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/*
* Copyright (C) 2014 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_RUNTIME_STACK_MAP_H_
#define ART_RUNTIME_STACK_MAP_H_
#include "base/bit_vector.h"
#include "memory_region.h"
namespace art {
/**
* Classes in the following file are wrapper on stack map information backed
* by a MemoryRegion. As such they read and write to the region, they don't have
* their own fields.
*/
/**
* Inline information for a specific PC. The information is of the form:
* [inlining_depth, [method_dex reference]+]
*/
class InlineInfo {
public:
explicit InlineInfo(MemoryRegion region) : region_(region) {}
uint8_t GetDepth() const {
return region_.Load<uint8_t>(kDepthOffset);
}
void SetDepth(uint8_t depth) {
region_.Store<uint8_t>(kDepthOffset, depth);
}
uint32_t GetMethodReferenceIndexAtDepth(uint8_t depth) const {
return region_.Load<uint32_t>(kFixedSize + depth * SingleEntrySize());
}
void SetMethodReferenceIndexAtDepth(uint8_t depth, uint32_t index) {
region_.Store<uint32_t>(kFixedSize + depth * SingleEntrySize(), index);
}
static size_t SingleEntrySize() {
return sizeof(uint32_t);
}
private:
static constexpr int kDepthOffset = 0;
static constexpr int kFixedSize = kDepthOffset + sizeof(uint8_t);
static constexpr uint32_t kNoInlineInfo = -1;
MemoryRegion region_;
friend class CodeInfo;
friend class StackMap;
friend class StackMapStream;
};
/**
* Information on dex register values for a specific PC. The information is
* of the form:
* [location_kind, register_value]+.
*
* The location_kind for a Dex register can either be:
* - Constant: register_value holds the constant,
* - Stack: register_value holds the stack offset,
* - Register: register_value holds the physical register number.
* - None: the register has no location yet, meaning it has not been set.
*/
class DexRegisterMap {
public:
explicit DexRegisterMap(MemoryRegion region) : region_(region) {}
enum LocationKind {
kNone,
kInStack,
kInRegister,
kInFpuRegister,
kConstant
};
LocationKind GetLocationKind(uint16_t register_index) const {
return region_.Load<LocationKind>(
kFixedSize + register_index * SingleEntrySize());
}
void SetRegisterInfo(uint16_t register_index, LocationKind kind, int32_t value) {
size_t entry = kFixedSize + register_index * SingleEntrySize();
region_.Store<LocationKind>(entry, kind);
region_.Store<int32_t>(entry + sizeof(LocationKind), value);
}
int32_t GetValue(uint16_t register_index) const {
return region_.Load<int32_t>(
kFixedSize + sizeof(LocationKind) + register_index * SingleEntrySize());
}
static size_t SingleEntrySize() {
return sizeof(LocationKind) + sizeof(int32_t);
}
private:
static constexpr int kFixedSize = 0;
MemoryRegion region_;
friend class CodeInfo;
friend class StackMapStream;
};
/**
* A Stack Map holds compilation information for a specific PC necessary for:
* - Mapping it to a dex PC,
* - Knowing which stack entries are objects,
* - Knowing which registers hold objects,
* - Knowing the inlining information,
* - Knowing the values of dex registers.
*
* The information is of the form:
* [dex_pc, native_pc_offset, dex_register_map_offset, inlining_info_offset, register_mask, stack_mask].
*
* Note that register_mask is fixed size, but stack_mask is variable size, depending on the
* stack size of a method.
*/
class StackMap {
public:
explicit StackMap(MemoryRegion region) : region_(region) {}
uint32_t GetDexPc() const {
return region_.Load<uint32_t>(kDexPcOffset);
}
void SetDexPc(uint32_t dex_pc) {
region_.Store<uint32_t>(kDexPcOffset, dex_pc);
}
uint32_t GetNativePcOffset() const {
return region_.Load<uint32_t>(kNativePcOffsetOffset);
}
void SetNativePcOffset(uint32_t native_pc_offset) {
return region_.Store<uint32_t>(kNativePcOffsetOffset, native_pc_offset);
}
uint32_t GetDexRegisterMapOffset() const {
return region_.Load<uint32_t>(kDexRegisterMapOffsetOffset);
}
void SetDexRegisterMapOffset(uint32_t offset) {
return region_.Store<uint32_t>(kDexRegisterMapOffsetOffset, offset);
}
uint32_t GetInlineDescriptorOffset() const {
return region_.Load<uint32_t>(kInlineDescriptorOffsetOffset);
}
void SetInlineDescriptorOffset(uint32_t offset) {
return region_.Store<uint32_t>(kInlineDescriptorOffsetOffset, offset);
}
uint32_t GetRegisterMask() const {
return region_.Load<uint32_t>(kRegisterMaskOffset);
}
void SetRegisterMask(uint32_t mask) {
region_.Store<uint32_t>(kRegisterMaskOffset, mask);
}
MemoryRegion GetStackMask() const {
return region_.Subregion(kStackMaskOffset, StackMaskSize());
}
void SetStackMask(const BitVector& sp_map) {
MemoryRegion region = GetStackMask();
for (size_t i = 0; i < region.size_in_bits(); i++) {
region.StoreBit(i, sp_map.IsBitSet(i));
}
}
bool HasInlineInfo() const {
return GetInlineDescriptorOffset() != InlineInfo::kNoInlineInfo;
}
bool Equals(const StackMap& other) {
return region_.pointer() == other.region_.pointer()
&& region_.size() == other.region_.size();
}
private:
static constexpr int kDexPcOffset = 0;
static constexpr int kNativePcOffsetOffset = kDexPcOffset + sizeof(uint32_t);
static constexpr int kDexRegisterMapOffsetOffset = kNativePcOffsetOffset + sizeof(uint32_t);
static constexpr int kInlineDescriptorOffsetOffset =
kDexRegisterMapOffsetOffset + sizeof(uint32_t);
static constexpr int kRegisterMaskOffset = kInlineDescriptorOffsetOffset + sizeof(uint32_t);
static constexpr int kFixedSize = kRegisterMaskOffset + sizeof(uint32_t);
static constexpr int kStackMaskOffset = kFixedSize;
size_t StackMaskSize() const { return region_.size() - kFixedSize; }
MemoryRegion region_;
friend class CodeInfo;
friend class StackMapStream;
};
/**
* Wrapper around all compiler information collected for a method.
