runtime/oat_quick_method_header.h - platform/art - Git at Google

 /*
  * Copyright (C) 2011 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_OAT_QUICK_METHOD_HEADER_H_
 #define ART_RUNTIME_OAT_QUICK_METHOD_HEADER_H_

 #include "arch/instruction_set.h"
 #include "base/macros.h"
 #include "base/utils.h"
 #include "quick/quick_method_frame_info.h"
 #include "stack_map.h"

 namespace art {

 class ArtMethod;

 // OatQuickMethodHeader precedes the raw code chunk generated by the compiler.
 class PACKED(4) OatQuickMethodHeader {
  public:
   OatQuickMethodHeader() = default;
   OatQuickMethodHeader(uint32_t vmap_table_offset,
                        uint32_t code_size)
       : vmap_table_offset_(vmap_table_offset),
         code_size_(code_size) {
   }

   static OatQuickMethodHeader* FromCodePointer(const void* code_ptr) {
     uintptr_t code = reinterpret_cast<uintptr_t>(code_ptr);
     uintptr_t header = code - OFFSETOF_MEMBER(OatQuickMethodHeader, code_);
     DCHECK(IsAlignedParam(code, GetInstructionSetAlignment(kRuntimeISA)) ||
            IsAlignedParam(header, GetInstructionSetAlignment(kRuntimeISA)))
         << std::hex << code << " " << std::hex << header;
     return reinterpret_cast<OatQuickMethodHeader*>(header);
   }

   static OatQuickMethodHeader* FromEntryPoint(const void* entry_point) {
     return FromCodePointer(EntryPointToCodePointer(entry_point));
   }

   OatQuickMethodHeader(const OatQuickMethodHeader&) = default;
   OatQuickMethodHeader& operator=(const OatQuickMethodHeader&) = default;

   uintptr_t NativeQuickPcOffset(const uintptr_t pc) const {
     return pc - reinterpret_cast<uintptr_t>(GetEntryPoint());
   }

   bool IsOptimized() const {
     return GetCodeSize() != 0 && vmap_table_offset_ != 0;
   }

   const uint8_t* GetOptimizedCodeInfoPtr() const {
     DCHECK(IsOptimized());
     return code_ - vmap_table_offset_;
   }

   uint8_t* GetOptimizedCodeInfoPtr() {
     DCHECK(IsOptimized());
     return code_ - vmap_table_offset_;
   }

   const uint8_t* GetCode() const {
     return code_;
   }

   uint32_t GetCodeSize() const {
     return code_size_ & kCodeSizeMask;
   }

   const uint32_t* GetCodeSizeAddr() const {
     return &code_size_;
   }

   uint32_t GetVmapTableOffset() const {
     return vmap_table_offset_;
   }

   void SetVmapTableOffset(uint32_t offset) {
     vmap_table_offset_ = offset;
   }

   const uint32_t* GetVmapTableOffsetAddr() const {
     return &vmap_table_offset_;
   }

   const uint8_t* GetVmapTable() const {
     CHECK(!IsOptimized()) << "Unimplemented vmap table for optimizing compiler";
     return (vmap_table_offset_ == 0) ? nullptr : code_ - vmap_table_offset_;
   }

   bool Contains(uintptr_t pc) const {
     uintptr_t code_start = reinterpret_cast<uintptr_t>(code_);
     static_assert(kRuntimeISA != InstructionSet::kThumb2, "kThumb2 cannot be a runtime ISA");
     if (kRuntimeISA == InstructionSet::kArm) {
       // On Thumb-2, the pc is offset by one.
       code_start++;
     }
     return code_start <= pc && pc <= (code_start + GetCodeSize());
   }

   const uint8_t* GetEntryPoint() const {
     // When the runtime architecture is ARM, `kRuntimeISA` is set to `kArm`
     // (not `kThumb2`), *but* we always generate code for the Thumb-2
     // instruction set anyway. Thumb-2 requires the entrypoint to be of
     // offset 1.
     static_assert(kRuntimeISA != InstructionSet::kThumb2, "kThumb2 cannot be a runtime ISA");
     return (kRuntimeISA == InstructionSet::kArm)
         ? reinterpret_cast<uint8_t*>(reinterpret_cast<uintptr_t>(code_) | 1)
         : code_;
   }

   template <bool kCheckFrameSize = true>
   uint32_t GetFrameSizeInBytes() const {
     uint32_t result = GetFrameInfo().FrameSizeInBytes();
     if (kCheckFrameSize) {
       DCHECK_ALIGNED(result, kStackAlignment);
     }
     return result;
   }

