blob: 3b07bd044057670eeb904197b9a4809757156ba7 [file] [log] [blame]
// 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.
//
// Tests for WebSocketBasicStream. Note that we do not attempt to verify that
// frame parsing itself functions correctly, as that is covered by the
// WebSocketFrameParser tests.
#include "net/websockets/websocket_basic_stream.h"
#include <string.h> // for memcpy() and memset().
#include <utility>
#include "base/big_endian.h"
#include "base/containers/span.h"
#include "base/macros.h"
#include "net/base/test_completion_callback.h"
#include "net/log/test_net_log.h"
#include "net/socket/socket_tag.h"
#include "net/socket/socket_test_util.h"
#include "net/test/gtest_util.h"
#include "net/test/test_with_scoped_task_environment.h"
#include "starboard/memory.h"
#include "starboard/types.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
using net::test::IsError;
using net::test::IsOk;
namespace net {
namespace {
#define WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(name, value) \
const char k##name[] = value; \
const size_t k##name##Size = arraysize(k##name) - 1;
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(SampleFrame, "\x81\x06Sample");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(
PartialLargeFrame,
"\x81\x7F\x00\x00\x00\x00\x7F\xFF\xFF\xFF"
"chromiunum ad pasco per loca insanis pullum manducat frumenti");
const size_t kLargeFrameHeaderSize = 10;
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(MultipleFrames,
"\x81\x01X\x81\x01Y\x81\x01Z");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(EmptyFirstFrame, "\x01\x00");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(EmptyMiddleFrame, "\x00\x00");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(EmptyFinalTextFrame, "\x81\x00");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(EmptyFinalContinuationFrame,
"\x80\x00");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(ValidPong, "\x8A\x00");
// This frame encodes a payload length of 7 in two bytes, which is always
// invalid.
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(InvalidFrame,
"\x81\x7E\x00\x07Invalid");
// Control frames must have the FIN bit set. This one does not.
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(PingFrameWithoutFin, "\x09\x00");
// Control frames must have a payload of 125 bytes or less. This one has
// a payload of 126 bytes.
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(
126BytePong,
"\x8a\x7e\x00\x7eZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ"
"ZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZZ");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(CloseFrame,
"\x88\x09\x03\xe8occludo");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(WriteFrame,
"\x81\x85\x00\x00\x00\x00Write");
WEBSOCKET_BASIC_STREAM_TEST_DEFINE_CONSTANT(MaskedEmptyPong,
"\x8A\x80\x00\x00\x00\x00");
const WebSocketMaskingKey kNulMaskingKey = {{'\0', '\0', '\0', '\0'}};
const WebSocketMaskingKey kNonNulMaskingKey = {
{'\x0d', '\x1b', '\x06', '\x17'}};
// A masking key generator function which generates the identity mask,
// ie. "\0\0\0\0".
WebSocketMaskingKey GenerateNulMaskingKey() { return kNulMaskingKey; }
// A masking key generation function which generates a fixed masking key with no
// nul characters.
WebSocketMaskingKey GenerateNonNulMaskingKey() { return kNonNulMaskingKey; }
// A subclass of StaticSocketDataProvider modified to require that all data
// expected to be read or written actually is.
class StrictStaticSocketDataProvider : public StaticSocketDataProvider {
public:
StrictStaticSocketDataProvider(base::span<const MockRead> reads,
base::span<const MockWrite> writes,
bool strict_mode)
: StaticSocketDataProvider(reads, writes), strict_mode_(strict_mode) {}
~StrictStaticSocketDataProvider() override {
if (strict_mode_) {
EXPECT_EQ(read_count(), read_index());
EXPECT_EQ(write_count(), write_index());
}
}
private:
const bool strict_mode_;
};
// A fixture for tests which only perform normal socket operations.
class WebSocketBasicStreamSocketTest : public TestWithScopedTaskEnvironment {
protected:
WebSocketBasicStreamSocketTest()
: pool_(1, 1, &factory_),
generator_(&GenerateNulMaskingKey),
expect_all_io_to_complete_(true) {}
~WebSocketBasicStreamSocketTest() override {
// stream_ has a reference to socket_data_ (via MockTCPClientSocket) and so
// should be destroyed first.
