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v8/test/cctest/wasm/test-run-wasm-atomics64.cc
Clemens Backes e6371af86a [wasm] Introduce --wasm-enforce-bounds-checks flag 
There currently is no way to enforce explicit bounds checks if the
embedder installed the signal handler for wasm trap handling (queried
via {trap_handler::IsTrapHandlerEnabled()}).
This CL adds a respective flag and makes all compilation emit explicit
bounds checks if it is disabled.

R=ahaas@chromium.org

Bug: v8:11926
Change-Id: Ie19faab1766d3105f3c22cb4470c0f15398f1d09
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/2989129
Reviewed-by: Andreas Haas <ahaas@chromium.org>
Reviewed-by: Maya Lekova <mslekova@chromium.org>
Commit-Queue: Clemens Backes <clemensb@chromium.org>
Cr-Commit-Position: refs/heads/master@{#75453}
2021-06-30 08:31:14 +00:00

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// Copyright 2018 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/cctest/wasm/wasm-atomics-utils.h"
#include "test/common/wasm/wasm-macro-gen.h"
namespace v8 {
namespace internal {
namespace wasm {
namespace test_run_wasm_atomics_64 {
void RunU64BinOp(TestExecutionTier execution_tier, WasmOpcode wasm_op,
Uint64BinOp expected_op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_ATOMICS_BINOP(wasm_op, WASM_I32V_1(0), WASM_LOCAL_GET(0),
MachineRepresentation::kWord64));
FOR_UINT64_INPUTS(i) {
uint64_t initial = i;
FOR_UINT64_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(j));
uint64_t expected = expected_op(i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64Atomic##Name) { \
RunU64BinOp(execution_tier, kExprI64Atomic##Name, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
void RunU32BinOp(TestExecutionTier execution_tier, WasmOpcode wasm_op,
Uint32BinOp expected_op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
uint32_t* memory =
r.builder().AddMemoryElems<uint32_t>(kWasmPageSize / sizeof(uint32_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_ATOMICS_BINOP(wasm_op, WASM_I32V_1(0), WASM_LOCAL_GET(0),
MachineRepresentation::kWord32));
FOR_UINT32_INPUTS(i) {
uint32_t initial = i;
FOR_UINT32_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(j));
uint32_t expected = expected_op(i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64Atomic##Name##32U) { \
RunU32BinOp(execution_tier, kExprI64Atomic##Name##32U, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
void RunU16BinOp(TestExecutionTier tier, WasmOpcode wasm_op,
Uint16BinOp expected_op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(tier);
r.builder().SetHasSharedMemory();
uint16_t* memory =
r.builder().AddMemoryElems<uint16_t>(kWasmPageSize / sizeof(uint16_t));
BUILD(r, WASM_ATOMICS_BINOP(wasm_op, WASM_I32V_1(0), WASM_LOCAL_GET(0),
MachineRepresentation::kWord16));
FOR_UINT16_INPUTS(i) {
uint16_t initial = i;
FOR_UINT16_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(j));
uint16_t expected = expected_op(i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64Atomic##Name##16U) { \
RunU16BinOp(execution_tier, kExprI64Atomic##Name##16U, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
void RunU8BinOp(TestExecutionTier execution_tier, WasmOpcode wasm_op,
Uint8BinOp expected_op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint8_t* memory = r.builder().AddMemoryElems<uint8_t>(kWasmPageSize);
BUILD(r, WASM_ATOMICS_BINOP(wasm_op, WASM_I32V_1(0), WASM_LOCAL_GET(0),
MachineRepresentation::kWord8));
FOR_UINT8_INPUTS(i) {
uint8_t initial = i;
FOR_UINT8_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(j));
uint8_t expected = expected_op(i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64Atomic##Name##8U) { \
RunU8BinOp(execution_tier, kExprI64Atomic##Name##8U, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
WASM_EXEC_TEST(I64AtomicCompareExchange) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r, WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange, WASM_I32V_1(0), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1), MachineRepresentation::kWord64));
