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webrtc/rtc_base/testclient.cc
Karl Wiberg 918f50c5d1 Use absl::make_unique and absl::WrapUnique directly 
Instead of going through our wrappers in ptr_util.h.

This CL was generated by the following script:

  git grep -l ptr_util | xargs perl -pi -e 's,#include "rtc_base/ptr_util.h",#include "absl/memory/memory.h",'
  git grep -l MakeUnique | xargs perl -pi -e 's,\b(rtc::)?MakeUnique\b,absl::make_unique,g'
  git grep -l WrapUnique | xargs perl -pi -e 's,\b(rtc::)?WrapUnique\b,absl::WrapUnique,g'
  git checkout -- rtc_base/ptr_util{.h,_unittest.cc}
  git cl format

Followed by manually adding dependencies on
//third_party/abseil-cpp/absl/memory until `gn check` stopped
complaining.

Bug: webrtc:9473
Change-Id: I89ccd363f070479b8c431eb2c3d404a46eaacc1c
Reviewed-on: https://webrtc-review.googlesource.com/86600
Commit-Queue: Karl Wiberg <kwiberg@webrtc.org>
Reviewed-by: Danil Chapovalov <danilchap@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#23850}
2018-07-05 10:59:49 +00:00

176 lines
5.1 KiB
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/*
* Copyright 2004 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 "rtc_base/testclient.h"
#include "absl/memory/memory.h"
#include "rtc_base/gunit.h"
#include "rtc_base/thread.h"
#include "rtc_base/timeutils.h"
namespace rtc {
// DESIGN: Each packet received is put it into a list of packets.
// Callers can retrieve received packets from any thread by calling
// NextPacket.
TestClient::TestClient(std::unique_ptr<AsyncPacketSocket> socket)
: TestClient(std::move(socket), nullptr) {}
TestClient::TestClient(std::unique_ptr<AsyncPacketSocket> socket,
FakeClock* fake_clock)
: fake_clock_(fake_clock),
socket_(std::move(socket)),
prev_packet_timestamp_(-1) {
socket_->SignalReadPacket.connect(this, &TestClient::OnPacket);
socket_->SignalReadyToSend.connect(this, &TestClient::OnReadyToSend);
}
TestClient::~TestClient() {}
bool TestClient::CheckConnState(AsyncPacketSocket::State state) {
// Wait for our timeout value until the socket reaches the desired state.
int64_t end = TimeAfter(kTimeoutMs);
while (socket_->GetState() != state && TimeUntil(end) > 0) {
AdvanceTime(1);
}
return (socket_->GetState() == state);
}
int TestClient::Send(const char* buf, size_t size) {
rtc::PacketOptions options;
return socket_->Send(buf, size, options);
}
int TestClient::SendTo(const char* buf,
size_t size,
const SocketAddress& dest) {
rtc::PacketOptions options;
return socket_->SendTo(buf, size, dest, options);
}
std::unique_ptr<TestClient::Packet> TestClient::NextPacket(int timeout_ms) {
// If no packets are currently available, we go into a get/dispatch loop for
// at most timeout_ms. If, during the loop, a packet arrives, then we can
// stop early and return it.
// Note that the case where no packet arrives is important. We often want to
// test that a packet does not arrive.
// Note also that we only try to pump our current thread's message queue.
// Pumping another thread's queue could lead to messages being dispatched from
// the wrong thread to non-thread-safe objects.
int64_t end = TimeAfter(timeout_ms);
while (TimeUntil(end) > 0) {
{
CritScope cs(&crit_);
if (packets_.size() != 0) {
break;
}
}
AdvanceTime(1);
}
// Return the first packet placed in the queue.
std::unique_ptr<Packet> packet;
CritScope cs(&crit_);
if (packets_.size() > 0) {
packet = std::move(packets_.front());
packets_.erase(packets_.begin());
}
return packet;
}
bool TestClient::CheckNextPacket(const char* buf,
size_t size,
SocketAddress* addr) {
bool res = false;
std::unique_ptr<Packet> packet = NextPacket(kTimeoutMs);
if (packet) {
res = (packet->size == size && memcmp(packet->buf, buf, size) == 0 &&
CheckTimestamp(packet->packet_time.timestamp));
if (addr)
*addr = packet->addr;
}
return res;
}
bool TestClient::CheckTimestamp(int64_t packet_timestamp) {
bool res = true;
if (packet_timestamp == -1) {
res = false;
}
if (prev_packet_timestamp_ != -1) {
if (packet_timestamp < prev_packet_timestamp_) {
res = false;
}
}
prev_packet_timestamp_ = packet_timestamp;
return res;
}
void TestClient::AdvanceTime(int ms) {
// If the test is using a fake clock, we must advance the fake clock to
// advance time. Otherwise, ProcessMessages will work.
if (fake_clock_) {
SIMULATED_WAIT(false, ms, *fake_clock_);
} else {
Thread::Current()->ProcessMessages(1);
}
}
bool TestClient::CheckNoPacket() {
return NextPacket(kNoPacketTimeoutMs) == nullptr;
}
int TestClient::GetError() {
return socket_->GetError();
}
int TestClient::SetOption(Socket::Option opt, int value) {
return socket_->SetOption(opt, value);
}
void TestClient::OnPacket(AsyncPacketSocket* socket,
const char* buf,
size_t size,
const SocketAddress& remote_addr,
const PacketTime& packet_time) {
CritScope cs(&crit_);
packets_.push_back(
absl::make_unique<Packet>(remote_addr, buf, size, packet_time));
}
void TestClient::OnReadyToSend(AsyncPacketSocket* socket) {
++ready_to_send_count_;
}
TestClient::Packet::Packet(const SocketAddress& a,
const char* b,
size_t s,
const PacketTime& packet_time)
: addr(a), buf(0), size(s), packet_time(packet_time) {
buf = new char[size];
memcpy(buf, b, size);
}
TestClient::Packet::Packet(const Packet& p)
: addr(p.addr), buf(0), size(p.size), packet_time(p.packet_time) {
buf = new char[size];
memcpy(buf, p.buf, size);
}
TestClient::Packet::~Packet() {
delete[] buf;
}
} // namespace rtc
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