v8/test/unittests/wasm/module-decoder-unittest.cc

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// Copyright 2015 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 "test/unittests/test-utils.h"
#include "src/handles.h"
#include "src/objects-inl.h"
#include "src/wasm/module-decoder.h"
#include "src/wasm/wasm-features.h"
#include "src/wasm/wasm-limits.h"
#include "src/wasm/wasm-opcodes.h"
#include "test/common/wasm/flag-utils.h"
#include "test/common/wasm/wasm-macro-gen.h"
#include "testing/gmock-support.h"
using testing::HasSubstr;
namespace v8 {
namespace internal {
namespace wasm {
namespace module_decoder_unittest {
#define WASM_INIT_EXPR_I32V_1(val) WASM_I32V_1(val), kExprEnd
#define WASM_INIT_EXPR_I32V_2(val) WASM_I32V_2(val), kExprEnd
#define WASM_INIT_EXPR_I32V_3(val) WASM_I32V_3(val), kExprEnd
#define WASM_INIT_EXPR_I32V_4(val) WASM_I32V_4(val), kExprEnd
#define WASM_INIT_EXPR_I32V_5(val) WASM_I32V_5(val), kExprEnd
#define WASM_INIT_EXPR_F32(val) WASM_F32(val), kExprEnd
#define WASM_INIT_EXPR_I64(val) WASM_I64(val), kExprEnd
#define WASM_INIT_EXPR_F64(val) WASM_F64(val), kExprEnd
#define WASM_INIT_EXPR_ANYREF WASM_REF_NULL, kExprEnd
#define WASM_INIT_EXPR_GLOBAL(index) WASM_GET_GLOBAL(index), kExprEnd
#define EMPTY_BODY 0
#define NOP_BODY 2, 0, kExprNop
#define SIG_ENTRY_i_i SIG_ENTRY_x_x(kLocalI32, kLocalI32)
#define UNKNOWN_SECTION(size) 0, U32V_1(size + 5), ADD_COUNT('l', 'u', 'l', 'z')
template <typename... Args>
std::integral_constant<size_t, sizeof...(Args)> CountArgsHelper(Args...);
#define COUNT_ARGS(...) (decltype(CountArgsHelper(__VA_ARGS__))::value)
template <size_t num>
struct CheckLEB1 : std::integral_constant<size_t, num> {
static_assert(num <= I32V_MAX(1), "LEB range check");
};
#define CHECK_LEB1(num) CheckLEB1<num>::value
#define ADD_COUNT(...) CHECK_LEB1(COUNT_ARGS(__VA_ARGS__)), __VA_ARGS__
#define SECTION(name, ...) k##name##SectionCode, ADD_COUNT(__VA_ARGS__)
#define SIGNATURES_SECTION(count, ...) SECTION(Type, U32V_1(count), __VA_ARGS__)
#define FUNCTION_SIGNATURES_SECTION(count, ...) \
SECTION(Function, U32V_1(count), __VA_ARGS__)
#define FOO_STRING ADD_COUNT('f', 'o', 'o')
#define NO_LOCAL_NAMES 0
#define EMPTY_SIGNATURES_SECTION SECTION(Type, ENTRY_COUNT(0))
#define EMPTY_FUNCTION_SIGNATURES_SECTION SECTION(Function, ENTRY_COUNT(0))
#define EMPTY_FUNCTION_BODIES_SECTION SECTION(Code, ENTRY_COUNT(0))
#define SECTION_NAMES(...) \
SECTION(Unknown, ADD_COUNT('n', 'a', 'm', 'e'), ##__VA_ARGS__)
#define EMPTY_NAMES_SECTION SECTION_NAMES()
#define SECTION_SRC_MAP(...) \
SECTION(Unknown, \
ADD_COUNT('s', 'o', 'u', 'r', 'c', 'e', 'M', 'a', 'p', 'p', 'i', \
'n', 'g', 'U', 'R', 'L'), \
ADD_COUNT(__VA_ARGS__))
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
#define FAIL_IF_NO_EXPERIMENTAL_EH(data) \
do { \
ModuleResult result = DecodeModule((data), (data) + sizeof((data))); \
EXPECT_FALSE(result.ok()); \
} while (false)
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
#define X1(...) __VA_ARGS__
#define X2(...) __VA_ARGS__, __VA_ARGS__
#define X3(...) __VA_ARGS__, __VA_ARGS__, __VA_ARGS__
#define X4(...) __VA_ARGS__, __VA_ARGS__, __VA_ARGS__, __VA_ARGS__
#define ONE_EMPTY_FUNCTION(sig_index) \
SECTION(Function, ENTRY_COUNT(1), X1(sig_index))
#define TWO_EMPTY_FUNCTIONS(sig_index) \
SECTION(Function, ENTRY_COUNT(2), X2(sig_index))
#define THREE_EMPTY_FUNCTIONS(sig_index) \
SECTION(Function, ENTRY_COUNT(3), X3(sig_index))
#define FOUR_EMPTY_FUNCTIONS(sig_index) \
SECTION(Function, ENTRY_COUNT(4), X4(sig_index))
#define ONE_EMPTY_BODY SECTION(Code, ENTRY_COUNT(1), X1(EMPTY_BODY))
#define TWO_EMPTY_BODIES SECTION(Code, ENTRY_COUNT(2), X2(EMPTY_BODY))
#define THREE_EMPTY_BODIES SECTION(Code, ENTRY_COUNT(3), X3(EMPTY_BODY))
#define FOUR_EMPTY_BODIES SECTION(Code, ENTRY_COUNT(4), X4(EMPTY_BODY))
#define SIGNATURES_SECTION_VOID_VOID \
SECTION(Type, ENTRY_COUNT(1), SIG_ENTRY_v_v)
#define LINEAR_MEMORY_INDEX_0 0
#define EXCEPTION_ENTRY(sig_index) U32V_1(kExceptionAttribute), sig_index
#define EXPECT_VERIFIES(data) \
do { \
ModuleResult result = DecodeModule(data, data + sizeof(data)); \
EXPECT_TRUE(result.ok()); \
} while (false)
#define EXPECT_FAILURE_LEN(data, length) \
do { \
ModuleResult result = DecodeModule(data, data + length); \
EXPECT_FALSE(result.ok()); \
} while (false)
#define EXPECT_FAILURE(data) EXPECT_FAILURE_LEN(data, sizeof(data))
#define EXPECT_OFF_END_FAILURE(data, min) \
do { \
STATIC_ASSERT(min < arraysize(data)); \
for (size_t length = min; length < arraysize(data); length++) { \
EXPECT_FAILURE_LEN(data, length); \
} \
} while (false)
#define EXPECT_OK(result) \
do { \
EXPECT_TRUE(result.ok()); \
if (!result.ok()) return; \
} while (false)
#define EXPECT_NOT_OK(result, msg) \
do { \
EXPECT_FALSE(result.ok()); \
EXPECT_THAT(result.error().message(), HasSubstr(msg)); \
} while (false)
static size_t SizeOfVarInt(size_t value) {
size_t size = 0;
do {
size++;
value = value >> 7;
} while (value > 0);
return size;
}
struct ValueTypePair {
uint8_t code;
ValueType type;
} kValueTypes[] = {
{kLocalI32, kWasmI32}, // --
{kLocalI64, kWasmI64}, // --
{kLocalF32, kWasmF32}, // --
{kLocalF64, kWasmF64}, // --
{kLocalAnyFunc, kWasmAnyFunc}, // --
{kLocalAnyRef, kWasmAnyRef} // --
};
class WasmModuleVerifyTest : public TestWithIsolateAndZone {
public:
WasmFeatures enabled_features_;
ModuleResult DecodeModule(const byte* module_start, const byte* module_end) {
// Add the wasm magic and version number automatically.
size_t size = static_cast<size_t>(module_end - module_start);
byte header[] = {WASM_MODULE_HEADER};
size_t total = sizeof(header) + size;
auto temp = new byte[total];
memcpy(temp, header, sizeof(header));
if (size > 0) {
memcpy(temp + sizeof(header), module_start, size);
}
ModuleResult result = DecodeWasmModule(
enabled_features_, temp, temp + total, false, kWasmOrigin,
isolate()->counters(), isolate()->allocator());
delete[] temp;
return result;
}
ModuleResult DecodeModuleNoHeader(const byte* module_start,
const byte* module_end) {
return DecodeWasmModule(enabled_features_, module_start, module_end, false,
kWasmOrigin, isolate()->counters(),
isolate()->allocator());
}
};
namespace {
class EnableBoolScope {
public:
bool prev_;
bool* ptr_;
explicit EnableBoolScope(bool* ptr, bool val = true)
: prev_(*ptr), ptr_(ptr) {
*ptr = val;
}
~EnableBoolScope() { *ptr_ = prev_; }
};
#define WASM_FEATURE_SCOPE(feat) \
EnableBoolScope feat##_scope(&this->enabled_features_.feat)
#define WASM_FEATURE_SCOPE_VAL(feat, val) \
EnableBoolScope feat##_scope(&this->enabled_features_.feat, val)
} // namespace
TEST_F(WasmModuleVerifyTest, WrongMagic) {
for (uint32_t x = 1; x; x <<= 1) {
const byte data[] = {U32_LE(kWasmMagic ^ x), U32_LE(kWasmVersion)};
ModuleResult result = DecodeModuleNoHeader(data, data + sizeof(data));
EXPECT_FALSE(result.ok());
}
}
TEST_F(WasmModuleVerifyTest, WrongVersion) {
for (uint32_t x = 1; x; x <<= 1) {
const byte data[] = {U32_LE(kWasmMagic), U32_LE(kWasmVersion ^ x)};
ModuleResult result = DecodeModuleNoHeader(data, data + sizeof(data));
EXPECT_FALSE(result.ok());
}
}
TEST_F(WasmModuleVerifyTest, DecodeEmpty) {
ModuleResult result = DecodeModule(nullptr, nullptr);
EXPECT_TRUE(result.ok());
}
TEST_F(WasmModuleVerifyTest, OneGlobal) {
static const byte data[] = {
SECTION(Global, // --
ENTRY_COUNT(1), // --
kLocalI32, // local type
0, // immutable
WASM_INIT_EXPR_I32V_1(13)) // init
};
{
// Should decode to exactly one global.