FOR_UINT64_INPUTS(i) {
uint64_t initial = i;
FOR_UINT64_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(i, j));
uint64_t expected = CompareExchange(initial, i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
WASM_EXEC_TEST(I64AtomicCompareExchange32U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint32_t* memory =
r.builder().AddMemoryElems<uint32_t>(kWasmPageSize / sizeof(uint32_t));
BUILD(r, WASM_ATOMICS_TERNARY_OP(kExprI64AtomicCompareExchange32U,
WASM_I32V_1(0), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1),
MachineRepresentation::kWord32));
FOR_UINT32_INPUTS(i) {
uint32_t initial = i;
FOR_UINT32_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(i, j));
uint32_t expected = CompareExchange(initial, i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
WASM_EXEC_TEST(I64AtomicCompareExchange16U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint16_t* memory =
r.builder().AddMemoryElems<uint16_t>(kWasmPageSize / sizeof(uint16_t));
BUILD(r, WASM_ATOMICS_TERNARY_OP(kExprI64AtomicCompareExchange16U,
WASM_I32V_1(0), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1),
MachineRepresentation::kWord16));
FOR_UINT16_INPUTS(i) {
uint16_t initial = i;
FOR_UINT16_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(i, j));
uint16_t expected = CompareExchange(initial, i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
WASM_EXEC_TEST(I32AtomicCompareExchange8U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint8_t* memory = r.builder().AddMemoryElems<uint8_t>(kWasmPageSize);
BUILD(r,
WASM_ATOMICS_TERNARY_OP(kExprI64AtomicCompareExchange8U, WASM_I32V_1(0),
WASM_LOCAL_GET(0), WASM_LOCAL_GET(1),
MachineRepresentation::kWord8));
FOR_UINT8_INPUTS(i) {
uint8_t initial = i;
FOR_UINT8_INPUTS(j) {
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(i, j));
uint8_t expected = CompareExchange(initial, i, j);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
}
WASM_EXEC_TEST(I64AtomicLoad) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r, WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad, WASM_ZERO,
MachineRepresentation::kWord64));
FOR_UINT64_INPUTS(i) {
uint64_t expected = i;
r.builder().WriteMemory(&memory[0], expected);
CHECK_EQ(expected, r.Call());
}
}
WASM_EXEC_TEST(I64AtomicLoad32U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint32_t* memory =
r.builder().AddMemoryElems<uint32_t>(kWasmPageSize / sizeof(uint32_t));
BUILD(r, WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad32U, WASM_ZERO,
MachineRepresentation::kWord32));
FOR_UINT32_INPUTS(i) {
uint32_t expected = i;
r.builder().WriteMemory(&memory[0], expected);
CHECK_EQ(expected, r.Call());
}
}
WASM_EXEC_TEST(I64AtomicLoad16U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint16_t* memory =
r.builder().AddMemoryElems<uint16_t>(kWasmPageSize / sizeof(uint16_t));
BUILD(r, WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad16U, WASM_ZERO,
MachineRepresentation::kWord16));
FOR_UINT16_INPUTS(i) {
uint16_t expected = i;
r.builder().WriteMemory(&memory[0], expected);
CHECK_EQ(expected, r.Call());
}
}
WASM_EXEC_TEST(I64AtomicLoad8U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint8_t* memory = r.builder().AddMemoryElems<uint8_t>(kWasmPageSize);
BUILD(r, WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad8U, WASM_ZERO,
MachineRepresentation::kWord8));
FOR_UINT8_INPUTS(i) {
uint8_t expected = i;
r.builder().WriteMemory(&memory[0], expected);
CHECK_EQ(expected, r.Call());
}
}
WASM_EXEC_TEST(I64AtomicStoreLoad) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r,
WASM_ATOMICS_STORE_OP(kExprI64AtomicStore, WASM_ZERO, WASM_LOCAL_GET(0),
MachineRepresentation::kWord64),
WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad, WASM_ZERO,
MachineRepresentation::kWord64));
FOR_UINT64_INPUTS(i) {
uint64_t expected = i;
CHECK_EQ(expected, r.Call(i));
