blob: c768755dbb7e8c7bb173118a5fd14b6f7fa1e205 [file] [log] [blame]
// Copyright 2017 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 "spdy/core/hpack/hpack_decoder_adapter.h"
// Tests of HpackDecoderAdapter.
#include <stdint.h>
#include <string>
#include <tuple>
#include <utility>
#include <vector>
#include "absl/base/macros.h"
#include "http2/hpack/decoder/hpack_decoder_state.h"
#include "http2/hpack/decoder/hpack_decoder_tables.h"
#include "http2/hpack/tools/hpack_block_builder.h"
#include "http2/test_tools/http2_random.h"
#include "common/platform/api/quiche_test.h"
#include "spdy/core/hpack/hpack_constants.h"
#include "spdy/core/hpack/hpack_encoder.h"
#include "spdy/core/hpack/hpack_output_stream.h"
#include "spdy/core/recording_headers_handler.h"
#include "spdy/core/spdy_test_utils.h"
#include "spdy/platform/api/spdy_logging.h"
#include "spdy/platform/api/spdy_string_utils.h"
using ::http2::HpackEntryType;
using ::http2::HpackString;
using ::http2::HpackStringPair;
using ::http2::test::HpackBlockBuilder;
using ::http2::test::HpackDecoderPeer;
using ::testing::ElementsAre;
using ::testing::Pair;
namespace http2 {
namespace test {
class HpackDecoderStatePeer {
public:
static HpackDecoderTables* GetDecoderTables(HpackDecoderState* state) {
return &state->decoder_tables_;
}
};
class HpackDecoderPeer {
public:
static HpackDecoderState* GetDecoderState(HpackDecoder* decoder) {
return &decoder->decoder_state_;
}
static HpackDecoderTables* GetDecoderTables(HpackDecoder* decoder) {
return HpackDecoderStatePeer::GetDecoderTables(GetDecoderState(decoder));
}
};
} // namespace test
} // namespace http2
namespace spdy {
namespace test {
class HpackDecoderAdapterPeer {
public:
explicit HpackDecoderAdapterPeer(HpackDecoderAdapter* decoder)
: decoder_(decoder) {}
void HandleHeaderRepresentation(absl::string_view name,
absl::string_view value) {
decoder_->listener_adapter_.OnHeader(HpackString(name), HpackString(value));
}
http2::HpackDecoderTables* GetDecoderTables() {
return HpackDecoderPeer::GetDecoderTables(&decoder_->hpack_decoder_);
}
const HpackStringPair* GetTableEntry(uint32_t index) {
return GetDecoderTables()->Lookup(index);
}
size_t current_header_table_size() {
return GetDecoderTables()->current_header_table_size();
}
size_t header_table_size_limit() {
return GetDecoderTables()->header_table_size_limit();
}
void set_header_table_size_limit(size_t size) {
return GetDecoderTables()->DynamicTableSizeUpdate(size);
}
private:
HpackDecoderAdapter* decoder_;
};
class HpackEncoderPeer {
public:
static void CookieToCrumbs(const HpackEncoder::Representation& cookie,
HpackEncoder::Representations* crumbs_out) {
HpackEncoder::CookieToCrumbs(cookie, crumbs_out);
}
};
namespace {
const bool kNoCheckDecodedSize = false;
const char* kCookieKey = "cookie";
// Is HandleControlFrameHeadersStart to be called, and with what value?
enum StartChoice { START_WITH_HANDLER, START_WITHOUT_HANDLER, NO_START };
class HpackDecoderAdapterTest
: public QuicheTestWithParam<std::tuple<StartChoice, bool>> {
protected:
HpackDecoderAdapterTest() : decoder_(), decoder_peer_(&decoder_) {}
void SetUp() override {
std::tie(start_choice_, randomly_split_input_buffer_) = GetParam();
}
void HandleControlFrameHeadersStart() {
bytes_passed_in_ = 0;
switch (start_choice_) {
case START_WITH_HANDLER:
decoder_.HandleControlFrameHeadersStart(&handler_);
break;
case START_WITHOUT_HANDLER:
decoder_.HandleControlFrameHeadersStart(nullptr);
break;
case NO_START:
break;
}
}
bool HandleControlFrameHeadersData(absl::string_view str) {
SPDY_VLOG(3) << "HandleControlFrameHeadersData:\n" << SpdyHexDump(str);
bytes_passed_in_ += str.size();
return decoder_.HandleControlFrameHeadersData(str.data(), str.size());
}
bool HandleControlFrameHeadersComplete(size_t* size) {
bool rc = decoder_.HandleControlFrameHeadersComplete(size);
if (size != nullptr) {
EXPECT_EQ(*size, bytes_passed_in_);
}
return rc;
}
bool DecodeHeaderBlock(absl::string_view str,
bool check_decoded_size = true) {
// Don't call this again if HandleControlFrameHeadersData failed previously.
