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// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "google_apis/gcm/base/socket_stream.h"
#include "base/basictypes.h"
#include "base/bind.h"
#include "base/memory/scoped_ptr.h"
#include "base/run_loop.h"
#include "base/stl_util.h"
#include "base/strings/string_piece.h"
#include "net/socket/socket_test_util.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace gcm {
namespace {
typedef std::vector<net::MockRead> ReadList;
typedef std::vector<net::MockWrite> WriteList;
const char kReadData[] = "read_data";
const uint64 kReadDataSize = arraysize(kReadData) - 1;
const char kReadData2[] = "read_alternate_data";
const uint64 kReadData2Size = arraysize(kReadData2) - 1;
const char kWriteData[] = "write_data";
const uint64 kWriteDataSize = arraysize(kWriteData) - 1;
class GCMSocketStreamTest : public testing::Test {
public:
GCMSocketStreamTest();
virtual ~GCMSocketStreamTest();
// Build a socket with the expected reads and writes.
void BuildSocket(const ReadList& read_list, const WriteList& write_list);
// Pump the message loop until idle.
void PumpLoop();
// Simulates a google::protobuf::io::CodedInputStream read.
base::StringPiece DoInputStreamRead(uint64 bytes);
// Simulates a google::protobuf::io::CodedOutputStream write.
uint64 DoOutputStreamWrite(const base::StringPiece& write_src);
// Synchronous Refresh wrapper.
void WaitForData(size_t msg_size);
base::MessageLoop* message_loop() { return &message_loop_; };
net::DelayedSocketData* data_provider() { return data_provider_.get(); }
SocketInputStream* input_stream() { return socket_input_stream_.get(); }
SocketOutputStream* output_stream() { return socket_output_stream_.get(); }
net::StreamSocket* socket() { return socket_.get(); }
private:
void OpenConnection();
void ResetInputStream();
void ResetOutputStream();
void ConnectCallback(int result);
// SocketStreams and their data providers.
ReadList mock_reads_;
WriteList mock_writes_;
scoped_ptr<net::DelayedSocketData> data_provider_;
scoped_ptr<SocketInputStream> socket_input_stream_;
scoped_ptr<SocketOutputStream> socket_output_stream_;
// net:: components.
scoped_ptr<net::StreamSocket> socket_;
net::MockClientSocketFactory socket_factory_;
net::AddressList address_list_;
base::MessageLoopForIO message_loop_;
};
GCMSocketStreamTest::GCMSocketStreamTest() {
net::IPAddressNumber ip_number;
net::ParseIPLiteralToNumber("127.0.0.1", &ip_number);
address_list_ = net::AddressList::CreateFromIPAddress(ip_number, 5228);
}
GCMSocketStreamTest::~GCMSocketStreamTest() {}
void GCMSocketStreamTest::BuildSocket(const ReadList& read_list,
const WriteList& write_list) {
mock_reads_ = read_list;
mock_writes_ = write_list;
data_provider_.reset(
new net::DelayedSocketData(
0,
vector_as_array(&mock_reads_), mock_reads_.size(),
vector_as_array(&mock_writes_), mock_writes_.size()));
socket_factory_.AddSocketDataProvider(data_provider_.get());
OpenConnection();
ResetInputStream();
ResetOutputStream();
}
void GCMSocketStreamTest::PumpLoop() {
base::RunLoop run_loop;
run_loop.RunUntilIdle();
}
base::StringPiece GCMSocketStreamTest::DoInputStreamRead(uint64 bytes) {
uint64 total_bytes_read = 0;
const void* initial_buffer = NULL;
const void* buffer = NULL;
int size = 0;
do {
DCHECK(socket_input_stream_->GetState() == SocketInputStream::EMPTY ||
socket_input_stream_->GetState() == SocketInputStream::READY);
if (!socket_input_stream_->Next(&buffer, &size))
break;
total_bytes_read += size;
if (initial_buffer) { // Verify the buffer doesn't skip data.
