runtime/stack_map.cc - platform/art - Git at Google

 /*
  * Copyright (C) 2015 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.
  */

 #include "stack_map.h"

 #include <stdint.h>

 #include "indenter.h"
 #include "invoke_type.h"

 namespace art {

 constexpr size_t DexRegisterLocationCatalog::kNoLocationEntryIndex;
 constexpr uint32_t StackMap::kNoDexRegisterMap;
 constexpr uint32_t StackMap::kNoInlineInfo;

 DexRegisterLocation::Kind DexRegisterMap::GetLocationInternalKind(
     uint16_t dex_register_number,
     uint16_t number_of_dex_registers,
     const CodeInfo& code_info,
     const StackMapEncoding& enc) const {
   DexRegisterLocationCatalog dex_register_location_catalog =
       code_info.GetDexRegisterLocationCatalog(enc);
   size_t location_catalog_entry_index = GetLocationCatalogEntryIndex(
       dex_register_number,
       number_of_dex_registers,
       code_info.GetNumberOfLocationCatalogEntries());
   return dex_register_location_catalog.GetLocationInternalKind(location_catalog_entry_index);
 }

 DexRegisterLocation DexRegisterMap::GetDexRegisterLocation(uint16_t dex_register_number,
                                                            uint16_t number_of_dex_registers,
                                                            const CodeInfo& code_info,
                                                            const StackMapEncoding& enc) const {
   DexRegisterLocationCatalog dex_register_location_catalog =
       code_info.GetDexRegisterLocationCatalog(enc);
   size_t location_catalog_entry_index = GetLocationCatalogEntryIndex(
       dex_register_number,
       number_of_dex_registers,
       code_info.GetNumberOfLocationCatalogEntries());
   return dex_register_location_catalog.GetDexRegisterLocation(location_catalog_entry_index);
 }

 uint32_t StackMap::LoadAt(size_t number_of_bytes, size_t offset, bool check_max) const {
   if (number_of_bytes == 0u) {
     DCHECK(!check_max);
     return 0;
   } else if (number_of_bytes == 1u) {
     uint8_t value = region_.LoadUnaligned<uint8_t>(offset);
     return (check_max && value == 0xFF) ? -1 : value;
   } else if (number_of_bytes == 2u) {
     uint16_t value = region_.LoadUnaligned<uint16_t>(offset);
     return (check_max && value == 0xFFFF) ? -1 : value;
   } else if (number_of_bytes == 3u) {
     uint16_t low = region_.LoadUnaligned<uint16_t>(offset);
     uint16_t high = region_.LoadUnaligned<uint8_t>(offset + sizeof(uint16_t));
     uint32_t value = (high << 16) + low;
     return (check_max && value == 0xFFFFFF) ? -1 : value;
   } else {
     DCHECK_EQ(number_of_bytes, 4u);
     return region_.LoadUnaligned<uint32_t>(offset);
   }
 }

 void StackMap::StoreAt(size_t number_of_bytes, size_t offset, uint32_t value) const {
   if (number_of_bytes == 0u) {
     DCHECK_EQ(value, 0u);
   } else if (number_of_bytes == 1u) {
     region_.StoreUnaligned<uint8_t>(offset, value);
   } else if (number_of_bytes == 2u) {
     region_.StoreUnaligned<uint16_t>(offset, value);
   } else if (number_of_bytes == 3u) {
     region_.StoreUnaligned<uint16_t>(offset, Low16Bits(value));
     region_.StoreUnaligned<uint8_t>(offset + sizeof(uint16_t), High16Bits(value));
   } else {
     region_.StoreUnaligned<uint32_t>(offset, value);
     DCHECK_EQ(number_of_bytes, 4u);
   }
 }

 static void DumpRegisterMapping(std::ostream& os,
                                 size_t dex_register_num,
                                 DexRegisterLocation location,
                                 const std::string& prefix = "v",
                                 const std::string& suffix = "") {
   os << prefix << dex_register_num << ": "
      << DexRegisterLocation::PrettyDescriptor(location.GetInternalKind())
      << " (" << location.GetValue() << ")" << suffix << '\n';
 }

