AuroraMiddleware/v8
1
0
Fork 0
Code Issues 2 Pull Requests Releases Wiki Activity
4a20fe3869
v8/test/cctest/wasm/test-gc.cc
Manos Koukoutos 21d954154c [wasm][cleanup] Rename kLocal<type> constants -> k<type>Code 
Change-Id: I7bca3ed949a5dd036c3255cc5853819312387cce
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2436330
Reviewed-by: Clemens Backes <clemensb@chromium.org>
Commit-Queue: Manos Koukoutos <manoskouk@chromium.org>
Cr-Commit-Position: refs/heads/master@{#70190}
2020-09-29 08:48:21 +00:00

1123 lines
44 KiB
C++
Raw Blame History

// Copyright 2020 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 <stdint.h>
#include "src/utils/utils.h"
#include "src/utils/vector.h"
#include "src/wasm/module-decoder.h"
#include "src/wasm/struct-types.h"
#include "src/wasm/wasm-arguments.h"
#include "src/wasm/wasm-engine.h"
#include "src/wasm/wasm-module-builder.h"
#include "src/wasm/wasm-module.h"
#include "src/wasm/wasm-objects-inl.h"
#include "src/wasm/wasm-opcodes.h"
#include "test/cctest/cctest.h"
#include "test/cctest/compiler/value-helper.h"
#include "test/cctest/wasm/wasm-run-utils.h"
#include "test/common/wasm/test-signatures.h"
#include "test/common/wasm/wasm-macro-gen.h"
#include "test/common/wasm/wasm-module-runner.h"
namespace v8 {
namespace internal {
namespace wasm {
namespace test_gc {
using F = std::pair<ValueType, bool>;
class WasmGCTester {
public:
WasmGCTester()
: flag_gc(&v8::internal::FLAG_experimental_wasm_gc, true),
flag_reftypes(&v8::internal::FLAG_experimental_wasm_reftypes, true),
flag_typedfuns(&v8::internal::FLAG_experimental_wasm_typed_funcref,
true),
zone(&allocator, ZONE_NAME),
builder_(&zone),
isolate_(CcTest::InitIsolateOnce()),
scope(isolate_),
thrower(isolate_, "Test wasm GC") {
testing::SetupIsolateForWasmModule(isolate_);
}
byte AddGlobal(ValueType type, bool mutability, WasmInitExpr init) {
return builder_.AddGlobal(type, mutability, std::move(init));
}
byte DefineFunction(FunctionSig* sig, std::initializer_list<ValueType> locals,
std::initializer_list<byte> code) {
WasmFunctionBuilder* fun = builder_.AddFunction(sig);
for (ValueType local : locals) {
fun->AddLocal(local);
}
fun->EmitCode(code.begin(), static_cast<uint32_t>(code.size()));
return fun->func_index();
}
void DefineExportedFunction(const char* name, FunctionSig* sig,
std::initializer_list<byte> code) {
WasmFunctionBuilder* fun = builder_.AddFunction(sig);
fun->EmitCode(code.begin(), static_cast<uint32_t>(code.size()));
builder_.AddExport(CStrVector(name), fun);
}
MaybeHandle<Object> CallExportedFunction(const char* name, int argc,
Handle<Object> args[]) {
Handle<WasmExportedFunction> func =
testing::GetExportedFunction(isolate_, instance_, name)
.ToHandleChecked();
return Execution::Call(isolate_, func,
isolate_->factory()->undefined_value(), argc, args);
}
byte DefineStruct(std::initializer_list<F> fields) {
StructType::Builder type_builder(&zone,
static_cast<uint32_t>(fields.size()));
for (F field : fields) {
type_builder.AddField(field.first, field.second);
}
return builder_.AddStructType(type_builder.Build());
}
byte DefineArray(ValueType element_type, bool mutability) {
return builder_.AddArrayType(zone.New<ArrayType>(element_type, mutability));
}
byte DefineSignature(FunctionSig* sig) { return builder_.AddSignature(sig); }
void CompileModule() {
ZoneBuffer buffer(&zone);
builder_.WriteTo(&buffer);
MaybeHandle<WasmInstanceObject> maybe_instance =
testing::CompileAndInstantiateForTesting(
isolate_, &thrower, ModuleWireBytes(buffer.begin(), buffer.end()));
if (thrower.error()) FATAL("%s", thrower.error_msg());
instance_ = maybe_instance.ToHandleChecked();
}
void CallFunctionImpl(uint32_t function_index, const FunctionSig* sig,
CWasmArgumentsPacker* packer) {
WasmCodeRefScope scope;
NativeModule* native_module = instance_->module_object().native_module();
WasmCode* code = native_module->GetCode(function_index);
Address wasm_call_target = code->instruction_start();
Handle<Object> object_ref = instance_;
Handle<Code> c_wasm_entry =
compiler::CompileCWasmEntry(isolate_, sig, native_module->module());
Execution::CallWasm(isolate_, c_wasm_entry, wasm_call_target, object_ref,
packer->argv());
}
void CheckResult(uint32_t function_index, int32_t expected) {
FunctionSig* sig = sigs.i_v();
DCHECK(*sig == *instance_->module()->functions[function_index].sig);
CWasmArgumentsPacker packer(CWasmArgumentsPacker::TotalSize(sig));
CallFunctionImpl(function_index, sig, &packer);
packer.Reset();
CHECK_EQ(expected, packer.Pop<int32_t>());
}
void CheckResult(uint32_t function_index, int32_t expected, int32_t arg) {
FunctionSig* sig = sigs.i_i();
DCHECK(*sig == *instance_->module()->functions[function_index].sig);
CWasmArgumentsPacker packer(CWasmArgumentsPacker::TotalSize(sig));
packer.Push(arg);
CallFunctionImpl(function_index, sig, &packer);
packer.Reset();
CHECK_EQ(expected, packer.Pop<int32_t>());
}
MaybeHandle<Object> GetResultObject(uint32_t function_index) {
const FunctionSig* sig = instance_->module()->functions[function_index].sig;
CWasmArgumentsPacker packer(CWasmArgumentsPacker::TotalSize(sig));
CallFunctionImpl(function_index, sig, &packer);
packer.Reset();
return Handle<Object>(Object(packer.Pop<Address>()), isolate_);
}
void CheckHasThrown(uint32_t function_index, int32_t arg) {
FunctionSig* sig = sigs.i_i();
DCHECK(*sig == *instance_->module()->functions[function_index].sig);
CWasmArgumentsPacker packer(CWasmArgumentsPacker::TotalSize(sig));
packer.Push(arg);
CallFunctionImpl(function_index, sig, &packer);
CHECK(isolate_->has_pending_exception());
isolate_->clear_pending_exception();
}
Handle<WasmInstanceObject> instance() { return instance_; }
Isolate* isolate() { return isolate_; }
WasmModuleBuilder* builder() { return &builder_; }
TestSignatures sigs;
private:
const FlagScope<bool> flag_gc;
const FlagScope<bool> flag_reftypes;
const FlagScope<bool> flag_typedfuns;
v8::internal::AccountingAllocator allocator;
Zone zone;
WasmModuleBuilder builder_;
Isolate* const isolate_;
const HandleScope scope;
Handle<WasmInstanceObject> instance_;
ErrorThrower thrower;
};
ValueType ref(uint32_t type_index) {
return ValueType::Ref(type_index, kNonNullable);
}
ValueType optref(uint32_t type_index) {
return ValueType::Ref(type_index, kNullable);
}
// TODO(7748): Use WASM_EXEC_TEST once interpreter and liftoff are supported.
