mirror of
https://github.com/wassname/ray.git
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Chaokun Yang
275 lines
10 KiB
C++
275 lines
10 KiB
C++
#include "channel.h"
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#include <unordered_map>
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namespace ray {
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namespace streaming {
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ProducerChannel::ProducerChannel(std::shared_ptr<Config> &transfer_config,
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ProducerChannelInfo &p_channel_info)
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: transfer_config_(transfer_config), channel_info(p_channel_info) {}
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ConsumerChannel::ConsumerChannel(std::shared_ptr<Config> &transfer_config,
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ConsumerChannelInfo &c_channel_info)
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: transfer_config_(transfer_config), channel_info(c_channel_info) {}
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StreamingQueueProducer::StreamingQueueProducer(std::shared_ptr<Config> &transfer_config,
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ProducerChannelInfo &p_channel_info)
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: ProducerChannel(transfer_config, p_channel_info) {
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STREAMING_LOG(INFO) << "Producer Init";
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}
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StreamingQueueProducer::~StreamingQueueProducer() {
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STREAMING_LOG(INFO) << "Producer Destory";
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}
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StreamingStatus StreamingQueueProducer::CreateTransferChannel() {
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CreateQueue();
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uint64_t queue_last_seq_id = 0;
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uint64_t last_message_id_in_queue = 0;
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if (!last_message_id_in_queue) {
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if (last_message_id_in_queue < channel_info.current_message_id) {
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STREAMING_LOG(WARNING) << "last message id in queue : " << last_message_id_in_queue
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<< " is less than message checkpoint loaded id : "
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<< channel_info.current_message_id
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<< ", an old queue object " << channel_info.channel_id
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<< " was fond in store";
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}
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last_message_id_in_queue = channel_info.current_message_id;
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}
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if (queue_last_seq_id == static_cast<uint64_t>(-1)) {
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queue_last_seq_id = 0;
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}
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channel_info.current_seq_id = queue_last_seq_id;
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STREAMING_LOG(WARNING) << "existing last message id => " << last_message_id_in_queue
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<< ", message id in channel => "
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<< channel_info.current_message_id << ", queue last seq id => "
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<< queue_last_seq_id;
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channel_info.message_last_commit_id = last_message_id_in_queue;
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueProducer::CreateQueue() {
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STREAMING_LOG(INFO) << "CreateQueue qid: " << channel_info.channel_id
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<< " data_size: " << channel_info.queue_size;
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auto upstream_handler = ray::streaming::UpstreamQueueMessageHandler::GetService();
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if (upstream_handler->UpstreamQueueExists(channel_info.channel_id)) {
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RAY_LOG(INFO) << "StreamingQueueWriter::CreateQueue duplicate!!!";
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return StreamingStatus::OK;
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}
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upstream_handler->SetPeerActorID(channel_info.channel_id, channel_info.actor_id);
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queue_ = upstream_handler->CreateUpstreamQueue(
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channel_info.channel_id, channel_info.actor_id, channel_info.queue_size);
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STREAMING_CHECK(queue_ != nullptr);
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std::vector<ObjectID> queue_ids, failed_queues;
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queue_ids.push_back(channel_info.channel_id);
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upstream_handler->WaitQueues(queue_ids, 10 * 1000, failed_queues);
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STREAMING_LOG(INFO) << "q id => " << channel_info.channel_id << ", queue size => "
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<< channel_info.queue_size;
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueProducer::DestroyTransferChannel() {
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueProducer::ClearTransferCheckpoint(
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uint64_t checkpoint_id, uint64_t checkpoint_offset) {
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueProducer::NotifyChannelConsumed(uint64_t channel_offset) {
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queue_->SetQueueEvictionLimit(channel_offset);
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueProducer::ProduceItemToChannel(uint8_t *data,
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uint32_t data_size) {
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Status status =
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PushQueueItem(channel_info.current_seq_id + 1, data, data_size, current_time_ms());
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if (status.code() != StatusCode::OK) {
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STREAMING_LOG(DEBUG) << channel_info.channel_id << " => Queue is full"
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<< " meesage => " << status.message();
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// Assume that only status OutOfMemory and OK are acceptable.
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// OutOfMemory means queue is full at that moment.