stream_.reset();
}
std::unique_ptr<ClientSocketHandle> MakeTransportSocket(
base::span<const MockRead> reads,
base::span<const MockWrite> writes) {
socket_data_ = std::make_unique<StrictStaticSocketDataProvider>(
reads, writes, expect_all_io_to_complete_);
socket_data_->set_connect_data(MockConnect(SYNCHRONOUS, OK));
factory_.AddSocketDataProvider(socket_data_.get());
auto transport_socket = std::make_unique<ClientSocketHandle>();
scoped_refptr<MockTransportSocketParams> params;
transport_socket->Init("a", params, MEDIUM, SocketTag(),
ClientSocketPool::RespectLimits::ENABLED,
CompletionOnceCallback(), &pool_,
NetLogWithSource());
return transport_socket;
}
void SetHttpReadBuffer(const char* data, size_t size) {
http_read_buffer_ = base::MakeRefCounted<GrowableIOBuffer>();
http_read_buffer_->SetCapacity(size);
SbMemoryCopy(http_read_buffer_->data(), data, size);
http_read_buffer_->set_offset(size);
}
void CreateStream(base::span<const MockRead> reads,
base::span<const MockWrite> writes) {
stream_ = WebSocketBasicStream::CreateWebSocketBasicStreamForTesting(
MakeTransportSocket(reads, writes), http_read_buffer_, sub_protocol_,
extensions_, generator_);
}
std::unique_ptr<SocketDataProvider> socket_data_;
MockClientSocketFactory factory_;
MockTransportClientSocketPool pool_;
std::vector<std::unique_ptr<WebSocketFrame>> frames_;
TestCompletionCallback cb_;
scoped_refptr<GrowableIOBuffer> http_read_buffer_;
std::string sub_protocol_;
std::string extensions_;
WebSocketBasicStream::WebSocketMaskingKeyGeneratorFunction generator_;
bool expect_all_io_to_complete_;
std::unique_ptr<WebSocketBasicStream> stream_;
};
// A test fixture for the common case of tests that only perform a single read.
class WebSocketBasicStreamSocketSingleReadTest
: public WebSocketBasicStreamSocketTest {
protected:
void CreateRead(const MockRead& read) {
reads_[0] = read;
CreateStream(reads_, base::span<MockWrite>());
}
MockRead reads_[1];
};
// A test fixture for tests that perform chunked reads.
class WebSocketBasicStreamSocketChunkedReadTest
: public WebSocketBasicStreamSocketTest {
protected:
// Specify the behaviour if there aren't enough chunks to use all the data. If
// LAST_FRAME_BIG is specified, then the rest of the data will be
// put in the last chunk. If LAST_FRAME_NOT_BIG is specified, then the last
// frame will be no bigger than the rest of the frames (but it can be smaller,
// if not enough data remains).
enum LastFrameBehaviour {
LAST_FRAME_BIG,
LAST_FRAME_NOT_BIG
};
// Prepares a read from |data| of |data_size|, split into |number_of_chunks|,
// each of |chunk_size| (except that the last chunk may be larger or
// smaller). All reads must be either SYNCHRONOUS or ASYNC (not a mixture),
// and errors cannot be simulated. Once data is exhausted, further reads will
// return 0 (ie. connection closed).
void CreateChunkedRead(IoMode mode,
const char data[],
size_t data_size,
int chunk_size,
size_t number_of_chunks,
LastFrameBehaviour last_frame_behaviour) {
reads_.clear();
const char* start = data;
for (size_t i = 0; i < number_of_chunks; ++i) {
int len = chunk_size;
const bool is_last_chunk = (i == number_of_chunks - 1);
if ((last_frame_behaviour == LAST_FRAME_BIG && is_last_chunk) ||
static_cast<int>(data + data_size - start) < len) {
len = static_cast<int>(data + data_size - start);
}
reads_.push_back(MockRead(mode, start, len));
start += len;
}
#ifdef STARBOARD
CreateStream(base::span<MockRead>(reads_.data(), reads_.size()),
base::span<MockWrite>());
#else
CreateStream(reads_, base::span<MockWrite>());
#endif
}
std::vector<MockRead> reads_;
};
// Test fixture for write tests.
class WebSocketBasicStreamSocketWriteTest
: public WebSocketBasicStreamSocketTest {
protected:
// All write tests use the same frame, so it is easiest to create it during
// test creation.
void SetUp() override { PrepareWriteFrame(); }
// Creates a WebSocketFrame with a wire format matching kWriteFrame and adds
// it to |frames_|.
