Google Git
Sign in
cobalt / cobalt / 2a8c847d785c1602f60915c8e0112e0aec6a15a5 / . / src / net / spdy / spdy_protocol_test.cc
blob: fba50d71e75a56b0bd54c8bbfc713c242efe5261 [file] [log] [blame]
// Copyright (c) 2012 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 "net/spdy/spdy_protocol.h"
#include "base/memory/scoped_ptr.h"
#include "net/spdy/spdy_bitmasks.h"
#include "net/spdy/spdy_framer.h"
#include "testing/platform_test.h"
namespace {
enum SpdyProtocolTestTypes {
SPDY2 = 2,
SPDY3 = 3,
};
} // namespace
namespace net {
class SpdyProtocolTest
: public ::testing::TestWithParam<SpdyProtocolTestTypes> {
protected:
virtual void SetUp() {
spdy_version_ = GetParam();
}
bool IsSpdy2() { return spdy_version_ == SPDY2; }
// Version of SPDY protocol to be used.
int spdy_version_;
};
// All tests are run with two different SPDY versions: SPDY/2 and SPDY/3.
INSTANTIATE_TEST_CASE_P(SpdyProtocolTests,
SpdyProtocolTest,
::testing::Values(SPDY2, SPDY3));
// Test our protocol constants
TEST_P(SpdyProtocolTest, ProtocolConstants) {
#if defined(__LB_SHELL__) || defined(COBALT)
// Compiler quirk: <function> declared using a type with no linkage,
// must be defined in this translation unit
unsigned int spdy_frame_header_size = SpdyFrame::kHeaderSize;
EXPECT_EQ(8u, spdy_frame_header_size);
#else
EXPECT_EQ(8u, SpdyFrame::kHeaderSize);
#endif
EXPECT_EQ(8u, SpdyDataFrame::size());
#if defined(__LB_SHELL__) || defined(COBALT)
// Compiler quirk: <function> declared using a type with no linkage,
// must be defined in this translation unit
unsigned int spdy_control_frame_header_size = SpdyFrame::kHeaderSize;
EXPECT_EQ(8u, spdy_control_frame_header_size);
#else
EXPECT_EQ(8u, SpdyControlFrame::kHeaderSize);
#endif
EXPECT_EQ(18u, SpdySynStreamControlFrame::size());
EXPECT_EQ(12u, SpdySynReplyControlFrame::size());
EXPECT_EQ(16u, SpdyRstStreamControlFrame::size());
EXPECT_EQ(12u, SpdySettingsControlFrame::size());
EXPECT_EQ(12u, SpdyPingControlFrame::size());
EXPECT_EQ(16u, SpdyGoAwayControlFrame::size());
EXPECT_EQ(12u, SpdyHeadersControlFrame::size());
EXPECT_EQ(16u, SpdyWindowUpdateControlFrame::size());
EXPECT_EQ(4u, sizeof(FlagsAndLength));
EXPECT_EQ(1, SYN_STREAM);
EXPECT_EQ(2, SYN_REPLY);
EXPECT_EQ(3, RST_STREAM);
EXPECT_EQ(4, SETTINGS);
EXPECT_EQ(5, NOOP);
EXPECT_EQ(6, PING);
EXPECT_EQ(7, GOAWAY);
EXPECT_EQ(8, HEADERS);
EXPECT_EQ(9, WINDOW_UPDATE);
}
// Test some of the protocol helper functions
TEST_P(SpdyProtocolTest, FrameStructs) {
SpdyFrame frame(SpdyFrame::kHeaderSize);
frame.set_length(12345);
frame.set_flags(10);
EXPECT_EQ(12345u, frame.length());
EXPECT_EQ(10u, frame.flags());
EXPECT_FALSE(frame.is_control_frame());
frame.set_length(0);
frame.set_flags(10);
EXPECT_EQ(0u, frame.length());
EXPECT_EQ(10u, frame.flags());
EXPECT_FALSE(frame.is_control_frame());
}
TEST_P(SpdyProtocolTest, DataFrameStructs) {
SpdyDataFrame data_frame;
data_frame.set_stream_id(12345);
EXPECT_EQ(12345u, data_frame.stream_id());
}
TEST_P(SpdyProtocolTest, ControlFrameStructs) {
SpdyFramer framer(spdy_version_);
SpdyHeaderBlock headers;
const uint8 credential_slot = IsSpdy2() ? 0 : 5;
scoped_ptr<SpdySynStreamControlFrame> syn_frame(framer.CreateSynStream(
123, 456, 2, credential_slot, CONTROL_FLAG_FIN, false, &headers));
EXPECT_EQ(framer.protocol_version(), syn_frame->version());
EXPECT_TRUE(syn_frame->is_control_frame());
EXPECT_EQ(SYN_STREAM, syn_frame->type());
