%% ========================================================================================================== %% Syn - A global Process Registry and Process Group manager. %% %% The MIT License (MIT) %% %% Copyright (c) 2015 Roberto Ostinelli and Neato Robotics, Inc. %% %% Permission is hereby granted, free of charge, to any person obtaining a copy %% of this software and associated documentation files (the "Software"), to deal %% in the Software without restriction, including without limitation the rights %% to use, copy, modify, merge, publish, distribute, sublicense, and/or sell %% copies of the Software, and to permit persons to whom the Software is %% furnished to do so, subject to the following conditions: %% %% The above copyright notice and this permission notice shall be included in %% all copies or substantial portions of the Software. %% %% THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR %% IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, %% FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE %% AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER %% LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, %% OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN %% THE SOFTWARE. %% ========================================================================================================== -module(syn). %% API -export([start/0, stop/0]). -export([init/0]). %% registry -export([register/2, register/3]). -export([unregister/1]). -export([find_by_key/1, find_by_key/2]). -export([find_by_pid/1, find_by_pid/2]). -export([registry_count/0, registry_count/1]). %% groups -export([join/2]). -export([leave/2]). -export([member/2]). -export([get_members/1]). -export([publish/2]). -export([multi_call/2, multi_call/3]). -export([multi_call_reply/2]). %% =================================================================== %% API %% =================================================================== -spec start() -> ok. start() -> ok = start_application(mnesia), ok = start_application(syn), ok. -spec stop() -> ok. stop() -> ok = application:stop(syn). -spec init() -> ok. init() -> ok = syn_backbone:initdb(). -spec register(Key :: any(), Pid :: pid()) -> ok | {error, taken | pid_already_registered}. register(Key, Pid) -> syn_registry:register(Key, Pid). -spec register(Key :: any(), Pid :: pid(), Meta :: any()) -> ok | {error, taken | pid_already_registered}. register(Key, Pid, Meta) -> syn_registry:register(Key, Pid, Meta). -spec unregister(Key :: any()) -> ok | {error, undefined}. unregister(Key) -> syn_registry:unregister(Key). -spec find_by_key(Key :: any()) -> pid() | undefined. find_by_key(Key) -> syn_registry:find_by_key(Key). -spec find_by_key(Key :: any(), with_meta) -> {pid(), Meta :: any()} | undefined. find_by_key(Key, with_meta) -> syn_registry:find_by_key(Key, with_meta). -spec find_by_pid(Pid :: pid()) -> Key :: any() | undefined. find_by_pid(Pid) -> syn_registry:find_by_pid(Pid). -spec find_by_pid(Pid :: pid(), with_meta) -> {Key :: any(), Meta :: any()} | undefined. find_by_pid(Pid, with_meta) -> syn_registry:find_by_pid(Pid, with_meta). -spec registry_count() -> non_neg_integer(). registry_count() -> syn_registry:count(). -spec registry_count(Node :: atom()) -> non_neg_integer(). registry_count(Node) -> syn_registry:count(Node). -spec join(Name :: any(), Pid :: pid()) -> ok | {error, pid_already_in_group}. join(Name, Pid) -> syn_groups:join(Name, Pid). -spec leave(Name :: any(), Pid :: pid()) -> ok | {error, undefined | pid_not_in_group}. leave(Name, Pid) -> syn_groups:leave(Name, Pid). -spec member(Pid :: pid(), Name :: any()) -> boolean(). member(Pid, Name) -> syn_groups:member(Pid, Name). -spec get_members(Name :: any()) -> [pid()]. get_members(Name) -> syn_groups:get_members(Name). -spec publish(Name :: any(), Message :: any()) -> {ok, RecipientCount :: non_neg_integer()}. publish(Name, Message) -> syn_groups:publish(Name, Message). -spec multi_call(Name :: any(), Message :: any()) -> {[{pid(), Reply :: any()}], [BadPid :: pid()]}. multi_call(Name, Message) -> syn_groups:multi_call(Name, Message). -spec multi_call(Name :: any(), Message :: any(), Timeout :: non_neg_integer()) -> {[{pid(), Reply :: any()}], [BadPid :: pid()]}. multi_call(Name, Message, Timeout) -> syn_groups:multi_call(Name, Message, Timeout). -spec multi_call_reply(CallerPid :: pid(), Reply :: any()) -> {syn_multi_call_reply, pid(), Reply :: any()}. multi_call_reply(CallerPid, Reply) -> syn_groups:multi_call_reply(CallerPid, Reply). %% =================================================================== %% Internal %% =================================================================== -spec start_application(atom()) -> ok | {error, any()}. start_application(Application) -> case application:start(Application) of ok -> ok; {error, {already_started, Application}} -> ok; Error -> Error end.