Nagram/TMessagesProj/jni/voip/webrtc/call/fake_network_pipe.cc

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/*
* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "call/fake_network_pipe.h"
#include <string.h>
#include <algorithm>
#include <queue>
#include <utility>
#include <vector>
#include "api/media_types.h"
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#include "modules/utility/include/process_thread.h"
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#include "rtc_base/checks.h"
#include "rtc_base/logging.h"
#include "system_wrappers/include/clock.h"
namespace webrtc {
namespace {
constexpr int64_t kLogIntervalMs = 5000;
} // namespace
NetworkPacket::NetworkPacket(rtc::CopyOnWriteBuffer packet,
int64_t send_time,
int64_t arrival_time,
absl::optional<PacketOptions> packet_options,
bool is_rtcp,
MediaType media_type,
absl::optional<int64_t> packet_time_us,
Transport* transport)
: packet_(std::move(packet)),
send_time_(send_time),
arrival_time_(arrival_time),
packet_options_(packet_options),
is_rtcp_(is_rtcp),
media_type_(media_type),
packet_time_us_(packet_time_us),
transport_(transport) {}
NetworkPacket::NetworkPacket(NetworkPacket&& o)
: packet_(std::move(o.packet_)),
send_time_(o.send_time_),
arrival_time_(o.arrival_time_),
packet_options_(o.packet_options_),
is_rtcp_(o.is_rtcp_),
media_type_(o.media_type_),
packet_time_us_(o.packet_time_us_),
transport_(o.transport_) {}
NetworkPacket::~NetworkPacket() = default;
NetworkPacket& NetworkPacket::operator=(NetworkPacket&& o) {
packet_ = std::move(o.packet_);
send_time_ = o.send_time_;
arrival_time_ = o.arrival_time_;
packet_options_ = o.packet_options_;
is_rtcp_ = o.is_rtcp_;
media_type_ = o.media_type_;
packet_time_us_ = o.packet_time_us_;
transport_ = o.transport_;
return *this;
}
FakeNetworkPipe::FakeNetworkPipe(
Clock* clock,
std::unique_ptr<NetworkBehaviorInterface> network_behavior)
: FakeNetworkPipe(clock, std::move(network_behavior), nullptr, 1) {}
FakeNetworkPipe::FakeNetworkPipe(
Clock* clock,
std::unique_ptr<NetworkBehaviorInterface> network_behavior,
PacketReceiver* receiver)
: FakeNetworkPipe(clock, std::move(network_behavior), receiver, 1) {}
FakeNetworkPipe::FakeNetworkPipe(
Clock* clock,
std::unique_ptr<NetworkBehaviorInterface> network_behavior,
PacketReceiver* receiver,
uint64_t seed)
: clock_(clock),
network_behavior_(std::move(network_behavior)),
receiver_(receiver),
global_transport_(nullptr),
clock_offset_ms_(0),
dropped_packets_(0),
sent_packets_(0),
total_packet_delay_us_(0),
last_log_time_us_(clock_->TimeInMicroseconds()) {}
FakeNetworkPipe::FakeNetworkPipe(
Clock* clock,
std::unique_ptr<NetworkBehaviorInterface> network_behavior,
Transport* transport)
: clock_(clock),
network_behavior_(std::move(network_behavior)),
receiver_(nullptr),
global_transport_(transport),
clock_offset_ms_(0),
dropped_packets_(0),
sent_packets_(0),
total_packet_delay_us_(0),
last_log_time_us_(clock_->TimeInMicroseconds()) {
RTC_DCHECK(global_transport_);
AddActiveTransport(global_transport_);
}
FakeNetworkPipe::~FakeNetworkPipe() {
if (global_transport_) {
RemoveActiveTransport(global_transport_);
}
RTC_DCHECK(active_transports_.empty());
}
void FakeNetworkPipe::SetReceiver(PacketReceiver* receiver) {
MutexLock lock(&config_lock_);
receiver_ = receiver;
}
void FakeNetworkPipe::AddActiveTransport(Transport* transport) {
MutexLock lock(&config_lock_);
active_transports_[transport]++;
}
void FakeNetworkPipe::RemoveActiveTransport(Transport* transport) {
MutexLock lock(&config_lock_);
auto it = active_transports_.find(transport);
RTC_CHECK(it != active_transports_.end());
if (--(it->second) == 0) {
active_transports_.erase(it);
}
}
bool FakeNetworkPipe::SendRtp(const uint8_t* packet,
size_t length,
const PacketOptions& options) {
RTC_DCHECK(global_transport_);
EnqueuePacket(rtc::CopyOnWriteBuffer(packet, length), options, false,
