%% %% %CopyrightBegin% %% %% Copyright Ericsson AB 1996-2017. 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(gen). -compile({inline,[get_node/1]}). %%%----------------------------------------------------------------- %%% This module implements the really generic stuff of the generic %%% standard behaviours (e.g. gen_server, gen_fsm). %%% %%% The standard behaviour should export init_it/6. %%%----------------------------------------------------------------- -export([start/5, start/6, debug_options/2, hibernate_after/1, name/1, unregister_name/1, get_proc_name/1, get_parent/0, call/3, call/4, reply/2, stop/1, stop/3]). -export([init_it/6, init_it/7]). -export([format_status_header/2]). -define(default_timeout, 5000). %%----------------------------------------------------------------- -type linkage() :: 'link' | 'nolink'. -type emgr_name() :: {'local', atom()} | {'global', term()} | {'via', Module :: module(), Name :: term()}. -type start_ret() :: {'ok', pid()} | 'ignore' | {'error', term()}. -type debug_flag() :: 'trace' | 'log' | 'statistics' | 'debug' | {'logfile', string()}. -type option() :: {'timeout', timeout()} | {'debug', [debug_flag()]} | {'hibernate_after', timeout()} | {'spawn_opt', [proc_lib:spawn_option()]}. -type options() :: [option()]. %%----------------------------------------------------------------- %% Starts a generic process. %% start(GenMod, LinkP, Mod, Args, Options) %% start(GenMod, LinkP, Name, Mod, Args, Options) %% GenMod = atom(), callback module implementing the 'real' fsm %% LinkP = link | nolink %% Name = {local, atom()} | {global, term()} | {via, atom(), term()} %% Args = term(), init arguments (to Mod:init/1) %% Options = [{timeout, Timeout} | {debug, [Flag]} | {spawn_opt, OptionList}] %% Flag = trace | log | {logfile, File} | statistics | debug %% (debug == log && statistics) %% Returns: {ok, Pid} | ignore |{error, Reason} | %% {error, {already_started, Pid}} | %% The 'already_started' is returned only if Name is given %%----------------------------------------------------------------- -spec start(module(), linkage(), emgr_name(), module(), term(), options()) -> start_ret(). start(GenMod, LinkP, Name, Mod, Args, Options) -> case where(Name) of undefined -> do_spawn(GenMod, LinkP, Name, Mod, Args, Options); Pid -> {error, {already_started, Pid}} end. -spec start(module(), linkage(), module(), term(), options()) -> start_ret(). start(GenMod, LinkP, Mod, Args, Options) -> do_spawn(GenMod, LinkP, Mod, Args, Options). %%----------------------------------------------------------------- %% Spawn the process (and link) maybe at another node. %% If spawn without link, set parent to ourselves 'self'!!! %%----------------------------------------------------------------- do_spawn(GenMod, link, Mod, Args, Options) -> Time = timeout(Options), proc_lib:start_link(?MODULE, init_it, [GenMod, self(), self(), Mod, Args, Options], Time, spawn_opts(Options)); do_spawn(GenMod, _, Mod, Args, Options) -> Time = timeout(Options), proc_lib:start(?MODULE, init_it, [GenMod, self(), self, Mod, Args, Options], Time, spawn_opts(Options)). do_spawn(GenMod, link, Name, Mod, Args, Options) -> Time = timeout(Options), proc_lib:start_link(?MODULE, init_it, [GenMod, self(), self(), Name, Mod, Args, Options], Time, spawn_opts(Options)); do_spawn(GenMod, _, Name, Mod, Args, Options) -> Time = timeout(Options), proc_lib:start(?MODULE, init_it, [GenMod, self(), self, Name, Mod, Args, Options], Time, spawn_opts(Options)). %%----------------------------------------------------------------- %% Initiate the new