void PrepareWriteFrame() {
auto frame =
std::make_unique<WebSocketFrame>(WebSocketFrameHeader::kOpCodeText);
const size_t payload_size =
kWriteFrameSize - (WebSocketFrameHeader::kBaseHeaderSize +
WebSocketFrameHeader::kMaskingKeyLength);
frame->data = base::MakeRefCounted<IOBuffer>(payload_size);
SbMemoryCopy(frame->data->data(),
kWriteFrame + kWriteFrameSize - payload_size, payload_size);
WebSocketFrameHeader& header = frame->header;
header.final = true;
header.masked = true;
header.payload_length = payload_size;
frames_.push_back(std::move(frame));
}
};
TEST_F(WebSocketBasicStreamSocketTest, ConstructionWorks) {
CreateStream(base::span<MockRead>(), base::span<MockWrite>());
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, SyncReadWorks) {
CreateRead(MockRead(SYNCHRONOUS, kSampleFrame, kSampleFrameSize));
int result = stream_->ReadFrames(&frames_, cb_.callback());
EXPECT_THAT(result, IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
EXPECT_TRUE(frames_[0]->header.final);
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, AsyncReadWorks) {
CreateRead(MockRead(ASYNC, kSampleFrame, kSampleFrameSize));
int result = stream_->ReadFrames(&frames_, cb_.callback());
ASSERT_THAT(result, IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
// Don't repeat all the tests from SyncReadWorks; just enough to be sure the
// frame was really read.
}
// ReadFrames will not return a frame whose header has not been wholly received.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, HeaderFragmentedSync) {
CreateChunkedRead(
SYNCHRONOUS, kSampleFrame, kSampleFrameSize, 1, 2, LAST_FRAME_BIG);
int result = stream_->ReadFrames(&frames_, cb_.callback());
EXPECT_THAT(result, IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
}
// The same behaviour applies to asynchronous reads.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, HeaderFragmentedAsync) {
CreateChunkedRead(
ASYNC, kSampleFrame, kSampleFrameSize, 1, 2, LAST_FRAME_BIG);
int result = stream_->ReadFrames(&frames_, cb_.callback());
ASSERT_THAT(result, IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
}
// If it receives an incomplete header in a synchronous call, then has to wait
// for the rest of the frame, ReadFrames will return ERR_IO_PENDING.
TEST_F(WebSocketBasicStreamSocketTest, HeaderFragmentedSyncAsync) {
MockRead reads[] = {MockRead(SYNCHRONOUS, kSampleFrame, 1),
MockRead(ASYNC, kSampleFrame + 1, kSampleFrameSize - 1)};
CreateStream(reads, base::span<MockWrite>());
int result = stream_->ReadFrames(&frames_, cb_.callback());
ASSERT_THAT(result, IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
}
// An extended header should also return ERR_IO_PENDING if it is not completely
// received.
TEST_F(WebSocketBasicStreamSocketTest, FragmentedLargeHeader) {
MockRead reads[] = {
MockRead(SYNCHRONOUS, kPartialLargeFrame, kLargeFrameHeaderSize - 1),
MockRead(SYNCHRONOUS, ERR_IO_PENDING)};
CreateStream(reads, base::span<MockWrite>());
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
}
// A frame that does not arrive in a single read should be broken into separate
// frames.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, LargeFrameFirstChunk) {
CreateRead(MockRead(SYNCHRONOUS, kPartialLargeFrame, kPartialLargeFrameSize));
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_FALSE(frames_[0]->header.final);
EXPECT_EQ(kPartialLargeFrameSize - kLargeFrameHeaderSize,
static_cast<size_t>(frames_[0]->header.payload_length));
}
// If only the header of a data frame arrives, we should receive a frame with a
// zero-size payload.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, HeaderOnlyChunk) {
CreateRead(MockRead(SYNCHRONOUS, kPartialLargeFrame, kLargeFrameHeaderSize));
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(NULL, frames_[0]->data.get());
EXPECT_EQ(0U, frames_[0]->header.payload_length);
EXPECT_EQ(WebSocketFrameHeader::kOpCodeText, frames_[0]->header.opcode);
}
// If the header and the body of a data frame arrive seperately, we should see
// them as separate frames.
