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%% @doc |
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%% This module encapsulates an asynchronous aggregator, that takes tasks classified by key, |
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%% to immediately preprocess and flush, but upon flushing, it submits asynchronous requests |
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%% and continues taking tasks and preprocessing them –aggregating them–, until the first |
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%% request is fulfilled, at which time it puts the next on flush. |
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%% |
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%% `request_callback' is a function that takes the new task and the extra metadata, and |
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%% essentially encapsulates `gen_server:send_request'. The returned reference is what will |
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%% be used in `handle_info' to match pending requests, so it is important that the return |
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%% value of `request_callback' is that same of the `gen_server:send_request'. |
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%% I have chosen to provide an arbitrary function callback so that it can encapsulate all |
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%% the logic that chooses the gen_server to request to, and possibly calculates other data |
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%% in the meantime. |
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%% @end |
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-module(mongoose_aggregator_worker). |
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|
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-behaviour(gen_server). |
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|
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-ifdef(gen_server_request_id). |
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-type request_id() :: gen_server:request_id(). |
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-else. |
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-type request_id() :: term(). |
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-endif. |
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|
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-callback aggregate(mongoose_async_pools:task(), |
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mongoose_async_pools:task(), |
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mongoose_async_pools:pool_extra()) -> |
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{ok, mongoose_async_pools:task()} | {error, term()}. |
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-callback request(mongoose_async_pools:task(), mongoose_async_pools:pool_extra()) -> |
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request_id() | drop. |
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-callback verify(term(), mongoose_async_pools:task(), mongoose_async_pools:pool_extra()) -> |
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term(). |
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-optional_callbacks([verify/3]). |
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|
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-include("mongoose_logger.hrl"). |
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|
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%% gen_server callbacks |
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-export([init/1, |
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handle_call/3, |
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handle_cast/2, |
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handle_info/2, |
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terminate/2, |
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code_change/3, |
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format_status/2]). |
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|
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-type request() :: no_request_pending | {request_id(), mongoose_async_pools:task()}. |
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-record(state, { |
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host_type :: mongooseim:host_type(), |
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pool_id :: mongoose_async_pools:pool_id(), |
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async_request = no_request_pending :: request(), |
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request_callback :: mongoose_async_pools:request_callback(), |
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aggregate_callback :: mongoose_async_pools:aggregate_callback(), |
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verify_callback :: undefined | mongoose_async_pools:verify_callback(), |
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flush_elems = #{} :: map() | censored, % see format_status/2 for censored |
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flush_queue = queue:new() :: queue:queue(), |
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flush_extra = #{} :: map(), |
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total_retries = 3 :: non_neg_integer(), |
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retries_left = 3 :: non_neg_integer() |
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}). |
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-type state() :: #state{}. |
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|
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%% gen_server callbacks |
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-spec init(map()) -> {ok, state()}. |
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init(#{host_type := HostType, |
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pool_id := PoolId, |
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request_callback := Requestor, |
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aggregate_callback := Aggregator, |
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flush_extra := FlushExtra} = Opts) |
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when is_function(Requestor, 2), |
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is_function(Aggregator, 3), |
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is_map(FlushExtra) -> |
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?LOG_DEBUG(#{what => aggregator_worker_start, host_type => HostType, pool_id => PoolId}), |
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{ok, #state{host_type = HostType, |
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pool_id = PoolId, |
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request_callback = Requestor, |
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aggregate_callback = Aggregator, |
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verify_callback = maps:get(verify_callback, Opts, undefined), |
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flush_extra = FlushExtra}}. |
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|