EXPECT_EQ(static_cast<const uint8*>(initial_buffer) + total_bytes_read,
static_cast<const uint8*>(buffer) + size);
} else {
initial_buffer = buffer;
}
} while (total_bytes_read < bytes);
if (total_bytes_read > bytes) {
socket_input_stream_->BackUp(total_bytes_read - bytes);
total_bytes_read = bytes;
}
return base::StringPiece(static_cast<const char*>(initial_buffer),
total_bytes_read);
}
uint64 GCMSocketStreamTest::DoOutputStreamWrite(
const base::StringPiece& write_src) {
DCHECK_EQ(socket_output_stream_->GetState(), SocketOutputStream::EMPTY);
uint64 total_bytes_written = 0;
void* buffer = NULL;
int size = 0;
size_t bytes = write_src.size();
do {
if (!socket_output_stream_->Next(&buffer, &size))
break;
uint64 bytes_to_write = (static_cast<uint64>(size) < bytes ? size : bytes);
memcpy(buffer,
write_src.data() + total_bytes_written,
bytes_to_write);
if (bytes_to_write < static_cast<uint64>(size))
socket_output_stream_->BackUp(size - bytes_to_write);
total_bytes_written += bytes_to_write;
} while (total_bytes_written < bytes);
base::RunLoop run_loop;
if (socket_output_stream_->Flush(run_loop.QuitClosure()) ==
net::ERR_IO_PENDING) {
run_loop.Run();
}
return total_bytes_written;
}
void GCMSocketStreamTest::WaitForData(size_t msg_size) {
while (input_stream()->UnreadByteCount() < msg_size) {
base::RunLoop run_loop;
if (input_stream()->Refresh(run_loop.QuitClosure(),
msg_size - input_stream()->UnreadByteCount()) ==
net::ERR_IO_PENDING) {
run_loop.Run();
}
if (input_stream()->GetState() == SocketInputStream::CLOSED)
return;
}
}
void GCMSocketStreamTest::OpenConnection() {
socket_ = socket_factory_.CreateTransportClientSocket(
address_list_, NULL, net::NetLog::Source());
socket_->Connect(
base::Bind(&GCMSocketStreamTest::ConnectCallback,
base::Unretained(this)));
PumpLoop();
}
void GCMSocketStreamTest::ConnectCallback(int result) {}
void GCMSocketStreamTest::ResetInputStream() {
DCHECK(socket_.get());
socket_input_stream_.reset(new SocketInputStream(socket_.get()));
}
void GCMSocketStreamTest::ResetOutputStream() {
DCHECK(socket_.get());
socket_output_stream_.reset(new SocketOutputStream(socket_.get()));
}
// A read where all data is already available.
TEST_F(GCMSocketStreamTest, ReadDataSync) {
BuildSocket(ReadList(1, net::MockRead(net::SYNCHRONOUS,
kReadData,
kReadDataSize)),
WriteList());
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
}
// A read that comes in two parts.
TEST_F(GCMSocketStreamTest, ReadPartialDataSync) {
size_t first_read_len = kReadDataSize / 2;
size_t second_read_len = kReadDataSize - first_read_len;
ReadList read_list;
read_list.push_back(
net::MockRead(net::SYNCHRONOUS,
kReadData,
first_read_len));
read_list.push_back(
net::MockRead(net::SYNCHRONOUS,
&kReadData[first_read_len],
second_read_len));
BuildSocket(read_list, WriteList());
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
}
// A read where no data is available at first (IO_PENDING will be returned).
TEST_F(GCMSocketStreamTest, ReadAsync) {
size_t first_read_len = kReadDataSize / 2;
size_t second_read_len = kReadDataSize - first_read_len;
ReadList read_list;
read_list.push_back(
net::MockRead(net::SYNCHRONOUS, net::ERR_IO_PENDING));
read_list.push_back(
net::MockRead(net::ASYNC, kReadData, first_read_len));
read_list.push_back(
net::MockRead(net::ASYNC, &kReadData[first_read_len], second_read_len));
BuildSocket(read_list, WriteList());
base::MessageLoop::current()->PostTask(
FROM_HERE,
base::Bind(&net::DelayedSocketData::ForceNextRead,
base::Unretained(data_provider())));
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
}
// Simulate two packets arriving at once. Read them in two separate calls.
TEST_F(GCMSocketStreamTest, TwoReadsAtOnce) {
std::string long_data = std::string(kReadData, kReadDataSize) +
std::string(kReadData2, kReadData2Size);
BuildSocket(ReadList(1, net::MockRead(net::SYNCHRONOUS,
long_data.c_str(),
long_data.size())),
WriteList());
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
WaitForData(kReadData2Size);
ASSERT_EQ(std::string(kReadData2, kReadData2Size),
DoInputStreamRead(kReadData2Size));
}
// Simulate two packets arriving at once. Read them in two calls separated
// by a Rebuild.
TEST_F(GCMSocketStreamTest, TwoReadsAtOnceWithRebuild) {
std::string long_data = std::string(kReadData, kReadDataSize) +
std::string(kReadData2, kReadData2Size);
BuildSocket(ReadList(1, net::MockRead(net::SYNCHRONOUS,
long_data.c_str(),
long_data.size())),
WriteList());
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
input_stream()->RebuildBuffer();
WaitForData(kReadData2Size);
ASSERT_EQ(std::string(kReadData2, kReadData2Size),
DoInputStreamRead(kReadData2Size));
}
// Simulate a read that is aborted.