TEST_F(WebSocketBasicStreamSocketTest, HeaderBodySeparated) {
MockRead reads[] = {
MockRead(SYNCHRONOUS, kPartialLargeFrame, kLargeFrameHeaderSize),
MockRead(ASYNC,
kPartialLargeFrame + kLargeFrameHeaderSize,
kPartialLargeFrameSize - kLargeFrameHeaderSize)};
CreateStream(reads, base::span<MockWrite>());
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(NULL, frames_[0]->data.get());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeText, frames_[0]->header.opcode);
frames_.clear();
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(kPartialLargeFrameSize - kLargeFrameHeaderSize,
frames_[0]->header.payload_length);
EXPECT_EQ(WebSocketFrameHeader::kOpCodeContinuation,
frames_[0]->header.opcode);
}
// Every frame has a header with a correct payload_length field.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, LargeFrameTwoChunks) {
const size_t kChunkSize = 16;
CreateChunkedRead(ASYNC,
kPartialLargeFrame,
kPartialLargeFrameSize,
kChunkSize,
2,
LAST_FRAME_NOT_BIG);
TestCompletionCallback cb[2];
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[0].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[0].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(kChunkSize - kLargeFrameHeaderSize,
frames_[0]->header.payload_length);
frames_.clear();
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[1].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[1].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(kChunkSize, frames_[0]->header.payload_length);
}
// Only the final frame of a fragmented message has |final| bit set.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, OnlyFinalChunkIsFinal) {
static const size_t kFirstChunkSize = 4;
CreateChunkedRead(ASYNC,
kSampleFrame,
kSampleFrameSize,
kFirstChunkSize,
2,
LAST_FRAME_BIG);
TestCompletionCallback cb[2];
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[0].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[0].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
ASSERT_FALSE(frames_[0]->header.final);
frames_.clear();
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[1].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[1].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
ASSERT_TRUE(frames_[0]->header.final);
}
// All frames after the first have their opcode changed to Continuation.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, ContinuationOpCodeUsed) {
const size_t kFirstChunkSize = 3;
const int kChunkCount = 3;
// The input data is one frame with opcode Text, which arrives in three
// separate chunks.
CreateChunkedRead(ASYNC,
kSampleFrame,
kSampleFrameSize,
kFirstChunkSize,
kChunkCount,
LAST_FRAME_BIG);
TestCompletionCallback cb[kChunkCount];
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[0].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[0].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeText, frames_[0]->header.opcode);
// This test uses a loop to verify that the opcode for every frames generated
// after the first is converted to Continuation.
for (int i = 1; i < kChunkCount; ++i) {
frames_.clear();
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[i].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[i].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeContinuation,
frames_[0]->header.opcode);
}
}
// Multiple frames that arrive together should be parsed correctly.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, ThreeFramesTogether) {
CreateRead(MockRead(SYNCHRONOUS, kMultipleFrames, kMultipleFramesSize));
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(3U, frames_.size());
EXPECT_TRUE(frames_[0]->header.final);
EXPECT_TRUE(frames_[1]->header.final);
EXPECT_TRUE(frames_[2]->header.final);
}
// ERR_CONNECTION_CLOSED must be returned on close.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, SyncClose) {
CreateRead(MockRead(SYNCHRONOUS, "", 0));
EXPECT_EQ(ERR_CONNECTION_CLOSED,
stream_->ReadFrames(&frames_, cb_.callback()));
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, AsyncClose) {
CreateRead(MockRead(ASYNC, "", 0));
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_CONNECTION_CLOSED));
}
// The result should be the same if the socket returns
// ERR_CONNECTION_CLOSED. This is not expected to happen on an established
// connection; a Read of size 0 is the expected behaviour. The key point of this
// test is to confirm that ReadFrames() behaviour is identical in both cases.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, SyncCloseWithErr) {
CreateRead(MockRead(SYNCHRONOUS, ERR_CONNECTION_CLOSED));
EXPECT_EQ(ERR_CONNECTION_CLOSED,
stream_->ReadFrames(&frames_, cb_.callback()));
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, AsyncCloseWithErr) {
CreateRead(MockRead(ASYNC, ERR_CONNECTION_CLOSED));
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_CONNECTION_CLOSED));
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, SyncErrorsPassedThrough) {
// ERR_INSUFFICIENT_RESOURCES here represents an arbitrary error that
// WebSocketBasicStream gives no special handling to.