EXPECT_FALSE(decode_has_failed_);
HandleControlFrameHeadersStart();
if (randomly_split_input_buffer_) {
do {
// Decode some fragment of the remaining bytes.
size_t bytes = str.size();
if (!str.empty()) {
bytes = random_.Uniform(str.size()) + 1;
}
EXPECT_LE(bytes, str.size());
if (!HandleControlFrameHeadersData(str.substr(0, bytes))) {
decode_has_failed_ = true;
return false;
}
str.remove_prefix(bytes);
} while (!str.empty());
} else if (!HandleControlFrameHeadersData(str)) {
decode_has_failed_ = true;
return false;
}
// Want to get out the number of compressed bytes that were decoded,
// so pass in a pointer if no handler.
size_t total_hpack_bytes = 0;
if (start_choice_ == START_WITH_HANDLER) {
if (!HandleControlFrameHeadersComplete(nullptr)) {
decode_has_failed_ = true;
return false;
}
total_hpack_bytes = handler_.compressed_header_bytes();
} else {
if (!HandleControlFrameHeadersComplete(&total_hpack_bytes)) {
decode_has_failed_ = true;
return false;
}
}
EXPECT_EQ(total_hpack_bytes, bytes_passed_in_);
if (check_decoded_size && start_choice_ == START_WITH_HANDLER) {
EXPECT_EQ(handler_.uncompressed_header_bytes(),
SizeOfHeaders(decoded_block()));
}
return true;
}
bool EncodeAndDecodeDynamicTableSizeUpdates(size_t first, size_t second) {
HpackBlockBuilder hbb;
hbb.AppendDynamicTableSizeUpdate(first);
if (second != first) {
hbb.AppendDynamicTableSizeUpdate(second);
}
return DecodeHeaderBlock(hbb.buffer());
}
const SpdyHeaderBlock& decoded_block() const {
if (start_choice_ == START_WITH_HANDLER) {
return handler_.decoded_block();
} else {
return decoder_.decoded_block();
}
}
static size_t SizeOfHeaders(const SpdyHeaderBlock& headers) {
size_t size = 0;
for (const auto& kv : headers) {
if (kv.first == kCookieKey) {
HpackEncoder::Representations crumbs;
HpackEncoderPeer::CookieToCrumbs(kv, &crumbs);
for (const auto& crumb : crumbs) {
size += crumb.first.size() + crumb.second.size();
}
} else {
size += kv.first.size() + kv.second.size();
}
}
return size;
}
const SpdyHeaderBlock& DecodeBlockExpectingSuccess(absl::string_view str) {
EXPECT_TRUE(DecodeHeaderBlock(str));
return decoded_block();
}
void expectEntry(size_t index,
size_t size,
const std::string& name,
const std::string& value) {
const HpackStringPair* entry = decoder_peer_.GetTableEntry(index);
EXPECT_EQ(name, entry->name) << "index " << index;
EXPECT_EQ(value, entry->value);
EXPECT_EQ(size, entry->size());
}
SpdyHeaderBlock MakeHeaderBlock(
const std::vector<std::pair<std::string, std::string>>& headers) {
SpdyHeaderBlock result;
for (const auto& kv : headers) {
result.AppendValueOrAddHeader(kv.first, kv.second);
}
return result;
}
http2::test::Http2Random random_;
HpackDecoderAdapter decoder_;
test::HpackDecoderAdapterPeer decoder_peer_;
RecordingHeadersHandler handler_;
StartChoice start_choice_;
bool randomly_split_input_buffer_;
bool decode_has_failed_ = false;
size_t bytes_passed_in_;
};
INSTANTIATE_TEST_SUITE_P(
NoHandler,
HpackDecoderAdapterTest,
::testing::Combine(::testing::Values(START_WITHOUT_HANDLER, NO_START),
::testing::Bool()));
INSTANTIATE_TEST_SUITE_P(
WithHandler,
HpackDecoderAdapterTest,
::testing::Combine(::testing::Values(START_WITH_HANDLER),
::testing::Bool()));
TEST_P(HpackDecoderAdapterTest,
AddHeaderDataWithHandleControlFrameHeadersData) {
// The hpack decode buffer size is limited in size. This test verifies that
// adding encoded data under that limit is accepted, and data that exceeds the
// limit is rejected.
HandleControlFrameHeadersStart();
const size_t kMaxBufferSizeBytes = 50;
const std::string a_value = std::string(49, 'x');
decoder_.set_max_decode_buffer_size_bytes(kMaxBufferSizeBytes);
HpackBlockBuilder hbb;
hbb.AppendLiteralNameAndValue(HpackEntryType::kNeverIndexedLiteralHeader,
false, "a", false, a_value);
const std::string& s = hbb.buffer();
EXPECT_GT(s.size(), kMaxBufferSizeBytes);
// Any one in input buffer must not exceed kMaxBufferSizeBytes.
EXPECT_TRUE(HandleControlFrameHeadersData(s.substr(0, s.size() / 2)));
EXPECT_TRUE(HandleControlFrameHeadersData(s.substr(s.size() / 2)));
EXPECT_FALSE(HandleControlFrameHeadersData(s));
SpdyHeaderBlock expected_block = MakeHeaderBlock({{"a", a_value}});
EXPECT_EQ(expected_block, decoded_block());
}
TEST_P(HpackDecoderAdapterTest, NameTooLong) {
// Verify that a name longer than the allowed size generates an error.