TEST(WasmBasicStruct) {
WasmGCTester tester;
const byte type_index =
tester.DefineStruct({F(kWasmI32, true), F(kWasmI32, true)});
const byte empty_struct_index = tester.DefineStruct({});
ValueType kRefType = ref(type_index);
ValueType kEmptyStructType = ref(empty_struct_index);
ValueType kOptRefType = optref(type_index);
FunctionSig sig_q_v(1, 0, &kRefType);
FunctionSig sig_qe_v(1, 0, &kEmptyStructType);
// Test struct.new and struct.get.
const byte kGet1 = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_STRUCT_GET(
type_index, 0,
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(64),
WASM_RTT_CANON(type_index))),
kExprEnd});
// Test struct.new and struct.get.
const byte kGet2 = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_STRUCT_GET(
type_index, 1,
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(64),
WASM_RTT_CANON(type_index))),
kExprEnd});
// Test struct.new, returning struct reference.
const byte kGetStruct = tester.DefineFunction(
&sig_q_v, {},
{WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(64),
WASM_RTT_CANON(type_index)),
kExprEnd});
// Test struct.new, returning reference to an empty struct.
const byte kGetEmptyStruct = tester.DefineFunction(
&sig_qe_v, {},
{WASM_STRUCT_NEW_WITH_RTT(empty_struct_index,
WASM_RTT_CANON(empty_struct_index)),
kExprEnd});
// Test struct.set, struct refs types in locals.
const byte j_local_index = 0;
const byte j_field_index = 0;
const byte kSet = tester.DefineFunction(
tester.sigs.i_v(), {kOptRefType},
{WASM_SET_LOCAL(
j_local_index,
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(64),
WASM_RTT_CANON(type_index))),
WASM_STRUCT_SET(type_index, j_field_index, WASM_GET_LOCAL(j_local_index),
WASM_I32V(-99)),
WASM_STRUCT_GET(type_index, j_field_index,
WASM_GET_LOCAL(j_local_index)),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kGet1, 42);
tester.CheckResult(kGet2, 64);
CHECK(tester.GetResultObject(kGetStruct).ToHandleChecked()->IsWasmStruct());
CHECK(tester.GetResultObject(kGetEmptyStruct)
.ToHandleChecked()
->IsWasmStruct());
tester.CheckResult(kSet, -99);
}
// Test struct.set, ref.as_non_null,
// struct refs types in globals and if-results.
TEST(WasmRefAsNonNull) {
WasmGCTester tester;
const byte type_index =
tester.DefineStruct({F(kWasmI32, true), F(kWasmI32, true)});
ValueType kRefTypes[] = {ref(type_index)};
ValueType kOptRefType = optref(type_index);
FunctionSig sig_q_v(1, 0, kRefTypes);
const byte global_index =
tester.AddGlobal(kOptRefType, true,
WasmInitExpr::RefNullConst(
static_cast<HeapType::Representation>(type_index)));
const byte field_index = 0;
const byte kFunc = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_SET_GLOBAL(
global_index,
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(55), WASM_I32V(66),
WASM_RTT_CANON(type_index))),
WASM_STRUCT_GET(
type_index, field_index,
WASM_REF_AS_NON_NULL(WASM_IF_ELSE_R(kOptRefType, WASM_I32V(1),
WASM_GET_GLOBAL(global_index),
WASM_REF_NULL(type_index)))),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kFunc, 55);
}
TEST(WasmBrOnNull) {
WasmGCTester tester;
const byte type_index =
tester.DefineStruct({F(kWasmI32, true), F(kWasmI32, true)});
ValueType kRefTypes[] = {ref(type_index)};
ValueType kOptRefType = optref(type_index);
FunctionSig sig_q_v(1, 0, kRefTypes);
const byte l_local_index = 0;
const byte kTaken = tester.DefineFunction(
tester.sigs.i_v(), {kOptRefType},
{WASM_BLOCK_I(WASM_I32V(42),
// Branch will be taken.
// 42 left on stack outside the block (not 52).
WASM_BR_ON_NULL(0, WASM_GET_LOCAL(l_local_index)),
WASM_I32V(52), WASM_BR(0)),
kExprEnd});
const byte m_field_index = 0;
const byte kNotTaken = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_BLOCK_I(
WASM_I32V(42),
WASM_STRUCT_GET(
type_index, m_field_index,
// Branch will not be taken.
// 52 left on stack outside the block (not 42).