CreateRead(MockRead(SYNCHRONOUS, ERR_INSUFFICIENT_RESOURCES));
EXPECT_EQ(ERR_INSUFFICIENT_RESOURCES,
stream_->ReadFrames(&frames_, cb_.callback()));
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, AsyncErrorsPassedThrough) {
CreateRead(MockRead(ASYNC, ERR_INSUFFICIENT_RESOURCES));
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_INSUFFICIENT_RESOURCES));
}
// If we get a frame followed by a close, we should receive them separately.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, CloseAfterFrame) {
// The chunk size equals the data size, so the second chunk is 0 size, closing
// the connection.
CreateChunkedRead(SYNCHRONOUS,
kSampleFrame,
kSampleFrameSize,
kSampleFrameSize,
2,
LAST_FRAME_NOT_BIG);
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
EXPECT_EQ(1U, frames_.size());
frames_.clear();
EXPECT_EQ(ERR_CONNECTION_CLOSED,
stream_->ReadFrames(&frames_, cb_.callback()));
}
// Synchronous close after an async frame header is handled by a different code
// path.
TEST_F(WebSocketBasicStreamSocketTest, AsyncCloseAfterIncompleteHeader) {
MockRead reads[] = {MockRead(ASYNC, kSampleFrame, 1U),
MockRead(SYNCHRONOUS, "", 0)};
CreateStream(reads, base::span<MockWrite>());
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_CONNECTION_CLOSED));
}
// When Stream::Read returns ERR_CONNECTION_CLOSED we get the same result via a
// slightly different code path.
TEST_F(WebSocketBasicStreamSocketTest, AsyncErrCloseAfterIncompleteHeader) {
MockRead reads[] = {MockRead(ASYNC, kSampleFrame, 1U),
MockRead(SYNCHRONOUS, ERR_CONNECTION_CLOSED)};
CreateStream(reads, base::span<MockWrite>());
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_CONNECTION_CLOSED));
}
// An empty first frame is not ignored.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, EmptyFirstFrame) {
CreateRead(MockRead(SYNCHRONOUS, kEmptyFirstFrame, kEmptyFirstFrameSize));
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(NULL, frames_[0]->data.get());
EXPECT_EQ(0U, frames_[0]->header.payload_length);
}
// An empty frame in the middle of a message is ignored.
TEST_F(WebSocketBasicStreamSocketTest, EmptyMiddleFrame) {
MockRead reads[] = {
MockRead(SYNCHRONOUS, kEmptyFirstFrame, kEmptyFirstFrameSize),
MockRead(SYNCHRONOUS, kEmptyMiddleFrame, kEmptyMiddleFrameSize),
MockRead(SYNCHRONOUS, ERR_IO_PENDING)};
CreateStream(reads, base::span<MockWrite>());
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
EXPECT_EQ(1U, frames_.size());
frames_.clear();
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
}
// An empty frame in the middle of a message that arrives separately is still
// ignored.
TEST_F(WebSocketBasicStreamSocketTest, EmptyMiddleFrameAsync) {
MockRead reads[] = {
MockRead(SYNCHRONOUS, kEmptyFirstFrame, kEmptyFirstFrameSize),
MockRead(ASYNC, kEmptyMiddleFrame, kEmptyMiddleFrameSize),
// We include a pong message to verify the middle frame was actually
// processed.
MockRead(ASYNC, kValidPong, kValidPongSize)};
CreateStream(reads, base::span<MockWrite>());
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
EXPECT_EQ(1U, frames_.size());
frames_.clear();
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodePong, frames_[0]->header.opcode);
}
// An empty final frame is not ignored.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, EmptyFinalFrame) {
CreateRead(
MockRead(SYNCHRONOUS, kEmptyFinalTextFrame, kEmptyFinalTextFrameSize));
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(NULL, frames_[0]->data.get());
EXPECT_EQ(0U, frames_[0]->header.payload_length);
}
// An empty middle frame is ignored with a final frame present.
TEST_F(WebSocketBasicStreamSocketTest, ThreeFrameEmptyMessage) {
MockRead reads[] = {
MockRead(SYNCHRONOUS, kEmptyFirstFrame, kEmptyFirstFrameSize),
MockRead(SYNCHRONOUS, kEmptyMiddleFrame, kEmptyMiddleFrameSize),
MockRead(SYNCHRONOUS,
kEmptyFinalContinuationFrame,
kEmptyFinalContinuationFrameSize)};
CreateStream(reads, base::span<MockWrite>());
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeText, frames_[0]->header.opcode);
frames_.clear();
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_TRUE(frames_[0]->header.final);
}
// If there was a frame read at the same time as the response headers (and the
// handshake succeeded), then we should parse it.