global_transport_);
return true;
}
bool FakeNetworkPipe::SendRtcp(const uint8_t* packet, size_t length) {
RTC_DCHECK(global_transport_);
EnqueuePacket(rtc::CopyOnWriteBuffer(packet, length), absl::nullopt, true,
global_transport_);
return true;
}
bool FakeNetworkPipe::SendRtp(const uint8_t* packet,
size_t length,
const PacketOptions& options,
Transport* transport) {
RTC_DCHECK(transport);
EnqueuePacket(rtc::CopyOnWriteBuffer(packet, length), options, false,
transport);
return true;
}
bool FakeNetworkPipe::SendRtcp(const uint8_t* packet,
size_t length,
Transport* transport) {
RTC_DCHECK(transport);
EnqueuePacket(rtc::CopyOnWriteBuffer(packet, length), absl::nullopt, true,
transport);
return true;
}
PacketReceiver::DeliveryStatus FakeNetworkPipe::DeliverPacket(
MediaType media_type,
rtc::CopyOnWriteBuffer packet,
int64_t packet_time_us) {
return EnqueuePacket(std::move(packet), absl::nullopt, false, media_type,
packet_time_us)
? PacketReceiver::DELIVERY_OK
: PacketReceiver::DELIVERY_PACKET_ERROR;
}
void FakeNetworkPipe::SetClockOffset(int64_t offset_ms) {
MutexLock lock(&config_lock_);
clock_offset_ms_ = offset_ms;
}
FakeNetworkPipe::StoredPacket::StoredPacket(NetworkPacket&& packet)
: packet(std::move(packet)) {}
bool FakeNetworkPipe::EnqueuePacket(rtc::CopyOnWriteBuffer packet,
absl::optional<PacketOptions> options,
bool is_rtcp,
MediaType media_type,
absl::optional<int64_t> packet_time_us) {
MutexLock lock(&process_lock_);
int64_t time_now_us = clock_->TimeInMicroseconds();
return EnqueuePacket(NetworkPacket(std::move(packet), time_now_us,
time_now_us, options, is_rtcp, media_type,
packet_time_us, nullptr));
}
bool FakeNetworkPipe::EnqueuePacket(rtc::CopyOnWriteBuffer packet,
absl::optional<PacketOptions> options,
bool is_rtcp,
Transport* transport) {
MutexLock lock(&process_lock_);
int64_t time_now_us = clock_->TimeInMicroseconds();
return EnqueuePacket(NetworkPacket(std::move(packet), time_now_us,
time_now_us, options, is_rtcp,
MediaType::ANY, absl::nullopt, transport));
}
bool FakeNetworkPipe::EnqueuePacket(NetworkPacket&& net_packet) {
int64_t send_time_us = net_packet.send_time();
size_t packet_size = net_packet.data_length();
packets_in_flight_.emplace_back(StoredPacket(std::move(net_packet)));
int64_t packet_id = reinterpret_cast<uint64_t>(&packets_in_flight_.back());
bool sent = network_behavior_->EnqueuePacket(
PacketInFlightInfo(packet_size, send_time_us, packet_id));
if (!sent) {
packets_in_flight_.pop_back();
++dropped_packets_;
}
return sent;
}
float FakeNetworkPipe::PercentageLoss() {
MutexLock lock(&process_lock_);
if (sent_packets_ == 0)
return 0;
return static_cast<float>(dropped_packets_) /
(sent_packets_ + dropped_packets_);
}
int FakeNetworkPipe::AverageDelay() {
MutexLock lock(&process_lock_);
if (sent_packets_ == 0)
return 0;
return static_cast<int>(total_packet_delay_us_ /
(1000 * static_cast<int64_t>(sent_packets_)));
}
size_t FakeNetworkPipe::DroppedPackets() {
MutexLock lock(&process_lock_);
return dropped_packets_;
}
size_t FakeNetworkPipe::SentPackets() {
MutexLock lock(&process_lock_);
return sent_packets_;
}
void FakeNetworkPipe::Process() {
int64_t time_now_us;
std::queue<NetworkPacket> packets_to_deliver;
{
MutexLock lock(&process_lock_);
time_now_us = clock_->TimeInMicroseconds();
if (time_now_us - last_log_time_us_ > kLogIntervalMs * 1000) {
int64_t queueing_delay_us = 0;
if (!packets_in_flight_.empty())
queueing_delay_us =
time_now_us - packets_in_flight_.front().packet.send_time();
RTC_LOG(LS_INFO) << "Network queue: " << queueing_delay_us / 1000
<< " ms.";
last_log_time_us_ = time_now_us;
}
std::vector<PacketDeliveryInfo> delivery_infos =
network_behavior_->DequeueDeliverablePackets(time_now_us);
for (auto& delivery_info : delivery_infos) {
// In the common case where no reordering happens, find will return early
// as the first packet will be a match.
