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// Copyright 2014 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_headers_block_parser.h"
#include <string>
#include "base/memory/scoped_ptr.h"
#include "base/strings/string_number_conversions.h"
#include "base/sys_byteorder.h"
#include "net/test/gtest_util.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace net {
using base::IntToString;
using base::StringPiece;
using std::string;
// A mock the handler class to check that we parse out the correct headers
// and call the callback methods when we should.
class MockSpdyHeadersHandler : public SpdyHeadersHandlerInterface {
public:
MOCK_METHOD1(OnHeaderBlock, void(uint32_t num_of_headers));
MOCK_METHOD1(OnHeaderBlockEnd, void(size_t bytes));
MOCK_METHOD2(OnHeader, void(StringPiece key, StringPiece value));
};
class SpdyHeadersBlockParserTest :
public ::testing::TestWithParam<SpdyMajorVersion> {
public:
virtual ~SpdyHeadersBlockParserTest() {}
protected:
void SetUp() override {
// Create a parser using the mock handler.
spdy_version_ = GetParam();
parser_.reset(new SpdyHeadersBlockParser(spdy_version_, &handler_));
length_field_size_ =
SpdyHeadersBlockParser::LengthFieldSizeForVersion(spdy_version_);
}
// Create a header block with a specified number of headers.
string CreateHeaders(uint32_t num_headers, bool insert_nulls) {
string headers;
// First, write the number of headers in the header block.
headers += EncodeLength(num_headers);
// Second, write the key-value pairs.
for (uint32_t i = 0; i < num_headers; i++) {
// Build the key.
string key;
if (insert_nulls) {
key = string(kBaseKey) + string("\0", 1) + IntToString(i);
} else {
key = string(kBaseKey) + IntToString(i);
}
// Encode the key as SPDY header.
headers += EncodeLength(key.length());
headers += key;
// Build the value.
string value;
if (insert_nulls) {
value = string(kBaseValue) + string("\0", 1) + IntToString(i);
} else {
value = string(kBaseValue) + IntToString(i);
}
// Encode the value as SPDY header.
headers += EncodeLength(value.length());
headers += value;
}
return headers;
}
string EncodeLength(uint32_t len) {
char buffer[4];
if (length_field_size_ == sizeof(uint32_t)) {
uint32_t net_order_len = htonl(len);
memcpy(buffer, &net_order_len, length_field_size_);
} else if (length_field_size_ == sizeof(uint16_t)) {
uint16_t net_order_len = htons(len);
memcpy(buffer, &net_order_len, length_field_size_);
} else {
CHECK(false) << "Invalid length field size";
}
return string(buffer, length_field_size_);
}
size_t length_field_size_;
SpdyMajorVersion spdy_version_;
MockSpdyHeadersHandler handler_;
scoped_ptr<SpdyHeadersBlockParser> parser_;
static const char *const kBaseKey;
static const char *const kBaseValue;
// Number of headers and header blocks used in the tests.
static const int kNumHeadersInBlock = 10;
static const int kNumHeaderBlocks = 10;
};
const char *const SpdyHeadersBlockParserTest::kBaseKey = "test_key";
const char *const SpdyHeadersBlockParserTest::kBaseValue = "test_value";
// All tests are run with 3 different SPDY versions: SPDY/2, SPDY/3, SPDY/4.
INSTANTIATE_TEST_CASE_P(SpdyHeadersBlockParserTests,
SpdyHeadersBlockParserTest,
::testing::Values(SPDY2, SPDY3, SPDY4));
TEST_P(SpdyHeadersBlockParserTest, BasicTest) {
// Sanity test, verify that we parse out correctly a block with
// a single key-value pair and that we notify when we start and finish
// handling a headers block.
