% 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. -module(couch_task_status). -behaviour(gen_server). % This module is used to track the status of long running tasks. % Long running tasks register themselves, via a call to add_task/1, and then % update their status properties via update/1. The status of a task is a % list of properties. Each property is a tuple, with the first element being % either an atom or a binary and the second element must be an EJSON value. When % a task updates its status, it can override some or all of its properties. % The properties {started_on, UnitTimestamp}, {updated_on, UnixTimestamp} and % {pid, ErlangPid} are automatically added by this module. % When a tracked task dies, its status will be automatically removed from % memory. To get the tasks list, call the all/0 function. -export([start_link/0, stop/0]). -export([all/0, add_task/1, update/1, get/1, set_update_frequency/1]). -export([init/1, terminate/2, code_change/3]). -export([handle_call/3, handle_cast/2, handle_info/2]). -include("couch_db.hrl"). -define(set(L, K, V), lists:keystore(K, 1, L, {K, V})). start_link() -> gen_server:start_link({local, ?MODULE}, ?MODULE, [], []). stop() -> gen_server:cast(?MODULE, stop). all() -> gen_server:call(?MODULE, all). add_task(Props) -> put(task_status_update, {{0, 0, 0}, 0}), Ts = timestamp(), TaskProps = lists:ukeysort( 1, [{started_on, Ts}, {updated_on, Ts} | Props]), put(task_status_props, TaskProps), gen_server:call(?MODULE, {add_task, TaskProps}). set_update_frequency(Msecs) -> put(task_status_update, {{0, 0, 0}, Msecs * 1000}). update(Props) -> MergeProps = lists:ukeysort(1, Props), TaskProps = lists:ukeymerge(1, MergeProps, erlang:get(task_status_props)), put(task_status_props, TaskProps), maybe_persist(TaskProps). get(Props) when is_list(Props) -> TaskProps = erlang:get(task_status_props), [couch_util:get_value(P, TaskProps) || P <- Props]; get(Prop) -> TaskProps = erlang:get(task_status_props), couch_util:get_value(Prop, TaskProps). maybe_persist(TaskProps0) -> {LastUpdateTime, Frequency} = erlang:get(task_status_update), case timer:now_diff(Now = now(), LastUpdateTime) >= Frequency of true -> put(task_status_update, {Now, Frequency}), TaskProps = ?set(TaskProps0, updated_on, timestamp(Now)), gen_server:cast(?MODULE, {update_status, self(), TaskProps}); false -> ok end. init([]) -> % read configuration settings and register for configuration changes ets:new(?MODULE, [ordered_set, protected, named_table]), {ok, nil}. terminate(_Reason,_State) -> ok. handle_call({add_task, TaskProps}, {From, _}, Server) -> case ets:lookup(?MODULE, From) of [] -> true = ets:insert(?MODULE, {From, TaskProps}), erlang:monitor(process, From), {reply, ok, Server}; [_] -> {reply, {add_task_error, already_registered}, Server} end; handle_call(all, _, Server) -> All = [ [{pid, ?l2b(pid_to_list(Pid))} | TaskProps] || {Pid, TaskProps} <- ets:tab2list(?MODULE) ], {reply, All, Server}. handle_cast({update_status, Pid, NewProps}, Server) -> case ets:lookup(?MODULE, Pid) of [{Pid, _CurProps}] -> ?LOG_DEBUG("New task status for ~p: ~p", [Pid, NewProps]), true = ets:insert(?MODULE, {Pid, NewProps}); _ -> % Task finished/died in the meanwhile and we must have received % a monitor message before this call - ignore. ok end, {noreply, Server}; handle_cast(stop, State) -> {stop, normal, State}. handle_info({'DOWN', _MonitorRef, _Type, Pid, _Info}, Server) -> %% should we also erlang:demonitor(_MonitorRef), ? ets:delete(?MODULE, Pid), {noreply, Server}. code_change(_OldVsn, State, _Extra) -> {ok, State}. timestamp() -> timestamp(now()). timestamp({Mega, Secs, _}) -> Mega * 1000000 + Secs.