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
WASM_EXEC_TEST(I64AtomicStoreLoad32U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint32_t* memory =
r.builder().AddMemoryElems<uint32_t>(kWasmPageSize / sizeof(uint32_t));
BUILD(
r,
WASM_ATOMICS_STORE_OP(kExprI64AtomicStore32U, WASM_ZERO,
WASM_LOCAL_GET(0), MachineRepresentation::kWord32),
WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad32U, WASM_ZERO,
MachineRepresentation::kWord32));
FOR_UINT32_INPUTS(i) {
uint32_t expected = i;
CHECK_EQ(expected, r.Call(i));
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
WASM_EXEC_TEST(I64AtomicStoreLoad16U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint16_t* memory =
r.builder().AddMemoryElems<uint16_t>(kWasmPageSize / sizeof(uint16_t));
BUILD(
r,
WASM_ATOMICS_STORE_OP(kExprI64AtomicStore16U, WASM_ZERO,
WASM_LOCAL_GET(0), MachineRepresentation::kWord16),
WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad16U, WASM_ZERO,
MachineRepresentation::kWord16));
FOR_UINT16_INPUTS(i) {
uint16_t expected = i;
CHECK_EQ(expected, r.Call(i));
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
}
WASM_EXEC_TEST(I64AtomicStoreLoad8U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint8_t* memory = r.builder().AddMemoryElems<uint8_t>(kWasmPageSize);
BUILD(r,
WASM_ATOMICS_STORE_OP(kExprI64AtomicStore8U, WASM_ZERO,
WASM_LOCAL_GET(0), MachineRepresentation::kWord8),
WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad8U, WASM_ZERO,
MachineRepresentation::kWord8));
FOR_UINT8_INPUTS(i) {
uint8_t expected = i;
CHECK_EQ(expected, r.Call(i));
CHECK_EQ(i, r.builder().ReadMemory(&memory[0]));
}
}
// Drop tests verify atomic operations are run correctly when the
// entire 64-bit output is optimized out
void RunDropTest(TestExecutionTier execution_tier, WasmOpcode wasm_op,
Uint64BinOp op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r,
WASM_ATOMICS_BINOP(wasm_op, WASM_I32V_1(0), WASM_LOCAL_GET(0),
MachineRepresentation::kWord64),
WASM_DROP, WASM_LOCAL_GET(0));
uint64_t initial = 0x1111222233334444, local = 0x1111111111111111;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(local, r.Call(local));
uint64_t expected = op(initial, local);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64Atomic##Name##Drop) { \
RunDropTest(execution_tier, kExprI64Atomic##Name, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
WASM_EXEC_TEST(I64AtomicSub16UDrop) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
uint16_t* memory =
r.builder().AddMemoryElems<uint16_t>(kWasmPageSize / sizeof(uint16_t));
r.builder().SetHasSharedMemory();
BUILD(r,
WASM_ATOMICS_BINOP(kExprI64AtomicSub16U, WASM_I32V_1(0),
WASM_LOCAL_GET(0), MachineRepresentation::kWord16),
WASM_DROP, WASM_LOCAL_GET(0));
uint16_t initial = 0x7, local = 0xffe0;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(local, r.Call(local));
uint16_t expected = Sub(initial, local);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(I64AtomicCompareExchangeDrop) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r,
WASM_ATOMICS_TERNARY_OP(kExprI64AtomicCompareExchange, WASM_I32V_1(0),
WASM_LOCAL_GET(0), WASM_LOCAL_GET(1),
MachineRepresentation::kWord64),
WASM_DROP, WASM_LOCAL_GET(1));
uint64_t initial = 0x1111222233334444, local = 0x1111111111111111;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(local, r.Call(initial, local));
uint64_t expected = CompareExchange(initial, initial, local);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(I64AtomicStoreLoadDrop) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r,
WASM_ATOMICS_STORE_OP(kExprI64AtomicStore, WASM_ZERO, WASM_LOCAL_GET(0),
MachineRepresentation::kWord64),
WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad, WASM_ZERO,
MachineRepresentation::kWord64),
WASM_DROP, WASM_LOCAL_GET(1));
uint64_t store_value = 0x1111111111111111, expected = 0xC0DE;
CHECK_EQ(expected, r.Call(store_value, expected));