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(0u, result.value()->data_segments.size());
const WasmGlobal* global = &result.value()->globals.back();
EXPECT_EQ(kWasmI32, global->type);
EXPECT_EQ(0u, global->offset);
EXPECT_FALSE(global->mutability);
EXPECT_EQ(WasmInitExpr::kI32Const, global->init.kind);
EXPECT_EQ(13, global->init.val.i32_const);
}
EXPECT_OFF_END_FAILURE(data, 1);
}
TEST_F(WasmModuleVerifyTest, AnyRefGlobal) {
WASM_FEATURE_SCOPE(anyref);
static const byte data[] = {
SECTION(Global, // --
ENTRY_COUNT(1), // --
kLocalAnyRef, // local type
0, // immutable
WASM_INIT_EXPR_ANYREF) // init
};
{
// Should decode to exactly one global.
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(0u, result.value()->data_segments.size());
const WasmGlobal* global = &result.value()->globals.back();
EXPECT_EQ(kWasmAnyRef, global->type);
EXPECT_FALSE(global->mutability);
EXPECT_EQ(WasmInitExpr::kAnyRefConst, global->init.kind);
}
}
TEST_F(WasmModuleVerifyTest, AnyRefGlobalWithGlobalInit) {
WASM_FEATURE_SCOPE(anyref);
static const byte data[] = {
SECTION(Import, // --
ENTRY_COUNT(1), // number of imports
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // global name
kExternalGlobal, // import kind
kLocalAnyRef, // type
0), // mutability
SECTION(Global, // --
ENTRY_COUNT(1),
kLocalAnyRef, // local type
0, // immutable
WASM_INIT_EXPR_GLOBAL(0)),
};
{
// Should decode to exactly one global.
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(2u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(0u, result.value()->data_segments.size());
const WasmGlobal* global = &result.value()->globals.back();
EXPECT_EQ(kWasmAnyRef, global->type);
EXPECT_FALSE(global->mutability);
EXPECT_EQ(WasmInitExpr::kGlobalIndex, global->init.kind);
}
}
TEST_F(WasmModuleVerifyTest, Global_invalid_type) {
static const byte data[] = {
SECTION(Global, // --
ENTRY_COUNT(1), // --
64, // invalid memory type
1, // mutable
WASM_INIT_EXPR_I32V_1(33)), // init
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, Global_invalid_type2) {
static const byte data[] = {
SECTION(Global, // --
ENTRY_COUNT(1), // --
kLocalVoid, // invalid memory type
1, // mutable
WASM_INIT_EXPR_I32V_1(33)), // init
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ZeroGlobals) {
static const byte data[] = {SECTION(Global, ENTRY_COUNT(0))};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
}
TEST_F(WasmModuleVerifyTest, ExportMutableGlobal) {
{
static const byte data[] = {
SECTION(Global, // --
ENTRY_COUNT(1), // --
kLocalI32, // local type
0, // immutable
WASM_INIT_EXPR_I32V_1(13)), // init
SECTION(Export, // --
ENTRY_COUNT(1), // export count
ADD_COUNT('n', 'a', 'm', 'e'), // name
kExternalGlobal, // global
0), // global index
};
EXPECT_VERIFIES(data);
}
{
static const byte data[] = {
SECTION(Global, // --
ENTRY_COUNT(1), // --
kLocalI32, // local type
1, // mutable
WASM_INIT_EXPR_I32V_1(13)), // init
SECTION(Export, // --
ENTRY_COUNT(1), // export count
ADD_COUNT('n', 'a', 'm', 'e'), // name
kExternalGlobal, // global
0), // global index
};
EXPECT_VERIFIES(data);
}
}
static void AppendUint32v(std::vector<byte>& buffer, uint32_t val) {
while (true) {
uint32_t next = val >> 7;
uint32_t out = val & 0x7F;
if (next) {
buffer.push_back(static_cast<byte>(0x80 | out));
val = next;
} else {
buffer.push_back(static_cast<byte>(out));
break;
}
}
}
TEST_F(WasmModuleVerifyTest, NGlobals) {
static const byte data[] = {
kLocalF32, // memory type
0, // immutable
WASM_INIT_EXPR_F32(7.7), // init
};
for (uint32_t i = 0; i < kV8MaxWasmGlobals; i = i * 13 + 1) {
std::vector<byte> buffer;
size_t size = SizeOfVarInt(i) + i * sizeof(data);
const byte globals[] = {kGlobalSectionCode, U32V_5(size)};
for (size_t g = 0; g != sizeof(globals); ++g) {
buffer.push_back(globals[g]);
}
AppendUint32v(buffer, i); // Number of globals.
for (uint32_t j = 0; j < i; j++) {
buffer.insert(buffer.end(), data, data + sizeof(data));
}
ModuleResult result = DecodeModule(&buffer[0], &buffer[0] + buffer.size());
EXPECT_OK(result);
}
}
TEST_F(WasmModuleVerifyTest, GlobalWithInvalidMemoryType) {
static const byte data[] = {SECTION(Global, // --
ENTRY_COUNT(1), // --
33, // memory type
0, // exported
WASM_INIT_EXPR_I32V_1(1))};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, TwoGlobals) {
static const byte data[] = {SECTION(Global, // --
ENTRY_COUNT(2), // --
kLocalF32, // type
0, // immutable
WASM_INIT_EXPR_F32(22.0), // --
kLocalF64, // type
1, // mutable
WASM_INIT_EXPR_F64(23.0))}; // --
{
// Should decode to exactly two globals.
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(2u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(0u, result.value()->data_segments.size());
const WasmGlobal* g0 = &result.value()->globals[0];
EXPECT_EQ(kWasmF32, g0->type);
EXPECT_EQ(0u, g0->offset);
EXPECT_FALSE(g0->mutability);
EXPECT_EQ(WasmInitExpr::kF32Const, g0->init.kind);
const WasmGlobal* g1 = &result.value()->globals[1];
EXPECT_EQ(kWasmF64, g1->type);
EXPECT_EQ(8u, g1->offset);
EXPECT_TRUE(g1->mutability);
EXPECT_EQ(WasmInitExpr::kF64Const, g1->init.kind);
}
EXPECT_OFF_END_FAILURE(data, 1);
}
TEST_F(WasmModuleVerifyTest, ZeroExceptions) {
static const byte data[] = {SECTION(Exception, ENTRY_COUNT(0))};
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(0u, result.value()->exceptions.size());
}
TEST_F(WasmModuleVerifyTest, OneI32Exception) {
static const byte data[] = {
SECTION(Type, ENTRY_COUNT(1), SIG_ENTRY_v_x(kLocalI32)), // sig#0 (i32)
SECTION(Exception, ENTRY_COUNT(1),
EXCEPTION_ENTRY(SIG_INDEX(0)))}; // except[0] (sig#0)
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->exceptions.size());
const WasmException& e0 = result.value()->exceptions.front();
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
EXPECT_EQ(1u, e0.sig->parameter_count());
EXPECT_EQ(kWasmI32, e0.sig->GetParam(0));
}
TEST_F(WasmModuleVerifyTest, TwoExceptions) {
static const byte data[] = {
SECTION(Type, ENTRY_COUNT(2),
SIG_ENTRY_v_x(kLocalI32), // sig#0 (i32)
SIG_ENTRY_v_xx(kLocalF32, kLocalI64)), // sig#1 (f32, i64)
SECTION(Exception, ENTRY_COUNT(2),
EXCEPTION_ENTRY(SIG_INDEX(1)), // except[0] (sig#1)
EXCEPTION_ENTRY(SIG_INDEX(0)))}; // except[1] (sig#0)
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(2u, result.value()->exceptions.size());
const WasmException& e0 = result.value()->exceptions.front();
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
EXPECT_EQ(2u, e0.sig->parameter_count());
EXPECT_EQ(kWasmF32, e0.sig->GetParam(0));
EXPECT_EQ(kWasmI64, e0.sig->GetParam(1));
const WasmException& e1 = result.value()->exceptions.back();
EXPECT_EQ(kWasmI32, e1.sig->GetParam(0));
}
TEST_F(WasmModuleVerifyTest, Exception_invalid_sig_index) {
static const byte data[] = {
SIGNATURES_SECTION_VOID_VOID,
SECTION(Exception, ENTRY_COUNT(1),
EXCEPTION_ENTRY(
SIG_INDEX(23)))}; // except[0] (sig#23 [out-of-bounds])
FAIL_IF_NO_EXPERIMENTAL_EH(data);
// Should fail decoding exception section.
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "signature index 23 out of bounds");
}
TEST_F(WasmModuleVerifyTest, Exception_invalid_sig_return) {
static const byte data[] = {
SECTION(Type, ENTRY_COUNT(1), SIG_ENTRY_i_i),
SECTION(Exception, ENTRY_COUNT(1),
EXCEPTION_ENTRY(
SIG_INDEX(0)))}; // except[0] (sig#0 [invalid-return-type])
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
FAIL_IF_NO_EXPERIMENTAL_EH(data);
Reland "Start migration of try/throw/catch to match proposal." This is a reland of 470a10015d6dc2935e3f21bd6355ab524776f31d Original change's description: > Start migration of try/throw/catch to match proposal. > > This CL does the first baby steps on moving the current (experimental) > exception handling to match that of the WebAssembly proposal. > > It does the following: > > 1) Use exception tags instead of integers. > > 2) Only handle empty exception signatures (i.e. no values associated > with the exception tag. > > 3) Only handle one catch clause. > > 4) Be sure to rethrow the exception if the exception tag does not match. > > Note: There are many things that need to be fixed, and are too > numerous to list here. However, the code should have TODO's on each > missing parts of the implementation. > > Also note that the code currently doesn't handle nested catch blocks, > nor does it change the throw value being an integer. Rather, the > integer value is still being thrown, and currently is the exception > tag. Therefore, we don't build an exception object. This is the reason > why this CL doesn't handle exceptions that pass values. > > Also, the current implementation still can't handle multiple modules > because tag resolution (between) modules has not be implemented yet. > > Bug: v8:6577 > Change-Id: Id6d08b641b3c42d1eec7d4db582f2dab35406114 > Reviewed-on: https://chromium-review.googlesource.com/591910 > Reviewed-by: Brad Nelson <bradnelson@chromium.org> > Commit-Queue: Karl Schimpf <kschimpf@chromium.org> > Cr-Commit-Position: refs/heads/master@{#47087} Bug: v8:6577 Change-Id: I41c3309827c292cb787681a95aaef7cf9b931835 Reviewed-on: https://chromium-review.googlesource.com/598968 Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Reviewed-by: Brad Nelson <bradnelson@chromium.org> Commit-Queue: Brad Nelson <bradnelson@chromium.org> Cr-Commit-Position: refs/heads/master@{#47100}
2017-08-01 20:56:39 +00:00
// Should fail decoding exception section.
