darling-JavaScriptCore/wasm/WasmStreamingParser.cpp

411 lines
15 KiB
C++

/*
* Copyright (C) 2018 Yusuke Suzuki <yusukesuzuki@slowstart.org>.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "WasmStreamingParser.h"
#if ENABLE(WEBASSEMBLY)
#include "WasmOps.h"
#include "WasmSectionParser.h"
#include "WasmSignatureInlines.h"
#include <wtf/Optional.h>
#include <wtf/UnalignedAccess.h>
namespace JSC { namespace Wasm {
namespace WasmStreamingParserInternal {
static constexpr bool verbose = false;
}
#define WASM_STREAMING_PARSER_FAIL_IF_HELPER_FAILS(helper) \
do { \
auto helperResult = helper; \
if (UNLIKELY(!helperResult)) { \
m_errorMessage = helperResult.error(); \
return State::FatalError; \
} \
} while (0)
ALWAYS_INLINE Optional<uint8_t> parseUInt7(const uint8_t* data, size_t& offset, size_t size)
{
if (offset >= size)
return false;
uint8_t result = data[offset++];
if (result < 0x80)
return result;
return WTF::nullopt;
}
template <typename ...Args>
NEVER_INLINE auto WARN_UNUSED_RETURN StreamingParser::fail(Args... args) -> State
{
using namespace FailureHelper; // See ADL comment in namespace above.
m_errorMessage = makeString("WebAssembly.Module doesn't parse at byte "_s, String::number(m_offset), ": "_s, makeString(args)...);
dataLogLnIf(WasmStreamingParserInternal::verbose, m_errorMessage);
return State::FatalError;
}
StreamingParser::StreamingParser(ModuleInformation& info, StreamingParserClient& client)
: m_info(info)
, m_client(client)
{
dataLogLnIf(WasmStreamingParserInternal::verbose, "starting validation");
}
auto StreamingParser::parseModuleHeader(Vector<uint8_t>&& data) -> State
{
ASSERT(data.size() == moduleHeaderSize);
dataLogLnIf(WasmStreamingParserInternal::verbose, "header validation");
WASM_PARSER_FAIL_IF(data[0] != '\0' || data[1] != 'a' || data[2] != 's' || data[3] != 'm', "modules doesn't start with '\\0asm'");
uint32_t versionNumber = WTF::unalignedLoad<uint32_t>(data.data() + 4);
WASM_PARSER_FAIL_IF(versionNumber != expectedVersionNumber, "unexpected version number ", versionNumber, " expected ", expectedVersionNumber);
return State::SectionID;
}
auto StreamingParser::parseSectionID(Vector<uint8_t>&& data) -> State
{
ASSERT(data.size() == sectionIDSize);
size_t offset = 0;
auto result = parseUInt7(data.data(), offset, data.size());
WASM_PARSER_FAIL_IF(!result, "can't get section byte");
Section section = Section::Custom;
WASM_PARSER_FAIL_IF(!decodeSection(*result, section), "invalid section");
ASSERT(section != Section::Begin);
WASM_PARSER_FAIL_IF(!validateOrder(m_previousKnownSection, section), "invalid section order, ", m_previousKnownSection, " followed by ", section);
m_section = section;
if (isKnownSection(section))
m_previousKnownSection = section;
return State::SectionSize;
}
auto StreamingParser::parseSectionSize(uint32_t sectionLength) -> State
{
m_sectionLength = sectionLength;
if (m_section == Section::Code)
return State::CodeSectionSize;
return State::SectionPayload;
}
auto StreamingParser::parseCodeSectionSize(uint32_t functionCount) -> State
{
m_info->codeSectionSize = m_sectionLength;
m_functionCount = functionCount;
m_functionIndex = 0;
m_codeOffset = m_offset;
WASM_PARSER_FAIL_IF(functionCount == std::numeric_limits<uint32_t>::max(), "Code section's count is too big ", functionCount);
WASM_PARSER_FAIL_IF(functionCount != m_info->functions.size(), "Code section count ", functionCount, " exceeds the declared number of functions ", m_info->functions.size());
if (m_functionIndex == m_functionCount) {
WASM_PARSER_FAIL_IF((m_codeOffset + m_sectionLength) != m_nextOffset, "parsing ended before the end of ", m_section, " section");
if (!m_client.didReceiveSectionData(m_section))
return State::FatalError;
return State::SectionID;