CHECK_EQ(store_value, r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(I64AtomicAddConvertDrop) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r,
WASM_ATOMICS_BINOP(kExprI64AtomicAdd, WASM_I32V_1(0), WASM_LOCAL_GET(0),
MachineRepresentation::kWord64),
kExprI32ConvertI64, WASM_DROP, WASM_LOCAL_GET(0));
uint64_t initial = 0x1111222233334444, local = 0x1111111111111111;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(local, r.Call(local));
uint64_t expected = Add(initial, local);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(I64AtomicLoadConvertDrop) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_LOAD_OP(
kExprI64AtomicLoad, WASM_ZERO, MachineRepresentation::kWord64)));
uint64_t initial = 0x1111222233334444;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint32_t>(initial), r.Call(initial));
}
// Convert tests verify atomic operations are run correctly when the
// upper half of the 64-bit output is optimized out
void RunConvertTest(TestExecutionTier execution_tier, WasmOpcode wasm_op,
Uint64BinOp op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_I32_CONVERT_I64(
WASM_ATOMICS_BINOP(wasm_op, WASM_ZERO, WASM_LOCAL_GET(0),
MachineRepresentation::kWord64)));
uint64_t initial = 0x1111222233334444, local = 0x1111111111111111;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint32_t>(initial), r.Call(local));
uint64_t expected = op(initial, local);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64AtomicConvert##Name) { \
RunConvertTest(execution_tier, kExprI64Atomic##Name, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
WASM_EXEC_TEST(I64AtomicConvertCompareExchange) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t, uint64_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange, WASM_I32V_1(0), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1), MachineRepresentation::kWord64)));
uint64_t initial = 0x1111222233334444, local = 0x1111111111111111;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint32_t>(initial), r.Call(initial, local));
uint64_t expected = CompareExchange(initial, initial, local);
CHECK_EQ(expected, r.builder().ReadMemory(&memory[0]));
}
// The WASM_I64_EQ operation is used here to test that the index node
// is lowered correctly.
void RunNonConstIndexTest(TestExecutionTier execution_tier, WasmOpcode wasm_op,
Uint64BinOp op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_BINOP(
wasm_op, WASM_I64_EQ(WASM_I64V(1), WASM_I64V(0)),
WASM_LOCAL_GET(0), MachineRepresentation::kWord32)));
uint64_t initial = 0x1111222233334444, local = 0x5555666677778888;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint32_t>(initial), r.Call(local));
CHECK_EQ(static_cast<uint32_t>(op(initial, local)),
static_cast<uint32_t>(r.builder().ReadMemory(&memory[0])));
}
// Test a set of Narrow operations
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64AtomicConstIndex##Name##Narrow) { \
RunNonConstIndexTest(execution_tier, kExprI64Atomic##Name##32U, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
// Test a set of Regular operations
#define TEST_OPERATION(Name) \
WASM_EXEC_TEST(I64AtomicConstIndex##Name) { \
RunNonConstIndexTest(execution_tier, kExprI64Atomic##Name, Name); \
}
OPERATION_LIST(TEST_OPERATION)
#undef TEST_OPERATION
WASM_EXEC_TEST(I64AtomicNonConstIndexCompareExchangeNarrow) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t, uint64_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange16U,
WASM_I64_EQ(WASM_I64V(1), WASM_I64V(0)), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1), MachineRepresentation::kWord16)));
uint64_t initial = 0x4444333322221111, local = 0x9999888877776666;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint16_t>(initial), r.Call(initial, local));
CHECK_EQ(static_cast<uint16_t>(CompareExchange(initial, initial, local)),
static_cast<uint16_t>(r.builder().ReadMemory(&memory[0])));
}
WASM_EXEC_TEST(I64AtomicNonConstIndexCompareExchange) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t, uint64_t, uint64_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange,