EXPECT_EQ(123u, syn_frame->stream_id());
EXPECT_EQ(456u, syn_frame->associated_stream_id());
EXPECT_EQ(2u, syn_frame->priority());
EXPECT_EQ(credential_slot, syn_frame->credential_slot());
EXPECT_EQ(IsSpdy2() ? 2 : 4, syn_frame->header_block_len());
EXPECT_EQ(1u, syn_frame->flags());
syn_frame->set_associated_stream_id(999u);
EXPECT_EQ(123u, syn_frame->stream_id());
EXPECT_EQ(999u, syn_frame->associated_stream_id());
scoped_ptr<SpdySynReplyControlFrame> syn_reply(
framer.CreateSynReply(123, CONTROL_FLAG_NONE, false, &headers));
EXPECT_EQ(framer.protocol_version(), syn_reply->version());
EXPECT_TRUE(syn_reply->is_control_frame());
EXPECT_EQ(SYN_REPLY, syn_reply->type());
EXPECT_EQ(123u, syn_reply->stream_id());
EXPECT_EQ(IsSpdy2() ? 2 : 4, syn_reply->header_block_len());
EXPECT_EQ(0, syn_reply->flags());
scoped_ptr<SpdyRstStreamControlFrame> rst_frame(
framer.CreateRstStream(123, PROTOCOL_ERROR));
EXPECT_EQ(framer.protocol_version(), rst_frame->version());
EXPECT_TRUE(rst_frame->is_control_frame());
EXPECT_EQ(RST_STREAM, rst_frame->type());
EXPECT_EQ(123u, rst_frame->stream_id());
EXPECT_EQ(PROTOCOL_ERROR, rst_frame->status());
rst_frame->set_status(INVALID_STREAM);
EXPECT_EQ(INVALID_STREAM, rst_frame->status());
EXPECT_EQ(0, rst_frame->flags());
const uint32 kUniqueId = 1234567u;
const uint32 kUniqueId2 = 31415926u;
scoped_ptr<SpdyPingControlFrame> ping_frame(
framer.CreatePingFrame(kUniqueId));
EXPECT_EQ(framer.protocol_version(), ping_frame->version());
EXPECT_TRUE(ping_frame->is_control_frame());
EXPECT_EQ(PING, ping_frame->type());
EXPECT_EQ(kUniqueId, ping_frame->unique_id());
ping_frame->set_unique_id(kUniqueId2);
EXPECT_EQ(kUniqueId2, ping_frame->unique_id());
scoped_ptr<SpdyGoAwayControlFrame> goaway_frame(
framer.CreateGoAway(123, GOAWAY_INTERNAL_ERROR));
EXPECT_EQ(framer.protocol_version(), goaway_frame->version());
EXPECT_TRUE(goaway_frame->is_control_frame());
EXPECT_EQ(GOAWAY, goaway_frame->type());
EXPECT_EQ(123u, goaway_frame->last_accepted_stream_id());
if (!IsSpdy2()) {
EXPECT_EQ(GOAWAY_INTERNAL_ERROR, goaway_frame->status());
}
scoped_ptr<SpdyHeadersControlFrame> headers_frame(
framer.CreateHeaders(123, CONTROL_FLAG_NONE, false, &headers));
EXPECT_EQ(framer.protocol_version(), headers_frame->version());
EXPECT_TRUE(headers_frame->is_control_frame());
EXPECT_EQ(HEADERS, headers_frame->type());
EXPECT_EQ(123u, headers_frame->stream_id());
EXPECT_EQ(IsSpdy2() ? 2 : 4, headers_frame->header_block_len());
EXPECT_EQ(0, headers_frame->flags());
scoped_ptr<SpdyWindowUpdateControlFrame> window_update_frame(
framer.CreateWindowUpdate(123, 456));
EXPECT_EQ(framer.protocol_version(), window_update_frame->version());
EXPECT_TRUE(window_update_frame->is_control_frame());
EXPECT_EQ(WINDOW_UPDATE, window_update_frame->type());
EXPECT_EQ(123u, window_update_frame->stream_id());
EXPECT_EQ(456u, window_update_frame->delta_window_size());
}
TEST_P(SpdyProtocolTest, TestDataFrame) {
SpdyDataFrame frame;
// Set the stream ID to various values.
frame.set_stream_id(0);
EXPECT_EQ(0u, frame.stream_id());
EXPECT_FALSE(frame.is_control_frame());
frame.set_stream_id(~0 & kStreamIdMask);
EXPECT_EQ(~0 & kStreamIdMask, frame.stream_id());
EXPECT_FALSE(frame.is_control_frame());
// Set length to various values. Make sure that when you set_length(x),
// length() == x. Also make sure the flags are unaltered.