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-spec handle_call(term(), term(), state()) -> {reply, term(), state()}. |
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handle_call(sync, _From, State = #state{flush_elems = Elems}) -> |
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:-( |
case maps:size(Elems) of |
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:-( |
0 -> {reply, skipped, State}; |
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:-( |
_ -> {reply, ok, run_flush(State)} |
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end; |
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handle_call(Msg, From, State) -> |
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:-( |
?UNEXPECTED_CALL(Msg, From), |
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:-( |
{reply, unexpected_call, State}. |
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|
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-spec handle_cast(term(), state()) -> {noreply, state()}. |
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handle_cast({task, Key, Value}, State) -> |
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{noreply, handle_task(Key, Value, State)}; |
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handle_cast({broadcast, Broadcast}, State) -> |
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:-( |
{noreply, handle_broadcast(Broadcast, State)}; |
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handle_cast(Msg, State) -> |
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:-( |
?UNEXPECTED_CAST(Msg), |
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:-( |
{noreply, State}. |
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|
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-spec handle_info(term(), state()) -> {noreply, state()}. |
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handle_info(Msg, #state{async_request = no_request_pending} = State) -> |
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:-( |
?UNEXPECTED_INFO(Msg), |
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:-( |
{noreply, State}; |
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handle_info(Msg, #state{async_request = {AsyncRequest, ReqTask}} = State) -> |
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case check_response(Msg, AsyncRequest, ReqTask, State) of |
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ignore -> |
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:-( |
{noreply, State}; |
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next -> |
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{noreply, maybe_request_next(State)}; |
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retry -> |
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:-( |
{noreply, maybe_request_retry(ReqTask, State)} |
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end. |
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maybe_request_retry(ReqTask, State = #state{retries_left = 0}) -> |
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:-( |
?LOG_ERROR(log_fields(State, #{what => asynchronous_request_dropped, txt => <<"Async request dropped, no more retries">>, task => ReqTask})), |
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:-( |
cancel_request_retry(State); |
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maybe_request_retry(ReqTask, State = #state{retries_left = Left}) -> |
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:-( |
case make_async_request(ReqTask, State#state{async_request = no_request_pending, retries_left = Left - 1}) of |
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#state{async_request = no_request_pending} = State2 -> |
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:-( |
cancel_request_retry(State2); |
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State2 -> |
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:-( |
State2 |
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end. |
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cancel_request_retry(State) -> |
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:-( |
maybe_request_next(State#state{async_request = no_request_pending}). |
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check_response(Msg, AsyncRequest, ReqTask, State) -> |
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case gen_server:check_response(Msg, AsyncRequest) of |
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{error, {Reason, _Ref}} -> |
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:-( |
?LOG_ERROR(log_fields(State, #{what => asynchronous_request_failed, reason => Reason})), |
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:-( |
retry; |
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{reply, {error, Reason}} -> |
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:-( |
?LOG_ERROR(log_fields(State, #{what => asynchronous_request_failed, reason => Reason})), |
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:-( |
retry; |
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{reply, Reply} -> |
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case maybe_verify_reply(Reply, ReqTask, State) of |
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ok -> |
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next; |
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{error, _Reason} -> |
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:-( |
retry |
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end; |
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no_reply -> |
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:-( |
?UNEXPECTED_INFO(Msg), |
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:-( |
ignore |
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end. |
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-spec terminate(term(), state()) -> term(). |
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terminate(Reason, State) -> |
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:-( |
?LOG_INFO(log_fields(State, #{what => aggregate_worker_stopping, reason => Reason})), |
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:-( |
case maps:size(State#state.flush_elems) of |
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:-( |
0 -> ok; |
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_ -> |
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:-( |
?LOG_WARNING(log_fields(State, #{what => aggregate_worker_terminate_requires_flush})), |
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:-( |
run_flush(State) |
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end. |
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-spec code_change(term(), state(), term()) -> {ok, state()}. |
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code_change(_OldVsn, State, _Extra) -> |
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:-( |
{ok, State}. |
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% Don't leak the tasks to logs, can contain private information |
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format_status(_Opt, [_PDict, State | _]) -> |
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:-( |
[{data, [{"State", State#state{flush_elems = censored}}]}]. |
