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path: root/src/mem3_sync.erl
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-module(mem3_sync).
-behaviour(gen_server).
-export([init/1, handle_call/3, handle_cast/2, handle_info/2, terminate/2,
    code_change/3]).

-export([start_link/0, get_active/0, get_queue/0, push/2, remove_node/1]).

-include("mem3.hrl").
-include_lib("couch/include/couch_db.hrl").

-record(state, {
    active = [],
    count = 0,
    limit,
    dict = dict:new(),
    waiting = [],
    update_notifier
}).

start_link() ->
    gen_server:start_link({local, ?MODULE}, ?MODULE, [], []).

get_active() ->
    gen_server:call(?MODULE, get_active).

get_queue() ->
    gen_server:call(?MODULE, get_queue).

push(Db, Node) ->
    gen_server:cast(?MODULE, {push, Db, Node}).

remove_node(Node) ->
    gen_server:cast(?MODULE, {remove_node, Node}).

init([]) ->
    process_flag(trap_exit, true),
    Concurrency = couch_config:get("mem3", "sync_concurrency", "10"),
    gen_event:add_handler(mem3_events, mem3_sync_event, []),
    {ok, Pid} = start_update_notifier(),
    spawn(fun initial_sync/0),
    {ok, #state{limit = list_to_integer(Concurrency), update_notifier=Pid}}.

handle_call(get_active, _From, State) ->
    {reply, State#state.active, State};

handle_call(get_queue, _From, State) ->
    {reply, State#state.waiting, State}.

handle_cast({push, DbName, Node}, #state{count=Count, limit=Limit} = State)
        when Count >= Limit ->
    {noreply, add_to_queue(State, DbName, Node)};

handle_cast({push, DbName, Node}, State) ->
    #state{active = L, count = C} = State,
    case is_running(DbName, Node, L) of
    true ->
        {noreply, add_to_queue(State, DbName, Node)};
    false ->
        Pid = start_push_replication(DbName, Node),
        {noreply, State#state{active=[{DbName, Node, Pid}|L], count=C+1}}
    end;

handle_cast({remove_node, Node}, State) ->
    Waiting = [{S,N} || {S,N} <- State#state.waiting, N =/= Node],
    Dict = lists:foldl(fun(DbName,D) -> dict:erase({DbName,Node}, D) end,
        State#state.dict, [S || {S,N} <- Waiting, N =:= Node]),
    {noreply, State#state{dict = Dict, waiting = Waiting}}.

handle_info({'EXIT', Pid, _}, #state{update_notifier=Pid} = State) ->
    {ok, NewPid} = start_update_notifier(),
    {noreply, State#state{update_notifier=NewPid}};

handle_info({'EXIT', Active, normal}, State) ->
    handle_replication_exit(State, Active);

handle_info({'EXIT', Active, Reason}, State) ->
    case lists:keyfind(Active, 3, State#state.active) of
    {OldDbName, OldNode, _} ->
        ?LOG_ERROR("~p replication ~s -> ~p died:~n~p", [?MODULE, OldDbName,
            OldNode, Reason]),
        timer:apply_after(5000, ?MODULE, push, [OldDbName, OldNode]);
    false -> ok end,
    handle_replication_exit(State, Active);

handle_info(Msg, State) ->
    ?LOG_ERROR("unexpected msg at replication manager ~p", [Msg]),
    {noreply, State}.

terminate(_Reason, State) ->
    [exit(Pid, shutdown) || {_,_,Pid} <- State#state.active],
    ok.

code_change(_OldVsn, State, _Extra) ->
    {ok, State}.

handle_replication_exit(#state{waiting=[]} = State, Pid) ->
    NewActive = lists:keydelete(Pid, 3, State#state.active),
    {noreply, State#state{active=NewActive, count=length(NewActive)}};
handle_replication_exit(State, Pid) ->
    #state{active=Active, limit=Limit, dict=D, waiting=Waiting} = State,
    Active1 = lists:keydelete(Pid, 3, Active),
    Count = length(Active1),
    NewState = if Count < Limit ->
        case next_replication(Active1, Waiting) of
        nil -> % all waiting replications are also active
            State#state{active = Active1, count = Count};
        {DbName, Node, StillWaiting} ->
            NewPid = start_push_replication(DbName, Node),
            State#state{
                active = [{DbName, Node, NewPid} | Active1],
                count = Count+1,
                dict = dict:erase({DbName,Node}, D),
                waiting = StillWaiting
            }
        end;
    true ->
        State#state{active = Active1, count=Count}
    end,
    {noreply, NewState}.