TEST_F(WebSocketBasicStreamSocketTest, HttpReadBufferIsUsed) {
SetHttpReadBuffer(kSampleFrame, kSampleFrameSize);
CreateStream(base::span<MockRead>(), base::span<MockWrite>());
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
ASSERT_TRUE(frames_[0]->data.get());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
}
// Check that a frame whose header partially arrived at the end of the response
// headers works correctly.
TEST_F(WebSocketBasicStreamSocketSingleReadTest,
PartialFrameHeaderInHttpResponse) {
SetHttpReadBuffer(kSampleFrame, 1);
CreateRead(MockRead(ASYNC, kSampleFrame + 1, kSampleFrameSize - 1));
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
ASSERT_TRUE(frames_[0]->data.get());
EXPECT_EQ(UINT64_C(6), frames_[0]->header.payload_length);
EXPECT_EQ(WebSocketFrameHeader::kOpCodeText, frames_[0]->header.opcode);
}
// Check that a control frame which partially arrives at the end of the response
// headers works correctly.
TEST_F(WebSocketBasicStreamSocketSingleReadTest,
PartialControlFrameInHttpResponse) {
const size_t kPartialFrameBytes = 3;
SetHttpReadBuffer(kCloseFrame, kPartialFrameBytes);
CreateRead(MockRead(ASYNC,
kCloseFrame + kPartialFrameBytes,
kCloseFrameSize - kPartialFrameBytes));
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeClose, frames_[0]->header.opcode);
EXPECT_EQ(kCloseFrameSize - 2, frames_[0]->header.payload_length);
EXPECT_EQ(0, SbMemoryCompare(frames_[0]->data->data(), kCloseFrame + 2,
kCloseFrameSize - 2));
}
// Check that a control frame which partially arrives at the end of the response
// headers works correctly. Synchronous version (unlikely in practice).
TEST_F(WebSocketBasicStreamSocketSingleReadTest,
PartialControlFrameInHttpResponseSync) {
const size_t kPartialFrameBytes = 3;
SetHttpReadBuffer(kCloseFrame, kPartialFrameBytes);
CreateRead(MockRead(SYNCHRONOUS,
kCloseFrame + kPartialFrameBytes,
kCloseFrameSize - kPartialFrameBytes));
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeClose, frames_[0]->header.opcode);
}
// Check that an invalid frame results in an error.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, SyncInvalidFrame) {
CreateRead(MockRead(SYNCHRONOUS, kInvalidFrame, kInvalidFrameSize));
EXPECT_EQ(ERR_WS_PROTOCOL_ERROR,
stream_->ReadFrames(&frames_, cb_.callback()));
}
TEST_F(WebSocketBasicStreamSocketSingleReadTest, AsyncInvalidFrame) {
CreateRead(MockRead(ASYNC, kInvalidFrame, kInvalidFrameSize));
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_WS_PROTOCOL_ERROR));
}
// A control frame without a FIN flag is invalid and should not be passed
// through to higher layers. RFC6455 5.5 "All control frames ... MUST NOT be
// fragmented."
TEST_F(WebSocketBasicStreamSocketSingleReadTest, ControlFrameWithoutFin) {
CreateRead(
MockRead(SYNCHRONOUS, kPingFrameWithoutFin, kPingFrameWithoutFinSize));
EXPECT_EQ(ERR_WS_PROTOCOL_ERROR,
stream_->ReadFrames(&frames_, cb_.callback()));
EXPECT_TRUE(frames_.empty());
}
// A control frame over 125 characters is invalid. RFC6455 5.5 "All control
// frames MUST have a payload length of 125 bytes or less". Since we use a
// 125-byte buffer to assemble fragmented control frames, we need to detect this
// error before attempting to assemble the fragments.