auto packet_it =
std::find_if(packets_in_flight_.begin(), packets_in_flight_.end(),
[&delivery_info](StoredPacket& packet_ref) {
return reinterpret_cast<uint64_t>(&packet_ref) ==
delivery_info.packet_id;
});
// Check that the packet is in the deque of packets in flight.
RTC_CHECK(packet_it != packets_in_flight_.end());
// Check that the packet is not already removed.
RTC_DCHECK(!packet_it->removed);
NetworkPacket packet = std::move(packet_it->packet);
packet_it->removed = true;
// Cleanup of removed packets at the beginning of the deque.
while (!packets_in_flight_.empty() &&
packets_in_flight_.front().removed) {
packets_in_flight_.pop_front();
}
if (delivery_info.receive_time_us != PacketDeliveryInfo::kNotReceived) {
int64_t added_delay_us =
delivery_info.receive_time_us - packet.send_time();
packet.IncrementArrivalTime(added_delay_us);
packets_to_deliver.emplace(std::move(packet));
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// `time_now_us` might be later than when the packet should have
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// arrived, due to NetworkProcess being called too late. For stats, use
// the time it should have been on the link.
total_packet_delay_us_ += added_delay_us;
++sent_packets_;
} else {
++dropped_packets_;
}
}
}
MutexLock lock(&config_lock_);
while (!packets_to_deliver.empty()) {
NetworkPacket packet = std::move(packets_to_deliver.front());
packets_to_deliver.pop();
DeliverNetworkPacket(&packet);
}
}
void FakeNetworkPipe::DeliverNetworkPacket(NetworkPacket* packet) {
Transport* transport = packet->transport();
if (transport) {
RTC_DCHECK(!receiver_);
if (active_transports_.find(transport) == active_transports_.end()) {
// Transport has been destroyed, ignore this packet.
return;
}
if (packet->is_rtcp()) {
transport->SendRtcp(packet->data(), packet->data_length());
} else {
transport->SendRtp(packet->data(), packet->data_length(),
packet->packet_options());
}
} else if (receiver_) {
int64_t packet_time_us = packet->packet_time_us().value_or(-1);
if (packet_time_us != -1) {
int64_t queue_time_us = packet->arrival_time() - packet->send_time();
RTC_CHECK(queue_time_us >= 0);
packet_time_us += queue_time_us;
packet_time_us += (clock_offset_ms_ * 1000);
}
receiver_->DeliverPacket(packet->media_type(),
std::move(*packet->raw_packet()), packet_time_us);
}
}
absl::optional<int64_t> FakeNetworkPipe::TimeUntilNextProcess() {
MutexLock lock(&process_lock_);
absl::optional<int64_t> delivery_us = network_behavior_->NextDeliveryTimeUs();
if (delivery_us) {
int64_t delay_us = *delivery_us - clock_->TimeInMicroseconds();
return std::max<int64_t>((delay_us + 500) / 1000, 0);
}
return absl::nullopt;
}
bool FakeNetworkPipe::HasReceiver() const {
MutexLock lock(&config_lock_);
return receiver_ != nullptr;
}
void FakeNetworkPipe::DeliverPacketWithLock(NetworkPacket* packet) {
MutexLock lock(&config_lock_);
DeliverNetworkPacket(packet);
}
void FakeNetworkPipe::ResetStats() {
MutexLock lock(&process_lock_);
dropped_packets_ = 0;
sent_packets_ = 0;
total_packet_delay_us_ = 0;
}
int64_t FakeNetworkPipe::GetTimeInMicroseconds() const {
return clock_->TimeInMicroseconds();
}
} // namespace webrtc