// Copyright 2016 the V8 project 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 "src/factory.h" // for i::Factory::NewExternalStringFrom*Byte #include "src/feedback-vector-inl.h" // for include "src/factory.h" #include "src/objects-inl.h" #include "src/parsing/scanner-character-streams.h" #include "src/parsing/scanner.h" #include "test/cctest/cctest.h" namespace { // Implement ExternalSourceStream based on const char**. // This will take each string as one chunk. The last chunk must be empty. class ChunkSource : public v8::ScriptCompiler::ExternalSourceStream { public: explicit ChunkSource(const char** chunks) : current_(0) { do { chunks_.push_back( {reinterpret_cast(*chunks), strlen(*chunks)}); chunks++; } while (chunks_.back().len > 0); } explicit ChunkSource(const char* chunks) : current_(0) { do { chunks_.push_back( {reinterpret_cast(chunks), strlen(chunks)}); chunks += strlen(chunks) + 1; } while (chunks_.back().len > 0); } ChunkSource(const uint8_t* data, size_t len, bool extra_chunky) : current_(0) { // If extra_chunky, we'll use increasingly large chunk sizes. // If not, we'll have a single chunk of full length. size_t chunk_size = extra_chunky ? 1 : len; for (size_t i = 0; i < len; i += chunk_size, chunk_size++) { chunks_.push_back({data + i, i::Min(chunk_size, len - i)}); } chunks_.push_back({nullptr, 0}); } ~ChunkSource() {} bool SetBookmark() override { return false; } void ResetToBookmark() override {} size_t GetMoreData(const uint8_t** src) override { DCHECK_LT(current_, chunks_.size()); Chunk& next = chunks_[current_++]; uint8_t* chunk = new uint8_t[next.len]; i::MemMove(chunk, next.ptr, next.len); *src = chunk; return next.len; } private: struct Chunk { const uint8_t* ptr; size_t len; }; std::vector chunks_; size_t current_; }; class TestExternalResource : public v8::String::ExternalStringResource { public: explicit TestExternalResource(uint16_t* data, int length) : data_(data), length_(static_cast(length)) {} ~TestExternalResource() {} const uint16_t* data() const { return data_; } size_t length() const { return length_; } private: uint16_t* data_; size_t length_; }; class TestExternalOneByteResource : public v8::String::ExternalOneByteStringResource { public: TestExternalOneByteResource(const char* data, size_t length) : data_(data), length_(length) {} const char* data() const { return data_; } size_t length() const { return length_; } private: const char* data_; size_t length_; }; // A test string with all lengths of utf-8 encodings. const char unicode_utf8[] = "abc" // 3x ascii "\xc3\xa4" // a Umlaut, code point 228 "\xe2\xa8\xa0" // >> (math symbol), code point 10784 "\xf0\x9f\x92\xa9" // best character, code point 128169, // as utf-16 surrogates: 55357 56489 "def"; // 3x ascii again. const uint16_t unicode_ucs2[] = {97, 98, 99, 228, 10784, 55357, 56489, 100, 101, 102, 0}; } // anonymous namespace TEST(Utf8StreamAsciiOnly) { const char* chunks[] = {"abc", "def", "ghi", ""}; ChunkSource chunk_source(chunks); std::unique_ptr stream( v8::internal::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); // Read the data without dying. v8::internal::uc32 c; do { c = stream->Advance(); } while (c != v8::internal::Utf16CharacterStream::kEndOfInput); } TEST(Utf8StreamBOM) { // Construct test string w/ UTF-8 BOM (byte order mark) char data[3 + arraysize(unicode_utf8)] = {"\xef\xbb\xbf"}; strncpy(data + 3, unicode_utf8, arraysize(unicode_utf8)); const char* chunks[] = {data, "\0"}; ChunkSource chunk_source(chunks); std::unique_ptr stream( v8::internal::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); // Read the data without tripping over the BOM. for (size_t i = 0; unicode_ucs2[i]; i++) { CHECK_EQ(unicode_ucs2[i], stream->Advance()); } CHECK_EQ(v8::internal::Utf16CharacterStream::kEndOfInput, stream->Advance()); // Make