const size_t kMaxBufferSizeBytes = 50;
const std::string name = std::string(2 * kMaxBufferSizeBytes, 'x');
const std::string value = "abc";
decoder_.set_max_decode_buffer_size_bytes(kMaxBufferSizeBytes);
HpackBlockBuilder hbb;
hbb.AppendLiteralNameAndValue(HpackEntryType::kNeverIndexedLiteralHeader,
false, name, false, value);
const size_t fragment_size = (3 * kMaxBufferSizeBytes) / 2;
const std::string fragment = hbb.buffer().substr(0, fragment_size);
HandleControlFrameHeadersStart();
EXPECT_FALSE(HandleControlFrameHeadersData(fragment));
}
TEST_P(HpackDecoderAdapterTest, HeaderTooLongToBuffer) {
// Verify that a header longer than the allowed size generates an error if
// it isn't all in one input buffer.
const std::string name = "some-key";
const std::string value = "some-value";
const size_t kMaxBufferSizeBytes = name.size() + value.size() - 2;
decoder_.set_max_decode_buffer_size_bytes(kMaxBufferSizeBytes);
HpackBlockBuilder hbb;
hbb.AppendLiteralNameAndValue(HpackEntryType::kNeverIndexedLiteralHeader,
false, name, false, value);
const size_t fragment_size = hbb.size() - 1;
const std::string fragment = hbb.buffer().substr(0, fragment_size);
HandleControlFrameHeadersStart();
EXPECT_FALSE(HandleControlFrameHeadersData(fragment));
}
// Verify that a header block that exceeds the maximum length is rejected.
TEST_P(HpackDecoderAdapterTest, HeaderBlockTooLong) {
const std::string name = "some-key";
const std::string value = "some-value";
const size_t kMaxBufferSizeBytes = 1024;
HpackBlockBuilder hbb;
hbb.AppendLiteralNameAndValue(HpackEntryType::kIndexedLiteralHeader, false,
name, false, value);
while (hbb.size() < kMaxBufferSizeBytes) {
hbb.AppendLiteralNameAndValue(HpackEntryType::kIndexedLiteralHeader, false,
"", false, "");
}
// With no limit on the maximum header block size, the decoder handles the
// entire block successfully.
HandleControlFrameHeadersStart();
EXPECT_TRUE(HandleControlFrameHeadersData(hbb.buffer()));
size_t total_bytes;
EXPECT_TRUE(HandleControlFrameHeadersComplete(&total_bytes));
// When a total byte limit is imposed, the decoder bails before the end of the
// block.
decoder_.set_max_header_block_bytes(kMaxBufferSizeBytes);
HandleControlFrameHeadersStart();
EXPECT_FALSE(HandleControlFrameHeadersData(hbb.buffer()));
}
// Decode with incomplete data in buffer.
TEST_P(HpackDecoderAdapterTest, DecodeWithIncompleteData) {
HandleControlFrameHeadersStart();
// No need to wait for more data.
EXPECT_TRUE(HandleControlFrameHeadersData("\x82\x85\x82"));
std::vector<std::pair<std::string, std::string>> expected_headers = {
{":method", "GET"}, {":path", "/index.html"}, {":method", "GET"}};
SpdyHeaderBlock expected_block1 = MakeHeaderBlock(expected_headers);
EXPECT_EQ(expected_block1, decoded_block());
// Full and partial headers, won't add partial to the headers.
EXPECT_TRUE(
HandleControlFrameHeadersData("\x40\x03goo"
"\x03gar\xbe\x40\x04spam"));
expected_headers.push_back({"goo", "gar"});
expected_headers.push_back({"goo", "gar"});
SpdyHeaderBlock expected_block2 = MakeHeaderBlock(expected_headers);
EXPECT_EQ(expected_block2, decoded_block());
// Add the needed data.
EXPECT_TRUE(HandleControlFrameHeadersData("\x04gggs"));
size_t size = 0;
EXPECT_TRUE(HandleControlFrameHeadersComplete(&size));
EXPECT_EQ(24u, size);
expected_headers.push_back({"spam", "gggs"});
SpdyHeaderBlock expected_block3 = MakeHeaderBlock(expected_headers);
EXPECT_EQ(expected_block3, decoded_block());
}
TEST_P(HpackDecoderAdapterTest, HandleHeaderRepresentation) {
// Make sure the decoder is properly initialized.
HandleControlFrameHeadersStart();
HandleControlFrameHeadersData("");
// All cookie crumbs are joined.
decoder_peer_.HandleHeaderRepresentation("cookie", " part 1");
decoder_peer_.HandleHeaderRepresentation("cookie", "part 2 ");
decoder_peer_.HandleHeaderRepresentation("cookie", "part3");
// Already-delimited headers are passed through.
decoder_peer_.HandleHeaderRepresentation("passed-through",
std::string("foo\0baz", 7));
// Other headers are joined on \0. Case matters.
decoder_peer_.HandleHeaderRepresentation("joined", "joined");
decoder_peer_.HandleHeaderRepresentation("joineD", "value 1");
decoder_peer_.HandleHeaderRepresentation("joineD", "value 2");
// Empty headers remain empty.
decoder_peer_.HandleHeaderRepresentation("empty", "");
// Joined empty headers work as expected.
decoder_peer_.HandleHeaderRepresentation("empty-joined", "");
decoder_peer_.HandleHeaderRepresentation("empty-joined", "foo");
decoder_peer_.HandleHeaderRepresentation("empty-joined", "");
decoder_peer_.HandleHeaderRepresentation("empty-joined", "");
// Non-contiguous cookie crumb.
decoder_peer_.HandleHeaderRepresentation("cookie", " fin!");
// Finish and emit all headers.
decoder_.HandleControlFrameHeadersComplete(nullptr);
// Resulting decoded headers are in the same order as the inputs.