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STREAMING_CHECK(status.code() == StatusCode::OutOfMemory)
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<< "status => " << status.message()
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<< ", perhaps data block is so large that it can't be stored in"
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<< ", data block size => " << data_size;
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return StreamingStatus::FullChannel;
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}
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return StreamingStatus::OK;
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}
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Status StreamingQueueProducer::PushQueueItem(uint64_t seq_id, uint8_t *data,
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uint32_t data_size, uint64_t timestamp) {
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STREAMING_LOG(INFO) << "StreamingQueueProducer::PushQueueItem:"
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<< " qid: " << channel_info.channel_id << " seq_id: " << seq_id
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<< " data_size: " << data_size;
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Status status = queue_->Push(seq_id, data, data_size, timestamp, false);
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if (status.IsOutOfMemory()) {
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status = queue_->TryEvictItems();
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if (!status.ok()) {
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STREAMING_LOG(INFO) << "Evict fail.";
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return status;
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}
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status = queue_->Push(seq_id, data, data_size, timestamp, false);
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}
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queue_->Send();
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return status;
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}
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StreamingQueueConsumer::StreamingQueueConsumer(std::shared_ptr<Config> &transfer_config,
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ConsumerChannelInfo &c_channel_info)
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: ConsumerChannel(transfer_config, c_channel_info) {
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STREAMING_LOG(INFO) << "Consumer Init";
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}
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StreamingQueueConsumer::~StreamingQueueConsumer() {
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STREAMING_LOG(INFO) << "Consumer Destroy";
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}
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StreamingStatus StreamingQueueConsumer::CreateTransferChannel() {
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auto downstream_handler = ray::streaming::DownstreamQueueMessageHandler::GetService();
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STREAMING_LOG(INFO) << "GetQueue qid: " << channel_info.channel_id
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<< " start_seq_id: " << channel_info.current_seq_id + 1;
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if (downstream_handler->DownstreamQueueExists(channel_info.channel_id)) {
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RAY_LOG(INFO) << "StreamingQueueReader::GetQueue duplicate!!!";
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return StreamingStatus::OK;
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}
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downstream_handler->SetPeerActorID(channel_info.channel_id, channel_info.actor_id);
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STREAMING_LOG(INFO) << "Create ReaderQueue " << channel_info.channel_id
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<< " pull from start_seq_id: " << channel_info.current_seq_id + 1;
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queue_ = downstream_handler->CreateDownstreamQueue(channel_info.channel_id,
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channel_info.actor_id);
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueConsumer::DestroyTransferChannel() {
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueConsumer::ClearTransferCheckpoint(
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uint64_t checkpoint_id, uint64_t checkpoint_offset) {
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueConsumer::ConsumeItemFromChannel(uint64_t &offset_id,
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uint8_t *&data,
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uint32_t &data_size,
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uint32_t timeout) {
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STREAMING_LOG(INFO) << "GetQueueItem qid: " << channel_info.channel_id;
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STREAMING_CHECK(queue_ != nullptr);
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QueueItem item = queue_->PopPendingBlockTimeout(timeout * 1000);
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if (item.SeqId() == QUEUE_INVALID_SEQ_ID) {
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STREAMING_LOG(INFO) << "GetQueueItem timeout.";
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data = nullptr;
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data_size = 0;
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offset_id = QUEUE_INVALID_SEQ_ID;
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return StreamingStatus::OK;
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}
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data = item.Buffer()->Data();
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offset_id = item.SeqId();
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data_size = item.Buffer()->Size();
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STREAMING_LOG(DEBUG) << "GetQueueItem qid: " << channel_info.channel_id
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<< " seq_id: " << offset_id << " msg_id: " << item.MaxMsgId()
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<< " data_size: " << data_size;
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return StreamingStatus::OK;
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}
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StreamingStatus StreamingQueueConsumer::NotifyChannelConsumed(uint64_t offset_id) {
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STREAMING_CHECK(queue_ != nullptr);
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queue_->OnConsumed(offset_id);
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return StreamingStatus::OK;
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}
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// For mock queue transfer
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struct MockQueueItem {
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uint64_t seq_id;
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uint32_t data_size;
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std::shared_ptr<uint8_t> data;
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};
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struct MockQueue {
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std::unordered_map<ObjectID, std::shared_ptr<AbstractRingBufferImpl<MockQueueItem>>>
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message_buffer_;
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std::unordered_map<ObjectID, std::shared_ptr<AbstractRingBufferImpl<MockQueueItem>>>
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consumed_buffer_;
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};
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static MockQueue mock_queue;
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StreamingStatus MockProducer::CreateTransferChannel() {
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mock_queue.message_buffer_[channel_info.channel_id] =
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std::make_shared<RingBufferImplThreadSafe<MockQueueItem>>(500);
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mock_queue.consumed_buffer_[channel_info.channel_id] =
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std::make_shared<RingBufferImplThreadSafe<MockQueueItem>>(500);
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return StreamingStatus::OK;
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}
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StreamingStatus MockProducer::DestroyTransferChannel() {
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mock_queue.message_buffer_.erase(channel_info.channel_id);
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mock_queue.consumed_buffer_.erase(channel_info.channel_id);
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return StreamingStatus::OK;
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}
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StreamingStatus MockProducer::ProduceItemToChannel(uint8_t *data, uint32_t data_size) {
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auto &ring_buffer = mock_queue.message_buffer_[channel_info.channel_id];
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if (ring_buffer->Full()) {
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return StreamingStatus::OutOfMemory;
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}
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MockQueueItem item;
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item.seq_id = channel_info.current_seq_id + 1;
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item.data.reset(new uint8_t[data_size]);
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item.data_size = data_size;
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std::memcpy(item.data.get(), data, data_size);
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ring_buffer->Push(item);
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return StreamingStatus::OK;
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}
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StreamingStatus MockConsumer::ConsumeItemFromChannel(uint64_t &offset_id, uint8_t *&data,
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uint32_t &data_size,
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uint32_t timeout) {
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auto &channel_id = channel_info.channel_id;
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if (mock_queue.message_buffer_.find(channel_id) == mock_queue.message_buffer_.end()) {
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return StreamingStatus::NoSuchItem;
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}
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if (mock_queue.message_buffer_[channel_id]->Empty()) {
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return StreamingStatus::NoSuchItem;
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}
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MockQueueItem item = mock_queue.message_buffer_[channel_id]->Front();
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mock_queue.message_buffer_[channel_id]->Pop();
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mock_queue.consumed_buffer_[channel_id]->Push(item);
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offset_id = item.seq_id;
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data = item.data.get();
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data_size = item.data_size;
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return StreamingStatus::OK;
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}
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StreamingStatus MockConsumer::NotifyChannelConsumed(uint64_t offset_id) {
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auto &channel_id = channel_info.channel_id;
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auto &ring_buffer = mock_queue.consumed_buffer_[channel_id];
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while (!ring_buffer->Empty() && ring_buffer->Front().seq_id <= offset_id) {
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ring_buffer->Pop();
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}
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return StreamingStatus::OK;
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}
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} // namespace streaming
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} // namespace ray
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