sure seek works. stream->Seek(0); CHECK_EQ(unicode_ucs2[0], stream->Advance()); stream->Seek(5); CHECK_EQ(unicode_ucs2[5], stream->Advance()); // Try again, but make sure we have to seek 'backwards'. while (v8::internal::Utf16CharacterStream::kEndOfInput != stream->Advance()) { // Do nothing. We merely advance the stream to the end of its input. } stream->Seek(5); CHECK_EQ(unicode_ucs2[5], stream->Advance()); } TEST(Utf8SplitBOM) { // Construct chunks with a BOM split into two chunks. char partial_bom[] = "\xef\xbb"; char data[1 + arraysize(unicode_utf8)] = {"\xbf"}; strncpy(data + 1, unicode_utf8, arraysize(unicode_utf8)); { const char* chunks[] = {partial_bom, data, "\0"}; ChunkSource chunk_source(chunks); std::unique_ptr stream( v8::internal::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); // Read the data without tripping over the BOM. for (size_t i = 0; unicode_ucs2[i]; i++) { CHECK_EQ(unicode_ucs2[i], stream->Advance()); } } // And now with single-byte BOM chunks. char bom_byte_1[] = "\xef"; char bom_byte_2[] = "\xbb"; { const char* chunks[] = {bom_byte_1, bom_byte_2, data, "\0"}; ChunkSource chunk_source(chunks); std::unique_ptr stream( v8::internal::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); // Read the data without tripping over the BOM. for (size_t i = 0; unicode_ucs2[i]; i++) { CHECK_EQ(unicode_ucs2[i], stream->Advance()); } } } TEST(Utf8ChunkBoundaries) { // Test utf-8 parsing at chunk boundaries. // Split the test string at each byte and pass it to the stream. This way, // we'll have a split at each possible boundary. size_t len = strlen(unicode_utf8); char buffer[arraysize(unicode_utf8) + 3]; for (size_t i = 1; i < len; i++) { // Copy source string into buffer, splitting it at i. // Then add three chunks, 0..i-1, i..strlen-1, empty. strncpy(buffer, unicode_utf8, i); strncpy(buffer + i + 1, unicode_utf8 + i, len - i); buffer[i] = '\0'; buffer[len + 1] = '\0'; buffer[len + 2] = '\0'; const char* chunks[] = {buffer, buffer + i + 1, buffer + len + 2}; ChunkSource chunk_source(chunks); std::unique_ptr stream( v8::internal::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); for (size_t i = 0; unicode_ucs2[i]; i++) { CHECK_EQ(unicode_ucs2[i], stream->Advance()); } CHECK_EQ(v8::internal::Utf16CharacterStream::kEndOfInput, stream->Advance()); } } TEST(Utf8SingleByteChunks) { // Have each byte as a single-byte chunk. size_t len = strlen(unicode_utf8); char buffer[arraysize(unicode_utf8) + 4]; for (size_t i = 1; i < len - 1; i++) { // Copy source string into buffer, make a single-byte chunk at i. strncpy(buffer, unicode_utf8, i); strncpy(buffer + i + 3, unicode_utf8 + i + 1, len - i - 1); buffer[i] = '\0'; buffer[i + 1] = unicode_utf8[i]; buffer[i + 2] = '\0'; buffer[len + 2] = '\0'; buffer[len + 3] = '\0'; const char* chunks[] = {buffer, buffer + i + 1, buffer + i + 3, buffer + len + 3}; ChunkSource chunk_source(chunks); std::unique_ptr stream( v8::internal::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); for (size_t j = 0; unicode_ucs2[j]; j++) { CHECK_EQ(unicode_ucs2[j], stream->Advance()); } CHECK_EQ(v8::internal::Utf16CharacterStream::kEndOfInput, stream->Advance()); } } #define CHECK_EQU(v1, v2) CHECK_EQ(static_cast(v1), static_cast(v2)) void TestCharacterStream(const char* reference, i::Utf16CharacterStream* stream, unsigned length, unsigned start, unsigned end) { // Read streams one char at a time unsigned i; for (i = start; i < end; i++) { CHECK_EQU(i, stream->pos()); CHECK_EQU(reference[i], stream->Advance()); } CHECK_EQU(end, stream->pos()); // Pushback, re-read, pushback again. while (i > end / 4) { int32_t c0 = reference[i - 1]; CHECK_EQU(i, stream->pos()); stream->Back(); i--; CHECK_EQU(i, stream->pos()); int32_t