v8/test/unittests/wasm/wasm-code-manager-unittest.cc
Clemens Hammacher d08eb7364f [wasm] Use CommitPageSize where appropriate
{CommitPageSize()} can be smaller than {AllocatePageSize()} (on win64,
it's 4kb vs 64kb), thus use the commit size where appropriate.

R=titzer@chromium.org

Change-Id: Ic9a009158d788aa0c53e15790ea089f01ade0d0a
Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1605940
Reviewed-by: Ben Titzer <titzer@chromium.org>
Commit-Queue: Clemens Hammacher <clemensh@chromium.org>
Cr-Commit-Position: refs/heads/master@{#61450}
2019-05-13 14:38:13 +00:00

385 lines
13 KiB
C++

// Copyright 2017 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 "testing/gmock/include/gmock/gmock.h"
#include "src/wasm/function-compiler.h"
#include "src/wasm/jump-table-assembler.h"
#include "src/wasm/wasm-code-manager.h"
#include "src/wasm/wasm-engine.h"
#include "src/wasm/wasm-memory.h"
namespace v8 {
namespace internal {
namespace wasm {
namespace wasm_heap_unittest {
class DisjointAllocationPoolTest : public ::testing::Test {
public:
void CheckPool(const DisjointAllocationPool& mem,
std::initializer_list<base::AddressRegion> expected_regions);
void CheckRange(base::AddressRegion region1, base::AddressRegion region2);
DisjointAllocationPool Make(
std::initializer_list<base::AddressRegion> regions);
};
void DisjointAllocationPoolTest::CheckPool(
const DisjointAllocationPool& mem,
std::initializer_list<base::AddressRegion> expected_regions) {
const auto& regions = mem.regions();
CHECK_EQ(regions.size(), expected_regions.size());
auto iter = expected_regions.begin();
for (auto it = regions.begin(), e = regions.end(); it != e; ++it, ++iter) {
CHECK_EQ(*it, *iter);
}
}
void DisjointAllocationPoolTest::CheckRange(base::AddressRegion region1,
base::AddressRegion region2) {
CHECK_EQ(region1, region2);
}
DisjointAllocationPool DisjointAllocationPoolTest::Make(
std::initializer_list<base::AddressRegion> regions) {
DisjointAllocationPool ret;
for (auto& region : regions) {
ret.Merge(region);
}
return ret;
}
TEST_F(DisjointAllocationPoolTest, ConstructEmpty) {
DisjointAllocationPool a;
CHECK(a.IsEmpty());
CheckPool(a, {});
a.Merge({1, 4});
CheckPool(a, {{1, 4}});
}
TEST_F(DisjointAllocationPoolTest, ConstructWithRange) {
DisjointAllocationPool a({1, 4});
CHECK(!a.IsEmpty());
CheckPool(a, {{1, 4}});
}
TEST_F(DisjointAllocationPoolTest, SimpleExtract) {
DisjointAllocationPool a = Make({{1, 4}});
base::AddressRegion b = a.Allocate(2);
CheckPool(a, {{3, 2}});
CheckRange(b, {1, 2});
a.Merge(b);
CheckPool(a, {{1, 4}});
CHECK_EQ(a.regions().size(), 1);
CHECK_EQ(a.regions().front().begin(), 1);
CHECK_EQ(a.regions().front().end(), 5);
}
TEST_F(DisjointAllocationPoolTest, ExtractAll) {
DisjointAllocationPool a({1, 4});
base::AddressRegion b = a.Allocate(4);
CheckRange(b, {1, 4});
CHECK(a.IsEmpty());
a.Merge(b);
CheckPool(a, {{1, 4}});
}
TEST_F(DisjointAllocationPoolTest, FailToExtract) {
DisjointAllocationPool a = Make({{1, 4}});
base::AddressRegion b = a.Allocate(5);
CheckPool(a, {{1, 4}});
CHECK(b.is_empty());
}
TEST_F(DisjointAllocationPoolTest, FailToExtractExact) {