EXPECT_THAT(
decoded_block(),
ElementsAre(
Pair("cookie", " part 1; part 2 ; part3; fin!"),
Pair("passed-through", absl::string_view("foo\0baz", 7)),
Pair("joined", absl::string_view("joined\0value 1\0value 2", 22)),
Pair("empty", ""),
Pair("empty-joined", absl::string_view("\0foo\0\0", 6))));
}
// Decoding indexed static table field should work.
TEST_P(HpackDecoderAdapterTest, IndexedHeaderStatic) {
// Reference static table entries #2 and #5.
const SpdyHeaderBlock& header_set1 = DecodeBlockExpectingSuccess("\x82\x85");
SpdyHeaderBlock expected_header_set1;
expected_header_set1[":method"] = "GET";
expected_header_set1[":path"] = "/index.html";
EXPECT_EQ(expected_header_set1, header_set1);
// Reference static table entry #2.
const SpdyHeaderBlock& header_set2 = DecodeBlockExpectingSuccess("\x82");
SpdyHeaderBlock expected_header_set2;
expected_header_set2[":method"] = "GET";
EXPECT_EQ(expected_header_set2, header_set2);
}
TEST_P(HpackDecoderAdapterTest, IndexedHeaderDynamic) {
// First header block: add an entry to header table.
const SpdyHeaderBlock& header_set1 = DecodeBlockExpectingSuccess(
"\x40\x03"
"foo"
"\x03"
"bar");
SpdyHeaderBlock expected_header_set1;
expected_header_set1["foo"] = "bar";
EXPECT_EQ(expected_header_set1, header_set1);
// Second header block: add another entry to header table.
const SpdyHeaderBlock& header_set2 = DecodeBlockExpectingSuccess(
"\xbe\x40\x04"
"spam"
"\x04"
"eggs");
SpdyHeaderBlock expected_header_set2;
expected_header_set2["foo"] = "bar";
expected_header_set2["spam"] = "eggs";
EXPECT_EQ(expected_header_set2, header_set2);
// Third header block: refer to most recently added entry.
const SpdyHeaderBlock& header_set3 = DecodeBlockExpectingSuccess("\xbe");
SpdyHeaderBlock expected_header_set3;
expected_header_set3["spam"] = "eggs";
EXPECT_EQ(expected_header_set3, header_set3);
}
// Test a too-large indexed header.
TEST_P(HpackDecoderAdapterTest, InvalidIndexedHeader) {
// High-bit set, and a prefix of one more than the number of static entries.
EXPECT_FALSE(DecodeHeaderBlock("\xbe"));
}
TEST_P(HpackDecoderAdapterTest, ContextUpdateMaximumSize) {
EXPECT_EQ(kDefaultHeaderTableSizeSetting,
decoder_peer_.header_table_size_limit());
std::string input;
{
// Maximum-size update with size 126. Succeeds.
HpackOutputStream output_stream;
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(126);
output_stream.TakeString(&input);
EXPECT_TRUE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(126u, decoder_peer_.header_table_size_limit());
}
{
// Maximum-size update with kDefaultHeaderTableSizeSetting. Succeeds.
HpackOutputStream output_stream;
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(kDefaultHeaderTableSizeSetting);
output_stream.TakeString(&input);
EXPECT_TRUE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(kDefaultHeaderTableSizeSetting,
decoder_peer_.header_table_size_limit());
}
{
// Maximum-size update with kDefaultHeaderTableSizeSetting + 1. Fails.
HpackOutputStream output_stream;
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(kDefaultHeaderTableSizeSetting + 1);
output_stream.TakeString(&input);
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(kDefaultHeaderTableSizeSetting,
decoder_peer_.header_table_size_limit());
}
}
// Two HeaderTableSizeUpdates may appear at the beginning of the block
TEST_P(HpackDecoderAdapterTest, TwoTableSizeUpdates) {
std::string input;
{
// Should accept two table size updates, update to second one
HpackOutputStream output_stream;
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(0);
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(122);
output_stream.TakeString(&input);
EXPECT_TRUE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(122u, decoder_peer_.header_table_size_limit());
}
}
// Three HeaderTableSizeUpdates should result in an error
TEST_P(HpackDecoderAdapterTest, ThreeTableSizeUpdatesError) {
std::string input;
{
// Should reject three table size updates, update to second one
HpackOutputStream output_stream;
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(5);
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(10);
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(15);
output_stream.TakeString(&input);
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(10u, decoder_peer_.header_table_size_limit());
}
}
// HeaderTableSizeUpdates may only appear at the beginning of the block
// Any other updates should result in an error
TEST_P(HpackDecoderAdapterTest, TableSizeUpdateSecondError) {
std::string input;
{
// Should reject a table size update appearing after a different entry
// The table size should remain as the default
HpackOutputStream output_stream;
output_stream.AppendBytes("\x82\x85");
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(123);
output_stream.TakeString(&input);
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(kDefaultHeaderTableSizeSetting,
decoder_peer_.header_table_size_limit());
}
}
// HeaderTableSizeUpdates may only appear at the beginning of the block
// Any other updates should result in an error
TEST_P(HpackDecoderAdapterTest, TableSizeUpdateFirstThirdError) {
std::string input;
{
// Should reject the second table size update
// if a different entry appears after the first update
// The table size should update to the first but not the second
HpackOutputStream output_stream;
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(60);
output_stream.AppendBytes("\x82\x85");
output_stream.AppendPrefix(kHeaderTableSizeUpdateOpcode);
output_stream.AppendUint32(125);
output_stream.TakeString(&input);
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view(input)));
EXPECT_EQ(60u, decoder_peer_.header_table_size_limit());
}
}
// Decoding two valid encoded literal headers with no indexing should
// work.