WASM_BR_ON_NULL(0, WASM_STRUCT_NEW_WITH_RTT(
type_index, WASM_I32V(52), WASM_I32V(62),
WASM_RTT_CANON(type_index)))),
WASM_BR(0)),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kTaken, 42);
tester.CheckResult(kNotTaken, 52);
}
TEST(BrOnCast) {
WasmGCTester tester;
const byte type_index = tester.DefineStruct({F(kWasmI32, true)});
const byte rtt_index =
tester.AddGlobal(ValueType::Rtt(type_index, 1), false,
WasmInitExpr::RttCanon(
static_cast<HeapType::Representation>(type_index)));
const byte kTestStruct = tester.DefineFunction(
tester.sigs.i_v(), {kWasmI32, kWasmEqRef},
{WASM_BLOCK(WASM_SET_LOCAL(0, WASM_I32V(111)),
// Pipe a struct through a local so it's statically typed
// as eqref.
WASM_SET_LOCAL(
1, WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(1),
WASM_GET_GLOBAL(rtt_index))),
WASM_GET_LOCAL(1),
// The struct is not an i31, so this branch isn't taken.
WASM_BR_ON_CAST(0, WASM_RTT_CANON(kI31RefCode)),
WASM_SET_LOCAL(0, WASM_I32V(222)), // Final result.
// This branch is taken.
WASM_BR_ON_CAST(0, WASM_GET_GLOBAL(rtt_index)),
// Not executed due to the branch.
WASM_DROP, WASM_SET_LOCAL(0, WASM_I32V(333))),
WASM_GET_LOCAL(0), kExprEnd});
const byte kTestI31 = tester.DefineFunction(
tester.sigs.i_v(), {kWasmI32, kWasmEqRef},
{WASM_BLOCK(WASM_SET_LOCAL(0, WASM_I32V(111)),
// Pipe an i31ref through a local so it's statically typed
// as eqref.
WASM_SET_LOCAL(1, WASM_I31_NEW(WASM_I32V(42))),
WASM_GET_LOCAL(1),
// The i31 is not a struct, so this branch isn't taken.
WASM_BR_ON_CAST(0, WASM_GET_GLOBAL(rtt_index)),
WASM_SET_LOCAL(0, WASM_I32V(222)), // Final result.
// This branch is taken.
WASM_BR_ON_CAST(0, WASM_RTT_CANON(kI31RefCode)),
// Not executed due to the branch.
WASM_DROP, WASM_SET_LOCAL(0, WASM_I32V(333))),
WASM_GET_LOCAL(0), kExprEnd});
const byte kTestNull = tester.DefineFunction(
tester.sigs.i_v(), {kWasmI32, kWasmEqRef},
{WASM_BLOCK(WASM_SET_LOCAL(0, WASM_I32V(111)),
WASM_GET_LOCAL(1), // Put a nullref onto the value stack.
// Neither of these branches is taken for nullref.
WASM_BR_ON_CAST(0, WASM_RTT_CANON(kI31RefCode)),
WASM_SET_LOCAL(0, WASM_I32V(222)),
WASM_BR_ON_CAST(0, WASM_GET_GLOBAL(rtt_index)), WASM_DROP,
WASM_SET_LOCAL(0, WASM_I32V(333))), // Final result.
WASM_GET_LOCAL(0), kExprEnd});
const byte kTypedAfterBranch = tester.DefineFunction(
tester.sigs.i_v(), {kWasmI32, kWasmEqRef},
{WASM_SET_LOCAL(1, WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42),
WASM_GET_GLOBAL(rtt_index))),
WASM_BLOCK(WASM_SET_LOCAL(
// The outer block catches the struct left behind by the inner block
// and reads its field.
0,
WASM_STRUCT_GET(
type_index, 0,
// The inner block should take the early branch with a struct
// on the stack.
WASM_BLOCK_R(ValueType::Ref(type_index, kNonNullable),
WASM_GET_LOCAL(1),
WASM_BR_ON_CAST(0, WASM_GET_GLOBAL(rtt_index)),
// Returning 123 is the unreachable failure case.
WASM_SET_LOCAL(0, WASM_I32V(123)), WASM_BR(1))))),
WASM_GET_LOCAL(0), kExprEnd});
tester.CompileModule();
tester.CheckResult(kTestStruct, 222);
tester.CheckResult(kTestI31, 222);
tester.CheckResult(kTestNull, 333);
tester.CheckResult(kTypedAfterBranch, 42);
}
TEST(WasmRefEq) {
WasmGCTester tester;
byte type_index = tester.DefineStruct({F(kWasmI32, true), F(kWasmI32, true)});
ValueType kRefTypes[] = {ref(type_index)};
ValueType kOptRefType = optref(type_index);
FunctionSig sig_q_v(1, 0, kRefTypes);
byte local_index = 0;
const byte kFunc = tester.DefineFunction(
tester.sigs.i_v(), {kOptRefType},
{WASM_SET_LOCAL(local_index, WASM_STRUCT_NEW_WITH_RTT(
type_index, WASM_I32V(55), WASM_I32V(66),
WASM_RTT_CANON(type_index))),
WASM_I32_ADD(
WASM_I32_SHL(
WASM_REF_EQ( // true
WASM_GET_LOCAL(local_index), WASM_GET_LOCAL(local_index)),
WASM_I32V(0)),
WASM_I32_ADD(
WASM_I32_SHL(WASM_REF_EQ( // false
WASM_GET_LOCAL(local_index),
WASM_STRUCT_NEW_WITH_RTT(
type_index, WASM_I32V(55), WASM_I32V(66),
WASM_RTT_CANON(type_index))),
WASM_I32V(1)),
WASM_I32_ADD(WASM_I32_SHL( // false
WASM_REF_EQ(WASM_GET_LOCAL(local_index),
WASM_REF_NULL(type_index)),
WASM_I32V(2)),
WASM_I32_SHL(WASM_REF_EQ( // true
WASM_REF_NULL(type_index),
WASM_REF_NULL(type_index)),
WASM_I32V(3))))),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kFunc, 0b1001);
}
TEST(WasmPackedStructU) {
WasmGCTester tester;
const byte type_index = tester.DefineStruct(
{F(kWasmI8, true), F(kWasmI16, true), F(kWasmI32, true)});
ValueType struct_type = optref(type_index);
const byte local_index = 0;
int32_t expected_output_0 = 0x1234;
int32_t expected_output_1 = -1;