DisjointAllocationPool a = Make({{1, 4}, {10, 4}});
base::AddressRegion b = a.Allocate(5);
CheckPool(a, {{1, 4}, {10, 4}});
CHECK(b.is_empty());
}
TEST_F(DisjointAllocationPoolTest, ExtractExact) {
DisjointAllocationPool a = Make({{1, 4}, {10, 5}});
base::AddressRegion b = a.Allocate(5);
CheckPool(a, {{1, 4}});
CheckRange(b, {10, 5});
}
TEST_F(DisjointAllocationPoolTest, Merging) {
DisjointAllocationPool a = Make({{10, 5}, {20, 5}});
a.Merge({15, 5});
CheckPool(a, {{10, 15}});
}
TEST_F(DisjointAllocationPoolTest, MergingMore) {
DisjointAllocationPool a = Make({{10, 5}, {20, 5}, {30, 5}});
a.Merge({15, 5});
a.Merge({25, 5});
CheckPool(a, {{10, 25}});
}
TEST_F(DisjointAllocationPoolTest, MergingSkip) {
DisjointAllocationPool a = Make({{10, 5}, {20, 5}, {30, 5}});
a.Merge({25, 5});
CheckPool(a, {{10, 5}, {20, 15}});
}
TEST_F(DisjointAllocationPoolTest, MergingSkipLargerSrc) {
DisjointAllocationPool a = Make({{10, 5}, {20, 5}, {30, 5}});
a.Merge({25, 5});
a.Merge({35, 5});
CheckPool(a, {{10, 5}, {20, 20}});
}
TEST_F(DisjointAllocationPoolTest, MergingSkipLargerSrcWithGap) {
DisjointAllocationPool a = Make({{10, 5}, {20, 5}, {30, 5}});
a.Merge({25, 5});
a.Merge({36, 4});
CheckPool(a, {{10, 5}, {20, 15}, {36, 4}});
}
enum ModuleStyle : int { Fixed = 0, Growable = 1 };
std::string PrintWasmCodeManageTestParam(
::testing::TestParamInfo<ModuleStyle> info) {
switch (info.param) {
case Fixed:
return "Fixed";
case Growable:
return "Growable";
}
UNREACHABLE();
}
class WasmCodeManagerTest : public TestWithContext,
public ::testing::WithParamInterface<ModuleStyle> {
public:
static constexpr uint32_t kNumFunctions = 10;
static constexpr uint32_t kJumpTableSize = RoundUp<kCodeAlignment>(
JumpTableAssembler::SizeForNumberOfSlots(kNumFunctions));
static size_t allocate_page_size;
static size_t commit_page_size;
WasmCodeManagerTest() {
CHECK_EQ(allocate_page_size == 0, commit_page_size == 0);
if (allocate_page_size == 0) {
allocate_page_size = AllocatePageSize();
commit_page_size = CommitPageSize();
}
CHECK_NE(0, allocate_page_size);
CHECK_NE(0, commit_page_size);
}
using NativeModulePtr = std::shared_ptr<NativeModule>;
NativeModulePtr AllocModule(size_t size, ModuleStyle style) {
std::shared_ptr<WasmModule> module(new WasmModule);
module->num_declared_functions = kNumFunctions;
bool can_request_more = style == Growable;
return engine()->NewNativeModule(i_isolate(), kAllWasmFeatures, size,
can_request_more, std::move(module));
}
WasmCode* AddCode(NativeModule* native_module, uint32_t index, size_t size) {
CodeDesc desc;
memset(reinterpret_cast<void*>(&desc), 0, sizeof(CodeDesc));
std::unique_ptr<byte[]> exec_buff(new byte[size]);
desc.buffer = exec_buff.get();
desc.instr_size = static_cast<int>(size);
std::unique_ptr<WasmCode> code = native_module->AddCode(
index, desc, 0, 0, {}, {}, WasmCode::kFunction, ExecutionTier::kNone);
return native_module->PublishCode(std::move(code));
}
WasmEngine* engine() { return i_isolate()->wasm_engine(); }
WasmCodeManager* manager() { return engine()->code_manager(); }
void SetMaxCommittedMemory(size_t limit) {
