynamics) ->
?SETS:fold(fun(P, {Pids, EStack}) ->
case monitor_child(P) of
ok ->
{?SETS:add_element(P, Pids), EStack};
{error, normal} ->
{Pids, EStack};
{error, Reason} ->
{Pids, ?DICT:append(Reason, P, EStack)}
end
end, {?SETS:new(), ?DICT:new()}, Dynamics);
monitor_dynamic_children(#child{restart_type=RType}, Dynamics) ->
?DICT:fold(fun(P, _, {Pids, EStack}) when is_pid(P) ->
case monitor_child(P) of
ok ->
{?SETS:add_element(P, Pids), EStack};
{error, normal} when not ?is_permanent(RType) ->
{Pids, EStack};
{error, Reason} ->
{Pids, ?DICT:append(Reason, P, EStack)}
end;
(?restarting(_), _, {Pids, EStack}) ->
{Pids, EStack}
end, {?SETS:new(), ?DICT:new()}, Dynamics).
wait_dynamic_children(_Child, _Pids, 0, undefined, EStack) ->
EStack;
wait_dynamic_children(_Child, _Pids, 0, TRef, EStack) ->
%% If the timer has expired before its cancellation, we must empty the
%% mail-box of the 'timeout'-message.
erlang:cancel_timer(TRef),
receive
{timeout, TRef, kill} ->
EStack
after 0 ->
EStack
end;
wait_dynamic_children(#child{shutdown=brutal_kill} = Child, Pids, Sz,
TRef, EStack) ->
receive
{'DOWN', _MRef, process, Pid, killed} ->
wait_dynamic_children(Child, ?SETS:del_element(Pid, Pids), Sz-1,
TRef, EStack);
{'DOWN', _MRef, process, Pid, Reason} ->
wait_dynamic_children(Child, ?SETS:del_element(Pid, Pids), Sz-1,
TRef, ?DICT:append(Reason, Pid, EStack))
end;
wait_dynamic_children(#child{restart_type=RType} = Child, Pids, Sz,
TRef, EStack) ->
receive
{'DOWN', _MRef, process, Pid, shutdown} ->
wait_dynamic_children(Child, ?SETS:del_element(Pid, Pids), Sz-1,
TRef, EStack);
{'DOWN', _MRef, process, Pid, normal} when not ?is_permanent(RType) ->
wait_dynamic_children(Child, ?SETS:del_element(Pid, Pids), Sz-1,
TRef, EStack);
{'DOWN', _MRef, process, Pid, Reason} ->
wait_dynamic_children(Child, ?SETS:del_element(Pid, Pids), Sz-1,
TRef, ?DICT:append(Reason, Pid, EStack));
{timeout, TRef, kill} ->
?SETS:fold(fun(P, _) -> exit(P, kill) end, ok, Pids),
wait_dynamic_children(Child, Pids, Sz-1, undefined, EStack)
end.
%%-----------------------------------------------------------------
%% Child/State manipulating functions.
%%-----------------------------------------------------------------
%% Note we do not want to save the parameter list for temporary processes as
%% they will not be restarted, and hence we do not need this information.
%% Especially for dynamic children to simple_one_for_one supervisors
%% it could become very costly as it is not uncommon to spawn
%% very many such processes.
save_child(#child{restart_type = temporary,
mfargs = {M, F, _}} = Child, #state{children = Children} = State) ->
State#state{children = [Child#child{mfargs = {M, F, undefined}} |Children]};
save_child(Child, #state{children = Children} = State) ->
State#state{children = [Child |Children]}.
save_dynamic_child(temporary, Pid, _, #state{dynamics = Dynamics} = State) ->
State#state{dynamics = ?SETS:add_element(Pid, dynamics_db(temporary, Dynamics))};
save_dynamic_child(RestartType, Pid, Args, #state{dynamics = Dynamics} = State) ->
State#state{dynamics = ?DICT:store(Pid, Args, dynamics_db(RestartType, Dynamics))}.
dynamics_db(temporary, undefined) ->
?SETS:new();
dynamics_db(_, undefined) ->
?DICT:new();
dynamics_db(_,Dynamics) ->
Dynamics.
dynamic_child_args(Pid, Dynamics) ->
case ?SETS:is_set(Dynamics) of
true ->
{ok, undefined};
false ->
?DICT:find(Pid, Dynamics)
end.
state_del_child(#child{pid = Pid, restart_type = temporary}, State) when ?is_simple(State) ->
NDynamics = ?SETS:del_element(Pid, dynamics_db(temporary, State#state.dynamics)),
State#state{dynamics = NDynamics};
state_del_child(#child{pid = Pid, restart_type = RType}, State) when ?is_simple(State) ->
NDynamics = ?DICT:erase(Pid, dynamics_db(RType, State#state.dynamics)),
State#state{dynamics = NDynamics};
state_del_child(Child, State) ->
NChildren = del_child(Child#child.name, State#state.children),
State#state{children = NChildren}.
del_child(Name, [Ch=#child{pid = ?restarting(_)}|_]=Chs) when Ch#child.name =:= Name ->
Chs;
del_child(Name, [Ch|Chs]) when Ch#child.name =:= Name, Ch#child.restart_type =:= temporary ->
Chs;
del_child(Name, [Ch|Chs]) when Ch#child.name =:= Name ->
[Ch#child{pid = undefined} | Chs];
del_child(Pid, [Ch|Chs]) when Ch#child.pid =:= Pid, Ch#child.restart_type =:= temporary ->
Chs;
del_child(Pid, [Ch|Chs]) when Ch#child.pid =:= Pid ->
[Ch#child{pid = undefined} | Chs];
del_child(Name, [Ch|Chs]) ->
[Ch|del_child(Name, Chs)];
del_child(_, []) ->
[].