memset(frame.data(), '1', SpdyDataFrame::size());
int8 flags = frame.flags();
frame.set_length(0);
EXPECT_EQ(0u, frame.length());
EXPECT_EQ(flags, frame.flags());
frame.set_length(kLengthMask);
EXPECT_EQ(kLengthMask, frame.length());
EXPECT_EQ(flags, frame.flags());
frame.set_length(5u);
EXPECT_EQ(5u, frame.length());
EXPECT_EQ(flags, frame.flags());
// Set flags to various values. Make sure that when you set_flags(x),
// flags() == x. Also make sure the length is unaltered.
memset(frame.data(), '1', SpdyDataFrame::size());
uint32 length = frame.length();
frame.set_flags(0u);
EXPECT_EQ(0u, frame.flags());
EXPECT_EQ(length, frame.length());
int8 all_flags = ~0;
frame.set_flags(all_flags);
flags = frame.flags();
EXPECT_EQ(all_flags, flags);
EXPECT_EQ(length, frame.length());
frame.set_flags(5u);
EXPECT_EQ(5u, frame.flags());
EXPECT_EQ(length, frame.length());
}
// Test various types of SETTINGS frames.
TEST_P(SpdyProtocolTest, TestSpdySettingsFrame) {
SpdyFramer framer(spdy_version_);
// Create a settings frame with no settings.
SettingsMap settings;
scoped_ptr<SpdySettingsControlFrame> settings_frame(
framer.CreateSettings(settings));
EXPECT_EQ(framer.protocol_version(), settings_frame->version());
EXPECT_TRUE(settings_frame->is_control_frame());
EXPECT_EQ(SETTINGS, settings_frame->type());
EXPECT_EQ(0u, settings_frame->num_entries());
// We'll add several different ID/Flag combinations and then verify
// that they encode and decode properly.
SettingsFlagsAndId ids[] = {
SettingsFlagsAndId::FromWireFormat(spdy_version_, 0x00000000),
SettingsFlagsAndId::FromWireFormat(spdy_version_, 0xffffffff),
SettingsFlagsAndId::FromWireFormat(spdy_version_, 0xff000001),
SettingsFlagsAndId::FromWireFormat(spdy_version_, 0x01000002),
SettingsFlagsAndId(6, 9)
};
for (size_t index = 0; index < arraysize(ids); ++index) {
SettingsFlagsAndId flags_and_id = ids[index];
SpdySettingsIds id = static_cast<SpdySettingsIds>(flags_and_id.id());
SpdySettingsFlags flags =
static_cast<SpdySettingsFlags>(flags_and_id.flags());
settings[id] = SettingsFlagsAndValue(flags, index);
settings_frame.reset(framer.CreateSettings(settings));
EXPECT_EQ(framer.protocol_version(), settings_frame->version());
EXPECT_TRUE(settings_frame->is_control_frame());
EXPECT_EQ(SETTINGS, settings_frame->type());
EXPECT_EQ(index + 1, settings_frame->num_entries());
SettingsMap parsed_settings;
EXPECT_TRUE(framer.ParseSettings(settings_frame.get(), &parsed_settings));
EXPECT_EQ(settings.size(), parsed_settings.size());
for (SettingsMap::const_iterator it = parsed_settings.begin();
it != parsed_settings.end();
it++) {
SettingsMap::const_iterator it2 = settings.find(it->first);
EXPECT_EQ(it->first, it2->first);
SettingsFlagsAndValue parsed = it->second;
SettingsFlagsAndValue created = it2->second;
EXPECT_EQ(created.first, parsed.first);
EXPECT_EQ(created.second, parsed.second);
}
}
}
TEST_P(SpdyProtocolTest, HasHeaderBlock) {
SpdyControlFrame frame(SpdyControlFrame::kHeaderSize);
for (SpdyControlType type = SYN_STREAM;
type < NUM_CONTROL_FRAME_TYPES;
type = static_cast<SpdyControlType>(type + 1)) {
frame.set_type(type);
if (type == SYN_STREAM || type == SYN_REPLY || type == HEADERS) {
EXPECT_TRUE(frame.has_header_block());
} else {
EXPECT_FALSE(frame.has_header_block());
}
}
}
class SpdyProtocolDeathTest : public SpdyProtocolTest {};
// All tests are run with two different SPDY versions: SPDY/2 and SPDY/3.
INSTANTIATE_TEST_CASE_P(SpdyProtocolDeathTests,
SpdyProtocolDeathTest,
::testing::Values(SPDY2, SPDY3));
// Make sure that overflows both die in debug mode, and do not cause problems
// in opt mode. Note: The EXPECT_DEBUG_DEATH call does not work on Win32 yet,
// so we comment it out.