string headers(CreateHeaders(1, false));
EXPECT_CALL(handler_, OnHeaderBlock(1)).Times(1);
std::string expect_key = kBaseKey + IntToString(0);
std::string expect_value = kBaseValue + IntToString(0);
EXPECT_CALL(handler_, OnHeader(StringPiece(expect_key),
StringPiece(expect_value))).Times(1);
EXPECT_CALL(handler_, OnHeaderBlockEnd(headers.length())).Times(1);
EXPECT_TRUE(parser_->
HandleControlFrameHeadersData(1, headers.c_str(), headers.length()));
EXPECT_EQ(SpdyHeadersBlockParser::NO_PARSER_ERROR, parser_->get_error());
}
TEST_P(SpdyHeadersBlockParserTest, NullsSupportedTest) {
// Sanity test, verify that we parse out correctly a block with
// a single key-value pair when the key and value contain null charecters.
string headers(CreateHeaders(1, true));
EXPECT_CALL(handler_, OnHeaderBlock(1)).Times(1);
std::string expect_key = kBaseKey + string("\0", 1) + IntToString(0);
std::string expect_value = kBaseValue + string("\0", 1) + IntToString(0);
EXPECT_CALL(handler_, OnHeader(StringPiece(expect_key),
StringPiece(expect_value))).Times(1);
EXPECT_CALL(handler_, OnHeaderBlockEnd(headers.length())).Times(1);
EXPECT_TRUE(parser_->
HandleControlFrameHeadersData(1, headers.c_str(), headers.length()));
EXPECT_EQ(SpdyHeadersBlockParser::NO_PARSER_ERROR, parser_->get_error());
}
TEST_P(SpdyHeadersBlockParserTest, MultipleBlocksAndHeadersWithPartialData) {
testing::InSequence s;
// CreateHeaders is deterministic; we can call it once for the whole test.
string headers(CreateHeaders(kNumHeadersInBlock, false));
// The mock doesn't retain storage of arguments, so keep them in scope.
std::vector<string> retained_arguments;
for (int i = 0; i < kNumHeadersInBlock; i++) {
retained_arguments.push_back(kBaseKey + IntToString(i));
retained_arguments.push_back(kBaseValue + IntToString(i));
}
// For each block we expect to parse out the headers in order.
for (int i = 0; i < kNumHeaderBlocks; i++) {
EXPECT_CALL(handler_, OnHeaderBlock(kNumHeadersInBlock)).Times(1);
for (int j = 0; j < kNumHeadersInBlock; j++) {
EXPECT_CALL(handler_, OnHeader(
StringPiece(retained_arguments[2 * j]),
StringPiece(retained_arguments[2 * j + 1]))).Times(1);
}
EXPECT_CALL(handler_, OnHeaderBlockEnd(headers.length())).Times(1);
}
// Parse the header blocks, feeding the parser one byte at a time.
for (int i = 1; i <= kNumHeaderBlocks; i++) {
for (string::iterator it = headers.begin(); it != headers.end(); ++it) {
if ((it + 1) == headers.end()) {
// Last byte completes the block.
EXPECT_TRUE(parser_->HandleControlFrameHeadersData(i, &(*it), 1));
EXPECT_EQ(SpdyHeadersBlockParser::NO_PARSER_ERROR,
parser_->get_error());
} else {
EXPECT_FALSE(parser_->HandleControlFrameHeadersData(i, &(*it), 1));
EXPECT_EQ(SpdyHeadersBlockParser::NEED_MORE_DATA, parser_->get_error());
}
}
}
}
TEST_P(SpdyHeadersBlockParserTest, HandlesEmptyCallsTest) {
EXPECT_CALL(handler_, OnHeaderBlock(1)).Times(1);
string headers(CreateHeaders(1, false));
string expect_key = kBaseKey + IntToString(0);
string expect_value = kBaseValue + IntToString(0);
EXPECT_CALL(handler_, OnHeader(StringPiece(expect_key),
StringPiece(expect_value))).Times(1);
EXPECT_CALL(handler_, OnHeaderBlockEnd(headers.length())).Times(1);
// Send a header in pieces with intermediate empty calls.
for (string::iterator it = headers.begin(); it != headers.end(); ++it) {
if ((it + 1) == headers.end()) {
// Last byte completes the block.