process. %% Register the name using the Rfunc function %% Calls the Mod:init/Args function. %% Finally an acknowledge is sent to Parent and the main %% loop is entered. %%----------------------------------------------------------------- init_it(GenMod, Starter, Parent, Mod, Args, Options) -> init_it2(GenMod, Starter, Parent, self(), Mod, Args, Options). init_it(GenMod, Starter, Parent, Name, Mod, Args, Options) -> case register_name(Name) of true -> init_it2(GenMod, Starter, Parent, Name, Mod, Args, Options); {false, Pid} -> proc_lib:init_ack(Starter, {error, {already_started, Pid}}) end. init_it2(GenMod, Starter, Parent, Name, Mod, Args, Options) -> GenMod:init_it(Starter, Parent, Name, Mod, Args, Options). %%----------------------------------------------------------------- %% Makes a synchronous call to a generic process. %% Request is sent to the Pid, and the response must be %% {Tag, _, Reply}. %%----------------------------------------------------------------- %%% New call function which uses the new monitor BIF %%% call(ServerId, Label, Request) call(Process, Label, Request) -> call(Process, Label, Request, ?default_timeout). %% Optimize a common case. call(Process, Label, Request, Timeout) when is_pid(Process), Timeout =:= infinity orelse is_integer(Timeout) andalso Timeout >= 0 -> do_call(Process, Label, Request, Timeout); call(Process, Label, Request, Timeout) when Timeout =:= infinity; is_integer(Timeout), Timeout >= 0 -> Fun = fun(Pid) -> do_call(Pid, Label, Request, Timeout) end, do_for_proc(Process, Fun). do_call(Process, Label, Request, Timeout) -> Mref = erlang:monitor(process, Process), %% OTP-21: %% Auto-connect is asynchronous. But we still use 'noconnect' to make sure %% we send on the monitored connection, and not trigger a new auto-connect. try erlang:send(Process, {Label, {self(), Mref}, Request}, [noconnect]) catch error:_ -> ok end, receive {Mref, Reply} -> erlang:demonitor(Mref, [flush]), {ok, Reply}; {'DOWN', Mref, _, _, noconnection} -> Node = get_node(Process), exit({nodedown, Node}); {'DOWN', Mref, _, _, Reason} -> exit(Reason) after Timeout -> erlang:demonitor(Mref, [flush]), exit(timeout) end. get_node(Process) -> %% We trust the arguments to be correct, i.e %% Process is either a local or remote pid, %% or a {Name, Node} tuple (of atoms) and in this %% case this node (node()) _is_ distributed and Node =/= node(). case Process of {_S, N} when is_atom(N) -> N; _ when is_pid(Process) -> node(Process) end. %% %% Send a reply to the client. %% reply({To, Tag}, Reply) -> Msg = {Tag, Reply}, try To ! Msg catch _:_ -> Msg end. %%----------------------------------------------------------------- %% Syncronously stop a generic process %%----------------------------------------------------------------- stop(Process) -> stop(Process, normal, infinity). stop(Process, Reason, Timeout) when Timeout =:= infinity; is_integer(Timeout), Timeout >= 0 -> Fun = fun(Pid) -> proc_lib:stop(Pid, Reason, Timeout) end, do_for_proc(Process, Fun). %%----------------------------------------------------------------- %% Map different specifications of a process to either Pid or %% {Name,Node}. Execute the given Fun with the process as only %% argument. %% ----------------------------------------------------------------- %% Local or remote by pid do_for_proc(Pid, Fun) when is_pid(Pid) -> Fun(Pid); %% Local by name do_for_proc(Name, Fun) when is_atom(Name) -> case whereis(Name) of Pid when is_pid(Pid) -> Fun(Pid); undefined -> exit(noproc) end; %% Global by name do_for_proc(Process, Fun) when ((tuple_size(Process) == 2 