const byte kF0 = tester.DefineFunction(
tester.sigs.i_v(), {struct_type},
{WASM_SET_LOCAL(local_index,
WASM_STRUCT_NEW_WITH_RTT(
type_index, WASM_I32V(expected_output_0),
WASM_I32V(expected_output_1), WASM_I32V(0x12345678),
WASM_RTT_CANON(type_index))),
WASM_STRUCT_GET_U(type_index, 0, WASM_GET_LOCAL(local_index)),
kExprEnd});
const byte kF1 = tester.DefineFunction(
tester.sigs.i_v(), {struct_type},
{WASM_SET_LOCAL(local_index,
WASM_STRUCT_NEW_WITH_RTT(
type_index, WASM_I32V(expected_output_0),
WASM_I32V(expected_output_1), WASM_I32V(0x12345678),
WASM_RTT_CANON(type_index))),
WASM_STRUCT_GET_U(type_index, 1, WASM_GET_LOCAL(local_index)),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kF0, static_cast<uint8_t>(expected_output_0));
tester.CheckResult(kF1, static_cast<uint16_t>(expected_output_1));
}
TEST(WasmPackedStructS) {
WasmGCTester tester;
const byte type_index = tester.DefineStruct(
{F(kWasmI8, true), F(kWasmI16, true), F(kWasmI32, true)});
ValueType struct_type = optref(type_index);
const byte local_index = 0;
int32_t expected_output_0 = 0x80;
int32_t expected_output_1 = 42;
const byte kF0 = tester.DefineFunction(
tester.sigs.i_v(), {struct_type},
{WASM_SET_LOCAL(
local_index,
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(expected_output_0),
WASM_I32V(expected_output_1), WASM_I32V(0),
WASM_RTT_CANON(type_index))),
WASM_STRUCT_GET_S(type_index, 0, WASM_GET_LOCAL(local_index)),
kExprEnd});
const byte kF1 = tester.DefineFunction(
tester.sigs.i_v(), {struct_type},
{WASM_SET_LOCAL(
local_index,
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(0x80),
WASM_I32V(expected_output_1), WASM_I32V(0),
WASM_RTT_CANON(type_index))),
WASM_STRUCT_GET_S(type_index, 1, WASM_GET_LOCAL(local_index)),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kF0, static_cast<int8_t>(expected_output_0));
tester.CheckResult(kF1, static_cast<int16_t>(expected_output_1));
}
TEST(WasmLetInstruction) {
WasmGCTester tester;
const byte type_index =
tester.DefineStruct({F(kWasmI32, true), F(kWasmI32, true)});
const byte let_local_index = 0;
const byte let_field_index = 0;
const byte kLetTest1 = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_LET_1_I(
WASM_SEQ(kRefCode, type_index),
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(52),
WASM_RTT_CANON(type_index)),
WASM_STRUCT_GET(type_index, let_field_index,
WASM_GET_LOCAL(let_local_index))),
kExprEnd});
const byte let_2_field_index = 0;
const byte kLetTest2 = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_LET_2_I(
kI32Code, WASM_I32_ADD(WASM_I32V(42), WASM_I32V(-32)),
WASM_SEQ(kRefCode, type_index),
WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(52),
WASM_RTT_CANON(type_index)),
WASM_I32_MUL(WASM_STRUCT_GET(type_index, let_2_field_index,
WASM_GET_LOCAL(1)),
WASM_GET_LOCAL(0))),
kExprEnd});
const byte kLetTestLocals = tester.DefineFunction(
tester.sigs.i_i(), {kWasmI32},
{WASM_SET_LOCAL(1, WASM_I32V(100)),
WASM_LET_2_I(
kI32Code, WASM_I32V(1), kI32Code, WASM_I32V(10),
WASM_I32_SUB(WASM_I32_ADD(WASM_GET_LOCAL(0), // 1st let-local
WASM_GET_LOCAL(2)), // Parameter
WASM_I32_ADD(WASM_GET_LOCAL(1), // 2nd let-local
WASM_GET_LOCAL(3)))), // Function local
kExprEnd});
// Result: (1 + 1000) - (10 + 100) = 891
const byte let_erase_local_index = 0;
const byte kLetTestErase = tester.DefineFunction(
tester.sigs.i_v(), {kWasmI32},
{WASM_SET_LOCAL(let_erase_local_index, WASM_I32V(0)),
WASM_LET_1_V(kI32Code, WASM_I32V(1), WASM_NOP),
WASM_GET_LOCAL(let_erase_local_index), kExprEnd});
// The result should be 0 and not 1, as local_get(0) refers to the original
// local.
tester.CompileModule();
tester.CheckResult(kLetTest1, 42);
tester.CheckResult(kLetTest2, 420);
tester.CheckResult(kLetTestLocals, 891, 1000);
tester.CheckResult(kLetTestErase, 0);
}
TEST(WasmBasicArray) {
WasmGCTester tester;
const byte type_index = tester.DefineArray(wasm::kWasmI32, true);
ValueType kRefTypes[] = {ref(type_index)};
FunctionSig sig_q_v(1, 0, kRefTypes);
ValueType kOptRefType = optref(type_index);
// f: a = [12, 12, 12]; a[1] = 42; return a[arg0]
const byte local_index = 1;
const byte kGetElem = tester.DefineFunction(
tester.sigs.i_i(), {kOptRefType},
{WASM_SET_LOCAL(local_index, WASM_ARRAY_NEW_WITH_RTT(
type_index, WASM_I32V(12), WASM_I32V(3),
WASM_RTT_CANON(type_index))),
WASM_ARRAY_SET(type_index, WASM_GET_LOCAL(local_index), WASM_I32V(1),
WASM_I32V(42)),
WASM_ARRAY_GET(type_index, WASM_GET_LOCAL(local_index),
WASM_GET_LOCAL(0)),
kExprEnd});
// Reads and returns an array's length.