TEST_P(HpackDecoderAdapterTest, LiteralHeaderNoIndexing) {
// First header with indexed name, second header with string literal
// name.
const char input[] = "\x04\x0c/sample/path\x00\x06:path2\x0e/sample/path/2";
const SpdyHeaderBlock& header_set = DecodeBlockExpectingSuccess(
absl::string_view(input, ABSL_ARRAYSIZE(input) - 1));
SpdyHeaderBlock expected_header_set;
expected_header_set[":path"] = "/sample/path";
expected_header_set[":path2"] = "/sample/path/2";
EXPECT_EQ(expected_header_set, header_set);
}
// Decoding two valid encoded literal headers with incremental
// indexing and string literal names should work.
TEST_P(HpackDecoderAdapterTest, LiteralHeaderIncrementalIndexing) {
const char input[] = "\x44\x0c/sample/path\x40\x06:path2\x0e/sample/path/2";
const SpdyHeaderBlock& header_set = DecodeBlockExpectingSuccess(
absl::string_view(input, ABSL_ARRAYSIZE(input) - 1));
SpdyHeaderBlock expected_header_set;
expected_header_set[":path"] = "/sample/path";
expected_header_set[":path2"] = "/sample/path/2";
EXPECT_EQ(expected_header_set, header_set);
}
TEST_P(HpackDecoderAdapterTest, LiteralHeaderWithIndexingInvalidNameIndex) {
decoder_.ApplyHeaderTableSizeSetting(0);
EXPECT_TRUE(EncodeAndDecodeDynamicTableSizeUpdates(0, 0));
// Name is the last static index. Works.
EXPECT_TRUE(DecodeHeaderBlock(absl::string_view("\x7d\x03ooo")));
// Name is one beyond the last static index. Fails.
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view("\x7e\x03ooo")));
}
TEST_P(HpackDecoderAdapterTest, LiteralHeaderNoIndexingInvalidNameIndex) {
// Name is the last static index. Works.
EXPECT_TRUE(DecodeHeaderBlock(absl::string_view("\x0f\x2e\x03ooo")));
// Name is one beyond the last static index. Fails.
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view("\x0f\x2f\x03ooo")));
}
TEST_P(HpackDecoderAdapterTest, LiteralHeaderNeverIndexedInvalidNameIndex) {
// Name is the last static index. Works.
EXPECT_TRUE(DecodeHeaderBlock(absl::string_view("\x1f\x2e\x03ooo")));
// Name is one beyond the last static index. Fails.
EXPECT_FALSE(DecodeHeaderBlock(absl::string_view("\x1f\x2f\x03ooo")));
}
TEST_P(HpackDecoderAdapterTest, TruncatedIndex) {
// Indexed Header, varint for index requires multiple bytes,
// but only one provided.
EXPECT_FALSE(DecodeHeaderBlock("\xff"));
}
TEST_P(HpackDecoderAdapterTest, TruncatedHuffmanLiteral) {
// Literal value, Huffman encoded, but with the last byte missing (i.e.
// drop the final ff shown below).
//
// 41 | == Literal indexed ==
// | Indexed name (idx = 1)
// | :authority
// 8c | Literal value (len = 12)
// | Huffman encoded:
// f1e3 c2e5 f23a 6ba0 ab90 f4ff | .....:k.....
// | Decoded:
// | www.example.com
// | -> :authority: www.example.com
std::string first = SpdyHexDecode("418cf1e3c2e5f23a6ba0ab90f4ff");
EXPECT_TRUE(DecodeHeaderBlock(first));
first.pop_back();
EXPECT_FALSE(DecodeHeaderBlock(first));
}
TEST_P(HpackDecoderAdapterTest, HuffmanEOSError) {
// Literal value, Huffman encoded, but with an additional ff byte at the end
// of the string, i.e. an EOS that is longer than permitted.
//
// 41 | == Literal indexed ==
// | Indexed name (idx = 1)
// | :authority
// 8d | Literal value (len = 13)
// | Huffman encoded:
// f1e3 c2e5 f23a 6ba0 ab90 f4ff | .....:k.....
// | Decoded:
// | www.example.com
// | -> :authority: www.example.com
std::string first = SpdyHexDecode("418cf1e3c2e5f23a6ba0ab90f4ff");
EXPECT_TRUE(DecodeHeaderBlock(first));
first = SpdyHexDecode("418df1e3c2e5f23a6ba0ab90f4ffff");
EXPECT_FALSE(DecodeHeaderBlock(first));
}
// Round-tripping the header set from RFC 7541 C.3.1 should work.