start_push_replication(DbName, Node) ->
    PostBody = {[
        {<<"source">>, DbName},
        {<<"target">>, {[{<<"node">>, Node}, {<<"name">>, DbName}]}},
        {<<"continuous">>, false},
        {<<"async">>, true}
    ]},
    ?LOG_INFO("starting ~s -> ~p internal replication", [DbName, Node]),
    UserCtx = #user_ctx{name = <<"replicator">>, roles = [<<"_admin">>]},
    case (catch couch_rep:replicate(PostBody, UserCtx)) of
    Pid when is_pid(Pid) ->
        link(Pid),
        Pid;
    {db_not_found, _Msg} ->
        case couch_api:open_db(DbName, []) of
        {ok, Db} ->
            % source exists, let's (re)create the target
            couch_api:close_db(Db),
            case rpc:call(Node, couch_api, create_db, [DbName, []]) of
            {ok, Target} ->
                ?LOG_INFO("~p successfully created ~s on ~p", [?MODULE, DbName,
                    Node]),
                couch_api:close_db(Target),
                start_push_replication(DbName, Node);
            file_exists ->
                start_push_replication(DbName, Node);
            Error ->
                ?LOG_ERROR("~p couldn't create ~s on ~p because ~p",
                    [?MODULE, DbName, Node, Error]),
                exit(shutdown)
            end;
        {not_found, no_db_file} ->
            % source is gone, so this is a hack to skip it
            ?LOG_INFO("~p tried to push ~s to ~p but it was already deleted",
                [?MODULE, DbName, Node]),
            spawn_link(fun() -> ok end)
        end;
    {node_not_connected, _} ->
        % we'll get this one when the node rejoins
        ?LOG_ERROR("~p exiting because ~p is not connected", [?MODULE, Node]),
        spawn_link(fun() -> ok end);
    CatchAll ->
        ?LOG_INFO("~p strange error ~p", [?MODULE, CatchAll]),
        case lists:member(Node, nodes()) of
        true ->
            timer:apply_after(5000, ?MODULE, push, [DbName, Node]);
        false ->
            ok
        end,
        spawn_link(fun() -> ok end)
    end.

add_to_queue(State, DbName, Node) ->
    #state{dict=D, waiting=Waiting} = State,
    case dict:is_key({DbName, Node}, D) of
    true ->
        State;
    false ->
        ?LOG_DEBUG("adding ~s -> ~p to internal queue", [DbName, Node]),
        State#state{
            dict = dict:store({DbName,Node}, ok, D),
            waiting = Waiting ++ [{DbName,Node}]
        }
    end.

initial_sync() ->
    Db1 = ?l2b(couch_config:get("mem3", "node_db", "nodes")),
    Db2 = ?l2b(couch_config:get("mem3", "shard_db", "dbs")),
    Nodes = mem3:nodes(),
    Live = nodes(),
    [[push(Db, N) || Db <- [Db1,Db2]] || N <- Nodes, lists:member(N, Live)].

start_update_notifier() ->
    Db1 = ?l2b(couch_config:get("mem3", "node_db", "nodes")),
    Db2 = ?l2b(couch_config:get("mem3", "shard_db", "dbs")),
    couch_db_update_notifier:start_link(fun
    ({updated, Db}) when Db == Db1; Db == Db2 ->
        Nodes = mem3:nodes(),
        Live = nodes(),
        [?MODULE:push(Db, N) || N <- Nodes, lists:member(N, Live)];
    (_) -> ok end).

%% @doc Finds the next {DbName,Node} pair in the list of waiting replications
%% which does not correspond to an already running replication
-spec next_replication(list(), list()) -> {binary(),node(),list()} | nil.
next_replication(Active, Waiting) ->
    case lists:splitwith(fun({S,N}) -> is_running(S,N,Active) end, Waiting) of
    {_, []} ->
        nil;
    {Running, [{DbName,Node}|Rest]} ->
        {DbName, Node, Running ++ Rest}
    end.

is_running(DbName, Node, ActiveList) ->
    [] =/= [true || {S,N,_} <- ActiveList, S=:=DbName, N=:=Node].