   QuickMethodFrameInfo GetFrameInfo() const {
     DCHECK(IsOptimized());
     return CodeInfo::DecodeFrameInfo(GetOptimizedCodeInfoPtr());
   }

   uintptr_t ToNativeQuickPc(ArtMethod* method,
                             const uint32_t dex_pc,
                             bool is_for_catch_handler,
                             bool abort_on_failure = true) const;

   uint32_t ToDexPc(ArtMethod* method, const uintptr_t pc, bool abort_on_failure = true) const;

   void SetHasShouldDeoptimizeFlag() {
     DCHECK_EQ(code_size_ & kShouldDeoptimizeMask, 0u);
     code_size_ |= kShouldDeoptimizeMask;
   }

   bool HasShouldDeoptimizeFlag() const {
     return (code_size_ & kShouldDeoptimizeMask) != 0;
   }

  private:
   static constexpr uint32_t kShouldDeoptimizeMask = 0x80000000;
   static constexpr uint32_t kCodeSizeMask = ~kShouldDeoptimizeMask;

   // The offset in bytes from the start of the vmap table to the end of the header.
   uint32_t vmap_table_offset_ = 0u;
   // The code size in bytes. The highest bit is used to signify if the compiled
   // code with the method header has should_deoptimize flag.
   uint32_t code_size_ = 0u;
   // The actual code.
   uint8_t code_[0];
 };

 }  // namespace art

 #endif  // ART_RUNTIME_OAT_QUICK_METHOD_HEADER_H_
	/*
	* Copyright (C) 2011 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_OAT_QUICK_METHOD_HEADER_H_
	#define ART_RUNTIME_OAT_QUICK_METHOD_HEADER_H_

	#include "arch/instruction_set.h"
	#include "base/macros.h"
	#include "base/utils.h"
	#include "quick/quick_method_frame_info.h"
	#include "stack_map.h"

	namespace art {

	class ArtMethod;

	// OatQuickMethodHeader precedes the raw code chunk generated by the compiler.
	class PACKED(4) OatQuickMethodHeader {
	public:
	OatQuickMethodHeader() = default;
	OatQuickMethodHeader(uint32_t vmap_table_offset,
	uint32_t code_size)
	: vmap_table_offset_(vmap_table_offset),
	code_size_(code_size) {
	}

	static OatQuickMethodHeader* FromCodePointer(const void* code_ptr) {
	uintptr_t code = reinterpret_cast<uintptr_t>(code_ptr);
	uintptr_t header = code - OFFSETOF_MEMBER(OatQuickMethodHeader, code_);
	DCHECK(IsAlignedParam(code, GetInstructionSetAlignment(kRuntimeISA)) \|\|
	IsAlignedParam(header, GetInstructionSetAlignment(kRuntimeISA)))
	<< std::hex << code << " " << std::hex << header;
	return reinterpret_cast<OatQuickMethodHeader*>(header);
	}

	static OatQuickMethodHeader* FromEntryPoint(const void* entry_point) {
	return FromCodePointer(EntryPointToCodePointer(entry_point));
	}