const byte kGetLength = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_ARRAY_LEN(type_index, WASM_ARRAY_NEW_WITH_RTT(
type_index, WASM_I32V(0), WASM_I32V(42),
WASM_RTT_CANON(type_index))),
kExprEnd});
// Create an array of length 2, initialized to [42, 42].
const byte kAllocate = tester.DefineFunction(
&sig_q_v, {},
{WASM_ARRAY_NEW_WITH_RTT(type_index, WASM_I32V(42), WASM_I32V(2),
WASM_RTT_CANON(type_index)),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kGetElem, 12, 0);
tester.CheckResult(kGetElem, 42, 1);
tester.CheckResult(kGetElem, 12, 2);
tester.CheckHasThrown(kGetElem, 3);
tester.CheckHasThrown(kGetElem, -1);
tester.CheckResult(kGetLength, 42);
MaybeHandle<Object> h_result = tester.GetResultObject(kAllocate);
CHECK(h_result.ToHandleChecked()->IsWasmArray());
#if OBJECT_PRINT
h_result.ToHandleChecked()->Print();
#endif
}
TEST(WasmPackedArrayU) {
WasmGCTester tester;
const byte array_index = tester.DefineArray(kWasmI8, true);
ValueType array_type = optref(array_index);
const byte param_index = 0;
const byte local_index = 1;
int32_t expected_output_3 = 258;
const byte kF = tester.DefineFunction(
tester.sigs.i_i(), {array_type},
{WASM_SET_LOCAL(local_index, WASM_ARRAY_NEW_WITH_RTT(
array_index, WASM_I32V(0), WASM_I32V(4),
WASM_RTT_CANON(array_index))),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(0),
WASM_I32V(1)),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(1),
WASM_I32V(10)),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(2),
WASM_I32V(200)),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(3),
WASM_I32V(expected_output_3)),
WASM_ARRAY_GET_U(array_index, WASM_GET_LOCAL(local_index),
WASM_GET_LOCAL(param_index)),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kF, 1, 0);
tester.CheckResult(kF, 10, 1);
tester.CheckResult(kF, 200, 2);
// Only the 2 lsb's of 258 should be stored in the array.
tester.CheckResult(kF, static_cast<uint8_t>(expected_output_3), 3);
}
TEST(WasmPackedArrayS) {
WasmGCTester tester;
const byte array_index = tester.DefineArray(kWasmI16, true);
ValueType array_type = optref(array_index);
int32_t expected_outputs[] = {0x12345678, 10, 0xFEDC, 0xFF1234};
const byte param_index = 0;
const byte local_index = 1;
const byte kF = tester.DefineFunction(
tester.sigs.i_i(), {array_type},
{WASM_SET_LOCAL(
local_index,
WASM_ARRAY_NEW_WITH_RTT(array_index, WASM_I32V(0x12345678),
WASM_I32V(4), WASM_RTT_CANON(array_index))),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(1),
WASM_I32V(10)),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(2),
WASM_I32V(0xFEDC)),
WASM_ARRAY_SET(array_index, WASM_GET_LOCAL(local_index), WASM_I32V(3),
WASM_I32V(0xFF1234)),
WASM_ARRAY_GET_S(array_index, WASM_GET_LOCAL(local_index),
WASM_GET_LOCAL(param_index)),
kExprEnd});
tester.CompileModule();
// Exactly the 2 lsb's should be stored by array.new.
tester.CheckResult(kF, static_cast<int16_t>(expected_outputs[0]), 0);
tester.CheckResult(kF, static_cast<int16_t>(expected_outputs[1]), 1);
// Sign should be extended.
tester.CheckResult(kF, static_cast<int16_t>(expected_outputs[2]), 2);
// Exactly the 2 lsb's should be stored by array.set.
tester.CheckResult(kF, static_cast<int16_t>(expected_outputs[3]), 3);
}
TEST(NewDefault) {
WasmGCTester tester;
const byte struct_type = tester.DefineStruct(
{F(wasm::kWasmI32, true), F(wasm::kWasmF64, true), F(optref(0), true)});
const byte array_type = tester.DefineArray(wasm::kWasmI32, true);
// Returns: struct[0] + f64_to_i32(struct[1]) + (struct[2].is_null ^ 1) == 0.
const byte allocate_struct = tester.DefineFunction(
tester.sigs.i_v(), {optref(struct_type)},
{WASM_SET_LOCAL(0, WASM_STRUCT_NEW_DEFAULT(struct_type,
WASM_RTT_CANON(struct_type))),
WASM_I32_ADD(
WASM_I32_ADD(WASM_STRUCT_GET(struct_type, 0, WASM_GET_LOCAL(0)),
WASM_I32_SCONVERT_F64(WASM_STRUCT_GET(
struct_type, 1, WASM_GET_LOCAL(0)))),
WASM_I32_XOR(WASM_REF_IS_NULL(
WASM_STRUCT_GET(struct_type, 2, WASM_GET_LOCAL(0))),
WASM_I32V(1))),
kExprEnd});
const byte allocate_array = tester.DefineFunction(
tester.sigs.i_v(), {optref(array_type)},
{WASM_SET_LOCAL(0, WASM_ARRAY_NEW_DEFAULT(array_type, WASM_I32V(2),
WASM_RTT_CANON(array_type))),
WASM_I32_ADD(
WASM_ARRAY_GET(array_type, WASM_GET_LOCAL(0), WASM_I32V(0)),
WASM_ARRAY_GET(array_type, WASM_GET_LOCAL(0), WASM_I32V(1))),
kExprEnd});
tester.CompileModule();
tester.CheckResult(allocate_struct, 0);
tester.CheckResult(allocate_array, 0);
}
TEST(BasicRTT) {
WasmGCTester tester;
const byte type_index = tester.DefineStruct({F(wasm::kWasmI32, true)});
const byte subtype_index =
tester.DefineStruct({F(wasm::kWasmI32, true), F(wasm::kWasmI32, true)});
ValueType kRttTypes[] = {ValueType::Rtt(type_index, 1)};
FunctionSig sig_t_v(1, 0, kRttTypes);
ValueType kRttSubtypes[] = {
ValueType::Rtt(static_cast<HeapType>(subtype_index), 2)};
FunctionSig sig_t2_v(1, 0, kRttSubtypes);
ValueType kRttTypesDeeper[] = {ValueType::Rtt(type_index, 2)};
FunctionSig sig_t3_v(1, 0, kRttTypesDeeper);
ValueType kRefTypes[] = {ref(type_index)};
FunctionSig sig_q_v(1, 0, kRefTypes);
const byte kRttCanon = tester.DefineFunction(
&sig_t_v, {}, {WASM_RTT_CANON(type_index), kExprEnd});
const byte kRttSub = tester.DefineFunction(
&sig_t2_v, {},
{WASM_RTT_SUB(subtype_index, WASM_RTT_CANON(type_index)), kExprEnd});
const byte kRttSubGeneric = tester.DefineFunction(
&sig_t3_v, {},
{WASM_RTT_SUB(type_index, WASM_RTT_CANON(kEqRefCode)), kExprEnd});
const byte kStructWithRtt = tester.DefineFunction(
&sig_q_v, {},
{WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42),
WASM_RTT_CANON(type_index)),
kExprEnd});
const int kFieldIndex = 1;
const int kStructIndexCode = 1; // Shifted in 'let' block.