TEST_F(GCMSocketStreamTest, ReadError) {
int result = net::ERR_ABORTED;
BuildSocket(ReadList(1, net::MockRead(net::SYNCHRONOUS, result)),
WriteList());
WaitForData(kReadDataSize);
ASSERT_EQ(SocketInputStream::CLOSED, input_stream()->GetState());
ASSERT_EQ(result, input_stream()->last_error());
}
// Simulate a read after the connection is closed.
TEST_F(GCMSocketStreamTest, ReadDisconnected) {
BuildSocket(ReadList(), WriteList());
socket()->Disconnect();
WaitForData(kReadDataSize);
ASSERT_EQ(SocketInputStream::CLOSED, input_stream()->GetState());
ASSERT_EQ(net::ERR_CONNECTION_CLOSED, input_stream()->last_error());
}
// Write a full message in one go.
TEST_F(GCMSocketStreamTest, WriteFull) {
BuildSocket(ReadList(),
WriteList(1, net::MockWrite(net::SYNCHRONOUS,
kWriteData,
kWriteDataSize)));
ASSERT_EQ(kWriteDataSize,
DoOutputStreamWrite(base::StringPiece(kWriteData,
kWriteDataSize)));
}
// Write a message in two go's.
TEST_F(GCMSocketStreamTest, WritePartial) {
WriteList write_list;
write_list.push_back(net::MockWrite(net::SYNCHRONOUS,
kWriteData,
kWriteDataSize / 2));
write_list.push_back(net::MockWrite(net::SYNCHRONOUS,
kWriteData + kWriteDataSize / 2,
kWriteDataSize / 2));
BuildSocket(ReadList(), write_list);
ASSERT_EQ(kWriteDataSize,
DoOutputStreamWrite(base::StringPiece(kWriteData,
kWriteDataSize)));
}
// Write a message completely asynchronously (returns IO_PENDING before
// finishing the write in two go's).
TEST_F(GCMSocketStreamTest, WriteNone) {
WriteList write_list;
write_list.push_back(net::MockWrite(net::SYNCHRONOUS,
kWriteData,
kWriteDataSize / 2));
write_list.push_back(net::MockWrite(net::SYNCHRONOUS,
kWriteData + kWriteDataSize / 2,
kWriteDataSize / 2));
BuildSocket(ReadList(), write_list);
ASSERT_EQ(kWriteDataSize,
DoOutputStreamWrite(base::StringPiece(kWriteData,
kWriteDataSize)));
}
// Write a message then read a message.
TEST_F(GCMSocketStreamTest, WriteThenRead) {
BuildSocket(ReadList(1, net::MockRead(net::SYNCHRONOUS,
kReadData,
kReadDataSize)),
WriteList(1, net::MockWrite(net::SYNCHRONOUS,
kWriteData,
kWriteDataSize)));
ASSERT_EQ(kWriteDataSize,
DoOutputStreamWrite(base::StringPiece(kWriteData,
kWriteDataSize)));
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
}
// Read a message then write a message.
TEST_F(GCMSocketStreamTest, ReadThenWrite) {
BuildSocket(ReadList(1, net::MockRead(net::SYNCHRONOUS,
kReadData,
kReadDataSize)),
WriteList(1, net::MockWrite(net::SYNCHRONOUS,
kWriteData,
kWriteDataSize)));
WaitForData(kReadDataSize);
ASSERT_EQ(std::string(kReadData, kReadDataSize),
DoInputStreamRead(kReadDataSize));
ASSERT_EQ(kWriteDataSize,
DoOutputStreamWrite(base::StringPiece(kWriteData,
kWriteDataSize)));
}
// Simulate a write that gets aborted.
TEST_F(GCMSocketStreamTest, WriteError) {
int result = net::ERR_ABORTED;
BuildSocket(ReadList(),
WriteList(1, net::MockWrite(net::SYNCHRONOUS, result)));
DoOutputStreamWrite(base::StringPiece(kWriteData, kWriteDataSize));
ASSERT_EQ(SocketOutputStream::CLOSED, output_stream()->GetState());
ASSERT_EQ(result, output_stream()->last_error());
}
// Simulate a write after the connection is closed.
TEST_F(GCMSocketStreamTest, WriteDisconnected) {
BuildSocket(ReadList(), WriteList());
socket()->Disconnect();
DoOutputStreamWrite(base::StringPiece(kWriteData, kWriteDataSize));
ASSERT_EQ(SocketOutputStream::CLOSED, output_stream()->GetState());
ASSERT_EQ(net::ERR_CONNECTION_CLOSED, output_stream()->last_error());
}
} // namespace
} // namespace gcm
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