// http://httpwg.org/specs/rfc7541.html#rfc.section.C.3.1
TEST_P(HpackDecoderAdapterTest, BasicC31) {
HpackEncoder encoder;
SpdyHeaderBlock expected_header_set;
expected_header_set[":method"] = "GET";
expected_header_set[":scheme"] = "http";
expected_header_set[":path"] = "/";
expected_header_set[":authority"] = "www.example.com";
std::string encoded_header_set;
EXPECT_TRUE(
encoder.EncodeHeaderSet(expected_header_set, &encoded_header_set));
EXPECT_TRUE(DecodeHeaderBlock(encoded_header_set));
EXPECT_EQ(expected_header_set, decoded_block());
}
// RFC 7541, Section C.4: Request Examples with Huffman Coding
// http://httpwg.org/specs/rfc7541.html#rfc.section.C.4
TEST_P(HpackDecoderAdapterTest, SectionC4RequestHuffmanExamples) {
// TODO(jamessynge): Use http2/hpack/tools/hpack_example.h to parse the
// example directly, instead of having it as a comment.
//
// 82 | == Indexed - Add ==
// | idx = 2
// | -> :method: GET
// 86 | == Indexed - Add ==
// | idx = 6
// | -> :scheme: http
// 84 | == Indexed - Add ==
// | idx = 4
// | -> :path: /
// 41 | == Literal indexed ==
// | Indexed name (idx = 1)
// | :authority
// 8c | Literal value (len = 12)
// | Huffman encoded:
// f1e3 c2e5 f23a 6ba0 ab90 f4ff | .....:k.....
// | Decoded:
// | www.example.com
// | -> :authority: www.example.com
std::string first = SpdyHexDecode("828684418cf1e3c2e5f23a6ba0ab90f4ff");
const SpdyHeaderBlock& first_header_set = DecodeBlockExpectingSuccess(first);
EXPECT_THAT(first_header_set,
ElementsAre(
// clang-format off
Pair(":method", "GET"),
Pair(":scheme", "http"),
Pair(":path", "/"),
Pair(":authority", "www.example.com")));
// clang-format on
expectEntry(62, 57, ":authority", "www.example.com");
EXPECT_EQ(57u, decoder_peer_.current_header_table_size());
// 82 | == Indexed - Add ==
// | idx = 2
// | -> :method: GET
// 86 | == Indexed - Add ==
// | idx = 6
// | -> :scheme: http
// 84 | == Indexed - Add ==
// | idx = 4
// | -> :path: /
// be | == Indexed - Add ==
// | idx = 62
// | -> :authority: www.example.com
// 58 | == Literal indexed ==
// | Indexed name (idx = 24)
// | cache-control
// 86 | Literal value (len = 8)
// | Huffman encoded:
// a8eb 1064 9cbf | ...d..
// | Decoded:
// | no-cache
// | -> cache-control: no-cache
std::string second = SpdyHexDecode("828684be5886a8eb10649cbf");
const SpdyHeaderBlock& second_header_set =
DecodeBlockExpectingSuccess(second);
EXPECT_THAT(second_header_set,
ElementsAre(
// clang-format off
Pair(":method", "GET"),
Pair(":scheme", "http"),
Pair(":path", "/"),
Pair(":authority", "www.example.com"),
Pair("cache-control", "no-cache")));
// clang-format on
expectEntry(62, 53, "cache-control", "no-cache");
expectEntry(63, 57, ":authority", "www.example.com");
EXPECT_EQ(110u, decoder_peer_.current_header_table_size());
// 82 | == Indexed - Add ==
// | idx = 2
// | -> :method: GET
// 87 | == Indexed - Add ==
// | idx = 7
// | -> :scheme: https
// 85 | == Indexed - Add ==
// | idx = 5
// | -> :path: /index.html
// bf | == Indexed - Add ==
// | idx = 63
// | -> :authority: www.example.com
// 40 | == Literal indexed ==
// 88 | Literal name (len = 10)
// | Huffman encoded:
// 25a8 49e9 5ba9 7d7f | %.I.[.}.
// | Decoded:
// | custom-key
// 89 | Literal value (len = 12)
// | Huffman encoded:
// 25a8 49e9 5bb8 e8b4 bf | %.I.[....
// | Decoded:
// | custom-value
// | -> custom-key: custom-value
std::string third =
SpdyHexDecode("828785bf408825a849e95ba97d7f8925a849e95bb8e8b4bf");
const SpdyHeaderBlock& third_header_set = DecodeBlockExpectingSuccess(third);
EXPECT_THAT(
third_header_set,
ElementsAre(
// clang-format off
Pair(":method", "GET"),
Pair(":scheme", "https"),
Pair(":path", "/index.html"),
Pair(":authority", "www.example.com"),
Pair("custom-key", "custom-value")));
// clang-format on
expectEntry(62, 54, "custom-key", "custom-value");
expectEntry(63, 53, "cache-control", "no-cache");
expectEntry(64, 57, ":authority", "www.example.com");
EXPECT_EQ(164u, decoder_peer_.current_header_table_size());
}
// RFC 7541, Section C.6: Response Examples with Huffman Coding
// http://httpwg.org/specs/rfc7541.html#rfc.section.C.6
TEST_P(HpackDecoderAdapterTest, SectionC6ResponseHuffmanExamples) {
// The example is based on a maximum dynamic table size of 256,
// which allows for testing dynamic table evictions.
decoder_peer_.set_header_table_size_limit(256);
// 48 | == Literal indexed ==
// | Indexed name (idx = 8)
// | :status
// 82 | Literal value (len = 3)
// | Huffman encoded:
// 6402 | d.