TEST_F(WebSocketBasicStreamSocketSingleReadTest, OverlongControlFrame) {
CreateRead(MockRead(SYNCHRONOUS, k126BytePong, k126BytePongSize));
EXPECT_EQ(ERR_WS_PROTOCOL_ERROR,
stream_->ReadFrames(&frames_, cb_.callback()));
EXPECT_TRUE(frames_.empty());
}
// A control frame over 125 characters should still be rejected if it is split
// into multiple chunks.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, SplitOverlongControlFrame) {
const size_t kFirstChunkSize = 16;
expect_all_io_to_complete_ = false;
CreateChunkedRead(SYNCHRONOUS,
k126BytePong,
k126BytePongSize,
kFirstChunkSize,
2,
LAST_FRAME_BIG);
EXPECT_EQ(ERR_WS_PROTOCOL_ERROR,
stream_->ReadFrames(&frames_, cb_.callback()));
EXPECT_TRUE(frames_.empty());
}
TEST_F(WebSocketBasicStreamSocketChunkedReadTest,
AsyncSplitOverlongControlFrame) {
const size_t kFirstChunkSize = 16;
expect_all_io_to_complete_ = false;
CreateChunkedRead(ASYNC,
k126BytePong,
k126BytePongSize,
kFirstChunkSize,
2,
LAST_FRAME_BIG);
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsError(ERR_WS_PROTOCOL_ERROR));
// The caller should not call ReadFrames() again after receiving an error
// other than ERR_IO_PENDING.
EXPECT_TRUE(frames_.empty());
}
// In the synchronous case, ReadFrames assembles the whole control frame before
// returning.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, SyncControlFrameAssembly) {
const size_t kChunkSize = 3;
CreateChunkedRead(
SYNCHRONOUS, kCloseFrame, kCloseFrameSize, kChunkSize, 3, LAST_FRAME_BIG);
EXPECT_THAT(stream_->ReadFrames(&frames_, cb_.callback()), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeClose, frames_[0]->header.opcode);
}
// In the asynchronous case, the callback is not called until the control frame
// has been completely assembled.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, AsyncControlFrameAssembly) {
const size_t kChunkSize = 3;
CreateChunkedRead(
ASYNC, kCloseFrame, kCloseFrameSize, kChunkSize, 3, LAST_FRAME_BIG);
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_EQ(WebSocketFrameHeader::kOpCodeClose, frames_[0]->header.opcode);
}
// A frame with a 1MB payload that has to be read in chunks.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, OneMegFrame) {
// This should be equal to the definition of kReadBufferSize in
// websocket_basic_stream.cc.
const int kReadBufferSize = 32 * 1024;
const uint64_t kPayloadSize = 1 << 20;
const size_t kWireSize = kPayloadSize + kLargeFrameHeaderSize;
const size_t kExpectedFrameCount =
(kWireSize + kReadBufferSize - 1) / kReadBufferSize;
std::unique_ptr<char[]> big_frame(new char[kWireSize]);
SbMemoryCopy(big_frame.get(), "\x81\x7F", 2);
base::WriteBigEndian(big_frame.get() + 2, kPayloadSize);
SbMemorySet(big_frame.get() + kLargeFrameHeaderSize, 'A', kPayloadSize);
CreateChunkedRead(ASYNC,
big_frame.get(),
kWireSize,
kReadBufferSize,
kExpectedFrameCount,
LAST_FRAME_BIG);
for (size_t frame = 0; frame < kExpectedFrameCount; ++frame) {
frames_.clear();
ASSERT_THAT(stream_->ReadFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
size_t expected_payload_size = kReadBufferSize;
if (frame == 0) {
expected_payload_size = kReadBufferSize - kLargeFrameHeaderSize;
} else if (frame == kExpectedFrameCount - 1) {
expected_payload_size = kLargeFrameHeaderSize;
}
EXPECT_EQ(expected_payload_size, frames_[0]->header.payload_length);
}
}
// A frame with reserved flag(s) set that arrives in chunks should only have the
// reserved flag(s) set on the first chunk when split.
TEST_F(WebSocketBasicStreamSocketChunkedReadTest, ReservedFlagCleared) {
static const char kReservedFlagFrame[] = "\x41\x05Hello";
const size_t kReservedFlagFrameSize = arraysize(kReservedFlagFrame) - 1;
const size_t kChunkSize = 5;
CreateChunkedRead(ASYNC,
kReservedFlagFrame,
kReservedFlagFrameSize,
kChunkSize,
2,
LAST_FRAME_BIG);
TestCompletionCallback cb[2];
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[0].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[0].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_TRUE(frames_[0]->header.reserved1);
frames_.clear();
ASSERT_THAT(stream_->ReadFrames(&frames_, cb[1].callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb[1].WaitForResult(), IsOk());
ASSERT_EQ(1U, frames_.size());
EXPECT_FALSE(frames_[0]->header.reserved1);
}
// Check that writing a frame all at once works.