const int kRttIndexCode = 0; // Let-bound, hence first local.
// This implements the following function:
// var local_struct: type0;
// let (local_rtt = rtt.sub(rtt.canon(type0), type1) in {
// local_struct = new type1 with rtt 'local_rtt';
// return (ref.test local_struct local_rtt) +
// ((ref.cast local_struct local_rtt)[field0]);
// }
// The expected return value is 1+42 = 43.
const byte kRefCast = tester.DefineFunction(
tester.sigs.i_v(), {optref(type_index)},
{WASM_LET_1_I(
WASM_RTT(2, subtype_index),
WASM_RTT_SUB(subtype_index, WASM_RTT_CANON(type_index)),
WASM_SET_LOCAL(kStructIndexCode,
WASM_STRUCT_NEW_WITH_RTT(
subtype_index, WASM_I32V(11), WASM_I32V(42),
WASM_GET_LOCAL(kRttIndexCode))),
WASM_I32_ADD(
WASM_REF_TEST(type_index, subtype_index,
WASM_GET_LOCAL(kStructIndexCode),
WASM_GET_LOCAL(kRttIndexCode)),
WASM_STRUCT_GET(subtype_index, kFieldIndex,
WASM_REF_CAST(type_index, subtype_index,
WASM_GET_LOCAL(kStructIndexCode),
WASM_GET_LOCAL(kRttIndexCode)))),
kExprEnd)});
tester.CompileModule();
Handle<Object> ref_result =
tester.GetResultObject(kRttCanon).ToHandleChecked();
CHECK(ref_result->IsMap());
Handle<Map> map = Handle<Map>::cast(ref_result);
CHECK(map->IsWasmStructMap());
CHECK_EQ(reinterpret_cast<Address>(
tester.instance()->module()->struct_type(type_index)),
map->wasm_type_info().foreign_address());
Handle<Object> subref_result =
tester.GetResultObject(kRttSub).ToHandleChecked();
CHECK(subref_result->IsMap());
Handle<Map> submap = Handle<Map>::cast(subref_result);
CHECK_EQ(*map, submap->wasm_type_info().parent());
CHECK_EQ(reinterpret_cast<Address>(
tester.instance()->module()->struct_type(subtype_index)),
submap->wasm_type_info().foreign_address());
Handle<Object> subref_result_canonicalized =
tester.GetResultObject(kRttSub).ToHandleChecked();
CHECK(subref_result.is_identical_to(subref_result_canonicalized));
Handle<Object> sub_generic_1 =
tester.GetResultObject(kRttSubGeneric).ToHandleChecked();
Handle<Object> sub_generic_2 =
tester.GetResultObject(kRttSubGeneric).ToHandleChecked();
CHECK(sub_generic_1.is_identical_to(sub_generic_2));
Handle<Object> s = tester.GetResultObject(kStructWithRtt).ToHandleChecked();
CHECK(s->IsWasmStruct());
CHECK_EQ(Handle<WasmStruct>::cast(s)->map(), *map);
tester.CheckResult(kRefCast, 43);
}
TEST(ArrayNewMap) {
WasmGCTester tester;
const byte type_index = tester.DefineArray(kWasmI32, true);
ValueType array_type = ValueType::Ref(type_index, kNonNullable);
FunctionSig sig(1, 0, &array_type);
const byte array_new_with_rtt = tester.DefineFunction(
&sig, {},
{WASM_ARRAY_NEW_WITH_RTT(type_index, WASM_I32V(10), WASM_I32V(42),
WASM_RTT_CANON(type_index)),
kExprEnd});
ValueType rtt_type = ValueType::Rtt(type_index, 1);
FunctionSig rtt_canon_sig(1, 0, &rtt_type);
const byte kRttCanon = tester.DefineFunction(
&rtt_canon_sig, {}, {WASM_RTT_CANON(type_index), kExprEnd});
tester.CompileModule();
Handle<Object> map = tester.GetResultObject(kRttCanon).ToHandleChecked();
Handle<Object> result =
tester.GetResultObject(array_new_with_rtt).ToHandleChecked();
CHECK(result->IsWasmArray());
CHECK_EQ(Handle<WasmArray>::cast(result)->map(), *map);
}
TEST(FunctionRefs) {
WasmGCTester tester;
const byte func_index =
tester.DefineFunction(tester.sigs.i_v(), {}, {WASM_I32V(42), kExprEnd});
const byte sig_index = 0;
const byte other_sig_index = tester.DefineSignature(tester.sigs.d_d());
// This is just so func_index counts as "declared".