 void CodeInfo::Dump(VariableIndentationOutputStream* vios,
                     uint32_t code_offset,
                     uint16_t number_of_dex_registers,
                     bool dump_stack_maps) const {
   StackMapEncoding encoding = ExtractEncoding();
   uint32_t code_info_size = GetOverallSize();
   size_t number_of_stack_maps = GetNumberOfStackMaps();
   vios->Stream()
       << "Optimized CodeInfo (size=" << code_info_size
       << ", number_of_dex_registers=" << number_of_dex_registers
       << ", number_of_stack_maps=" << number_of_stack_maps
       << ", has_inline_info=" << encoding.HasInlineInfo()
       << ", number_of_bytes_for_inline_info=" << encoding.NumberOfBytesForInlineInfo()
       << ", number_of_bytes_for_dex_register_map=" << encoding.NumberOfBytesForDexRegisterMap()
       << ", number_of_bytes_for_dex_pc=" << encoding.NumberOfBytesForDexPc()
       << ", number_of_bytes_for_native_pc=" << encoding.NumberOfBytesForNativePc()
       << ", number_of_bytes_for_register_mask=" << encoding.NumberOfBytesForRegisterMask()
       << ")\n";
   ScopedIndentation indent1(vios);
   // Display the Dex register location catalog.
   GetDexRegisterLocationCatalog(encoding).Dump(vios, *this);
   // Display stack maps along with (live) Dex register maps.
   if (dump_stack_maps) {
     for (size_t i = 0; i < number_of_stack_maps; ++i) {
       StackMap stack_map = GetStackMapAt(i, encoding);
       stack_map.Dump(vios,
                      *this,
                      encoding,
                      code_offset,
                      number_of_dex_registers,
                      " " + std::to_string(i));
     }
   }
   // TODO: Dump the stack map's inline information? We need to know more from the caller:
   //       we need to know the number of dex registers for each inlined method.
 }

 void DexRegisterLocationCatalog::Dump(VariableIndentationOutputStream* vios,
                                       const CodeInfo& code_info) {
   StackMapEncoding encoding = code_info.ExtractEncoding();
   size_t number_of_location_catalog_entries = code_info.GetNumberOfLocationCatalogEntries();
   size_t location_catalog_size_in_bytes = code_info.GetDexRegisterLocationCatalogSize(encoding);
   vios->Stream()
       << "DexRegisterLocationCatalog (number_of_entries=" << number_of_location_catalog_entries
       << ", size_in_bytes=" << location_catalog_size_in_bytes << ")\n";
   for (size_t i = 0; i < number_of_location_catalog_entries; ++i) {
     DexRegisterLocation location = GetDexRegisterLocation(i);
     ScopedIndentation indent1(vios);
     DumpRegisterMapping(vios->Stream(), i, location, "entry ");
   }
 }

 void DexRegisterMap::Dump(VariableIndentationOutputStream* vios,
                           const CodeInfo& code_info,
                           uint16_t number_of_dex_registers) const {
   StackMapEncoding encoding = code_info.ExtractEncoding();
   size_t number_of_location_catalog_entries = code_info.GetNumberOfLocationCatalogEntries();
   // TODO: Display the bit mask of live Dex registers.
   for (size_t j = 0; j < number_of_dex_registers; ++j) {
     if (IsDexRegisterLive(j)) {
       size_t location_catalog_entry_index = GetLocationCatalogEntryIndex(
           j, number_of_dex_registers, number_of_location_catalog_entries);
       DexRegisterLocation location = GetDexRegisterLocation(j,
                                                             number_of_dex_registers,
                                                             code_info,
                                                             encoding);
       ScopedIndentation indent1(vios);
       DumpRegisterMapping(
           vios->Stream(), j, location, "v",
           "\t[entry " + std::to_string(static_cast<int>(location_catalog_entry_index)) + "]");
     }
   }
 }