EXPECT_TRUE(parser_->HandleControlFrameHeadersData(1, &(*it), 1));
EXPECT_EQ(SpdyHeadersBlockParser::NO_PARSER_ERROR, parser_->get_error());
} else {
EXPECT_FALSE(parser_->HandleControlFrameHeadersData(1, &(*it), 1));
EXPECT_EQ(SpdyHeadersBlockParser::NEED_MORE_DATA, parser_->get_error());
EXPECT_FALSE(parser_->HandleControlFrameHeadersData(1, NULL, 0));
}
}
}
TEST_P(SpdyHeadersBlockParserTest, LargeBlocksDiscardedTest) {
// Header block with too many headers.
{
string headers = EncodeLength(
parser_->MaxNumberOfHeadersForVersion(spdy_version_) + 1);
EXPECT_FALSE(parser_->
HandleControlFrameHeadersData(1, headers.c_str(), headers.length()));
EXPECT_EQ(SpdyHeadersBlockParser::HEADER_BLOCK_TOO_LARGE,
parser_->get_error());
}
parser_.reset(new SpdyHeadersBlockParser(spdy_version_, &handler_));
// Header block with one header, which has a too-long key.
{
EXPECT_CALL(handler_, OnHeaderBlock(1)).Times(1);
string headers = EncodeLength(1) + EncodeLength(
SpdyHeadersBlockParser::kMaximumFieldLength + 1);
EXPECT_FALSE(parser_->
HandleControlFrameHeadersData(1, headers.c_str(), headers.length()));
EXPECT_EQ(SpdyHeadersBlockParser::HEADER_FIELD_TOO_LARGE,
parser_->get_error());
}
}
TEST_P(SpdyHeadersBlockParserTest, ExtraDataTest) {
string headers = CreateHeaders(1, false) + "foobar";
EXPECT_CALL(handler_, OnHeaderBlock(1)).Times(1);
EXPECT_CALL(handler_, OnHeaderBlockEnd(headers.length())).Times(1);
string expect_key = kBaseKey + IntToString(0);
string expect_value = kBaseValue + IntToString(0);
EXPECT_CALL(handler_, OnHeader(StringPiece(expect_key),
StringPiece(expect_value))).Times(1);
EXPECT_FALSE(parser_->HandleControlFrameHeadersData(1, headers.c_str(),
headers.length()));
EXPECT_EQ(SpdyHeadersBlockParser::TOO_MUCH_DATA, parser_->get_error());
}
TEST_P(SpdyHeadersBlockParserTest, WrongStreamIdTest) {
string headers(CreateHeaders(kNumHeadersInBlock, false));
EXPECT_FALSE(parser_->HandleControlFrameHeadersData(1, headers.data(), 1));
EXPECT_EQ(SpdyHeadersBlockParser::NEED_MORE_DATA, parser_->get_error());
bool result;
EXPECT_DFATAL(
result = parser_->HandleControlFrameHeadersData(2, headers.data() + 1, 1),
"Unexpected stream id: 2 \\(expected 1\\)");
EXPECT_FALSE(result);
EXPECT_EQ(SpdyHeadersBlockParser::UNEXPECTED_STREAM_ID, parser_->get_error());
}
TEST_P(SpdyHeadersBlockParserTest, InvalidStreamIdTest) {
string headers(CreateHeaders(kNumHeadersInBlock, false));
bool result;
EXPECT_DFATAL(
result = parser_->HandleControlFrameHeadersData(0, headers.data(), 1),
"Expected nonzero stream id, saw: 0");
EXPECT_FALSE(result);
EXPECT_EQ(SpdyHeadersBlockParser::UNEXPECTED_STREAM_ID, parser_->get_error());
}
} // namespace net
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