TEST_P(SpdyProtocolDeathTest, TestDataFrame) {
SpdyDataFrame frame;
frame.set_stream_id(0);
// TODO(mbelshe): implement EXPECT_DEBUG_DEATH on windows.
#if !defined(WIN32) && defined(GTEST_HAS_DEATH_TEST)
#if !defined(DCHECK_ALWAYS_ON)
EXPECT_DEBUG_DEATH(frame.set_stream_id(~0), "");
#else
EXPECT_DEATH(frame.set_stream_id(~0), "");
#endif
#endif
EXPECT_FALSE(frame.is_control_frame());
frame.set_flags(0);
#if !defined(WIN32) && defined(GTEST_HAS_DEATH_TEST)
#if !defined(DCHECK_ALWAYS_ON)
EXPECT_DEBUG_DEATH(frame.set_length(~0), "");
#else
EXPECT_DEATH(frame.set_length(~0), "");
#endif
#endif
EXPECT_EQ(0, frame.flags());
}
TEST_P(SpdyProtocolDeathTest, TestSpdyControlFrameStreamId) {
SpdyControlFrame frame_store(SpdySynStreamControlFrame::size());
memset(frame_store.data(), '1', SpdyControlFrame::kHeaderSize);
SpdySynStreamControlFrame* frame =
reinterpret_cast<SpdySynStreamControlFrame*>(&frame_store);
// Set the stream ID to various values.
frame->set_stream_id(0);
EXPECT_EQ(0u, frame->stream_id());
EXPECT_FALSE(frame->is_control_frame());
frame->set_stream_id(kStreamIdMask);
EXPECT_EQ(kStreamIdMask, frame->stream_id());
EXPECT_FALSE(frame->is_control_frame());
}
TEST_P(SpdyProtocolDeathTest, TestSpdyControlFrameVersion) {
const unsigned int kVersionMask = 0x7fff;
SpdyControlFrame frame(SpdySynStreamControlFrame::size());
memset(frame.data(), '1', SpdyControlFrame::kHeaderSize);
// Set the version to various values, and make sure it does not affect the
// type.
frame.set_type(SYN_STREAM);
frame.set_version(0);
EXPECT_EQ(0, frame.version());
EXPECT_TRUE(frame.is_control_frame());
EXPECT_EQ(SYN_STREAM, frame.type());
SpdySynStreamControlFrame* syn_stream =
reinterpret_cast<SpdySynStreamControlFrame*>(&frame);
syn_stream->set_stream_id(~0 & kVersionMask);
EXPECT_EQ(~0 & kVersionMask, syn_stream->stream_id());
EXPECT_TRUE(frame.is_control_frame());
EXPECT_EQ(SYN_STREAM, frame.type());
}
TEST_P(SpdyProtocolDeathTest, TestSpdyControlFrameType) {
SpdyControlFrame frame(SpdyControlFrame::kHeaderSize);
memset(frame.data(), 255, SpdyControlFrame::kHeaderSize);
// type() should be out of bounds.
EXPECT_FALSE(frame.AppearsToBeAValidControlFrame());
frame.set_version(spdy_version_);
uint16 version = frame.version();
for (int i = SYN_STREAM; i <= WINDOW_UPDATE; ++i) {
frame.set_type(static_cast<SpdyControlType>(i));
EXPECT_EQ(i, static_cast<int>(frame.type()));
if (!IsSpdy2() && i == NOOP) {
// NOOP frames aren't 'valid'.
EXPECT_FALSE(frame.AppearsToBeAValidControlFrame());
} else {
EXPECT_TRUE(frame.AppearsToBeAValidControlFrame());
}
// Make sure setting type does not alter the version block.
EXPECT_EQ(version, frame.version());
EXPECT_TRUE(frame.is_control_frame());
}
}
TEST_P(SpdyProtocolDeathTest, TestRstStreamStatusBounds) {
SpdyFramer framer(spdy_version_);
scoped_ptr<SpdyRstStreamControlFrame> rst_frame;
rst_frame.reset(framer.CreateRstStream(123, PROTOCOL_ERROR));
EXPECT_EQ(PROTOCOL_ERROR, rst_frame->status());
rst_frame->set_status(INVALID);
EXPECT_EQ(INVALID, rst_frame->status());
rst_frame->set_status(
static_cast<SpdyStatusCodes>(INVALID - 1));
EXPECT_EQ(INVALID, rst_frame->status());
rst_frame->set_status(NUM_STATUS_CODES);
EXPECT_EQ(INVALID, rst_frame->status());
}
} // namespace net