// | Decoded:
// | 302
// | -> :status: 302
// 58 | == Literal indexed ==
// | Indexed name (idx = 24)
// | cache-control
// 85 | Literal value (len = 7)
// | Huffman encoded:
// aec3 771a 4b | ..w.K
// | Decoded:
// | private
// | -> cache-control: private
// 61 | == Literal indexed ==
// | Indexed name (idx = 33)
// | date
// 96 | Literal value (len = 29)
// | Huffman encoded:
// d07a be94 1054 d444 a820 0595 040b 8166 | .z...T.D. .....f
// e082 a62d 1bff | ...-..
// | Decoded:
// | Mon, 21 Oct 2013 20:13:21
// | GMT
// | -> date: Mon, 21 Oct 2013
// | 20:13:21 GMT
// 6e | == Literal indexed ==
// | Indexed name (idx = 46)
// | location
// 91 | Literal value (len = 23)
// | Huffman encoded:
// 9d29 ad17 1863 c78f 0b97 c8e9 ae82 ae43 | .)...c.........C
// d3 | .
// | Decoded:
// | https://www.example.com
// | -> location: https://www.e
// | xample.com
std::string first = SpdyHexDecode(
"488264025885aec3771a4b6196d07abe"
"941054d444a8200595040b8166e082a6"
"2d1bff6e919d29ad171863c78f0b97c8"
"e9ae82ae43d3");
const SpdyHeaderBlock& first_header_set = DecodeBlockExpectingSuccess(first);
EXPECT_THAT(first_header_set,
ElementsAre(
// clang-format off
Pair(":status", "302"),
Pair("cache-control", "private"),
Pair("date", "Mon, 21 Oct 2013 20:13:21 GMT"),
Pair("location", "https://www.example.com")));
// clang-format on
expectEntry(62, 63, "location", "https://www.example.com");
expectEntry(63, 65, "date", "Mon, 21 Oct 2013 20:13:21 GMT");
expectEntry(64, 52, "cache-control", "private");
expectEntry(65, 42, ":status", "302");
EXPECT_EQ(222u, decoder_peer_.current_header_table_size());
// 48 | == Literal indexed ==
// | Indexed name (idx = 8)
// | :status
// 83 | Literal value (len = 3)
// | Huffman encoded:
// 640e ff | d..
// | Decoded:
// | 307
// | - evict: :status: 302
// | -> :status: 307
// c1 | == Indexed - Add ==
// | idx = 65
// | -> cache-control: private
// c0 | == Indexed - Add ==
// | idx = 64
// | -> date: Mon, 21 Oct 2013
// | 20:13:21 GMT
// bf | == Indexed - Add ==
// | idx = 63
// | -> location:
// | https://www.example.com
std::string second = SpdyHexDecode("4883640effc1c0bf");
const SpdyHeaderBlock& second_header_set =
DecodeBlockExpectingSuccess(second);
EXPECT_THAT(second_header_set,
ElementsAre(
// clang-format off
Pair(":status", "307"),
Pair("cache-control", "private"),
Pair("date", "Mon, 21 Oct 2013 20:13:21 GMT"),
Pair("location", "https://www.example.com")));
// clang-format on
expectEntry(62, 42, ":status", "307");
expectEntry(63, 63, "location", "https://www.example.com");
expectEntry(64, 65, "date", "Mon, 21 Oct 2013 20:13:21 GMT");
expectEntry(65, 52, "cache-control", "private");
EXPECT_EQ(222u, decoder_peer_.current_header_table_size());
// 88 | == Indexed - Add ==
// | idx = 8
// | -> :status: 200
// c1 | == Indexed - Add ==
// | idx = 65
// | -> cache-control: private
// 61 | == Literal indexed ==
// | Indexed name (idx = 33)
// | date
// 96 | Literal value (len = 22)
// | Huffman encoded:
// d07a be94 1054 d444 a820 0595 040b 8166 | .z...T.D. .....f
// e084 a62d 1bff | ...-..
// | Decoded:
// | Mon, 21 Oct 2013 20:13:22
// | GMT
// | - evict: cache-control:
// | private
// | -> date: Mon, 21 Oct 2013
// | 20:13:22 GMT
// c0 | == Indexed - Add ==
// | idx = 64
// | -> location:
// | https://www.example.com
// 5a | == Literal indexed ==
// | Indexed name (idx = 26)
// | content-encoding
// 83 | Literal value (len = 3)
// | Huffman encoded:
// 9bd9 ab | ...
// | Decoded:
// | gzip
// | - evict: date: Mon, 21 Oct
// | 2013 20:13:21 GMT
// | -> content-encoding: gzip
// 77 | == Literal indexed ==
// | Indexed name (idx = 55)
// | set-cookie
// ad | Literal value (len = 45)
// | Huffman encoded:
// 94e7 821d d7f2 e6c7 b335 dfdf cd5b 3960 | .........5...[9`
// d5af 2708 7f36 72c1 ab27 0fb5 291f 9587 | ..'..6r..'..)...