 void StackMap::Dump(VariableIndentationOutputStream* vios,
                     const CodeInfo& code_info,
                     const StackMapEncoding& encoding,
                     uint32_t code_offset,
                     uint16_t number_of_dex_registers,
                     const std::string& header_suffix) const {
   vios->Stream()
       << "StackMap" << header_suffix
       << std::hex
       << " [native_pc=0x" << code_offset + GetNativePcOffset(encoding) << "]"
       << " (dex_pc=0x" << GetDexPc(encoding)
       << ", native_pc_offset=0x" << GetNativePcOffset(encoding)
       << ", dex_register_map_offset=0x" << GetDexRegisterMapOffset(encoding)
       << ", inline_info_offset=0x" << GetInlineDescriptorOffset(encoding)
       << ", register_mask=0x" << GetRegisterMask(encoding)
       << std::dec
       << ", stack_mask=0b";
   MemoryRegion stack_mask = GetStackMask(encoding);
   for (size_t i = 0, e = stack_mask.size_in_bits(); i < e; ++i) {
     vios->Stream() << stack_mask.LoadBit(e - i - 1);
   }
   vios->Stream() << ")\n";
   if (HasDexRegisterMap(encoding)) {
     DexRegisterMap dex_register_map = code_info.GetDexRegisterMapOf(
         *this, encoding, number_of_dex_registers);
     dex_register_map.Dump(vios, code_info, number_of_dex_registers);
   }
   if (HasInlineInfo(encoding)) {
     InlineInfo inline_info = code_info.GetInlineInfoOf(*this, encoding);
     // We do not know the length of the dex register maps of inlined frames
     // at this level, so we just pass null to `InlineInfo::Dump` to tell
     // it not to look at these maps.
     inline_info.Dump(vios, code_info, nullptr);
   }
 }

 void InlineInfo::Dump(VariableIndentationOutputStream* vios,
                       const CodeInfo& code_info,
                       uint16_t number_of_dex_registers[]) const {
   vios->Stream() << "InlineInfo with depth " << static_cast<uint32_t>(GetDepth()) << "\n";

   for (size_t i = 0; i < GetDepth(); ++i) {
     vios->Stream()
         << " At depth " << i
         << std::hex
         << " (dex_pc=0x" << GetDexPcAtDepth(i)
         << std::dec
         << ", method_index=" << GetMethodIndexAtDepth(i)
         << ", invoke_type=" << static_cast<InvokeType>(GetInvokeTypeAtDepth(i))
         << ")\n";
     if (HasDexRegisterMapAtDepth(i) && (number_of_dex_registers != nullptr)) {
       StackMapEncoding encoding = code_info.ExtractEncoding();
       DexRegisterMap dex_register_map =
           code_info.GetDexRegisterMapAtDepth(i, *this, encoding, number_of_dex_registers[i]);
       ScopedIndentation indent1(vios);
       dex_register_map.Dump(vios, code_info, number_of_dex_registers[i]);
     }
   }
 }

 }  // namespace art
	/*
	* Copyright (C) 2015 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.
	*/

	#include "stack_map.h"

	#include <stdint.h>

	#include "indenter.h"
	#include "invoke_type.h"

	namespace art {

	constexpr size_t DexRegisterLocationCatalog::kNoLocationEntryIndex;
	constexpr uint32_t StackMap::kNoDexRegisterMap;
	constexpr uint32_t StackMap::kNoInlineInfo;

	DexRegisterLocation::Kind DexRegisterMap::GetLocationInternalKind(
	uint16_t dex_register_number,
	uint16_t number_of_dex_registers,
	const CodeInfo& code_info,
	const StackMapEncoding& enc) const {
	DexRegisterLocationCatalog dex_register_location_catalog =
	code_info.GetDexRegisterLocationCatalog(enc);
	size_t location_catalog_entry_index = GetLocationCatalogEntryIndex(
	dex_register_number,
	number_of_dex_registers,
	code_info.GetNumberOfLocationCatalogEntries());
	return dex_register_location_catalog.GetLocationInternalKind(location_catalog_entry_index);
	}

	DexRegisterLocation DexRegisterMap::GetDexRegisterLocation(uint16_t dex_register_number,
	uint16_t number_of_dex_registers,
	const CodeInfo& code_info,
	const StackMapEncoding& enc) const {
	DexRegisterLocationCatalog dex_register_location_catalog =
	code_info.GetDexRegisterLocationCatalog(enc);
	size_t location_catalog_entry_index = GetLocationCatalogEntryIndex(
	dex_register_number,
	number_of_dex_registers,
	code_info.GetNumberOfLocationCatalogEntries());
	return dex_register_location_catalog.GetDexRegisterLocation(location_catalog_entry_index);
	}