%% Chs = [S4, S3, Ch, S1, S0]
%% Ret: {[S4, S3, Ch], [S1, S0]}
split_child(Name, Chs) ->
split_child(Name, Chs, []).
split_child(Name, [Ch|Chs], After) when Ch#child.name =:= Name ->
{lists:reverse([Ch#child{pid = undefined} | After]), Chs};
split_child(Pid, [Ch|Chs], After) when Ch#child.pid =:= Pid ->
{lists:reverse([Ch#child{pid = undefined} | After]), Chs};
split_child(Name, [Ch|Chs], After) ->
split_child(Name, Chs, [Ch | After]);
split_child(_, [], After) ->
{lists:reverse(After), []}.
get_child(Name, State) ->
get_child(Name, State, false).
get_child(Pid, State, AllowPid) when AllowPid, is_pid(Pid) ->
get_dynamic_child(Pid, State);
get_child(Name, State, _) ->
lists:keysearch(Name, #child.name, State#state.children).
get_dynamic_child(Pid, #state{children=[Child], dynamics=Dynamics}) ->
DynamicsDb = dynamics_db(Child#child.restart_type, Dynamics),
case is_dynamic_pid(Pid, DynamicsDb) of
true ->
{value, Child#child{pid=Pid}};
false ->
RPid = restarting(Pid),
case is_dynamic_pid(RPid, DynamicsDb) of
true ->
{value, Child#child{pid=RPid}};
false ->
case erlang:is_process_alive(Pid) of
true -> false;
false -> {value, Child}
end
end
end.
is_dynamic_pid(Pid, Dynamics) ->
case ?SETS:is_set(Dynamics) of
true ->
?SETS:is_element(Pid, Dynamics);
false ->
?DICT:is_key(Pid, Dynamics)
end.
replace_child(Child, State) ->
Chs = do_replace_child(Child, State#state.children),
State#state{children = Chs}.
do_replace_child(Child, [Ch|Chs]) when Ch#child.name =:= Child#child.name ->
[Child | Chs];
do_replace_child(Child, [Ch|Chs]) ->
[Ch|do_replace_child(Child, Chs)].
remove_child(Child, State) ->
Chs = lists:keydelete(Child#child.name, #child.name, State#state.children),
State#state{children = Chs}.
%%-----------------------------------------------------------------
%% Func: init_state/4
%% Args: SupName = {local, atom()} | {global, atom()} | self
%% Type = {Strategy, MaxIntensity, Period}
%% Strategy = one_for_one | one_for_all | simple_one_for_one |
%% rest_for_one
%% MaxIntensity = integer() >= 0
%% Period = integer() > 0
%% Mod :== atom()
%% Args :== term()
%% Purpose: Check that Type is of correct type (!)
%% Returns: {ok, state()} | Error
%%-----------------------------------------------------------------
init_state(SupName, Type, Mod, Args) ->
case catch init_state1(SupName, Type, Mod, Args) of
{ok, State} ->
{ok, State};
Error ->
Error
end.
init_state1(SupName, {Strategy, MaxIntensity, Period}, Mod, Args) ->
validStrategy(Strategy),
validIntensity(MaxIntensity),
validPeriod(Period),
{ok, #state{name = supname(SupName,Mod),
strategy = Strategy,
intensity = MaxIntensity,
period = Period,
module = Mod,
args = Args}};
init_state1(_SupName, Type, _, _) ->
{invalid_type, Type}.
validStrategy(simple_one_for_one) -> true;
validStrategy(one_for_one) -> true;
validStrategy(one_for_all) -> true;
validStrategy(rest_for_one) -> true;
validStrategy(What) -> throw({invalid_strategy, What}).
validIntensity(Max) when is_integer(Max),
Max >= 0 -> true;
validIntensity(What) -> throw({invalid_intensity, What}).
validPeriod(Period) when is_integer(Period),
Period > 0 -> true;
validPeriod(What) -> throw({invalid_period, What}).
supname(self, Mod) -> {self(), Mod};
supname(N, _) -> N.
%%% ------------------------------------------------------
%%% Check that the children start specification is valid.