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "exception signature 0 has non-void return");
}
TEST_F(WasmModuleVerifyTest, Exception_invalid_attribute) {
static const byte data[] = {
SECTION(Type, ENTRY_COUNT(1), SIG_ENTRY_i_i),
SECTION(Exception, ENTRY_COUNT(1), 23,
SIG_INDEX(0))}; // except[0] (sig#0) [invalid-attribute]
FAIL_IF_NO_EXPERIMENTAL_EH(data);
// Should fail decoding exception section.
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "exception attribute 23 not supported");
}
TEST_F(WasmModuleVerifyTest, ExceptionSectionCorrectPlacement) {
static const byte data[] = {SECTION(Import, ENTRY_COUNT(0)),
SECTION(Exception, ENTRY_COUNT(0)),
SECTION(Export, ENTRY_COUNT(0))};
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
}
TEST_F(WasmModuleVerifyTest, ExceptionSectionAfterExport) {
static const byte data[] = {SECTION(Export, ENTRY_COUNT(0)),
SECTION(Exception, ENTRY_COUNT(0))};
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result,
"The Exception section must appear before the Export section");
}
TEST_F(WasmModuleVerifyTest, ExceptionSectionBeforeGlobal) {
static const byte data[] = {SECTION(Exception, ENTRY_COUNT(0)),
SECTION(Global, ENTRY_COUNT(0))};
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "unexpected section <Global>");
}
TEST_F(WasmModuleVerifyTest, ExceptionSectionAfterMemoryBeforeGlobal) {
STATIC_ASSERT(kMemorySectionCode + 1 == kGlobalSectionCode);
static const byte data[] = {SECTION(Memory, ENTRY_COUNT(0)),
SECTION(Exception, ENTRY_COUNT(0)),
SECTION(Global, ENTRY_COUNT(0))};
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "unexpected section <Global>");
}
TEST_F(WasmModuleVerifyTest, ExceptionImport) {
static const byte data[] = {
SIGNATURES_SECTION_VOID_VOID,
SECTION(Import, // section header
ENTRY_COUNT(1), // number of imports
ADD_COUNT('m'), // module name
ADD_COUNT('e', 'x'), // exception name
kExternalException, // import kind
EXCEPTION_ENTRY(SIG_INDEX(0)))}; // except[0] (sig#0)
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->exceptions.size());
EXPECT_EQ(1u, result.value()->import_table.size());
}
TEST_F(WasmModuleVerifyTest, ExceptionExport) {
static const byte data[] = {
SIGNATURES_SECTION_VOID_VOID,
SECTION(Exception, ENTRY_COUNT(1),
EXCEPTION_ENTRY(SIG_INDEX(0))), // except[0] (sig#0)
SECTION(Export, ENTRY_COUNT(1), // --
NO_NAME, // --
kExternalException, // --
EXCEPTION_INDEX(0))};
FAIL_IF_NO_EXPERIMENTAL_EH(data);
WASM_FEATURE_SCOPE(eh);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->exceptions.size());
EXPECT_EQ(1u, result.value()->export_table.size());
}
TEST_F(WasmModuleVerifyTest, OneSignature) {
{
static const byte data[] = {SIGNATURES_SECTION_VOID_VOID};
EXPECT_VERIFIES(data);
}
{
static const byte data[] = {SECTION(Type, ENTRY_COUNT(1), SIG_ENTRY_i_i)};
EXPECT_VERIFIES(data);
}
}
TEST_F(WasmModuleVerifyTest, MultipleSignatures) {
static const byte data[] = {
SECTION(
Type, // --
ENTRY_COUNT(3), // --
SIG_ENTRY_v_v, // void -> void
SIG_ENTRY_x_x(kLocalI32, kLocalF32), // f32 -> i32
SIG_ENTRY_x_xx(kLocalI32, kLocalF64, kLocalF64)), // f64,f64 -> i32
};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(3u, result.value()->signatures.size());
if (result.value()->signatures.size() == 3) {
EXPECT_EQ(0u, result.value()->signatures[0]->return_count());
EXPECT_EQ(1u, result.value()->signatures[1]->return_count());
EXPECT_EQ(1u, result.value()->signatures[2]->return_count());
EXPECT_EQ(0u, result.value()->signatures[0]->parameter_count());
EXPECT_EQ(1u, result.value()->signatures[1]->parameter_count());
EXPECT_EQ(2u, result.value()->signatures[2]->parameter_count());
}
EXPECT_OFF_END_FAILURE(data, 1);
}
TEST_F(WasmModuleVerifyTest, DataSegmentWithImmutableImportedGlobal) {
// Import 2 globals so that we can initialize data with a global index != 0.
const byte data[] = {
SECTION(Import, // section header
ENTRY_COUNT(2), // number of imports
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // global name
kExternalGlobal, // import kind
kLocalI32, // type
0, // mutability
ADD_COUNT('n'), // module name
ADD_COUNT('g'), // global name
kExternalGlobal, // import kind
kLocalI32, // type
0), // mutability
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_GLOBAL(1), // dest addr
U32V_1(3), // source size
'a', 'b', 'c') // data bytes
};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
WasmInitExpr expr = result.value()->data_segments.back().dest_addr;
EXPECT_EQ(WasmInitExpr::kGlobalIndex, expr.kind);
EXPECT_EQ(1u, expr.val.global_index);
}
TEST_F(WasmModuleVerifyTest, DataSegmentWithMutableImportedGlobal) {
// Only an immutable imported global can be used as an init_expr.
const byte data[] = {
SECTION(Import, // section header
ENTRY_COUNT(1), // number of imports
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // global name
kExternalGlobal, // import kind
kLocalI32, // type
1), // mutability
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_GLOBAL(0), // dest addr
U32V_1(3), // source size
'a', 'b', 'c') // data bytes
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, DataSegmentWithImmutableGlobal) {
// Only an immutable imported global can be used as an init_expr.
const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Global, ENTRY_COUNT(1),
kLocalI32, // local type
0, // immutable
WASM_INIT_EXPR_I32V_3(0x9BBAA)), // init
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_GLOBAL(0), // dest addr
U32V_1(3), // source size
'a', 'b', 'c') // data bytes
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, OneDataSegment) {
const byte kDataSegmentSourceOffset = 24;
const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_I32V_3(0x9BBAA), // dest addr
U32V_1(3), // source size
'a', 'b', 'c') // data bytes
};
{
EXPECT_VERIFIES(data);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(0u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(1u, result.value()->data_segments.size());
const WasmDataSegment* segment = &result.value()->data_segments.back();
EXPECT_EQ(WasmInitExpr::kI32Const, segment->dest_addr.kind);
EXPECT_EQ(0x9BBAA, segment->dest_addr.val.i32_const);
EXPECT_EQ(kDataSegmentSourceOffset, segment->source.offset());
EXPECT_EQ(3u, segment->source.length());
}
EXPECT_OFF_END_FAILURE(data, 14);
}
TEST_F(WasmModuleVerifyTest, TwoDataSegments) {
const byte kDataSegment0SourceOffset = 24;
const byte kDataSegment1SourceOffset = kDataSegment0SourceOffset + 11;
const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Data,
ENTRY_COUNT(2), // segment count
LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_I32V_3(0x7FFEE), // #0: dest addr
U32V_1(4), // source size
1, 2, 3, 4, // data bytes
LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_I32V_3(0x6DDCC), // #1: dest addr
U32V_1(10), // source size
1, 2, 3, 4, 5, 6, 7, 8, 9, 10) // data bytes
};
{
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(0u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(2u, result.value()->data_segments.size());
const WasmDataSegment* s0 = &result.value()->data_segments[0];
const WasmDataSegment* s1 = &result.value()->data_segments[1];
EXPECT_EQ(WasmInitExpr::kI32Const, s0->dest_addr.kind);
EXPECT_EQ(0x7FFEE, s0->dest_addr.val.i32_const);
EXPECT_EQ(kDataSegment0SourceOffset, s0->source.offset());
EXPECT_EQ(4u, s0->source.length());
EXPECT_EQ(WasmInitExpr::kI32Const, s1->dest_addr.kind);
EXPECT_EQ(0x6DDCC, s1->dest_addr.val.i32_const);
EXPECT_EQ(kDataSegment1SourceOffset, s1->source.offset());
EXPECT_EQ(10u, s1->source.length());
}
EXPECT_OFF_END_FAILURE(data, 14);
}
TEST_F(WasmModuleVerifyTest, DataWithoutMemory) {
const byte data[] = {
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_I32V_3(0x9BBAA), // dest addr
U32V_1(3), // source size
'a', 'b', 'c') // data bytes
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, MaxMaximumMemorySize) {
{
const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 0, U32V_3(65536))};
EXPECT_VERIFIES(data);
}
{
const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 0, U32V_3(65537))};
EXPECT_FAILURE(data);
}
}
TEST_F(WasmModuleVerifyTest, DataSegment_wrong_init_type) {
const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0,
WASM_INIT_EXPR_F64(9.9), // dest addr
U32V_1(3), // source size
'a', 'b', 'c') // data bytes
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, DataSegmentEndOverflow) {
const byte data[] = {
SECTION(Memory, // memory section
ENTRY_COUNT(1), kHasMaximumFlag, 28, 28),
SECTION(Data, // data section
ENTRY_COUNT(1), // one entry
LINEAR_MEMORY_INDEX_0, // mem index
WASM_INIT_EXPR_I32V_1(0), // offset
U32V_5(0xFFFFFFFF)) // size
};
EXPECT_FAILURE(data);
}
Revert of [wasm] Master CL for Binary 0xC changes. (patchset #26 id:490001 of https://codereview.chromium.org/2345593003/ ) Reason for revert: Main suspect for tsan: https://build.chromium.org/p/client.v8/builders/V8%20Linux64%20TSAN/builds/11893 Also changes layout tests: https://build.chromium.org/p/client.v8.fyi/builders/V8-Blink%20Linux%2064/builds/10036 +mips builder: https://build.chromium.org/p/client.v8.ports/builders/V8%20Mips%20-%20builder/builds/4032 Original issue's description: > [wasm] Master CL for Binary 0xC changes. > > [0xC] Convert to stack machine semantics. > [0xC] Use section codes instead of names. > [0xC] Add elements section decoding. > [0xC] Decoding of globals section. > [0xC] Decoding of memory section. > [0xC] Decoding of imports section. > [0xC] Decoding of exports section. > [0xC] Decoding of data section. > [0xC] Remove CallImport bytecode. > [0xC] Function bodies have an implicit block. > [0xC] Remove the bottom label from loops. > [0xC] Add signatures to blocks. > [0xC] Remove arities from branches. > Add tests for init expression decoding. > Rework compilation of import wrappers and how they are patched. > Rework function indices in debugging. > Fix ASM->WASM builder for stack machine. > Reorganize asm.js foreign functions due to import indices change. > > R=ahaas@chromium.org,rossberg@chromium.org,bradnelson@chromium.org > BUG=chromium:575167 > LOG=Y > > Committed: https://crrev.com/76eb976a67273b8c03c744f64ad850b0432554b9 > Cr-Commit-Position: refs/heads/master@{#39678} TBR=ahaas@chromium.org,bradnelson@chromium.org,mtrofin@chromium.org,rossberg@chromium.org,bradnelson@google.com,titzer@chromium.org # Skipping CQ checks because original CL landed less than 1 days ago. NOPRESUBMIT=true NOTREECHECKS=true NOTRY=true BUG=chromium:575167 Review-Url: https://codereview.chromium.org/2361053004 Cr-Commit-Position: refs/heads/master@{#39685}