WASM_I64_EQ(WASM_I64V(1), WASM_I64V(0)), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1), MachineRepresentation::kWord16)));
uint64_t initial = 4444333322221111, local = 0x9999888877776666;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint32_t>(initial), r.Call(initial, local));
CHECK_EQ(CompareExchange(initial, initial, local),
r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(I64AtomicNonConstIndexLoad8U) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_LOAD_OP(
kExprI64AtomicLoad8U, WASM_I64_EQ(WASM_I64V(1), WASM_I64V(0)),
MachineRepresentation::kWord8)));
uint64_t expected = 0xffffeeeeddddcccc;
r.builder().WriteMemory(&memory[0], expected);
CHECK_EQ(static_cast<uint8_t>(expected), r.Call());
}
WASM_EXEC_TEST(I64AtomicCompareExchangeFail) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r, WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange, WASM_I32V_1(0), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1), MachineRepresentation::kWord64));
uint64_t initial = 0x1111222233334444, local = 0x1111111111111111,
test = 0x2222222222222222;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(initial, r.Call(test, local));
// No memory change on failed compare exchange
CHECK_EQ(initial, r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(I64AtomicCompareExchange32UFail) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint64_t, uint64_t, uint64_t> r(execution_tier);
r.builder().SetHasSharedMemory();
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
BUILD(r, WASM_ATOMICS_TERNARY_OP(kExprI64AtomicCompareExchange32U,
WASM_I32V_1(0), WASM_LOCAL_GET(0),
WASM_LOCAL_GET(1),
MachineRepresentation::kWord32));
uint64_t initial = 0x1111222233334444, test = 0xffffffff, local = 0xeeeeeeee;
r.builder().WriteMemory(&memory[0], initial);
CHECK_EQ(static_cast<uint32_t>(initial), r.Call(test, local));
// No memory change on failed compare exchange
CHECK_EQ(initial, r.builder().ReadMemory(&memory[0]));
}
WASM_EXEC_TEST(AtomicStoreNoConsideredEffectful) {
EXPERIMENTAL_FLAG_SCOPE(threads);
// Use {Load} instead of {ProtectedLoad}.
FLAG_SCOPE(wasm_enforce_bounds_checks);
WasmRunner<uint32_t> r(execution_tier);
r.builder().AddMemoryElems<int64_t>(kWasmPageSize / sizeof(int64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_LOAD_MEM(MachineType::Int64(), WASM_ZERO),
WASM_ATOMICS_STORE_OP(kExprI64AtomicStore, WASM_ZERO, WASM_I64V(20),
MachineRepresentation::kWord64),
kExprI64Eqz);
CHECK_EQ(1, r.Call());
}
void RunNoEffectTest(TestExecutionTier execution_tier, WasmOpcode wasm_op) {
EXPERIMENTAL_FLAG_SCOPE(threads);
// Use {Load} instead of {ProtectedLoad}.
FLAG_SCOPE(wasm_enforce_bounds_checks);
WasmRunner<uint32_t> r(execution_tier);
r.builder().AddMemoryElems<int64_t>(kWasmPageSize / sizeof(int64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_LOAD_MEM(MachineType::Int64(), WASM_ZERO),
WASM_ATOMICS_BINOP(wasm_op, WASM_ZERO, WASM_I64V(20),
MachineRepresentation::kWord64),
WASM_DROP, kExprI64Eqz);
CHECK_EQ(1, r.Call());
}
WASM_EXEC_TEST(AtomicAddNoConsideredEffectful) {
RunNoEffectTest(execution_tier, kExprI64AtomicAdd);
}
WASM_EXEC_TEST(AtomicExchangeNoConsideredEffectful) {
RunNoEffectTest(execution_tier, kExprI64AtomicExchange);
}
WASM_EXEC_TEST(AtomicCompareExchangeNoConsideredEffectful) {
EXPERIMENTAL_FLAG_SCOPE(threads);
// Use {Load} instead of {ProtectedLoad}.
FLAG_SCOPE(wasm_enforce_bounds_checks);
WasmRunner<uint32_t> r(execution_tier);
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
r.builder().SetHasSharedMemory();
BUILD(r, WASM_LOAD_MEM(MachineType::Int64(), WASM_ZERO),
WASM_ATOMICS_TERNARY_OP(kExprI64AtomicCompareExchange, WASM_ZERO,
WASM_I64V(0), WASM_I64V(30),
MachineRepresentation::kWord64),
WASM_DROP, kExprI64Eqz);
CHECK_EQ(1, r.Call());
}
WASM_EXEC_TEST(I64AtomicLoadUseOnlyLowWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the low word of an I64AtomicLoad.