	uint32_t StackMap::LoadAt(size_t number_of_bytes, size_t offset, bool check_max) const {
	if (number_of_bytes == 0u) {
	DCHECK(!check_max);
	return 0;
	} else if (number_of_bytes == 1u) {
	uint8_t value = region_.LoadUnaligned<uint8_t>(offset);
	return (check_max && value == 0xFF) ? -1 : value;
	} else if (number_of_bytes == 2u) {
	uint16_t value = region_.LoadUnaligned<uint16_t>(offset);
	return (check_max && value == 0xFFFF) ? -1 : value;
	} else if (number_of_bytes == 3u) {
	uint16_t low = region_.LoadUnaligned<uint16_t>(offset);
	uint16_t high = region_.LoadUnaligned<uint8_t>(offset + sizeof(uint16_t));
	uint32_t value = (high << 16) + low;
	return (check_max && value == 0xFFFFFF) ? -1 : value;
	} else {
	DCHECK_EQ(number_of_bytes, 4u);
	return region_.LoadUnaligned<uint32_t>(offset);
	}
	}

	void StackMap::StoreAt(size_t number_of_bytes, size_t offset, uint32_t value) const {
	if (number_of_bytes == 0u) {
	DCHECK_EQ(value, 0u);
	} else if (number_of_bytes == 1u) {
	region_.StoreUnaligned<uint8_t>(offset, value);
	} else if (number_of_bytes == 2u) {
	region_.StoreUnaligned<uint16_t>(offset, value);
	} else if (number_of_bytes == 3u) {
	region_.StoreUnaligned<uint16_t>(offset, Low16Bits(value));
	region_.StoreUnaligned<uint8_t>(offset + sizeof(uint16_t), High16Bits(value));
	} else {
	region_.StoreUnaligned<uint32_t>(offset, value);
	DCHECK_EQ(number_of_bytes, 4u);
	}
	}

	static void DumpRegisterMapping(std::ostream& os,
	size_t dex_register_num,
	DexRegisterLocation location,
	const std::string& prefix = "v",
	const std::string& suffix = "") {
	os << prefix << dex_register_num << ": "
	<< DexRegisterLocation::PrettyDescriptor(location.GetInternalKind())
	<< " (" << location.GetValue() << ")" << suffix << '\n';
	}

	void CodeInfo::Dump(VariableIndentationOutputStream* vios,
	uint32_t code_offset,
	uint16_t number_of_dex_registers,
	bool dump_stack_maps) const {
	StackMapEncoding encoding = ExtractEncoding();
	uint32_t code_info_size = GetOverallSize();
	size_t number_of_stack_maps = GetNumberOfStackMaps();
	vios->Stream()
	<< "Optimized CodeInfo (size=" << code_info_size
	<< ", number_of_dex_registers=" << number_of_dex_registers
	<< ", number_of_stack_maps=" << number_of_stack_maps
	<< ", has_inline_info=" << encoding.HasInlineInfo()
	<< ", number_of_bytes_for_inline_info=" << encoding.NumberOfBytesForInlineInfo()
	<< ", number_of_bytes_for_dex_register_map=" << encoding.NumberOfBytesForDexRegisterMap()
	<< ", number_of_bytes_for_dex_pc=" << encoding.NumberOfBytesForDexPc()
	<< ", number_of_bytes_for_native_pc=" << encoding.NumberOfBytesForNativePc()
	<< ", number_of_bytes_for_register_mask=" << encoding.NumberOfBytesForRegisterMask()
	<< ")\n";
	ScopedIndentation indent1(vios);
	// Display the Dex register location catalog.
	GetDexRegisterLocationCatalog(encoding).Dump(vios, *this);
	// Display stack maps along with (live) Dex register maps.
	if (dump_stack_maps) {
	for (size_t i = 0; i < number_of_stack_maps; ++i) {
	StackMap stack_map = GetStackMapAt(i, encoding);
	stack_map.Dump(vios,
	*this,
	encoding,
	code_offset,
	number_of_dex_registers,
	" " + std::to_string(i));
	}
	}
	// TODO: Dump the stack map's inline information? We need to know more from the caller:
	// we need to know the number of dex registers for each inlined method.
	}

	void DexRegisterLocationCatalog::Dump(VariableIndentationOutputStream* vios,
	const CodeInfo& code_info) {
	StackMapEncoding encoding = code_info.ExtractEncoding();
	size_t number_of_location_catalog_entries = code_info.GetNumberOfLocationCatalogEntries();
	size_t location_catalog_size_in_bytes = code_info.GetDexRegisterLocationCatalogSize(encoding);
	vios->Stream()
	<< "DexRegisterLocationCatalog (number_of_entries=" << number_of_location_catalog_entries
	<< ", size_in_bytes=" << location_catalog_size_in_bytes << ")\n";
	for (size_t i = 0; i < number_of_location_catalog_entries; ++i) {
	DexRegisterLocation location = GetDexRegisterLocation(i);
	ScopedIndentation indent1(vios);
	DumpRegisterMapping(vios->Stream(), i, location, "entry ");
	}
	}