c1 = stream->Advance(); i++; CHECK_EQU(i, stream->pos()); CHECK_EQ(c0, c1); stream->Back(); i--; CHECK_EQU(i, stream->pos()); } // Seek + read streams one char at a time. unsigned halfway = end / 2; stream->Seek(stream->pos() + halfway - i); for (i = halfway; i < end; i++) { CHECK_EQU(i, stream->pos()); CHECK_EQU(reference[i], stream->Advance()); } CHECK_EQU(i, stream->pos()); CHECK_LT(stream->Advance(), 0); // Seek back, then seek beyond end of stream. stream->Seek(start); if (start < length) { CHECK_EQU(stream->Advance(), reference[start]); } else { CHECK_LT(stream->Advance(), 0); } stream->Seek(length + 5); CHECK_LT(stream->Advance(), 0); } #undef CHECK_EQU void TestCharacterStreams(const char* one_byte_source, unsigned length, unsigned start = 0, unsigned end = 0) { if (end == 0) end = length; i::Isolate* isolate = CcTest::i_isolate(); i::Factory* factory = isolate->factory(); // 2-byte external string std::unique_ptr uc16_buffer(new i::uc16[length]); i::Vector two_byte_vector(uc16_buffer.get(), static_cast(length)); { for (unsigned i = 0; i < length; i++) { uc16_buffer[i] = static_cast(one_byte_source[i]); } TestExternalResource resource(uc16_buffer.get(), length); i::Handle uc16_string( factory->NewExternalStringFromTwoByte(&resource).ToHandleChecked()); std::unique_ptr uc16_stream( i::ScannerStream::For(uc16_string, start, end)); TestCharacterStream(one_byte_source, uc16_stream.get(), length, start, end); } // 1-byte external string i::Vector one_byte_vector = i::OneByteVector(one_byte_source, static_cast(length)); i::Handle one_byte_string = factory->NewStringFromOneByte(one_byte_vector).ToHandleChecked(); { TestExternalOneByteResource one_byte_resource(one_byte_source, length); i::Handle ext_one_byte_string( factory->NewExternalStringFromOneByte(&one_byte_resource) .ToHandleChecked()); std::unique_ptr one_byte_stream( i::ScannerStream::For(ext_one_byte_string, start, end)); TestCharacterStream(one_byte_source, one_byte_stream.get(), length, start, end); } // 1-byte generic i::String { std::unique_ptr string_stream( i::ScannerStream::For(one_byte_string, start, end)); TestCharacterStream(one_byte_source, string_stream.get(), length, start, end); } // 2-byte generic i::String { i::Handle two_byte_string = factory->NewStringFromTwoByte(two_byte_vector).ToHandleChecked(); std::unique_ptr two_byte_string_stream( i::ScannerStream::For(two_byte_string, start, end)); TestCharacterStream(one_byte_source, two_byte_string_stream.get(), length, start, end); } // Streaming has no notion of start/end, so let's skip streaming tests for // these cases. if (start != 0 || end != length) return; // 1-byte streaming stream, single + many chunks. { const uint8_t* data = one_byte_vector.begin(); const uint8_t* data_end = one_byte_vector.end(); ChunkSource single_chunk(data, data_end - data, false); std::unique_ptr one_byte_streaming_stream( i::ScannerStream::For(&single_chunk, v8::ScriptCompiler::StreamedSource::ONE_BYTE, nullptr)); TestCharacterStream(one_byte_source, one_byte_streaming_stream.get(), length, start, end); ChunkSource many_chunks(data, data_end - data, true); one_byte_streaming_stream.reset(i::ScannerStream::For( &many_chunks, v8::ScriptCompiler::StreamedSource::ONE_BYTE, nullptr)); TestCharacterStream(one_byte_source, one_byte_streaming_stream.get(), length, start, end); } // UTF-8 streaming stream, single + many chunks. { const uint8_t* data = one_byte_vector.begin(); const uint8_t* data_end = one_byte_vector.end(); ChunkSource chunks(data, data_end - data, false); std::unique_ptr utf8_streaming_stream( i::ScannerStream::For(&chunks, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); TestCharacterStream(one_byte_source, utf8_streaming_stream.get(), length, start, end); ChunkSource