// 3160 65c0 03ed 4ee5 b106 3d50 07 | 1`e...N...=P.
// | Decoded:
// | foo=ASDJKHQKBZXOQWEOPIUAXQ
// | WEOIU; max-age=3600; versi
// | on=1
// | - evict: location:
// | https://www.example.com
// | - evict: :status: 307
// | -> set-cookie: foo=ASDJKHQ
// | KBZXOQWEOPIUAXQWEOIU;
// | max-age=3600; version=1
std::string third = SpdyHexDecode(
"88c16196d07abe941054d444a8200595"
"040b8166e084a62d1bffc05a839bd9ab"
"77ad94e7821dd7f2e6c7b335dfdfcd5b"
"3960d5af27087f3672c1ab270fb5291f"
"9587316065c003ed4ee5b1063d5007");
const SpdyHeaderBlock& third_header_set = DecodeBlockExpectingSuccess(third);
EXPECT_THAT(third_header_set,
ElementsAre(
// clang-format off
Pair(":status", "200"),
Pair("cache-control", "private"),
Pair("date", "Mon, 21 Oct 2013 20:13:22 GMT"),
Pair("location", "https://www.example.com"),
Pair("content-encoding", "gzip"),
Pair("set-cookie", "foo=ASDJKHQKBZXOQWEOPIUAXQWEOIU;"
" max-age=3600; version=1")));
// clang-format on
expectEntry(62, 98, "set-cookie",
"foo=ASDJKHQKBZXOQWEOPIUAXQWEOIU;"
" max-age=3600; version=1");
expectEntry(63, 52, "content-encoding", "gzip");
expectEntry(64, 65, "date", "Mon, 21 Oct 2013 20:13:22 GMT");
EXPECT_EQ(215u, decoder_peer_.current_header_table_size());
}
// Regression test: Found that entries with dynamic indexed names and literal
// values caused "use after free" MSAN failures if the name was evicted as it
// was being re-used.
TEST_P(HpackDecoderAdapterTest, ReuseNameOfEvictedEntry) {
// Each entry is measured as 32 bytes plus the sum of the lengths of the name
// and the value. Set the size big enough for at most one entry, and a fairly
// small one at that (31 ASCII characters).
decoder_.ApplyHeaderTableSizeSetting(63);
HpackBlockBuilder hbb;
hbb.AppendDynamicTableSizeUpdate(0);
hbb.AppendDynamicTableSizeUpdate(63);
const absl::string_view name("some-name");
const absl::string_view value1("some-value");
const absl::string_view value2("another-value");
const absl::string_view value3("yet-another-value");
// Add an entry that will become the first in the dynamic table, entry 62.
hbb.AppendLiteralNameAndValue(HpackEntryType::kIndexedLiteralHeader, false,
name, false, value1);
// Confirm that entry has been added by re-using it.
hbb.AppendIndexedHeader(62);
// Add another entry referring to the name of the first. This will evict the
// first.
hbb.AppendNameIndexAndLiteralValue(HpackEntryType::kIndexedLiteralHeader, 62,
false, value2);
// Confirm that entry has been added by re-using it.
hbb.AppendIndexedHeader(62);
// Add another entry referring to the name of the second. This will evict the
// second.
hbb.AppendNameIndexAndLiteralValue(HpackEntryType::kIndexedLiteralHeader, 62,
false, value3);
// Confirm that entry has been added by re-using it.
hbb.AppendIndexedHeader(62);
// Can't have DecodeHeaderBlock do the default check for size of the decoded
// data because SpdyHeaderBlock will join multiple headers with the same
// name into a single entry, thus we won't see repeated occurrences of the
// name, instead seeing separators between values.
EXPECT_TRUE(DecodeHeaderBlock(hbb.buffer(), kNoCheckDecodedSize));
SpdyHeaderBlock expected_header_set;
expected_header_set.AppendValueOrAddHeader(name, value1);
expected_header_set.AppendValueOrAddHeader(name, value1);
expected_header_set.AppendValueOrAddHeader(name, value2);
expected_header_set.AppendValueOrAddHeader(name, value2);
expected_header_set.AppendValueOrAddHeader(name, value3);
expected_header_set.AppendValueOrAddHeader(name, value3);
// SpdyHeaderBlock stores these 6 strings as '\0' separated values.
// Make sure that is what happened.
std::string joined_values = expected_header_set[name].as_string();
EXPECT_EQ(joined_values.size(),
2 * value1.size() + 2 * value2.size() + 2 * value3.size() + 5);
EXPECT_EQ(expected_header_set, decoded_block());
if (start_choice_ == START_WITH_HANDLER) {
EXPECT_EQ(handler_.uncompressed_header_bytes(),
6 * name.size() + 2 * value1.size() + 2 * value2.size() +
2 * value3.size());
}
}
// Regression test for https://crbug.com/747395.
TEST_P(HpackDecoderAdapterTest, Cookies) {
SpdyHeaderBlock expected_header_set;
expected_header_set["cookie"] = "foo; bar";
EXPECT_TRUE(DecodeHeaderBlock(SpdyHexDecode("608294e76003626172")));
EXPECT_EQ(expected_header_set, decoded_block());
}
} // namespace
} // namespace test
} // namespace spdy