2016-09-23 17:58:07 +00:00
TEST_F(WasmModuleVerifyTest, OneIndirectFunction) {
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(1), kLocalAnyFunc, 0, 1),
// code ----------------------------------------------------------------
ONE_EMPTY_BODY};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
if (result.ok()) {
EXPECT_EQ(1u, result.value()->signatures.size());
EXPECT_EQ(1u, result.value()->functions.size());
EXPECT_EQ(1u, result.value()->tables.size());
EXPECT_EQ(1u, result.value()->tables[0].initial_size);
}
}
TEST_F(WasmModuleVerifyTest, ElementSectionWithInternalTable) {
static const byte data[] = {
// table ---------------------------------------------------------------
SECTION(Table, ENTRY_COUNT(1), kLocalAnyFunc, 0, 1),
// elements ------------------------------------------------------------
SECTION(Element, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionWithImportedTable) {
static const byte data[] = {
// imports -------------------------------------------------------------
SECTION(Import, ENTRY_COUNT(1),
ADD_COUNT('m'), // module name
ADD_COUNT('t'), // table name
kExternalTable, // import kind
kLocalAnyFunc, // elem_type
0, // no maximum field
1), // initial size
// elements ------------------------------------------------------------
SECTION(Element, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionWithoutTable) {
// Test that an element section without a table causes a validation error.
static const byte data[] = {
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(1), // entry count
0, // table index
0, // offset
0) // number of elements
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, Regression_735887) {
// Test with an invalid function index in the element section.
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(1), kLocalAnyFunc, 0, 1),
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(1), // entry count
TABLE_INDEX0, WASM_INIT_EXPR_I32V_1(0),
1, // elements count
0x9A) // invalid I32V as function index
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, OneIndirectFunction_one_entry) {
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(1), kLocalAnyFunc, 0, 1),
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(1), // entry count
TABLE_INDEX0, WASM_INIT_EXPR_I32V_1(0),
1, // elements count
FUNC_INDEX(0)),
// code ----------------------------------------------------------------
ONE_EMPTY_BODY};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->signatures.size());
EXPECT_EQ(1u, result.value()->functions.size());
EXPECT_EQ(1u, result.value()->tables.size());
EXPECT_EQ(1u, result.value()->tables[0].initial_size);
}
TEST_F(WasmModuleVerifyTest, MultipleIndirectFunctions) {
static const byte data[] = {
// sig#0 -------------------------------------------------------
SECTION(Type,
ENTRY_COUNT(2), // --
SIG_ENTRY_v_v, // void -> void
SIG_ENTRY_v_x(kLocalI32)), // void -> i32
// funcs ------------------------------------------------------
FOUR_EMPTY_FUNCTIONS(SIG_INDEX(0)),
// table declaration -------------------------------------------
SECTION(Table, ENTRY_COUNT(1), kLocalAnyFunc, 0, 8),
// table elements ----------------------------------------------
SECTION(Element,
ENTRY_COUNT(1), // entry count
TABLE_INDEX0, WASM_INIT_EXPR_I32V_1(0),
ADD_COUNT(FUNC_INDEX(0), FUNC_INDEX(1), FUNC_INDEX(2),
FUNC_INDEX(3), FUNC_INDEX(0), FUNC_INDEX(1),
FUNC_INDEX(2), FUNC_INDEX(3))),
FOUR_EMPTY_BODIES};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(2u, result.value()->signatures.size());
EXPECT_EQ(4u, result.value()->functions.size());
EXPECT_EQ(1u, result.value()->tables.size());
EXPECT_EQ(8u, result.value()->tables[0].initial_size);
}
TEST_F(WasmModuleVerifyTest, ElementSectionMultipleTables) {
// Test that if we have multiple tables, in the element section we can target
// and initialize all tables.
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(bulk_memory);
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(2), // section header
kLocalAnyFunc, 0, 5, // table 0
kLocalAnyFunc, 0, 9), // table 1
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(2), // entry count
TABLE_INDEX0, // element for table 0
WASM_INIT_EXPR_I32V_1(0), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(1), // element for table 1
WASM_INIT_EXPR_I32V_1(7), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0)), // entry 1
// code ----------------------------------------------------------------
ONE_EMPTY_BODY};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionMixedTables) {
// Test that if we have multiple tables, both imported and module-defined, in
// the element section we can target and initialize all tables.
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(bulk_memory);
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// imports -------------------------------------------------------------
SECTION(Import, ENTRY_COUNT(2),
ADD_COUNT('m'), // module name
ADD_COUNT('t'), // table name
kExternalTable, // import kind
kLocalAnyFunc, // elem_type
0, // no maximum field
5, // initial size
ADD_COUNT('m'), // module name
ADD_COUNT('s'), // table name
kExternalTable, // import kind
kLocalAnyFunc, // elem_type
0, // no maximum field
10), // initial size
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(2), // section header
kLocalAnyFunc, 0, 15, // table 0
kLocalAnyFunc, 0, 19), // table 1
// elements ------------------------------------------------------------
SECTION(Element,
4, // entry count
TABLE_INDEX0, // element for table 0
WASM_INIT_EXPR_I32V_1(0), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(1), // element for table 1
WASM_INIT_EXPR_I32V_1(7), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0), // entry 1
TABLE_INDEX(2), // element for table 2
WASM_INIT_EXPR_I32V_1(12), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(3), // element for table 1
WASM_INIT_EXPR_I32V_1(17), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0)), // entry 1
// code ----------------------------------------------------------------
ONE_EMPTY_BODY};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionMultipleTablesArbitraryOrder) {
// Test that the order in which tables are targeted in the element secion
// can be arbitrary.
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(bulk_memory);
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(2), // section header
kLocalAnyFunc, 0, 5, // table 0
kLocalAnyFunc, 0, 9), // table 1
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(3), // entry count
TABLE_INDEX0, // element for table 1
WASM_INIT_EXPR_I32V_1(0), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(1), // element for table 0
WASM_INIT_EXPR_I32V_1(7), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0), // entry 1
TABLE_INDEX0, // element for table 1
WASM_INIT_EXPR_I32V_1(3), // index
1, // elements count
FUNC_INDEX(0)), // function
// code ----------------------------------------------------------------
ONE_EMPTY_BODY};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionMixedTablesArbitraryOrder) {
// Test that the order in which tables are targeted in the element secion can
// be arbitrary. In this test, tables can be both imported and module-defined.
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(bulk_memory);
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// imports -------------------------------------------------------------
SECTION(Import, ENTRY_COUNT(2),
ADD_COUNT('m'), // module name
ADD_COUNT('t'), // table name
kExternalTable, // import kind
kLocalAnyFunc, // elem_type
0, // no maximum field
5, // initial size
ADD_COUNT('m'), // module name
ADD_COUNT('s'), // table name
kExternalTable, // import kind
kLocalAnyFunc, // elem_type
0, // no maximum field
10), // initial size
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(2), // section header
kLocalAnyFunc, 0, 15, // table 0
kLocalAnyFunc, 0, 19), // table 1
// elements ------------------------------------------------------------
SECTION(Element,
4, // entry count
TABLE_INDEX(2), // element for table 0
WASM_INIT_EXPR_I32V_1(10), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(3), // element for table 1
WASM_INIT_EXPR_I32V_1(17), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0), // entry 1
TABLE_INDEX0, // element for table 2
WASM_INIT_EXPR_I32V_1(2), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(1), // element for table 1
WASM_INIT_EXPR_I32V_1(7), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0)), // entry 1
// code ----------------------------------------------------------------
ONE_EMPTY_BODY};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionDontInitAnyRefTable) {
// Test that tables of type 'AnyRef' cannot be initialized by the element
// section.