andalso element(1, Process) == global) orelse (tuple_size(Process) == 3 andalso element(1, Process) == via)) -> case where(Process) of Pid when is_pid(Pid) -> Node = node(Pid), try Fun(Pid) catch exit:{nodedown, Node} -> %% A nodedown not yet detected by global, %% pretend that it was. exit(noproc) end; undefined -> exit(noproc) end; %% Local by name in disguise do_for_proc({Name, Node}, Fun) when Node =:= node() -> do_for_proc(Name, Fun); %% Remote by name do_for_proc({_Name, Node} = Process, Fun) when is_atom(Node) -> if node() =:= nonode@nohost -> exit({nodedown, Node}); true -> Fun(Process) end. %%%----------------------------------------------------------------- %%% Misc. functions. %%%----------------------------------------------------------------- where({global, Name}) -> global:whereis_name(Name); where({via, Module, Name}) -> Module:whereis_name(Name); where({local, Name}) -> whereis(Name). register_name({local, Name} = LN) -> try register(Name, self()) of true -> true catch error:_ -> {false, where(LN)} end; register_name({global, Name} = GN) -> case global:register_name(Name, self()) of yes -> true; no -> {false, where(GN)} end; register_name({via, Module, Name} = GN) -> case Module:register_name(Name, self()) of yes -> true; no -> {false, where(GN)} end. name({local,Name}) -> Name; name({global,Name}) -> Name; name({via,_, Name}) -> Name; name(Pid) when is_pid(Pid) -> Pid. unregister_name({local,Name}) -> try unregister(Name) of _ -> ok catch _:_ -> ok end; unregister_name({global,Name}) -> _ = global:unregister_name(Name), ok; unregister_name({via, Mod, Name}) -> _ = Mod:unregister_name(Name), ok; unregister_name(Pid) when is_pid(Pid) -> ok. get_proc_name(Pid) when is_pid(Pid) -> Pid; get_proc_name({local, Name}) -> case process_info(self(), registered_name) of {registered_name, Name} -> Name; {registered_name, _Name} -> exit(process_not_registered); [] -> exit(process_not_registered) end; get_proc_name({global, Name}) -> case global:whereis_name(Name) of undefined -> exit(process_not_registered_globally); Pid when Pid =:= self() -> Name; _Pid -> exit(process_not_registered_globally) end; get_proc_name({via, Mod, Name}) -> case Mod:whereis_name(Name) of undefined -> exit({process_not_registered_via, Mod}); Pid when Pid =:= self() -> Name; _Pid -> exit({process_not_registered_via, Mod}) end. get_parent() -> case get('$ancestors') of [Parent | _] when is_pid(Parent) -> Parent; [Parent | _] when is_atom(Parent) -> name_to_pid(Parent); _ -> exit(process_was_not_started_by_proc_lib) end. name_to_pid(Name) -> case whereis(Name) of undefined -> case global:whereis_name(Name) of undefined -> exit(could_not_find_registered_name); Pid -> Pid end; Pid -> Pid end. timeout(Options) -> case lists:keyfind(timeout, 1, Options) of {_,Time} -> Time; false -> infinity end. spawn_opts(Options) -> case lists:keyfind(spawn_opt, 1, Options) of {_,Opts} -> Opts; false -> [] end. hibernate_after(Options) -> case lists:keyfind(hibernate_after, 1, Options) of {_,HibernateAfterTimeout} -> HibernateAfterTimeout; false -> infinity end. debug_options(Name, Opts) -> case lists:keyfind(debug, 1, Opts) of {_,Options} -> try sys:debug_options(Options) catch _:_ -> error_logger:format( "~tp: ignoring erroneous debug options - ~tp~n", [Name,Options]), [] end; false -> [] end. format_status_header(TagLine, Pid) when is_pid(Pid) -> lists:concat([TagLine, " ", pid_to_list(Pid)]); format_status_header(TagLine, RegName) when is_atom(RegName) -> lists:concat([TagLine, " ", RegName]); format_status_header(TagLine, Name) -> {TagLine, Name}.