	void DexRegisterMap::Dump(VariableIndentationOutputStream* vios,
	const CodeInfo& code_info,
	uint16_t number_of_dex_registers) const {
	StackMapEncoding encoding = code_info.ExtractEncoding();
	size_t number_of_location_catalog_entries = code_info.GetNumberOfLocationCatalogEntries();
	// TODO: Display the bit mask of live Dex registers.
	for (size_t j = 0; j < number_of_dex_registers; ++j) {
	if (IsDexRegisterLive(j)) {
	size_t location_catalog_entry_index = GetLocationCatalogEntryIndex(
	j, number_of_dex_registers, number_of_location_catalog_entries);
	DexRegisterLocation location = GetDexRegisterLocation(j,
	number_of_dex_registers,
	code_info,
	encoding);
	ScopedIndentation indent1(vios);
	DumpRegisterMapping(
	vios->Stream(), j, location, "v",
	"\t[entry " + std::to_string(static_cast<int>(location_catalog_entry_index)) + "]");
	}
	}
	}

	void StackMap::Dump(VariableIndentationOutputStream* vios,
	const CodeInfo& code_info,
	const StackMapEncoding& encoding,
	uint32_t code_offset,
	uint16_t number_of_dex_registers,
	const std::string& header_suffix) const {
	vios->Stream()
	<< "StackMap" << header_suffix
	<< std::hex
	<< " [native_pc=0x" << code_offset + GetNativePcOffset(encoding) << "]"
	<< " (dex_pc=0x" << GetDexPc(encoding)
	<< ", native_pc_offset=0x" << GetNativePcOffset(encoding)
	<< ", dex_register_map_offset=0x" << GetDexRegisterMapOffset(encoding)
	<< ", inline_info_offset=0x" << GetInlineDescriptorOffset(encoding)
	<< ", register_mask=0x" << GetRegisterMask(encoding)
	<< std::dec
	<< ", stack_mask=0b";
	MemoryRegion stack_mask = GetStackMask(encoding);
	for (size_t i = 0, e = stack_mask.size_in_bits(); i < e; ++i) {
	vios->Stream() << stack_mask.LoadBit(e - i - 1);
	}
	vios->Stream() << ")\n";
	if (HasDexRegisterMap(encoding)) {
	DexRegisterMap dex_register_map = code_info.GetDexRegisterMapOf(
	*this, encoding, number_of_dex_registers);
	dex_register_map.Dump(vios, code_info, number_of_dex_registers);
	}
	if (HasInlineInfo(encoding)) {
	InlineInfo inline_info = code_info.GetInlineInfoOf(*this, encoding);
	// We do not know the length of the dex register maps of inlined frames
	// at this level, so we just pass null to `InlineInfo::Dump` to tell
	// it not to look at these maps.
	inline_info.Dump(vios, code_info, nullptr);
	}
	}

	void InlineInfo::Dump(VariableIndentationOutputStream* vios,
	const CodeInfo& code_info,
	uint16_t number_of_dex_registers[]) const {
	vios->Stream() << "InlineInfo with depth " << static_cast<uint32_t>(GetDepth()) << "\n";

	for (size_t i = 0; i < GetDepth(); ++i) {
	vios->Stream()
	<< " At depth " << i
	<< std::hex
	<< " (dex_pc=0x" << GetDexPcAtDepth(i)
	<< std::dec
	<< ", method_index=" << GetMethodIndexAtDepth(i)
	<< ", invoke_type=" << static_cast<InvokeType>(GetInvokeTypeAtDepth(i))
	<< ")\n";
	if (HasDexRegisterMapAtDepth(i) && (number_of_dex_registers != nullptr)) {
	StackMapEncoding encoding = code_info.ExtractEncoding();
	DexRegisterMap dex_register_map =
	code_info.GetDexRegisterMapAtDepth(i, *this, encoding, number_of_dex_registers[i]);
	ScopedIndentation indent1(vios);
	dex_register_map.Dump(vios, code_info, number_of_dex_registers[i]);
	}
	}
	}

	} // namespace art