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(bulk_memory);
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(2), // section header
kLocalAnyRef, 0, 5, // table 0
kLocalAnyFunc, 0, 9), // table 1
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(2), // entry count
TABLE_INDEX0, // element for table 0
WASM_INIT_EXPR_I32V_1(0), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(1), // element for table 1
WASM_INIT_EXPR_I32V_1(7), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0)), // entry 1
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ElementSectionDontInitAnyRefImportedTable) {
// Test that imported tables of type AnyRef cannot be initialized in the
// elements section.
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(bulk_memory);
static const byte data[] = {
// sig#0 ---------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// imports -------------------------------------------------------------
SECTION(Import, ENTRY_COUNT(2),
ADD_COUNT('m'), // module name
ADD_COUNT('t'), // table name
kExternalTable, // import kind
kLocalAnyFunc, // elem_type
0, // no maximum field
5, // initial size
ADD_COUNT('m'), // module name
ADD_COUNT('s'), // table name
kExternalTable, // import kind
kLocalAnyRef, // elem_type
0, // no maximum field
10), // initial size
// funcs ---------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration ---------------------------------------------------
SECTION(Table, ENTRY_COUNT(2), // section header
kLocalAnyFunc, 0, 15, // table 0
kLocalAnyFunc, 0, 19), // table 1
// elements ------------------------------------------------------------
SECTION(Element,
ENTRY_COUNT(4), // entry count
TABLE_INDEX0, // element for table 0
WASM_INIT_EXPR_I32V_1(10), // index
1, // elements count
FUNC_INDEX(0), // function
TABLE_INDEX(1), // element for table 1
WASM_INIT_EXPR_I32V_1(17), // index
2, // elements count
FUNC_INDEX(0), // entry 0
FUNC_INDEX(0)), // entry 1
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, IndirectFunctionNoFunctions) {
static const byte data[] = {
// sig#0 -------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// indirect table ----------------------------------------------
SECTION(Table, ENTRY_COUNT(1), 1, 0, 0)};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, IndirectFunctionInvalidIndex) {
static const byte data[] = {
// sig#0 -------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// functions ---------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// indirect table ----------------------------------------------
SECTION(Table, ENTRY_COUNT(1), 1, 1, 0)};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, MultipleTablesWithoutFlag) {
static const byte data[] = {
SECTION(Table, // table section
ENTRY_COUNT(2), // 2 tables
kLocalAnyFunc, // table 1: type
0, // table 1: no maximum
10, // table 1: minimum size
kLocalAnyFunc, // table 2: type
0, // table 2: no maximum
10), // table 2: minimum size
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, MultipleTablesWithFlag) {
WASM_FEATURE_SCOPE(anyref);
static const byte data[] = {
SECTION(Table, // table section
ENTRY_COUNT(2), // 2 tables
kLocalAnyFunc, // table 1: type
0, // table 1: no maximum
10, // table 1: minimum size
kLocalAnyRef, // table 2: type
0, // table 2: no maximum
11), // table 2: minimum size
};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(2u, result.value()->tables.size());
EXPECT_EQ(10u, result.value()->tables[0].initial_size);
EXPECT_EQ(kWasmAnyFunc, result.value()->tables[0].type);
EXPECT_EQ(11u, result.value()->tables[1].initial_size);
EXPECT_EQ(kWasmAnyRef, result.value()->tables[1].type);
}
class WasmSignatureDecodeTest : public TestWithZone {
public:
WasmFeatures enabled_features_;
FunctionSig* DecodeSig(const byte* start, const byte* end) {
return DecodeWasmSignatureForTesting(enabled_features_, zone(), start, end);
}
};
TEST_F(WasmSignatureDecodeTest, Ok_v_v) {
static const byte data[] = {SIG_ENTRY_v_v};
v8::internal::AccountingAllocator allocator;
Zone zone(&allocator, ZONE_NAME);
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_TRUE(sig != nullptr);
EXPECT_EQ(0u, sig->parameter_count());
EXPECT_EQ(0u, sig->return_count());
}
TEST_F(WasmSignatureDecodeTest, Ok_t_v) {
WASM_FEATURE_SCOPE(anyref);
for (size_t i = 0; i < arraysize(kValueTypes); i++) {
ValueTypePair ret_type = kValueTypes[i];
const byte data[] = {SIG_ENTRY_x(ret_type.code)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_TRUE(sig != nullptr);
EXPECT_EQ(0u, sig->parameter_count());
EXPECT_EQ(1u, sig->return_count());
EXPECT_EQ(ret_type.type, sig->GetReturn());
}
}
TEST_F(WasmSignatureDecodeTest, Ok_v_t) {
WASM_FEATURE_SCOPE(anyref);
for (size_t i = 0; i < arraysize(kValueTypes); i++) {
ValueTypePair param_type = kValueTypes[i];
const byte data[] = {SIG_ENTRY_v_x(param_type.code)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_TRUE(sig != nullptr);
EXPECT_EQ(1u, sig->parameter_count());
EXPECT_EQ(0u, sig->return_count());
EXPECT_EQ(param_type.type, sig->GetParam(0));
}
}
TEST_F(WasmSignatureDecodeTest, Ok_t_t) {
WASM_FEATURE_SCOPE(anyref);
for (size_t i = 0; i < arraysize(kValueTypes); i++) {
ValueTypePair ret_type = kValueTypes[i];
for (size_t j = 0; j < arraysize(kValueTypes); j++) {
ValueTypePair param_type = kValueTypes[j];
const byte data[] = {SIG_ENTRY_x_x(ret_type.code, param_type.code)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_TRUE(sig != nullptr);
EXPECT_EQ(1u, sig->parameter_count());
EXPECT_EQ(1u, sig->return_count());
EXPECT_EQ(param_type.type, sig->GetParam(0));
EXPECT_EQ(ret_type.type, sig->GetReturn());
}
}
}
TEST_F(WasmSignatureDecodeTest, Ok_i_tt) {
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(mv);
for (size_t i = 0; i < arraysize(kValueTypes); i++) {
ValueTypePair p0_type = kValueTypes[i];
for (size_t j = 0; j < arraysize(kValueTypes); j++) {
ValueTypePair p1_type = kValueTypes[j];
const byte data[] = {
SIG_ENTRY_x_xx(kLocalI32, p0_type.code, p1_type.code)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_TRUE(sig != nullptr);
EXPECT_EQ(2u, sig->parameter_count());
EXPECT_EQ(1u, sig->return_count());
EXPECT_EQ(p0_type.type, sig->GetParam(0));
EXPECT_EQ(p1_type.type, sig->GetParam(1));
}
}
}
TEST_F(WasmSignatureDecodeTest, Ok_tt_tt) {
WASM_FEATURE_SCOPE(anyref);
WASM_FEATURE_SCOPE(mv);
for (size_t i = 0; i < arraysize(kValueTypes); i++) {
ValueTypePair p0_type = kValueTypes[i];
for (size_t j = 0; j < arraysize(kValueTypes); j++) {
ValueTypePair p1_type = kValueTypes[j];
const byte data[] = {SIG_ENTRY_xx_xx(p0_type.code, p1_type.code,
p0_type.code, p1_type.code)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_TRUE(sig != nullptr);
EXPECT_EQ(2u, sig->parameter_count());
EXPECT_EQ(2u, sig->return_count());
EXPECT_EQ(p0_type.type, sig->GetParam(0));
EXPECT_EQ(p1_type.type, sig->GetParam(1));
EXPECT_EQ(p0_type.type, sig->GetReturn(0));
EXPECT_EQ(p1_type.type, sig->GetReturn(1));
}
}
}
TEST_F(WasmSignatureDecodeTest, TooManyParams) {
static const byte data[] = {kWasmFunctionTypeCode,
WASM_I32V_3(kV8MaxWasmFunctionParams + 1),
kLocalI32, 0};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_FALSE(sig != nullptr);
}
TEST_F(WasmSignatureDecodeTest, TooManyReturns) {
for (int i = 0; i < 2; i++) {
bool enable_mv = i != 0;
WASM_FEATURE_SCOPE_VAL(mv, enable_mv);
const int max_return_count = static_cast<int>(
enable_mv ? kV8MaxWasmFunctionMultiReturns : kV8MaxWasmFunctionReturns);
byte data[] = {kWasmFunctionTypeCode, 0, WASM_I32V_3(max_return_count + 1),
kLocalI32};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_EQ(nullptr, sig);
}
}
TEST_F(WasmSignatureDecodeTest, Fail_off_end) {
byte data[256];
for (int p = 0; p <= 255; p = p + 1 + p * 3) {
for (int i = 0; i <= p; i++) data[i] = kLocalI32;
data[0] = static_cast<byte>(p);
for (int i = 0; i < p + 1; i++) {
// Should fall off the end for all signatures.
FunctionSig* sig = DecodeSig(data, data + i);
EXPECT_EQ(nullptr, sig);
}
}
}
TEST_F(WasmSignatureDecodeTest, Fail_anyref_without_flag) {
// Disable AnyRef support and check that decoding fails.