* The information is of the form:
* [overall_size, number_of_stack_maps, stack_mask_size, StackMap+, DexRegisterInfo+, InlineInfo*].
*/
class CodeInfo {
public:
explicit CodeInfo(MemoryRegion region) : region_(region) {}
explicit CodeInfo(const void* data) {
uint32_t size = reinterpret_cast<const uint32_t*>(data)[0];
region_ = MemoryRegion(const_cast<void*>(data), size);
}
StackMap GetStackMapAt(size_t i) const {
size_t size = StackMapSize();
return StackMap(GetStackMaps().Subregion(i * size, size));
}
uint32_t GetOverallSize() const {
return region_.Load<uint32_t>(kOverallSizeOffset);
}
void SetOverallSize(uint32_t size) {
region_.Store<uint32_t>(kOverallSizeOffset, size);
}
uint32_t GetStackMaskSize() const {
return region_.Load<uint32_t>(kStackMaskSizeOffset);
}
void SetStackMaskSize(uint32_t size) {
region_.Store<uint32_t>(kStackMaskSizeOffset, size);
}
size_t GetNumberOfStackMaps() const {
return region_.Load<uint32_t>(kNumberOfStackMapsOffset);
}
void SetNumberOfStackMaps(uint32_t number_of_stack_maps) {
region_.Store<uint32_t>(kNumberOfStackMapsOffset, number_of_stack_maps);
}
size_t StackMapSize() const {
return StackMap::kFixedSize + GetStackMaskSize();
}
DexRegisterMap GetDexRegisterMapOf(StackMap stack_map, uint32_t number_of_dex_registers) {
uint32_t offset = stack_map.GetDexRegisterMapOffset();
return DexRegisterMap(region_.Subregion(offset,
DexRegisterMap::kFixedSize + number_of_dex_registers * DexRegisterMap::SingleEntrySize()));
}
InlineInfo GetInlineInfoOf(StackMap stack_map) {
uint32_t offset = stack_map.GetInlineDescriptorOffset();
uint8_t depth = region_.Load<uint8_t>(offset);
return InlineInfo(region_.Subregion(offset,
InlineInfo::kFixedSize + depth * InlineInfo::SingleEntrySize()));
}
StackMap GetStackMapForDexPc(uint32_t dex_pc) {
for (size_t i = 0, e = GetNumberOfStackMaps(); i < e; ++i) {
StackMap stack_map = GetStackMapAt(i);
if (stack_map.GetDexPc() == dex_pc) {
return stack_map;
}
}
LOG(FATAL) << "Unreachable";
return StackMap(MemoryRegion());
}
StackMap GetStackMapForNativePcOffset(uint32_t native_pc_offset) {
// TODO: stack maps are sorted by native pc, we can do a binary search.
for (size_t i = 0, e = GetNumberOfStackMaps(); i < e; ++i) {
StackMap stack_map = GetStackMapAt(i);
if (stack_map.GetNativePcOffset() == native_pc_offset) {
return stack_map;
}
}
LOG(FATAL) << "Unreachable";
return StackMap(MemoryRegion());
}
private:
static constexpr int kOverallSizeOffset = 0;
static constexpr int kNumberOfStackMapsOffset = kOverallSizeOffset + sizeof(uint32_t);
static constexpr int kStackMaskSizeOffset = kNumberOfStackMapsOffset + sizeof(uint32_t);
static constexpr int kFixedSize = kStackMaskSizeOffset + sizeof(uint32_t);
MemoryRegion GetStackMaps() const {
return region_.size() == 0
? MemoryRegion()
: region_.Subregion(kFixedSize, StackMapSize() * GetNumberOfStackMaps());
}
MemoryRegion region_;
friend class StackMapStream;
};
} // namespace art
#endif // ART_RUNTIME_STACK_MAP_H_