	OatQuickMethodHeader(const OatQuickMethodHeader&) = default;
	OatQuickMethodHeader& operator=(const OatQuickMethodHeader&) = default;

	uintptr_t NativeQuickPcOffset(const uintptr_t pc) const {
	return pc - reinterpret_cast<uintptr_t>(GetEntryPoint());
	}

	bool IsOptimized() const {
	return GetCodeSize() != 0 && vmap_table_offset_ != 0;
	}

	const uint8_t* GetOptimizedCodeInfoPtr() const {
	DCHECK(IsOptimized());
	return code_ - vmap_table_offset_;
	}

	uint8_t* GetOptimizedCodeInfoPtr() {
	DCHECK(IsOptimized());
	return code_ - vmap_table_offset_;
	}

	const uint8_t* GetCode() const {
	return code_;
	}

	uint32_t GetCodeSize() const {
	return code_size_ & kCodeSizeMask;
	}

	const uint32_t* GetCodeSizeAddr() const {
	return &code_size_;
	}

	uint32_t GetVmapTableOffset() const {
	return vmap_table_offset_;
	}

	void SetVmapTableOffset(uint32_t offset) {
	vmap_table_offset_ = offset;
	}

	const uint32_t* GetVmapTableOffsetAddr() const {
	return &vmap_table_offset_;
	}

	const uint8_t* GetVmapTable() const {
	CHECK(!IsOptimized()) << "Unimplemented vmap table for optimizing compiler";
	return (vmap_table_offset_ == 0) ? nullptr : code_ - vmap_table_offset_;
	}

	bool Contains(uintptr_t pc) const {
	uintptr_t code_start = reinterpret_cast<uintptr_t>(code_);
	static_assert(kRuntimeISA != InstructionSet::kThumb2, "kThumb2 cannot be a runtime ISA");
	if (kRuntimeISA == InstructionSet::kArm) {
	// On Thumb-2, the pc is offset by one.
	code_start++;
	}
	return code_start <= pc && pc <= (code_start + GetCodeSize());
	}

	const uint8_t* GetEntryPoint() const {
	// When the runtime architecture is ARM, `kRuntimeISA` is set to `kArm`
	// (not `kThumb2`), but we always generate code for the Thumb-2
	// instruction set anyway. Thumb-2 requires the entrypoint to be of
	// offset 1.
	static_assert(kRuntimeISA != InstructionSet::kThumb2, "kThumb2 cannot be a runtime ISA");
	return (kRuntimeISA == InstructionSet::kArm)
	? reinterpret_cast<uint8_t*>(reinterpret_cast<uintptr_t>(code_) \| 1)
	: code_;
	}

	template <bool kCheckFrameSize = true>
	uint32_t GetFrameSizeInBytes() const {
	uint32_t result = GetFrameInfo().FrameSizeInBytes();
	if (kCheckFrameSize) {
	DCHECK_ALIGNED(result, kStackAlignment);
	}
	return result;
	}

	QuickMethodFrameInfo GetFrameInfo() const {
	DCHECK(IsOptimized());
	return CodeInfo::DecodeFrameInfo(GetOptimizedCodeInfoPtr());
	}

	uintptr_t ToNativeQuickPc(ArtMethod* method,
	const uint32_t dex_pc,
	bool is_for_catch_handler,
	bool abort_on_failure = true) const;

	uint32_t ToDexPc(ArtMethod* method, const uintptr_t pc, bool abort_on_failure = true) const;

	void SetHasShouldDeoptimizeFlag() {
	DCHECK_EQ(code_size_ & kShouldDeoptimizeMask, 0u);
	code_size_ \|= kShouldDeoptimizeMask;
	}

	bool HasShouldDeoptimizeFlag() const {
	return (code_size_ & kShouldDeoptimizeMask) != 0;
	}

	private:
	static constexpr uint32_t kShouldDeoptimizeMask = 0x80000000;
	static constexpr uint32_t kCodeSizeMask = ~kShouldDeoptimizeMask;

	// The offset in bytes from the start of the vmap table to the end of the header.
	uint32_t vmap_table_offset_ = 0u;
	// The code size in bytes. The highest bit is used to signify if the compiled
	// code with the method header has should_deoptimize flag.
	uint32_t code_size_ = 0u;
	// The actual code.
	uint8_t code_[0];
	};

	} // namespace art

	#endif // ART_RUNTIME_OAT_QUICK_METHOD_HEADER_H_