TEST_F(WebSocketBasicStreamSocketWriteTest, WriteAtOnce) {
MockWrite writes[] = {MockWrite(SYNCHRONOUS, kWriteFrame, kWriteFrameSize)};
CreateStream(base::span<MockRead>(), writes);
EXPECT_THAT(stream_->WriteFrames(&frames_, cb_.callback()), IsOk());
}
// Check that completely async writing works.
TEST_F(WebSocketBasicStreamSocketWriteTest, AsyncWriteAtOnce) {
MockWrite writes[] = {MockWrite(ASYNC, kWriteFrame, kWriteFrameSize)};
CreateStream(base::span<MockRead>(), writes);
ASSERT_THAT(stream_->WriteFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
}
// Check that writing a frame to an extremely full kernel buffer (so that it
// ends up being sent in bits) works. The WriteFrames() callback should not be
// called until all parts have been written.
TEST_F(WebSocketBasicStreamSocketWriteTest, WriteInBits) {
MockWrite writes[] = {MockWrite(SYNCHRONOUS, kWriteFrame, 4),
MockWrite(ASYNC, kWriteFrame + 4, 4),
MockWrite(ASYNC, kWriteFrame + 8, kWriteFrameSize - 8)};
CreateStream(base::span<MockRead>(), writes);
ASSERT_THAT(stream_->WriteFrames(&frames_, cb_.callback()),
IsError(ERR_IO_PENDING));
EXPECT_THAT(cb_.WaitForResult(), IsOk());
}
// Check that writing a Pong frame with a NULL body works.
TEST_F(WebSocketBasicStreamSocketWriteTest, WriteNullPong) {
MockWrite writes[] = {
MockWrite(SYNCHRONOUS, kMaskedEmptyPong, kMaskedEmptyPongSize)};
CreateStream(base::span<MockRead>(), writes);
auto frame =
std::make_unique<WebSocketFrame>(WebSocketFrameHeader::kOpCodePong);
WebSocketFrameHeader& header = frame->header;
header.final = true;
header.masked = true;
header.payload_length = 0;
std::vector<std::unique_ptr<WebSocketFrame>> frames;
frames.push_back(std::move(frame));
EXPECT_THAT(stream_->WriteFrames(&frames, cb_.callback()), IsOk());
}
// Check that writing with a non-NULL mask works correctly.
TEST_F(WebSocketBasicStreamSocketTest, WriteNonNulMask) {
std::string masked_frame = std::string("\x81\x88");
masked_frame += std::string(kNonNulMaskingKey.key, 4);
masked_frame += "jiggered";
MockWrite writes[] = {
MockWrite(SYNCHRONOUS, masked_frame.data(), masked_frame.size())};
generator_ = &GenerateNonNulMaskingKey;
CreateStream(base::span<MockRead>(), writes);
auto frame =
std::make_unique<WebSocketFrame>(WebSocketFrameHeader::kOpCodeText);
const std::string unmasked_payload = "graphics";
const size_t payload_size = unmasked_payload.size();
frame->data = base::MakeRefCounted<IOBuffer>(payload_size);
SbMemoryCopy(frame->data->data(), unmasked_payload.data(), payload_size);
WebSocketFrameHeader& header = frame->header;
header.final = true;
header.masked = true;
header.payload_length = payload_size;
frames_.push_back(std::move(frame));
EXPECT_THAT(stream_->WriteFrames(&frames_, cb_.callback()), IsOk());
}
TEST_F(WebSocketBasicStreamSocketTest, GetExtensionsWorks) {
extensions_ = "inflate-uuencode";
CreateStream(base::span<MockRead>(), base::span<MockWrite>());
EXPECT_EQ("inflate-uuencode", stream_->GetExtensions());
}
TEST_F(WebSocketBasicStreamSocketTest, GetSubProtocolWorks) {
sub_protocol_ = "cyberchat";
CreateStream(base::span<MockRead>(), base::span<MockWrite>());
EXPECT_EQ("cyberchat", stream_->GetSubProtocol());
}
} // namespace
} // namespace net