}
return State::FunctionSize;
}
auto StreamingParser::parseFunctionSize(uint32_t functionSize) -> State
{
m_functionSize = functionSize;
WASM_PARSER_FAIL_IF(functionSize > maxFunctionSize, "Code function's size ", functionSize, " is too big");
return State::FunctionPayload;
}
auto StreamingParser::parseFunctionPayload(Vector<uint8_t>&& data) -> State
{
auto& function = m_info->functions[m_functionIndex];
function.start = m_offset;
function.end = m_offset + m_functionSize;
function.data = WTFMove(data);
dataLogLnIf(WasmStreamingParserInternal::verbose, "Processing function starting at: ", function.start, " and ending at: ", function.end);
if (!m_client.didReceiveFunctionData(m_functionIndex, function))
return State::FatalError;
++m_functionIndex;
if (m_functionIndex == m_functionCount) {
WASM_PARSER_FAIL_IF((m_codeOffset + m_sectionLength) != (m_offset + m_functionSize), "parsing ended before the end of ", m_section, " section");
if (!m_client.didReceiveSectionData(m_section))
return State::FatalError;
return State::SectionID;
}
return State::FunctionSize;
}
auto StreamingParser::parseSectionPayload(Vector<uint8_t>&& data) -> State
{
SectionParser parser(data.data(), data.size(), m_offset, m_info.get());
switch (m_section) {
#define WASM_SECTION_PARSE(NAME, ID, DESCRIPTION) \
case Section::NAME: { \
WASM_STREAMING_PARSER_FAIL_IF_HELPER_FAILS(parser.parse ## NAME()); \
break; \
}
FOR_EACH_KNOWN_WASM_SECTION(WASM_SECTION_PARSE)
#undef WASM_SECTION_PARSE
case Section::Custom: {
WASM_STREAMING_PARSER_FAIL_IF_HELPER_FAILS(parser.parseCustom());
break;
}
case Section::Begin: {
RELEASE_ASSERT_NOT_REACHED();
break;
}
}
WASM_PARSER_FAIL_IF(parser.length() != parser.offset(), "parsing ended before the end of ", m_section, " section");
if (!m_client.didReceiveSectionData(m_section))
return State::FatalError;
return State::SectionID;
}
auto StreamingParser::consume(const uint8_t* bytes, size_t bytesSize, size_t& offsetInBytes, size_t requiredSize) -> Optional<Vector<uint8_t>>
{
if (m_remaining.size() == requiredSize) {
Vector<uint8_t> result = WTFMove(m_remaining);
m_nextOffset += requiredSize;
return result;
}
if (m_remaining.size() > requiredSize) {
Vector<uint8_t> result(requiredSize);
memcpy(result.data(), m_remaining.data(), requiredSize);
m_remaining.remove(0, requiredSize);
m_nextOffset += requiredSize;
return result;
}
ASSERT(m_remaining.size() < requiredSize);
size_t bytesRemainingSize = bytesSize - offsetInBytes;
size_t totalDataSize = m_remaining.size() + bytesRemainingSize;
if (totalDataSize < requiredSize) {
m_remaining.append(bytes + offsetInBytes, bytesRemainingSize);
offsetInBytes = bytesSize;
return WTF::nullopt;
}
size_t usedSize = requiredSize - m_remaining.size();
m_remaining.append(bytes + offsetInBytes, usedSize);
offsetInBytes += usedSize;
Vector<uint8_t> result = WTFMove(m_remaining);
m_nextOffset += requiredSize;
return result;
}
auto StreamingParser::consumeVarUInt32(const uint8_t* bytes, size_t bytesSize, size_t& offsetInBytes, IsEndOfStream isEndOfStream) -> Expected<uint32_t, State>
{
constexpr size_t maxSize = WTF::LEBDecoder::maxByteLength<uint32_t>();
size_t bytesRemainingSize = bytesSize - offsetInBytes;
size_t totalDataSize = m_remaining.size() + bytesRemainingSize;
if (m_remaining.size() >= maxSize) {
// Do nothing.
} else if (totalDataSize >= maxSize) {
size_t usedSize = maxSize - m_remaining.size();
m_remaining.append(bytes + offsetInBytes, usedSize);
offsetInBytes += usedSize;
} else {
m_remaining.append(bytes + offsetInBytes, bytesRemainingSize);
offsetInBytes += bytesRemainingSize;
// If the given bytes are the end of the stream, we try to parse VarUInt32
// with the current remaining data since VarUInt32 may not require `maxSize`.