WASM_FEATURE_SCOPE_VAL(anyref, false);
byte ref_types[] = {kLocalAnyFunc, kLocalAnyRef};
for (byte invalid_type : ref_types) {
for (size_t i = 0;; i++) {
byte data[] = {SIG_ENTRY_x_xx(kLocalI32, kLocalI32, kLocalI32)};
if (i >= arraysize(data)) break;
data[i] = invalid_type;
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_EQ(nullptr, sig);
}
}
}
TEST_F(WasmSignatureDecodeTest, Fail_invalid_type) {
byte kInvalidType = 76;
for (size_t i = 0;; i++) {
byte data[] = {SIG_ENTRY_x_xx(kLocalI32, kLocalI32, kLocalI32)};
if (i >= arraysize(data)) break;
data[i] = kInvalidType;
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_EQ(nullptr, sig);
}
}
TEST_F(WasmSignatureDecodeTest, Fail_invalid_ret_type1) {
static const byte data[] = {SIG_ENTRY_x_x(kLocalVoid, kLocalI32)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_EQ(nullptr, sig);
}
TEST_F(WasmSignatureDecodeTest, Fail_invalid_param_type1) {
static const byte data[] = {SIG_ENTRY_x_x(kLocalI32, kLocalVoid)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_EQ(nullptr, sig);
}
TEST_F(WasmSignatureDecodeTest, Fail_invalid_param_type2) {
static const byte data[] = {SIG_ENTRY_x_xx(kLocalI32, kLocalI32, kLocalVoid)};
FunctionSig* sig = DecodeSig(data, data + sizeof(data));
EXPECT_EQ(nullptr, sig);
}
class WasmFunctionVerifyTest : public TestWithIsolateAndZone {
public:
FunctionResult DecodeWasmFunction(const ModuleWireBytes& wire_bytes,
const WasmModule* module,
const byte* function_start,
const byte* function_end) {
WasmFeatures enabled_features;
return DecodeWasmFunctionForTesting(enabled_features, zone(), wire_bytes,
module, function_start, function_end,
isolate()->counters());
}
};
TEST_F(WasmFunctionVerifyTest, Ok_v_v_empty) {
static const byte data[] = {
SIG_ENTRY_v_v, // signature entry
4, // locals
3,
kLocalI32, // --
4,
kLocalI64, // --
5,
kLocalF32, // --
6,
kLocalF64, // --
kExprEnd // body
};
WasmModule module;
FunctionResult result = DecodeWasmFunction(ModuleWireBytes({}), &module, data,
data + sizeof(data));
EXPECT_OK(result);
if (result.value() && result.ok()) {
WasmFunction* function = result.value().get();
EXPECT_EQ(0u, function->sig->parameter_count());
EXPECT_EQ(0u, function->sig->return_count());
EXPECT_EQ(COUNT_ARGS(SIG_ENTRY_v_v), function->code.offset());
EXPECT_EQ(sizeof(data), function->code.end_offset());
// TODO(titzer): verify encoding of local declarations
}
}
TEST_F(WasmModuleVerifyTest, SectionWithoutNameLength) {
const byte data[] = {1};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, TheLoneliestOfValidModulesTheTrulyEmptyOne) {
const byte data[] = {
0, // unknown section code.
0, // Empty section name.
// No section name, no content, nothing but sadness.
0, // No section content.
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, OnlyUnknownSectionEmpty) {
const byte data[] = {
UNKNOWN_SECTION(0),
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, OnlyUnknownSectionNonEmpty) {
const byte data[] = {
UNKNOWN_SECTION(5),
0xFF,
0xFF,
0xFF,
0xFF,
0xFF, // section data
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, SignatureFollowedByEmptyUnknownSection) {
const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID,
// -----------------------------------------------------------
UNKNOWN_SECTION(0)};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, SignatureFollowedByUnknownSection) {
const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID,
// -----------------------------------------------------------
UNKNOWN_SECTION(5), 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, UnknownSectionOverflow) {
static const byte data[] = {
UNKNOWN_SECTION(9),
1,
2,
3,
4,
5,
6,
7,
8,
9,
10, // 10 byte section
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, UnknownSectionUnderflow) {
static const byte data[] = {
UNKNOWN_SECTION(333),
1,
2,
3,
4, // 4 byte section
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, UnknownSectionSkipped) {
static const byte data[] = {
UNKNOWN_SECTION(1),
0, // one byte section
SECTION(Global, ENTRY_COUNT(1),
kLocalI32, // memory type
0, // exported
WASM_INIT_EXPR_I32V_1(33)), // init
};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->globals.size());
EXPECT_EQ(0u, result.value()->functions.size());
EXPECT_EQ(0u, result.value()->data_segments.size());
const WasmGlobal* global = &result.value()->globals.back();
EXPECT_EQ(kWasmI32, global->type);
EXPECT_EQ(0u, global->offset);
}
TEST_F(WasmModuleVerifyTest, ImportTable_empty) {
static const byte data[] = {SECTION(Type, ENTRY_COUNT(0)),
SECTION(Import, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_nosigs1) {
static const byte data[] = {SECTION(Import, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_mutable_global) {
{
static const byte data[] = {
SECTION(Import, // section header
ENTRY_COUNT(1), // number of imports
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // global name
kExternalGlobal, // import kind
kLocalI32, // type
0), // mutability
};
EXPECT_VERIFIES(data);
}
{
static const byte data[] = {
SECTION(Import, // section header
ENTRY_COUNT(1), // sig table
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // global name
kExternalGlobal, // import kind
kLocalI32, // type
1), // mutability
};
EXPECT_VERIFIES(data);
}
}
TEST_F(WasmModuleVerifyTest, ImportTable_mutability_malformed) {
static const byte data[] = {
SECTION(Import,
ENTRY_COUNT(1), // --
ADD_COUNT('m'), // module name
ADD_COUNT('g'), // global name
kExternalGlobal, // import kind
kLocalI32, // type
2), // invalid mutability
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_nosigs2) {
static const byte data[] = {
SECTION(Import, ENTRY_COUNT(1), // sig table
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // function name
kExternalFunction, // import kind
SIG_INDEX(0)), // sig index
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_invalid_sig) {
static const byte data[] = {
SECTION(Type, ENTRY_COUNT(0)), // --
SECTION(Import, ENTRY_COUNT(1), // --
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // function name
kExternalFunction, // import kind
SIG_INDEX(0)), // sig index
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_one_sig) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID,
SECTION(Import,
ENTRY_COUNT(1), // --
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // function name
kExternalFunction, // import kind
SIG_INDEX(0)), // sig index
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_invalid_module) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, // --
SECTION(Import, // --
ENTRY_COUNT(1), // --
NO_NAME, // module name
ADD_COUNT('f'), // function name
kExternalFunction, // import kind
SIG_INDEX(0), // sig index
0), // auxiliary data
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ImportTable_off_end) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID,
SECTION(Import, ENTRY_COUNT(1),
ADD_COUNT('m'), // module name
ADD_COUNT('f'), // function name
kExternalFunction), // import kind
SIG_INDEX(0), // sig index (outside import section!)
};
EXPECT_OFF_END_FAILURE(data, arraysize(data) - 3);
}
TEST_F(WasmModuleVerifyTest, ExportTable_empty1) {
static const byte data[] = { // signatures
SIGNATURES_SECTION_VOID_VOID, // --
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
SECTION(Export, ENTRY_COUNT(0)), // --
ONE_EMPTY_BODY};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->functions.size());
EXPECT_EQ(0u, result.value()->export_table.size());
}
TEST_F(WasmModuleVerifyTest, ExportTable_empty2) {
static const byte data[] = {SECTION(Type, ENTRY_COUNT(0)),
SECTION(Export, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ExportTable_NoFunctions2) {
static const byte data[] = {SECTION(Export, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, ExportTableOne) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
SECTION(Export,
ENTRY_COUNT(1), // exports
NO_NAME, // --
kExternalFunction, // --
FUNC_INDEX(0)), // --
ONE_EMPTY_BODY};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->functions.size());
EXPECT_EQ(1u, result.value()->export_table.size());
}
TEST_F(WasmModuleVerifyTest, ExportNameWithInvalidStringLength) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
SECTION(Export,
ENTRY_COUNT(1), // exports
U32V_1(84), // invalid string length
'e', // --
kExternalFunction, // --
FUNC_INDEX(0), // --
0, 0, 0) // auxiliary data
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, ExportTableTwo) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
SECTION(Export,
ENTRY_COUNT(2), // exports
ADD_COUNT('n', 'a', 'm', 'e'), // --
kExternalFunction, // --
FUNC_INDEX(0), // --
ADD_COUNT('n', 'o', 'm'), // --
kExternalFunction, // --
FUNC_INDEX(0)), // --
ONE_EMPTY_BODY};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(1u, result.value()->functions.size());
EXPECT_EQ(2u, result.value()->export_table.size());
}
TEST_F(WasmModuleVerifyTest, ExportTableThree) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, THREE_EMPTY_FUNCTIONS(SIG_INDEX(0)),
SECTION(Export,
ENTRY_COUNT(3), // exports
ADD_COUNT('a'), // --
kExternalFunction,
FUNC_INDEX(0), // --
ADD_COUNT('b'), // --
kExternalFunction,
FUNC_INDEX(1), // --
ADD_COUNT('c'), // --
kExternalFunction,
FUNC_INDEX(2)), // --
THREE_EMPTY_BODIES};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_OK(result);
EXPECT_EQ(3u, result.value()->functions.size());
EXPECT_EQ(3u, result.value()->export_table.size());
}
TEST_F(WasmModuleVerifyTest, ExportTableThreeOne) {
for (int i = 0; i < 6; i++) {
const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, THREE_EMPTY_FUNCTIONS(SIG_INDEX(0)),
SECTION(Export,
ENTRY_COUNT(1), // exports
ADD_COUNT('e', 'x'), // --
kExternalFunction,
FUNC_INDEX(i)), // --
THREE_EMPTY_BODIES};
if (i < 3) {
EXPECT_VERIFIES(data);
} else {
EXPECT_FAILURE(data);
}
}
}
TEST_F(WasmModuleVerifyTest, ExportTableOne_off_end) {
static const byte data[] = {
// signatures
SIGNATURES_SECTION_VOID_VOID, ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
SECTION(Export,
ENTRY_COUNT(1), // exports
NO_NAME, // --
kExternalFunction,
FUNC_INDEX(0), // --
0, 0, 0) // auxiliary data
};
EXPECT_OFF_END_FAILURE(data, arraysize(data) - 3);
}
TEST_F(WasmModuleVerifyTest, Regression_648070) {
static const byte data[] = {
SECTION(Type, ENTRY_COUNT(0)), // --
SECTION(Function, U32V_5(3500228624)) // function count = 3500228624
}; // --
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, Regression_738097) {
// The function body size caused an integer overflow in the module decoder.