manager()->SetMaxCommittedMemoryForTesting(limit);
}
void DisableWin64UnwindInfoForTesting() {
#if defined(V8_OS_WIN_X64)
manager()->DisableWin64UnwindInfoForTesting();
#endif
}
};
// static
size_t WasmCodeManagerTest::allocate_page_size = 0;
size_t WasmCodeManagerTest::commit_page_size = 0;
INSTANTIATE_TEST_SUITE_P(Parameterized, WasmCodeManagerTest,
::testing::Values(Fixed, Growable),
PrintWasmCodeManageTestParam);
TEST_P(WasmCodeManagerTest, EmptyCase) {
SetMaxCommittedMemory(0);
CHECK_EQ(0, manager()->committed_code_space());
ASSERT_DEATH_IF_SUPPORTED(AllocModule(allocate_page_size, GetParam()),
"OOM in wasm code commit");
}
TEST_P(WasmCodeManagerTest, AllocateAndGoOverLimit) {
SetMaxCommittedMemory(allocate_page_size);
DisableWin64UnwindInfoForTesting();
CHECK_EQ(0, manager()->committed_code_space());
NativeModulePtr native_module = AllocModule(allocate_page_size, GetParam());
CHECK(native_module);
CHECK_EQ(commit_page_size, manager()->committed_code_space());
WasmCodeRefScope code_ref_scope;
uint32_t index = 0;
WasmCode* code = AddCode(native_module.get(), index++, 1 * kCodeAlignment);
CHECK_NOT_NULL(code);
CHECK_EQ(commit_page_size, manager()->committed_code_space());
code = AddCode(native_module.get(), index++, 3 * kCodeAlignment);
CHECK_NOT_NULL(code);
CHECK_EQ(commit_page_size, manager()->committed_code_space());
code = AddCode(native_module.get(), index++,
allocate_page_size - 4 * kCodeAlignment - kJumpTableSize);
CHECK_NOT_NULL(code);
CHECK_EQ(allocate_page_size, manager()->committed_code_space());
// This fails in "reservation" if we cannot extend the code space, or in
// "commit" it we can (since we hit the allocation limit in the
// WasmCodeManager). Hence don't check for that part of the OOM message.
ASSERT_DEATH_IF_SUPPORTED(
AddCode(native_module.get(), index++, 1 * kCodeAlignment),
"OOM in wasm code");
}
TEST_P(WasmCodeManagerTest, TotalLimitIrrespectiveOfModuleCount) {
SetMaxCommittedMemory(3 * allocate_page_size);
DisableWin64UnwindInfoForTesting();
NativeModulePtr nm1 = AllocModule(2 * allocate_page_size, GetParam());
NativeModulePtr nm2 = AllocModule(2 * allocate_page_size, GetParam());
CHECK(nm1);
CHECK(nm2);
WasmCodeRefScope code_ref_scope;
WasmCode* code =
AddCode(nm1.get(), 0, 2 * allocate_page_size - kJumpTableSize);
CHECK_NOT_NULL(code);
ASSERT_DEATH_IF_SUPPORTED(
AddCode(nm2.get(), 0, 2 * allocate_page_size - kJumpTableSize),
"OOM in wasm code commit");
}
TEST_P(WasmCodeManagerTest, GrowingVsFixedModule) {
SetMaxCommittedMemory(3 * allocate_page_size);
DisableWin64UnwindInfoForTesting();
NativeModulePtr nm = AllocModule(allocate_page_size, GetParam());
size_t module_size =
GetParam() == Fixed ? kMaxWasmCodeMemory : allocate_page_size;
size_t remaining_space_in_module = module_size - kJumpTableSize;
if (GetParam() == Fixed) {
// Requesting more than the remaining space fails because the module cannot
// grow.
ASSERT_DEATH_IF_SUPPORTED(
AddCode(nm.get(), 0, remaining_space_in_module + kCodeAlignment),
"OOM in wasm code reservation");
} else {
// The module grows by one page. One page remains uncommitted.
