/* * Copyright 2019 The Android Open Source Project * * 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. */ #include "l2cap/internal/scheduler_fifo.h" #include "dynamic_channel_impl.h" #include "l2cap/internal/data_pipeline_manager.h" #include "l2cap/l2cap_packets.h" #include "os/log.h" namespace bluetooth { namespace l2cap { namespace internal { Fifo::Fifo(DataPipelineManager* data_pipeline_manager, LowerQueueUpEnd* link_queue_up_end, os::Handler* handler) : data_pipeline_manager_(data_pipeline_manager), link_queue_up_end_(link_queue_up_end), handler_(handler) { ASSERT(link_queue_up_end_ != nullptr && handler_ != nullptr); } // Invoked from some external Handler context Fifo::~Fifo() { // TODO(hsz): notify Sender don't send callback to me if (link_queue_enqueue_registered_.exchange(false)) { link_queue_up_end_->UnregisterEnqueue(); } } // Invoked within L2CAP Handler context void Fifo::OnPacketsReady(Cid cid, int number_packets) { if (number_packets == 0) { return; } int priority = high_priority_cids_.count(cid) != 0; next_to_dequeue_and_num_packets.push(std::make_pair(cid, number_packets), priority); try_register_link_queue_enqueue(); } // Invoked within L2CAP Handler context void Fifo::SetChannelTxPriority(Cid cid, bool high_priority) { if (high_priority) { high_priority_cids_.emplace(cid); } else { high_priority_cids_.erase(cid); } } void Fifo::RemoveChannel(Cid cid) { for (int i = 0; i < next_to_dequeue_and_num_packets.size(); i++) { auto& channel_id_and_number_packets = next_to_dequeue_and_num_packets.front(); if (channel_id_and_number_packets.second != cid) { next_to_dequeue_and_num_packets.push(channel_id_and_number_packets); } next_to_dequeue_and_num_packets.pop(); } if (next_to_dequeue_and_num_packets.empty() && link_queue_enqueue_registered_.exchange(false)) { link_queue_up_end_->UnregisterEnqueue(); } } // Invoked from some external Queue Reactable context std::unique_ptr Fifo::link_queue_enqueue_callback() { ASSERT(!next_to_dequeue_and_num_packets.empty()); auto& channel_id_and_number_packets = next_to_dequeue_and_num_packets.front(); auto channel_id = channel_id_and_number_packets.first; channel_id_and_number_packets.second--; if (channel_id_and_number_packets.second == 0) { next_to_dequeue_and_num_packets.pop(); } auto packet = data_pipeline_manager_->GetDataController(channel_id)->GetNextPacket(); data_pipeline_manager_->OnPacketSent(channel_id); if (next_to_dequeue_and_num_packets.empty() && link_queue_enqueue_registered_.exchange(false)) { link_queue_up_end_->UnregisterEnqueue(); } return packet; } void Fifo::try_register_link_queue_enqueue() { if (link_queue_enqueue_registered_.exchange(true)) { return; } link_queue_up_end_->RegisterEnqueue(handler_, common::Bind(&Fifo::link_queue_enqueue_callback, common::Unretained(this))); } } // namespace internal } // namespace l2cap } // namespace bluetooth