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(1, 0), // --
SECTION(Code, // --
ENTRY_COUNT(1), // --
U32V_5(0xFFFFFFFF), // function size,
0) // No real body
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, FunctionBodySizeLimit) {
const uint32_t delta = 3;
for (uint32_t body_size = kV8MaxWasmFunctionSize - delta;
body_size < kV8MaxWasmFunctionSize + delta; body_size++) {
byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(1, 0), // --
kCodeSectionCode, // code section
U32V_5(1 + body_size + 5), // section size
1, // # functions
U32V_5(body_size) // body size
};
size_t total = sizeof(data) + body_size;
byte* buffer = reinterpret_cast<byte*>(calloc(1, total));
memcpy(buffer, data, sizeof(data));
ModuleResult result = DecodeModule(buffer, buffer + total);
if (body_size <= kV8MaxWasmFunctionSize) {
EXPECT_TRUE(result.ok());
} else {
EXPECT_FALSE(result.ok());
}
free(buffer);
}
}
TEST_F(WasmModuleVerifyTest, FunctionBodies_empty) {
static const byte data[] = {
EMPTY_SIGNATURES_SECTION, // --
EMPTY_FUNCTION_SIGNATURES_SECTION, // --
EMPTY_FUNCTION_BODIES_SECTION // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, FunctionBodies_one_empty) {
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(1, 0), // --
ONE_EMPTY_BODY // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, FunctionBodies_one_nop) {
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(1, 0), // --
SECTION(Code, ENTRY_COUNT(1), NOP_BODY) // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, FunctionBodies_count_mismatch1) {
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(2, 0, 0), // --
ONE_EMPTY_BODY // --
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, FunctionBodies_count_mismatch2) {
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(1, 0), // --
SECTION(Code, ENTRY_COUNT(2), NOP_BODY, NOP_BODY) // --
};
EXPECT_FAILURE(data);
}
TEST_F(WasmModuleVerifyTest, Names_empty) {
static const byte data[] = {
EMPTY_SIGNATURES_SECTION, EMPTY_FUNCTION_SIGNATURES_SECTION,
EMPTY_FUNCTION_BODIES_SECTION, EMPTY_NAMES_SECTION};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, Names_one_empty) {
// TODO(wasm): This test does not test anything (corrupt name section does not
// fail validation).
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(1, 0), // --
ONE_EMPTY_BODY, // --
SECTION_NAMES(ENTRY_COUNT(1), FOO_STRING, NO_LOCAL_NAMES) // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, Names_two_empty) {
// TODO(wasm): This test does not test anything (corrupt name section does not
// fail validation).
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // --
FUNCTION_SIGNATURES_SECTION(2, 0, 0), // --
TWO_EMPTY_BODIES, // --
SECTION_NAMES(ENTRY_COUNT(2), // --
FOO_STRING, NO_LOCAL_NAMES, // --
FOO_STRING, NO_LOCAL_NAMES), // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, Regression684855) {
static const byte data[] = {
SECTION_NAMES(0xFB, // functions count
0x27, // |
0x00, // function name length
0xFF, // local names count
0xFF, // |
0xFF, // |
0xFF, // |
0xFF, // |
0xFF, // error: "varint too large"
0xFF, // |
0x00, // --
0x00) // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, FunctionSectionWithoutCodeSection) {
static const byte data[] = {
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // Type section.
FUNCTION_SIGNATURES_SECTION(1, 0), // Function section.
};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "function count is 1, but code section is absent");
}
TEST_F(WasmModuleVerifyTest, CodeSectionWithoutFunctionSection) {
static const byte data[] = {ONE_EMPTY_BODY};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "function body count 1 mismatch (0 expected)");
}
TEST_F(WasmModuleVerifyTest, EmptyFunctionSectionWithoutCodeSection) {
static const byte data[] = {SECTION(Function, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, EmptyCodeSectionWithoutFunctionSection) {
static const byte data[] = {SECTION(Code, ENTRY_COUNT(0))};
EXPECT_VERIFIES(data);
}
class WasmInitExprDecodeTest : public TestWithZone {
public:
WasmInitExprDecodeTest() = default;
WasmFeatures enabled_features_;
WasmInitExpr DecodeInitExpr(const byte* start, const byte* end) {
return DecodeWasmInitExprForTesting(enabled_features_, start, end);
}
};
#define EXPECT_INIT_EXPR(Type, type, value, ...) \
{ \
static const byte data[] = {__VA_ARGS__, kExprEnd}; \
WasmInitExpr expr = DecodeInitExpr(data, data + sizeof(data)); \
EXPECT_EQ(WasmInitExpr::k##Type##Const, expr.kind); \
EXPECT_EQ(value, expr.val.type##_const); \
}
#define EXPECT_INIT_EXPR_FAIL(...) \
{ \
static const byte data[] = {__VA_ARGS__, kExprEnd}; \
WasmInitExpr expr = DecodeInitExpr(data, data + sizeof(data)); \
EXPECT_EQ(WasmInitExpr::kNone, expr.kind); \
}
TEST_F(WasmInitExprDecodeTest, InitExpr_i32) {
EXPECT_INIT_EXPR(I32, i32, 33, WASM_I32V_1(33));
EXPECT_INIT_EXPR(I32, i32, -21, WASM_I32V_1(-21));
EXPECT_INIT_EXPR(I32, i32, 437, WASM_I32V_2(437));
EXPECT_INIT_EXPR(I32, i32, 77777, WASM_I32V_3(77777));
}
TEST_F(WasmInitExprDecodeTest, InitExpr_f32) {
EXPECT_INIT_EXPR(F32, f32, static_cast<float>(13.1), WASM_F32(13.1));
EXPECT_INIT_EXPR(F32, f32, static_cast<float>(-21.1), WASM_F32(-21.1));
EXPECT_INIT_EXPR(F32, f32, static_cast<float>(437.2), WASM_F32(437.2));
EXPECT_INIT_EXPR(F32, f32, static_cast<float>(77777.3), WASM_F32(77777.3));
}
TEST_F(WasmInitExprDecodeTest, InitExpr_i64) {
EXPECT_INIT_EXPR(I64, i64, 33, WASM_I64V_1(33));
EXPECT_INIT_EXPR(I64, i64, -21, WASM_I64V_2(-21));
EXPECT_INIT_EXPR(I64, i64, 437, WASM_I64V_5(437));
EXPECT_INIT_EXPR(I64, i64, 77777, WASM_I64V_7(77777));
}
TEST_F(WasmInitExprDecodeTest, InitExpr_f64) {
EXPECT_INIT_EXPR(F64, f64, 83.22, WASM_F64(83.22));
EXPECT_INIT_EXPR(F64, f64, -771.3, WASM_F64(-771.3));
EXPECT_INIT_EXPR(F64, f64, 43703.0, WASM_F64(43703.0));
EXPECT_INIT_EXPR(F64, f64, 77999.1, WASM_F64(77999.1));
}
TEST_F(WasmInitExprDecodeTest, InitExpr_AnyRef) {
WASM_FEATURE_SCOPE(anyref);
static const byte data[] = {kExprRefNull, kExprEnd};
WasmInitExpr expr = DecodeInitExpr(data, data + sizeof(data));
EXPECT_EQ(WasmInitExpr::kAnyRefConst, expr.kind);
}
TEST_F(WasmInitExprDecodeTest, InitExpr_illegal) {
EXPECT_INIT_EXPR_FAIL(WASM_I32V_1(0), WASM_I32V_1(0));
EXPECT_INIT_EXPR_FAIL(WASM_GET_LOCAL(0));
EXPECT_INIT_EXPR_FAIL(WASM_SET_LOCAL(0, WASM_I32V_1(0)));
EXPECT_INIT_EXPR_FAIL(WASM_I32_ADD(WASM_I32V_1(0), WASM_I32V_1(0)));
EXPECT_INIT_EXPR_FAIL(WASM_IF_ELSE(WASM_ZERO, WASM_ZERO, WASM_ZERO));
}
TEST_F(WasmModuleVerifyTest, Multiple_Named_Sections) {
static const byte data[] = {
SECTION(Unknown, ADD_COUNT('X'), 17, 18), // --
SECTION(Unknown, ADD_COUNT('f', 'o', 'o'), 5, 6, 7, 8, 9), // --
SECTION(Unknown, ADD_COUNT('o', 't', 'h', 'e', 'r'), 7, 8), // --
};
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, Section_Name_No_UTF8) {
static const byte data[] = {SECTION(Unknown, 1, 0xFF, 17, 18)};
EXPECT_FAILURE(data);
}
class WasmModuleCustomSectionTest : public TestWithIsolateAndZone {
public:
void CheckSections(const byte* module_start, const byte* module_end,
const CustomSectionOffset* expected, size_t num_expected) {
std::vector<CustomSectionOffset> custom_sections =
DecodeCustomSections(module_start, module_end);
CHECK_EQ(num_expected, custom_sections.size());
for (size_t i = 0; i < num_expected; i++) {
EXPECT_EQ(expected[i].section.offset(),
custom_sections[i].section.offset());
EXPECT_EQ(expected[i].section.length(),
custom_sections[i].section.length());
EXPECT_EQ(expected[i].name.offset(), custom_sections[i].name.offset());
EXPECT_EQ(expected[i].name.length(), custom_sections[i].name.length());
EXPECT_EQ(expected[i].payload.offset(),
custom_sections[i].payload.offset());
EXPECT_EQ(expected[i].payload.length(),
custom_sections[i].payload.length());
}
}
};
TEST_F(WasmModuleCustomSectionTest, ThreeUnknownSections) {
static constexpr byte data[] = {
U32_LE(kWasmMagic), // --
U32_LE(kWasmVersion), // --
SECTION(Unknown, 1, 'X', 17, 18), // --
SECTION(Unknown, 3, 'f', 'o', 'o', 5, 6, 7, 8, 9), // --
SECTION(Unknown, 5, 'o', 't', 'h', 'e', 'r', 7, 8), // --