WasmCodeRefScope code_ref_scope;
CHECK_NOT_NULL(
AddCode(nm.get(), 0, remaining_space_in_module + kCodeAlignment));
CHECK_EQ(commit_page_size + allocate_page_size,
manager()->committed_code_space());
}
}
TEST_P(WasmCodeManagerTest, CommitIncrements) {
SetMaxCommittedMemory(10 * allocate_page_size);
DisableWin64UnwindInfoForTesting();
NativeModulePtr nm = AllocModule(3 * allocate_page_size, GetParam());
WasmCodeRefScope code_ref_scope;
WasmCode* code = AddCode(nm.get(), 0, kCodeAlignment);
CHECK_NOT_NULL(code);
CHECK_EQ(commit_page_size, manager()->committed_code_space());
code = AddCode(nm.get(), 1, 2 * allocate_page_size);
CHECK_NOT_NULL(code);
CHECK_EQ(commit_page_size + 2 * allocate_page_size,
manager()->committed_code_space());
code = AddCode(nm.get(), 2,
allocate_page_size - kCodeAlignment - kJumpTableSize);
CHECK_NOT_NULL(code);
CHECK_EQ(3 * allocate_page_size, manager()->committed_code_space());
}
TEST_P(WasmCodeManagerTest, Lookup) {
SetMaxCommittedMemory(2 * allocate_page_size);
DisableWin64UnwindInfoForTesting();
NativeModulePtr nm1 = AllocModule(allocate_page_size, GetParam());
NativeModulePtr nm2 = AllocModule(allocate_page_size, GetParam());
Address mid_code1_1;
{
// The {WasmCodeRefScope} needs to die before {nm1} dies.
WasmCodeRefScope code_ref_scope;
WasmCode* code1_0 = AddCode(nm1.get(), 0, kCodeAlignment);
CHECK_EQ(nm1.get(), code1_0->native_module());
WasmCode* code1_1 = AddCode(nm1.get(), 1, kCodeAlignment);
WasmCode* code2_0 = AddCode(nm2.get(), 0, kCodeAlignment);
WasmCode* code2_1 = AddCode(nm2.get(), 1, kCodeAlignment);
CHECK_EQ(nm2.get(), code2_1->native_module());
CHECK_EQ(0, code1_0->index());
CHECK_EQ(1, code1_1->index());
CHECK_EQ(0, code2_0->index());
CHECK_EQ(1, code2_1->index());
// we know the manager object is allocated here, so we shouldn't
// find any WasmCode* associated with that ptr.
WasmCode* not_found =
manager()->LookupCode(reinterpret_cast<Address>(manager()));
CHECK_NULL(not_found);
WasmCode* found = manager()->LookupCode(code1_0->instruction_start());
CHECK_EQ(found, code1_0);
found = manager()->LookupCode(code2_1->instruction_start() +
(code2_1->instructions().size() / 2));
CHECK_EQ(found, code2_1);
found = manager()->LookupCode(code2_1->instruction_start() +
code2_1->instructions().size() - 1);
CHECK_EQ(found, code2_1);
found = manager()->LookupCode(code2_1->instruction_start() +
code2_1->instructions().size());
CHECK_NULL(found);
mid_code1_1 =
code1_1->instruction_start() + (code1_1->instructions().size() / 2);
CHECK_EQ(code1_1, manager()->LookupCode(mid_code1_1));
}
nm1.reset();
CHECK_NULL(manager()->LookupCode(mid_code1_1));
}
TEST_P(WasmCodeManagerTest, LookupWorksAfterRewrite) {
SetMaxCommittedMemory(2 * allocate_page_size);
DisableWin64UnwindInfoForTesting();
NativeModulePtr nm1 = AllocModule(allocate_page_size, GetParam());
WasmCodeRefScope code_ref_scope;
WasmCode* code0 = AddCode(nm1.get(), 0, kCodeAlignment);
WasmCode* code1 = AddCode(nm1.get(), 1, kCodeAlignment);
CHECK_EQ(0, code0->index());
CHECK_EQ(1, code1->index());
CHECK_EQ(code1, manager()->LookupCode(code1->instruction_start()));
WasmCode* code1_1 = AddCode(nm1.get(), 1, kCodeAlignment);
CHECK_EQ(1, code1_1->index());
CHECK_EQ(code1, manager()->LookupCode(code1->instruction_start()));
CHECK_EQ(code1_1, manager()->LookupCode(code1_1->instruction_start()));
}
} // namespace wasm_heap_unittest
} // namespace wasm
} // namespace internal
} // namespace v8