luau/tests/CodeAllocator.test.cpp
Arseny Kapoulkine ce2c3b3a4e
Sync to upstream/release/544 (#669)
- Remove type definitions of
`utf8.nfcnormalize`/`nfdnormalize`/`graphemes` that aren't supported by
standalone Luau library
- Add `lua_costatus` to retrieve extended thread status (similar to
`coroutine.status`)
- Improve GC sweeping performance (2-10% improvement on allocation-heavy
benchmarks)
2022-09-08 15:14:25 -07:00

162 lines
4.7 KiB
C++

// This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
#include "Luau/AssemblyBuilderX64.h"
#include "Luau/CodeAllocator.h"
#include "doctest.h"
#include <string.h>
using namespace Luau::CodeGen;
TEST_SUITE_BEGIN("CodeAllocation");
TEST_CASE("CodeAllocation")
{
size_t blockSize = 1024 * 1024;
size_t maxTotalSize = 1024 * 1024;
CodeAllocator allocator(blockSize, maxTotalSize);
uint8_t* nativeData = nullptr;
size_t sizeNativeData = 0;
uint8_t* nativeEntry = nullptr;
std::vector<uint8_t> code;
code.resize(128);
REQUIRE(allocator.allocate(nullptr, 0, code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
CHECK(nativeData != nullptr);
CHECK(sizeNativeData == 128);
CHECK(nativeEntry != nullptr);
CHECK(nativeEntry == nativeData);
std::vector<uint8_t> data;
data.resize(8);
REQUIRE(allocator.allocate(data.data(), data.size(), code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
CHECK(nativeData != nullptr);
CHECK(sizeNativeData == 16 + 128);
CHECK(nativeEntry != nullptr);
CHECK(nativeEntry == nativeData + 16);
}
TEST_CASE("CodeAllocationFailure")
{
size_t blockSize = 16384;
size_t maxTotalSize = 32768;
CodeAllocator allocator(blockSize, maxTotalSize);
uint8_t* nativeData;
size_t sizeNativeData;
uint8_t* nativeEntry;
std::vector<uint8_t> code;
code.resize(18000);
// allocation has to fit in a block
REQUIRE(!allocator.allocate(nullptr, 0, code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
// each allocation exhausts a block, so third allocation fails
code.resize(10000);
REQUIRE(allocator.allocate(nullptr, 0, code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
REQUIRE(allocator.allocate(nullptr, 0, code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
REQUIRE(!allocator.allocate(nullptr, 0, code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
}
TEST_CASE("CodeAllocationWithUnwindCallbacks")
{
struct Info
{
std::vector<uint8_t> unwind;
uint8_t* block = nullptr;
bool destroyCalled = false;
};
Info info;
info.unwind.resize(8);
{
size_t blockSize = 1024 * 1024;
size_t maxTotalSize = 1024 * 1024;
CodeAllocator allocator(blockSize, maxTotalSize);
uint8_t* nativeData = nullptr;
size_t sizeNativeData = 0;
uint8_t* nativeEntry = nullptr;
std::vector<uint8_t> code;
code.resize(128);
std::vector<uint8_t> data;
data.resize(8);
allocator.context = &info;
allocator.createBlockUnwindInfo = [](void* context, uint8_t* block, size_t blockSize, size_t& unwindDataSizeInBlock) -> void* {
Info& info = *(Info*)context;
CHECK(info.unwind.size() == 8);
memcpy(block, info.unwind.data(), info.unwind.size());
unwindDataSizeInBlock = 8;
info.block = block;
return new int(7);
};
allocator.destroyBlockUnwindInfo = [](void* context, void* unwindData) {
Info& info = *(Info*)context;
info.destroyCalled = true;
CHECK(*(int*)unwindData == 7);
delete (int*)unwindData;
};
REQUIRE(allocator.allocate(data.data(), data.size(), code.data(), code.size(), nativeData, sizeNativeData, nativeEntry));
CHECK(nativeData != nullptr);
CHECK(sizeNativeData == 16 + 128);
CHECK(nativeEntry != nullptr);
CHECK(nativeEntry == nativeData + 16);
CHECK(nativeData == info.block + 16);
}
CHECK(info.destroyCalled);
}
#if defined(__x86_64__) || defined(_M_X64)
TEST_CASE("GeneratedCodeExecution")
{
#if defined(_WIN32)
// Windows x64 ABI
constexpr RegisterX64 rArg1 = rcx;
constexpr RegisterX64 rArg2 = rdx;
#else
// System V AMD64 ABI
constexpr RegisterX64 rArg1 = rdi;
constexpr RegisterX64 rArg2 = rsi;
#endif
AssemblyBuilderX64 build(/* logText= */ false);
build.mov(rax, rArg1);
build.add(rax, rArg2);
build.imul(rax, rax, 7);
build.ret();
build.finalize();
size_t blockSize = 1024 * 1024;
size_t maxTotalSize = 1024 * 1024;
CodeAllocator allocator(blockSize, maxTotalSize);
uint8_t* nativeData;
size_t sizeNativeData;
uint8_t* nativeEntry;
REQUIRE(allocator.allocate(build.data.data(), build.data.size(), build.code.data(), build.code.size(), nativeData, sizeNativeData, nativeEntry));
REQUIRE(nativeEntry);
using FunctionType = int64_t(int64_t, int64_t);
FunctionType* f = (FunctionType*)nativeEntry;
int64_t result = f(10, 20);
CHECK(result == 210);
}
#endif
TEST_SUITE_END();