};
static const CustomSectionOffset expected[] = {
// section, name, payload
{{10, 4}, {11, 1}, {12, 2}}, // --
{{16, 9}, {17, 3}, {20, 5}}, // --
{{27, 8}, {28, 5}, {33, 2}}, // --
};
CheckSections(data, data + sizeof(data), expected, arraysize(expected));
}
TEST_F(WasmModuleCustomSectionTest, TwoKnownTwoUnknownSections) {
static const byte data[] = {
U32_LE(kWasmMagic), // --
U32_LE(kWasmVersion), // --
SIGNATURES_SECTION(2, SIG_ENTRY_v_v, SIG_ENTRY_v_v), // --
SECTION(Unknown, ADD_COUNT('X'), 17, 18), // --
ONE_EMPTY_FUNCTION(SIG_INDEX(0)), // --
SECTION(Unknown, ADD_COUNT('o', 't', 'h', 'e', 'r'), 7, 8), // --
};
static const CustomSectionOffset expected[] = {
// section, name, payload
{{19, 4}, {20, 1}, {21, 2}}, // --
{{29, 8}, {30, 5}, {35, 2}}, // --
};
CheckSections(data, data + sizeof(data), expected, arraysize(expected));
}
TEST_F(WasmModuleVerifyTest, SourceMappingURLSection) {
static const byte data[] = {
SECTION_SRC_MAP('s', 'r', 'c', '/', 'x', 'y', 'z', '.', 'c')};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_TRUE(result.ok());
EXPECT_EQ("src/xyz.c", result.value()->source_map_url);
}
TEST_F(WasmModuleVerifyTest, BadSourceMappingURLSection) {
static const byte data[] = {
SECTION_SRC_MAP('s', 'r', 'c', '/', 'x', 0xff, 'z', '.', 'c')};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_TRUE(result.ok());
EXPECT_EQ(0u, result.value()->source_map_url.size());
}
TEST_F(WasmModuleVerifyTest, MultipleSourceMappingURLSections) {
static const byte data[] = {SECTION_SRC_MAP('a', 'b', 'c'),
SECTION_SRC_MAP('p', 'q', 'r')};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_TRUE(result.ok());
EXPECT_EQ("abc", result.value()->source_map_url);
}
TEST_F(WasmModuleVerifyTest, MultipleNameSections) {
static const byte data[] = {
SECTION_NAMES(0, ADD_COUNT(ADD_COUNT('a', 'b', 'c'))),
SECTION_NAMES(0, ADD_COUNT(ADD_COUNT('p', 'q', 'r', 's')))};
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_TRUE(result.ok());
EXPECT_EQ(3u, result.value()->name.length());
}
TEST_F(WasmModuleVerifyTest, PassiveDataSegment) {
static const byte data[] = {
// memory declaration ----------------------------------------------------
SECTION(Memory, ENTRY_COUNT(1), 0, 1),
// data segments --------------------------------------------------------
SECTION(Data, ENTRY_COUNT(1), PASSIVE, ADD_COUNT('h', 'i')),
};
EXPECT_FAILURE(data);
WASM_FEATURE_SCOPE(bulk_memory);
EXPECT_VERIFIES(data);
EXPECT_OFF_END_FAILURE(data, arraysize(data) - 5);
}
TEST_F(WasmModuleVerifyTest, PassiveElementSegment) {
static const byte data[] = {
// sig#0 -----------------------------------------------------------------
SIGNATURES_SECTION_VOID_VOID,
// funcs -----------------------------------------------------------------
ONE_EMPTY_FUNCTION(SIG_INDEX(0)),
// table declaration -----------------------------------------------------
SECTION(Table, ENTRY_COUNT(1), kLocalAnyFunc, 0, 1),
// element segments -----------------------------------------------------
SECTION(Element, ENTRY_COUNT(1), PASSIVE,
ADD_COUNT(FUNC_INDEX(0), FUNC_INDEX(0))),
// code ------------------------------------------------------------------
ONE_EMPTY_BODY};
EXPECT_FAILURE(data);
WASM_FEATURE_SCOPE(bulk_memory);
EXPECT_VERIFIES(data);
EXPECT_OFF_END_FAILURE(data, arraysize(data) - 5);
}
TEST_F(WasmModuleVerifyTest, DataCountSectionCorrectPlacement) {
static const byte data[] = {SECTION(Element, ENTRY_COUNT(0)),
SECTION(DataCount, ENTRY_COUNT(0)),
SECTION(Code, ENTRY_COUNT(0))};
EXPECT_FAILURE(data);
WASM_FEATURE_SCOPE(bulk_memory);
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, DataCountSectionAfterCode) {
static const byte data[] = {SECTION(Code, ENTRY_COUNT(0)),
SECTION(DataCount, ENTRY_COUNT(0))};
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result,
"The DataCount section must appear before the Code section");
}
TEST_F(WasmModuleVerifyTest, DataCountSectionBeforeElement) {
static const byte data[] = {SECTION(DataCount, ENTRY_COUNT(0)),
SECTION(Element, ENTRY_COUNT(0))};
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "unexpected section <Element>");
}
TEST_F(WasmModuleVerifyTest, DataCountSectionAfterStartBeforeElement) {
STATIC_ASSERT(kStartSectionCode + 1 == kElementSectionCode);
static const byte data[] = {
// We need the start section for this test, but the start section must
// reference a valid function, which requires the type and function
// sections too.
SIGNATURES_SECTION(1, SIG_ENTRY_v_v), // Type section.
FUNCTION_SIGNATURES_SECTION(1, 0), // Function section.
SECTION(Start, U32V_1(0)), // Start section.
SECTION(DataCount, ENTRY_COUNT(0)), // DataCount section.
SECTION(Element, ENTRY_COUNT(0)) // Element section.
};
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "unexpected section <Element>");
}
TEST_F(WasmModuleVerifyTest, MultipleDataCountSections) {
static const byte data[] = {SECTION(DataCount, ENTRY_COUNT(0)),
SECTION(DataCount, ENTRY_COUNT(0))};
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "Multiple DataCount sections not allowed");
}
TEST_F(WasmModuleVerifyTest, DataCountSegmentCountMatch) {
static const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), 0, 1), // Memory section.
SECTION(DataCount, ENTRY_COUNT(1)), // DataCount section.
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0, // Data section.
WASM_INIT_EXPR_I32V_1(12), ADD_COUNT('h', 'i'))};
EXPECT_FAILURE(data);
WASM_FEATURE_SCOPE(bulk_memory);
EXPECT_VERIFIES(data);
}
TEST_F(WasmModuleVerifyTest, DataCountSegmentCount_greater) {
static const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), 0, 1), // Memory section.
SECTION(DataCount, ENTRY_COUNT(3)), // DataCount section.
SECTION(Data, ENTRY_COUNT(0))}; // Data section.
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "data segments count 0 mismatch (3 expected)");
}
TEST_F(WasmModuleVerifyTest, DataCountSegmentCount_less) {
static const byte data[] = {
SECTION(Memory, ENTRY_COUNT(1), 0, 1), // Memory section.
SECTION(DataCount, ENTRY_COUNT(0)), // DataCount section.
SECTION(Data, ENTRY_COUNT(1), LINEAR_MEMORY_INDEX_0, // Data section.
WASM_INIT_EXPR_I32V_1(12), ADD_COUNT('a', 'b', 'c'))};
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "data segments count 1 mismatch (0 expected)");
}
TEST_F(WasmModuleVerifyTest, DataCountSegmentCount_omitted) {
static const byte data[] = {SECTION(Memory, ENTRY_COUNT(1), 0, 1),
SECTION(DataCount, ENTRY_COUNT(1))};
WASM_FEATURE_SCOPE(bulk_memory);
ModuleResult result = DecodeModule(data, data + sizeof(data));
EXPECT_NOT_OK(result, "data segments count 0 mismatch (1 expected)");
}
#undef WASM_FEATURE_SCOPE
#undef WASM_FEATURE_SCOPE_VAL
#undef EXPECT_INIT_EXPR
#undef EXPECT_INIT_EXPR_FAIL
#undef WASM_INIT_EXPR_I32V_1
#undef WASM_INIT_EXPR_I32V_2
#undef WASM_INIT_EXPR_I32V_3
#undef WASM_INIT_EXPR_I32V_4
#undef WASM_INIT_EXPR_I32V_5
#undef WASM_INIT_EXPR_F32
#undef WASM_INIT_EXPR_I64
#undef WASM_INIT_EXPR_F64
#undef WASM_INIT_EXPR_ANYREF
#undef WASM_INIT_EXPR_GLOBAL
#undef EMPTY_BODY
#undef NOP_BODY
#undef SIG_ENTRY_i_i
#undef UNKNOWN_SECTION
#undef COUNT_ARGS
#undef CHECK_LEB1
#undef ADD_COUNT
#undef SECTION
#undef SIGNATURES_SECTION
#undef FUNCTION_SIGNATURES_SECTION
#undef FOO_STRING
#undef NO_LOCAL_NAMES
#undef EMPTY_SIGNATURES_SECTION
#undef EMPTY_FUNCTION_SIGNATURES_SECTION
#undef EMPTY_FUNCTION_BODIES_SECTION
#undef SECTION_NAMES
#undef EMPTY_NAMES_SECTION
#undef SECTION_SRC_MAP
#undef FAIL_IF_NO_EXPERIMENTAL_EH
#undef X1
#undef X2
#undef X3
#undef X4
#undef ONE_EMPTY_FUNCTION
#undef TWO_EMPTY_FUNCTIONS
#undef THREE_EMPTY_FUNCTIONS
#undef FOUR_EMPTY_FUNCTIONS
#undef ONE_EMPTY_BODY
#undef TWO_EMPTY_BODIES
#undef THREE_EMPTY_BODIES
#undef FOUR_EMPTY_BODIES
#undef SIGNATURES_SECTION_VOID_VOID
#undef LINEAR_MEMORY_INDEX_0
#undef EXCEPTION_ENTRY
#undef EXPECT_VERIFIES
#undef EXPECT_FAILURE_LEN
#undef EXPECT_FAILURE
#undef EXPECT_OFF_END_FAILURE
#undef EXPECT_OK
#undef EXPECT_NOT_OK
} // namespace module_decoder_unittest
} // namespace wasm
} // namespace internal
} // namespace v8