tester.AddGlobal(ValueType::Ref(sig_index, kNullable), false,
WasmInitExpr::RefFuncConst(func_index));
ValueType func_type = ValueType::Ref(sig_index, kNonNullable);
FunctionSig sig_func(1, 0, &func_type);
ValueType rtt1 = ValueType::Rtt(sig_index, 1);
FunctionSig sig_rtt1(1, 0, &rtt1);
const byte rtt_canon = tester.DefineFunction(
&sig_rtt1, {}, {WASM_RTT_CANON(sig_index), kExprEnd});
ValueType rtt2 = ValueType::Rtt(sig_index, 2);
FunctionSig sig_rtt2(1, 0, &rtt2);
const byte rtt_sub = tester.DefineFunction(
&sig_rtt2, {},
{WASM_RTT_SUB(sig_index, WASM_RTT_CANON(kFuncRefCode)), kExprEnd});
const byte cast = tester.DefineFunction(
&sig_func, {kWasmFuncRef},
{WASM_SET_LOCAL(0, WASM_REF_FUNC(func_index)),
WASM_REF_CAST(kFuncRefCode, sig_index, WASM_GET_LOCAL(0),
WASM_RTT_CANON(sig_index)),
kExprEnd});
const byte cast_reference = tester.DefineFunction(
&sig_func, {}, {WASM_REF_FUNC(sig_index), kExprEnd});
const byte test = tester.DefineFunction(
tester.sigs.i_v(), {kWasmFuncRef},
{WASM_SET_LOCAL(0, WASM_REF_FUNC(func_index)),
WASM_REF_TEST(kFuncRefCode, other_sig_index, WASM_GET_LOCAL(0),
WASM_RTT_CANON(other_sig_index)),
kExprEnd});
tester.CompileModule();
Handle<Object> result_canon =
tester.GetResultObject(rtt_canon).ToHandleChecked();
CHECK(result_canon->IsMap());
Handle<Map> map_canon = Handle<Map>::cast(result_canon);
CHECK(map_canon->IsJSFunctionMap());
Handle<Object> result_sub = tester.GetResultObject(rtt_sub).ToHandleChecked();
CHECK(result_sub->IsMap());
Handle<Map> map_sub = Handle<Map>::cast(result_sub);
CHECK(map_sub->IsJSFunctionMap());
Handle<Object> result_cast = tester.GetResultObject(cast).ToHandleChecked();
CHECK(result_cast->IsJSFunction());
Handle<JSFunction> cast_function = Handle<JSFunction>::cast(result_cast);
Handle<Object> result_cast_reference =
tester.GetResultObject(cast_reference).ToHandleChecked();
CHECK(result_cast_reference->IsJSFunction());
Handle<JSFunction> cast_function_reference =
Handle<JSFunction>::cast(result_cast_reference);
CHECK_EQ(cast_function->code().raw_instruction_start(),
cast_function_reference->code().raw_instruction_start());
tester.CheckResult(test, 0);
}
TEST(CallRef) {
WasmGCTester tester;
byte callee = tester.DefineFunction(
tester.sigs.i_ii(), {},
{WASM_I32_ADD(WASM_GET_LOCAL(0), WASM_GET_LOCAL(1)), kExprEnd});
byte caller = tester.DefineFunction(
tester.sigs.i_i(), {},
{WASM_CALL_REF(WASM_REF_FUNC(callee), WASM_I32V(42), WASM_GET_LOCAL(0)),
kExprEnd});
// This is just so func_index counts as "declared".
tester.AddGlobal(ValueType::Ref(0, kNullable), false,
WasmInitExpr::RefFuncConst(callee));
tester.CompileModule();
tester.CheckResult(caller, 47, 5);
}
TEST(RefTestCastNull) {
WasmGCTester tester;
byte type_index = tester.DefineStruct({F(wasm::kWasmI32, true)});
const byte kRefTestNull = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_REF_TEST(type_index, type_index, WASM_REF_NULL(type_index),
WASM_RTT_CANON(type_index)),
kExprEnd});
const byte kRefCastNull = tester.DefineFunction(
tester.sigs.i_i(), // Argument and return value ignored
{},
{WASM_REF_CAST(type_index, type_index, WASM_REF_NULL(type_index),
WASM_RTT_CANON(type_index)),
kExprDrop, WASM_I32V(0), kExprEnd});
tester.CompileModule();
tester.CheckResult(kRefTestNull, 0);
tester.CheckHasThrown(kRefCastNull, 0);
}
TEST(BasicI31) {
WasmGCTester tester;
const byte kSigned = tester.DefineFunction(
tester.sigs.i_i(), {},
{WASM_I31_GET_S(WASM_I31_NEW(WASM_GET_LOCAL(0))), kExprEnd});
const byte kUnsigned = tester.DefineFunction(
tester.sigs.i_i(), {},
{WASM_I31_GET_U(WASM_I31_NEW(WASM_GET_LOCAL(0))), kExprEnd});
// TODO(7748): Support (rtt.canon i31), and add a test like:
// (ref.test (i31.new ...) (rtt.canon i31)).
tester.CompileModule();
tester.CheckResult(kSigned, 123, 123);
tester.CheckResult(kUnsigned, 123, 123);
// Truncation:
tester.CheckResult(kSigned, 0x1234, static_cast<int32_t>(0x80001234));
tester.CheckResult(kUnsigned, 0x1234, static_cast<int32_t>(0x80001234));
// Sign/zero extension:
tester.CheckResult(kSigned, -1, 0x7FFFFFFF);
tester.CheckResult(kUnsigned, 0x7FFFFFFF, 0x7FFFFFFF);
}
TEST(I31Casts) {
WasmGCTester tester;
const byte struct_type = tester.DefineStruct({F(wasm::kWasmI32, true)});
const byte i31_rtt =
tester.AddGlobal(ValueType::Rtt(HeapType::kI31, 1), false,
WasmInitExpr::RttCanon(HeapType::kI31));
const byte struct_rtt =
tester.AddGlobal(ValueType::Rtt(struct_type, 1), false,
WasmInitExpr::RttCanon(
static_cast<HeapType::Representation>(struct_type)));
// Adds the result of a successful typecheck to the untagged value, i.e.