BUILD(r,
WASM_I32_CONVERT_I64(WASM_ATOMICS_LOAD_OP(
kExprI64AtomicLoad, WASM_I32V(8), MachineRepresentation::kWord64)));
CHECK_EQ(0x90abcdef, r.Call());
}
WASM_EXEC_TEST(I64AtomicLoadUseOnlyHighWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the high word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(WASM_I64_ROR(
WASM_ATOMICS_LOAD_OP(kExprI64AtomicLoad, WASM_I32V(8),
MachineRepresentation::kWord64),
WASM_I64V(32))));
CHECK_EQ(0x12345678, r.Call());
}
WASM_EXEC_TEST(I64AtomicAddUseOnlyLowWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the low word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(
WASM_ATOMICS_BINOP(kExprI64AtomicAdd, WASM_I32V(8), WASM_I64V(1),
MachineRepresentation::kWord64)));
CHECK_EQ(0x90abcdef, r.Call());
}
WASM_EXEC_TEST(I64AtomicAddUseOnlyHighWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the high word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(WASM_I64_ROR(
WASM_ATOMICS_BINOP(kExprI64AtomicAdd, WASM_I32V(8), WASM_I64V(1),
MachineRepresentation::kWord64),
WASM_I64V(32))));
CHECK_EQ(0x12345678, r.Call());
}
WASM_EXEC_TEST(I64AtomicCompareExchangeUseOnlyLowWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the low word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange, WASM_I32V(8), WASM_I64V(1),
WASM_I64V(memory[1]), MachineRepresentation::kWord64)));
CHECK_EQ(0x90abcdef, r.Call());
}
WASM_EXEC_TEST(I64AtomicCompareExchangeUseOnlyHighWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the high word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(WASM_I64_ROR(
WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange, WASM_I32V(8), WASM_I64V(1),
WASM_I64V(memory[1]), MachineRepresentation::kWord64),
WASM_I64V(32))));
CHECK_EQ(0x12345678, r.Call());
}
WASM_EXEC_TEST(I64AtomicExchangeUseOnlyLowWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the low word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(WASM_ATOMICS_BINOP(
kExprI64AtomicExchange, WASM_I32V(8), WASM_I64V(1),
MachineRepresentation::kWord64)));
CHECK_EQ(0x90abcdef, r.Call());
}
WASM_EXEC_TEST(I64AtomicExchangeUseOnlyHighWord) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0x1234567890abcdeful;
r.builder().SetHasSharedMemory();
// Test that we can use just the high word of an I64AtomicLoad.
BUILD(r, WASM_I32_CONVERT_I64(WASM_I64_ROR(
WASM_ATOMICS_BINOP(kExprI64AtomicExchange, WASM_I32V(8),
WASM_I64V(1), MachineRepresentation::kWord64),
WASM_I64V(32))));
CHECK_EQ(0x12345678, r.Call());
}
WASM_EXEC_TEST(I64AtomicCompareExchange32UZeroExtended) {
EXPERIMENTAL_FLAG_SCOPE(threads);
WasmRunner<uint32_t> r(execution_tier);
uint64_t* memory =
r.builder().AddMemoryElems<uint64_t>(kWasmPageSize / sizeof(uint64_t));
memory[1] = 0;
r.builder().SetHasSharedMemory();
// Test that the high word of the expected value is cleared in the return
// value.
BUILD(r, WASM_I64_EQZ(WASM_ATOMICS_TERNARY_OP(
kExprI64AtomicCompareExchange32U, WASM_I32V(8),
WASM_I64V(0x1234567800000000), WASM_I64V(0),
MachineRepresentation::kWord32)));
CHECK_EQ(1, r.Call());
}
} // namespace test_run_wasm_atomics_64
} // namespace wasm
} // namespace internal
} // namespace v8
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