many_chunks(data, data_end - data, true); utf8_streaming_stream.reset(i::ScannerStream::For( &many_chunks, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); TestCharacterStream(one_byte_source, utf8_streaming_stream.get(), length, start, end); } // 2-byte streaming stream, single + many chunks. { const uint8_t* data = reinterpret_cast(two_byte_vector.begin()); const uint8_t* data_end = reinterpret_cast(two_byte_vector.end()); ChunkSource chunks(data, data_end - data, false); std::unique_ptr two_byte_streaming_stream( i::ScannerStream::For( &chunks, v8::ScriptCompiler::StreamedSource::TWO_BYTE, nullptr)); TestCharacterStream(one_byte_source, two_byte_streaming_stream.get(), length, start, end); ChunkSource many_chunks(data, data_end - data, true); two_byte_streaming_stream.reset(i::ScannerStream::For( &many_chunks, v8::ScriptCompiler::StreamedSource::TWO_BYTE, nullptr)); TestCharacterStream(one_byte_source, two_byte_streaming_stream.get(), length, start, end); } } TEST(CharacterStreams) { v8::Isolate* isolate = CcTest::isolate(); v8::HandleScope handles(isolate); v8::Local context = v8::Context::New(isolate); v8::Context::Scope context_scope(context); TestCharacterStreams("abcdefghi", 9); TestCharacterStreams("abc\0\n\r\x7f", 7); TestCharacterStreams("\0", 1); TestCharacterStreams("", 0); // 4k large buffer. char buffer[4096 + 1]; for (unsigned i = 0; i < arraysize(buffer); i++) { buffer[i] = static_cast(i & 0x7F); } buffer[arraysize(buffer) - 1] = '\0'; TestCharacterStreams(buffer, arraysize(buffer) - 1); TestCharacterStreams(buffer, arraysize(buffer) - 1, 576, 3298); } // Regression test for crbug.com/651333. Read invalid utf-8. TEST(Regress651333) { const uint8_t bytes[] = "A\xf1" "ad"; // Anad, with n == n-with-tilde. const uint16_t unicode[] = {65, 65533, 97, 100}; // Run the test for all sub-strings 0..N of bytes, to make sure we hit the // error condition in and at chunk boundaries. for (size_t len = 0; len < arraysize(bytes); len++) { // Read len bytes from bytes, and compare against the expected unicode // characters. Expect kBadChar ( == Unicode replacement char == code point // 65533) instead of the incorrectly coded Latin1 char. ChunkSource chunks(bytes, len, false); std::unique_ptr stream(i::ScannerStream::For( &chunks, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); for (size_t i = 0; i < len; i++) { CHECK_EQ(unicode[i], stream->Advance()); } CHECK_EQ(i::Utf16CharacterStream::kEndOfInput, stream->Advance()); } } TEST(Regress6377) { const char* cases[] = { "\xf0\x90\0" // first chunk - start of 4-byte seq "\x80\x80" // second chunk - end of 4-byte seq "a\0", // and an 'a' "\xe0\xbf\0" // first chunk - start of 3-byte seq "\xbf" // second chunk - one-byte end of 3-byte seq "a\0", // and an 'a' "\xc3\0" // first chunk - start of 2-byte seq "\xbf" // second chunk - end of 2-byte seq "a\0", // and an 'a' "\xf0\x90\x80\0" // first chunk - start of 4-byte seq "\x80" // second chunk - one-byte end of 4-byte seq "a\xc3\0" // and an 'a' + start of 2-byte seq "\xbf\0", // third chunk - end of 2-byte seq }; const std::vector> unicode = { {0xd800, 0xdc00, 97}, {0xfff, 97}, {0xff, 97}, {0xd800, 0xdc00, 97, 0xff}, }; CHECK_EQ(unicode.size(), sizeof(cases) / sizeof(cases[0])); for (size_t c = 0; c < unicode.size(); ++c) { ChunkSource chunk_source(cases[c]); std::unique_ptr stream(i::ScannerStream::For( &chunk_source, v8::ScriptCompiler::StreamedSource::UTF8, nullptr)); for (size_t i = 0; i < unicode[c].size(); i++) { CHECK_EQ(unicode[c][i], stream->Advance()); } CHECK_EQ(i::Utf16CharacterStream::kEndOfInput, stream->Advance()); stream->Seek(0); for (size_t i = 0; i < unicode[c].size(); i++) { CHECK_EQ(unicode[c][i], stream->Advance()); } CHECK_EQ(i::Utf16CharacterStream::kEndOfInput, stream->Advance()); } }