// should return 1 + 42 = 43.
const byte kTestAndCastSuccess = tester.DefineFunction(
tester.sigs.i_v(), {kWasmEqRef},
{WASM_SET_LOCAL(0, WASM_I31_NEW(WASM_I32V(42))),
WASM_I32_ADD(WASM_REF_TEST(kEqRefCode, kI31RefCode, WASM_GET_LOCAL(0),
WASM_GET_GLOBAL(i31_rtt)),
WASM_I31_GET_S(WASM_REF_CAST(kEqRefCode, kI31RefCode,
WASM_GET_LOCAL(0),
WASM_GET_GLOBAL(i31_rtt)))),
kExprEnd});
// Adds the results of two unsuccessful type checks (an i31ref is not a
// struct, nor the other way round).
const byte kTestFalse = tester.DefineFunction(
tester.sigs.i_v(), {},
{WASM_I32_ADD(
WASM_REF_TEST(kEqRefCode, kI31RefCode,
WASM_STRUCT_NEW_WITH_RTT(struct_type, WASM_I32V(42),
WASM_GET_GLOBAL(struct_rtt)),
WASM_GET_GLOBAL(i31_rtt)),
WASM_REF_TEST(kEqRefCode, struct_type, WASM_I31_NEW(WASM_I32V(23)),
WASM_GET_GLOBAL(struct_rtt))),
kExprEnd});
// Tries to cast an i31ref to a struct, which should trap.
const byte kCastI31ToStruct = tester.DefineFunction(
tester.sigs.i_i(), // Argument and return value ignored
{},
{WASM_STRUCT_GET(
struct_type, 0,
WASM_REF_CAST(kEqRefCode, struct_type, WASM_I31_NEW(WASM_I32V(42)),
WASM_GET_GLOBAL(struct_rtt))),
kExprEnd});
// Tries to cast a struct to i31ref, which should trap.
const byte kCastStructToI31 = tester.DefineFunction(
tester.sigs.i_i(), // Argument and return value ignored
{},
{WASM_I31_GET_S(
WASM_REF_CAST(kEqRefCode, kI31RefCode,
WASM_STRUCT_NEW_WITH_RTT(struct_type, WASM_I32V(42),
WASM_GET_GLOBAL(struct_rtt)),
WASM_GET_GLOBAL(i31_rtt))),
kExprEnd});
tester.CompileModule();
tester.CheckResult(kTestAndCastSuccess, 43);
tester.CheckResult(kTestFalse, 0);
tester.CheckHasThrown(kCastI31ToStruct, 0);
tester.CheckHasThrown(kCastStructToI31, 0);
}
TEST(GlobalInitReferencingGlobal) {
WasmGCTester tester;
const byte from = tester.AddGlobal(kWasmI32, false, WasmInitExpr(42));
const byte to =
tester.AddGlobal(kWasmI32, false, WasmInitExpr::GlobalGet(from));
const byte func = tester.DefineFunction(tester.sigs.i_v(), {},
{WASM_GET_GLOBAL(to), kExprEnd});
tester.CompileModule();
tester.CheckResult(func, 42);
}
TEST(JsAccess) {
WasmGCTester tester;
const byte type_index = tester.DefineStruct({F(wasm::kWasmI32, true)});
ValueType kRefTypes[] = {ref(type_index)};
ValueType kEqRefTypes[] = {kWasmEqRef};
ValueType kEqToI[] = {kWasmI32, kWasmEqRef};
FunctionSig sig_t_v(1, 0, kRefTypes);
FunctionSig sig_q_v(1, 0, kEqRefTypes);
FunctionSig sig_i_q(1, 1, kEqToI);
tester.DefineExportedFunction(
"disallowed", &sig_t_v,
{WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42),
WASM_RTT_CANON(type_index)),
kExprEnd});
// Same code, different signature.
tester.DefineExportedFunction(
"producer", &sig_q_v,
{WASM_STRUCT_NEW_WITH_RTT(type_index, WASM_I32V(42),
WASM_RTT_CANON(type_index)),
kExprEnd});
tester.DefineExportedFunction(
"consumer", &sig_i_q,
{WASM_STRUCT_GET(type_index, 0,
WASM_REF_CAST(kEqRefCode, type_index, WASM_GET_LOCAL(0),
WASM_RTT_CANON(type_index))),
kExprEnd});
tester.CompileModule();
Isolate* isolate = tester.isolate();
TryCatch try_catch(reinterpret_cast<v8::Isolate*>(isolate));
MaybeHandle<Object> maybe_result =
tester.CallExportedFunction("disallowed", 0, nullptr);
CHECK(maybe_result.is_null());
CHECK(try_catch.HasCaught());
try_catch.Reset();
isolate->clear_pending_exception();
maybe_result = tester.CallExportedFunction("producer", 0, nullptr);
if (maybe_result.is_null()) {
FATAL("Calling 'producer' failed: %s",
*v8::String::Utf8Value(reinterpret_cast<v8::Isolate*>(isolate),
try_catch.Message()->Get()));
}
{
Handle<Object> args[] = {maybe_result.ToHandleChecked()};
maybe_result = tester.CallExportedFunction("consumer", 1, args);
}
if (maybe_result.is_null()) {
FATAL("Calling 'consumer' failed: %s",
*v8::String::Utf8Value(reinterpret_cast<v8::Isolate*>(isolate),
try_catch.Message()->Get()));
}
Handle<Object> result = maybe_result.ToHandleChecked();
CHECK(result->IsSmi());
CHECK_EQ(42, Smi::cast(*result).value());
// Calling {consumer} with any other object (e.g. the Smi we just got as
// {result}) should trap.
{
Handle<Object> args[] = {result};
maybe_result = tester.CallExportedFunction("consumer", 1, args);
}
CHECK(maybe_result.is_null());
CHECK(try_catch.HasCaught());
try_catch.Reset();
isolate->clear_pending_exception();
}
} // namespace test_gc
} // namespace wasm
} // namespace internal
} // namespace v8
Reference in New Issue View Git Blame Copy Permalink