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% If we don't have any request pending, it means that it is the first task submitted, |
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% so aggregation is not needed. |
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handle_task(_, Value, #state{async_request = no_request_pending} = State) -> |
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make_async_request(Value, State); |
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handle_task(Key, NewValue, #state{aggregate_callback = Aggregator, |
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flush_elems = Acc, |
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flush_queue = Queue, |
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flush_extra = Extra} = State) -> |
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case Acc of |
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#{Key := OldValue} -> |
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case Aggregator(OldValue, NewValue, Extra) of |
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{ok, FinalValue} -> |
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State#state{flush_elems = Acc#{Key := FinalValue}}; |
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{error, Reason} -> |
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:-( |
?LOG_ERROR(log_fields(State, #{what => aggregation_failed, reason => Reason})), |
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:-( |
State |
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end; |
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_ -> |
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% The queue is used to ensure the order in which elements are flushed, |
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% so that first requests are first flushed. |
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State#state{flush_elems = Acc#{Key => NewValue}, |
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flush_queue = queue:in(Key, Queue)} |
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end. |
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% If we don't have any request pending, it means that it is the first task submitted, |
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% so aggregation is not needed. |
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handle_broadcast(Task, #state{async_request = no_request_pending} = State) -> |
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:-( |
make_async_request(Task, State); |
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handle_broadcast(Task, #state{aggregate_callback = Aggregator, |
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flush_elems = Acc, |
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flush_extra = Extra} = State) -> |
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:-( |
Map = fun(_Key, OldValue) -> |
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:-( |
case Aggregator(OldValue, Task, Extra) of |
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{ok, FinalValue} -> |
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:-( |
FinalValue; |
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{error, Reason} -> |
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:-( |
?LOG_ERROR(log_fields(State, #{what => aggregation_failed, reason => Reason})), |
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:-( |
OldValue |
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end |
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end, |
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:-( |
State#state{flush_elems = maps:map(Map, Acc)}. |
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maybe_request_next(#state{flush_elems = Acc, flush_queue = Queue, total_retries = Total} = State) -> |
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%% Reset number of retries |
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State1 = State#state{retries_left = Total}, |
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case queue:out(Queue) of |
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{{value, Key}, NewQueue} -> |
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{Value, NewAcc} = maps:take(Key, Acc), |
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State2 = State1#state{flush_elems = NewAcc, flush_queue = NewQueue}, |
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State3 = make_async_request(Value, State2), |
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case State3 of |
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#state{async_request = no_request_pending} -> |
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:-( |
maybe_request_next(State3); |
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_ -> |
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State3 |
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end; |
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{empty, _} -> |
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State1#state{async_request = no_request_pending} |
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end. |
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make_async_request(Request, #state{host_type = HostType, pool_id = PoolId, |
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request_callback = Requestor, flush_extra = Extra} = State) -> |
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RetryNumber = State#state.total_retries - State#state.retries_left, |
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case Requestor(Request, Extra#{retry_number => RetryNumber}) of |
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drop -> |
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:-( |
State; |
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ReqId -> |
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mongoose_metrics:update(HostType, [mongoose_async_pools, PoolId, async_request], 1), |
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State#state{async_request = {ReqId, Request}} |
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end. |
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maybe_verify_reply(_, _, #state{verify_callback = undefined}) -> |
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:-( |
ok; |
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maybe_verify_reply(Reply, ReqTask, #state{verify_callback = Verifier, flush_extra = Extra}) -> |
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Verifier(Reply, ReqTask, Extra). |
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run_flush(State) -> |
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:-( |
case maybe_request_next(State) of |
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State1 = #state{async_request = no_request_pending} -> |
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:-( |
State1; |
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State2 -> |
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:-( |
run_flush(State2) |
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end. |
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log_fields(State, LogMessage) -> |
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:-( |
LogMessage#{host_type => State#state.host_type, pool_id => State#state.pool_id}. |