%%% Shall be a six (6) tuple
%%% {Name, Func, RestartType, Shutdown, ChildType, Modules}
%%% where Name is an atom
%%% Func is {Mod, Fun, Args} == {atom(), atom(), list()}
%%% RestartType is permanent | temporary | transient |
%%% intrinsic | {permanent, Delay} |
%%% {transient, Delay} | {intrinsic, Delay}
%% where Delay >= 0
%%% Shutdown = integer() > 0 | infinity | brutal_kill
%%% ChildType = supervisor | worker
%%% Modules = [atom()] | dynamic
%%% Returns: {ok, [child_rec()]} | Error
%%% ------------------------------------------------------
check_startspec(Children) -> check_startspec(Children, []).
check_startspec([ChildSpec|T], Res) ->
case check_childspec(ChildSpec) of
{ok, Child} ->
case lists:keymember(Child#child.name, #child.name, Res) of
true -> {duplicate_child_name, Child#child.name};
false -> check_startspec(T, [Child | Res])
end;
Error -> Error
end;
check_startspec([], Res) ->
{ok, lists:reverse(Res)}.
check_childspec({Name, Func, RestartType, Shutdown, ChildType, Mods}) ->
catch check_childspec(Name, Func, RestartType, Shutdown, ChildType, Mods);
check_childspec(X) -> {invalid_child_spec, X}.
check_childspec(Name, Func, RestartType, Shutdown, ChildType, Mods) ->
validName(Name),
validFunc(Func),
validRestartType(RestartType),
validChildType(ChildType),
validShutdown(Shutdown, ChildType),
validMods(Mods),
{ok, #child{name = Name, mfargs = Func, restart_type = RestartType,
shutdown = Shutdown, child_type = ChildType, modules = Mods}}.
validChildType(supervisor) -> true;
validChildType(worker) -> true;
validChildType(What) -> throw({invalid_child_type, What}).
validName(_Name) -> true.
validFunc({M, F, A}) when is_atom(M),
is_atom(F),
is_list(A) -> true;
validFunc(Func) -> throw({invalid_mfa, Func}).
validRestartType(permanent) -> true;
validRestartType(temporary) -> true;
validRestartType(transient) -> true;
validRestartType(intrinsic) -> true;
validRestartType({permanent, Delay}) -> validDelay(Delay);
validRestartType({intrinsic, Delay}) -> validDelay(Delay);
validRestartType({transient, Delay}) -> validDelay(Delay);
validRestartType(RestartType) -> throw({invalid_restart_type,
RestartType}).
validDelay(Delay) when is_number(Delay),
Delay >= 0 -> true;
validDelay(What) -> throw({invalid_delay, What}).
validShutdown(Shutdown, _)
when is_integer(Shutdown), Shutdown > 0 -> true;
validShutdown(infinity, _) -> true;
validShutdown(brutal_kill, _) -> true;
validShutdown(Shutdown, _) -> throw({invalid_shutdown, Shutdown}).
validMods(dynamic) -> true;
validMods(Mods) when is_list(Mods) ->
lists:foreach(fun(Mod) ->
if
is_atom(Mod) -> ok;
true -> throw({invalid_module, Mod})
end
end,
Mods);
validMods(Mods) -> throw({invalid_modules, Mods}).
%%% ------------------------------------------------------
%%% Add a new restart and calculate if the max restart
%%% intensity has been reached (in that case the supervisor
%%% shall terminate).
%%% All restarts accured inside the period amount of seconds
%%% are kept in the #state.restarts list.
%%% Returns: {ok, State'} | {terminate, State'}
%%% ------------------------------------------------------
add_restart(State) ->
I = State#state.intensity,
P = State#state.period,
R = State#state.restarts,
Now = time_compat:monotonic_time(),
R1 = add_restart([Now|R], Now, P),
State1 = State#state{restarts = R1},
case length(R1) of
CurI when CurI =< I ->
{ok, State1};
_ ->
{terminate, State1}
end.
add_restart([R|Restarts], Now, Period) ->
case inPeriod(R, Now, Period) of
true ->
[R|add_restart(Restarts, Now, Period)];
_ ->
[]
end;
add_restart([], _, _) ->
[].
inPeriod(Time, Now, Period) ->
case time_compat:convert_time_unit(Now - Time, native, seconds) of
T when T > Period ->
false;
_ ->
true
end.
%%% ------------------------------------------------------
%%% Error and progress reporting.
%%% ------------------------------------------------------
report_error(Error, Reason, Child, SupName) ->
ErrorMsg = [{supervisor, SupName},
{errorContext, Error},
{reason, Reason},
{offender, extract_child(Child)}],
error_logger:error_report(supervisor_report, ErrorMsg).
extract_child(Child) when is_list(Child#child.pid) ->
[{nb_children, length(Child#child.pid)},
{name, Child#child.name},
{mfargs, Child#child.mfargs},
{restart_type, Child#child.restart_type},
{shutdown, Child#child.shutdown},
{child_type, Child#child.child_type}];
extract_child(Child) ->
[{pid, Child#child.pid},
{name, Child#child.name},
{mfargs, Child#child.mfargs},
{restart_type, Child#child.restart_type},
{shutdown, Child#child.shutdown},
{child_type, Child#child.child_type}].
report_progress(Child, SupName) ->
Progress = [{supervisor, SupName},
{started, extract_child(Child)}],
error_logger:info_report(progress, Progress).