if (isEndOfStream == IsEndOfStream::No)
return makeUnexpected(m_state);
}
size_t offset = 0;
uint32_t result = 0;
if (!WTF::LEBDecoder::decodeUInt32(m_remaining.data(), m_remaining.size(), offset, result))
return makeUnexpected(State::FatalError);
size_t consumedSize = offset;
m_remaining.remove(0, consumedSize);
m_nextOffset += consumedSize;
return result;
}
auto StreamingParser::addBytes(const uint8_t* bytes, size_t bytesSize, IsEndOfStream isEndOfStream) -> State
{
if (m_state == State::FatalError)
return m_state;
m_totalSize += bytesSize;
if (UNLIKELY(m_totalSize.hasOverflowed() || m_totalSize.unsafeGet() > maxModuleSize)) {
m_state = fail("module size is too large, maximum ", maxModuleSize);
return m_state;
}
if (UNLIKELY(Options::useEagerWebAssemblyModuleHashing()))
m_hasher.addBytes(bytes, bytesSize);
size_t offsetInBytes = 0;
while (true) {
ASSERT(offsetInBytes <= bytesSize);
switch (m_state) {
case State::ModuleHeader: {
auto result = consume(bytes, bytesSize, offsetInBytes, moduleHeaderSize);
if (!result)
return m_state;
m_state = parseModuleHeader(WTFMove(*result));
break;
}
case State::SectionID: {
auto result = consume(bytes, bytesSize, offsetInBytes, sectionIDSize);
if (!result)
return m_state;
m_state = parseSectionID(WTFMove(*result));
break;
}
case State::SectionSize: {
auto result = consumeVarUInt32(bytes, bytesSize, offsetInBytes, isEndOfStream);
if (!result) {
if (result.error() == State::FatalError)
m_state = failOnState(m_state);
else
m_state = result.error();
return m_state;
}
m_state = parseSectionSize(*result);
break;
}
case State::SectionPayload: {
auto result = consume(bytes, bytesSize, offsetInBytes, m_sectionLength);
if (!result)
return m_state;
m_state = parseSectionPayload(WTFMove(*result));
break;
}
case State::CodeSectionSize: {
auto result = consumeVarUInt32(bytes, bytesSize, offsetInBytes, isEndOfStream);
if (!result) {
if (result.error() == State::FatalError)
m_state = failOnState(m_state);
else
m_state = result.error();
return m_state;
}
m_state = parseCodeSectionSize(*result);
break;
}
case State::FunctionSize: {
auto result = consumeVarUInt32(bytes, bytesSize, offsetInBytes, isEndOfStream);
if (!result) {
if (result.error() == State::FatalError)
m_state = failOnState(m_state);
else
m_state = result.error();
return m_state;
}
m_state = parseFunctionSize(*result);
break;
}
case State::FunctionPayload: {
auto result = consume(bytes, bytesSize, offsetInBytes, m_functionSize);
if (!result)
return m_state;
m_state = parseFunctionPayload(WTFMove(*result));
break;
}
case State::Finished:
case State::FatalError:
return m_state;
}
m_offset = m_nextOffset;
}
}
auto StreamingParser::failOnState(State) -> State
{
switch (m_state) {
case State::ModuleHeader:
return fail("expected a module of at least ", moduleHeaderSize, " bytes");
case State::SectionID:
return fail("can't get section byte");
case State::SectionSize:
return fail("can't get ", m_section, " section's length");
case State::SectionPayload:
return fail(m_section, " section of size ", m_sectionLength, " would overflow Module's size");
case State::CodeSectionSize:
return fail("can't get Code section's count");
case State::FunctionSize:
return fail("can't get ", m_functionIndex, "th Code function's size");
case State::FunctionPayload:
return fail("Code function's size ", m_functionSize, " exceeds the module's remaining size");
case State::Finished:
case State::FatalError:
return m_state;
}
return m_state;
}
auto StreamingParser::finalize() -> State
{
addBytes(nullptr, 0, IsEndOfStream::Yes);
switch (m_state) {
case State::ModuleHeader:
case State::SectionSize:
case State::SectionPayload:
case State::CodeSectionSize:
case State::FunctionSize:
case State::FunctionPayload:
m_state = failOnState(m_state);
break;
case State::Finished:
case State::FatalError:
break;
case State::SectionID:
if (m_functionIndex != m_info->functions.size()) {
m_state = fail("Number of functions parsed (", m_functionCount, ") does not match the number of declared functions (", m_info->functions.size(), ")");
break;
}
if (m_remaining.isEmpty()) {
if (UNLIKELY(Options::useEagerWebAssemblyModuleHashing()))
m_info->nameSection->setHash(m_hasher.computeHexDigest());
m_state = State::Finished;
m_client.didFinishParsing();
} else
m_state = failOnState(State::SectionID);
break;
}
return m_state;
}
} } // namespace JSC::Wasm
#endif // ENABLE(WEBASSEMBLY)