runtime/vm/unwinding_records_win.cc - sdk - Git at Google

 // Copyright (c) 2023, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/unwinding_records.h"

 #include "vm/globals.h"

 #include "platform/unwinding_records.h"

 namespace dart {

 #if (defined(DART_TARGET_OS_WINDOWS) || defined(DART_HOST_OS_WINDOWS)) &&      \
     (defined(TARGET_ARCH_X64) || defined(TARGET_ARCH_ARM64))

 static void InitUnwindingRecord(intptr_t offset,
                                 CodeRangeUnwindingRecord* record,
                                 size_t code_size_in_bytes) {
 #if defined(TARGET_ARCH_X64)
   // All addresses are 32bit relative offsets to start.
   record->runtime_function[0].BeginAddress = 0;
   record->runtime_function[0].EndAddress = code_size_in_bytes;
   record->runtime_function[0].UnwindData =
       offset + offsetof(CodeRangeUnwindingRecord, unwind_info);
   record->runtime_function_count = 1;
 #elif defined(TARGET_ARCH_ARM64)

   const intptr_t kInstrSize = 4;

   // We assume that the first page of the code range is executable and
   // committed and reserved to contain multiple PDATA/XDATA to cover the whole
   // range. All addresses are 32bit relative offsets to start.

   // Maximum RUNTIME_FUNCTION count available in reserved memory, this includes
   // static part in Record as kDefaultRuntimeFunctionCount plus dynamic part in
   // the remaining reserved memory.
   const uint32_t max_runtime_function_count =
       static_cast<uint32_t>((UnwindingRecordsPlatform::SizeInBytes() -
                              sizeof(CodeRangeUnwindingRecord)) /
                                 sizeof(RUNTIME_FUNCTION) +
                             kDefaultRuntimeFunctionCount);

   uint32_t runtime_function_index = 0;
   uint32_t current_unwind_start_address = 0;
   int64_t remaining_size_in_bytes = static_cast<int64_t>(code_size_in_bytes);

   // Divide the code range into chunks in size kMaxFunctionLength and create a
   // RUNTIME_FUNCTION for each of them. All the chunks in the same size can
   // share 1 unwind_info struct, but a separate unwind_info is needed for the
   // last chunk if it is smaller than kMaxFunctionLength, because unlike X64,
   // unwind_info encodes the function/chunk length.
   while (remaining_size_in_bytes >= kMaxFunctionLength &&
          runtime_function_index < max_runtime_function_count) {
     record->runtime_function[runtime_function_index].BeginAddress =
         current_unwind_start_address;
     record->runtime_function[runtime_function_index].UnwindData =
         offset +
         static_cast<DWORD>(offsetof(CodeRangeUnwindingRecord, unwind_info));

     runtime_function_index++;
     current_unwind_start_address += kMaxFunctionLength;
     remaining_size_in_bytes -= kMaxFunctionLength;
   }
   // FunctionLength is ensured to be aligned at instruction size and Windows
   // ARM64 doesn't encoding 2 LSB.
   record->unwind_info.unwind_info.FunctionLength = kMaxFunctionLength >> 2;

   if (remaining_size_in_bytes > 0 &&
       runtime_function_index < max_runtime_function_count) {
     ASSERT((remaining_size_in_bytes % kInstrSize) == 0);

     record->unwind_info1.unwind_info.FunctionLength = static_cast<uint32_t>(
         remaining_size_in_bytes >> kFunctionLengthShiftSize);
     record->runtime_function[runtime_function_index].BeginAddress =
         current_unwind_start_address;
     record->runtime_function[runtime_function_index].UnwindData =
         offset +
         static_cast<DWORD>(offsetof(CodeRangeUnwindingRecord, unwind_info1));

     remaining_size_in_bytes -= kMaxFunctionLength;
     record->runtime_function_count = runtime_function_index + 1;
   } else {
     record->runtime_function_count = runtime_function_index;
   }

   // 1 page can cover kMaximalCodeRangeSize for ARM64 (128MB). If
   // kMaximalCodeRangeSize is changed for ARM64 and makes 1 page insufficient to
   // cover it, more pages will need to reserved for unwind data.
   ASSERT(remaining_size_in_bytes <= 0);
 #else
 #error What architecture?
 #endif
   record->magic = kUnwindingRecordMagic;
 }

 const void* UnwindingRecords::GenerateRecordsInto(intptr_t offset,
                                                   uint8_t* target_buffer) {
   CodeRangeUnwindingRecord* record =
       new (target_buffer) CodeRangeUnwindingRecord();
   InitUnwindingRecord(offset, record, offset);
   return target_buffer;
 }

 #endif  // (defined(DART_TARGET_OS_WINDOWS) || defined(DART_HOST_OS_WINDOWS))

 #if defined(DART_HOST_OS_WINDOWS) &&                                           \
     (defined(TARGET_ARCH_X64) || defined(TARGET_ARCH_ARM64))

 // Special exception-unwinding records are put at the end of executable
 // page on Windows for 64-bit applications.
 void UnwindingRecords::RegisterExecutablePage(Page* page) {
   ASSERT(page->is_executable());
   ASSERT(sizeof(CodeRangeUnwindingRecord) <=
          UnwindingRecordsPlatform::SizeInBytes());
   page->top_ -= UnwindingRecordsPlatform::SizeInBytes();
   intptr_t unwinding_record_offset =
       page->memory_->size() - UnwindingRecordsPlatform::SizeInBytes();
   CodeRangeUnwindingRecord* record =
       new (reinterpret_cast<uint8_t*>(page->memory_->start()) +
            unwinding_record_offset) CodeRangeUnwindingRecord();
   InitUnwindingRecord(unwinding_record_offset, record, page->memory_->size());
   RELEASE_ASSERT(record->magic == kUnwindingRecordMagic);
   DWORD status = RtlAddGrowableFunctionTable(
       /*DynamicTable=*/&record->dynamic_table,
       /*FunctionTable=*/record->runtime_function,
       /*EntryCount=*/record->runtime_function_count,
       /*MaximumEntryCount=*/record->runtime_function_count,
       /*RangeBase=*/page->memory_->start(),
       /*RangeEnd=*/page->memory_->end());
   if (status != 0) {
     FATAL("Failed to add growable function table: 0x%x\n", status);
   }
 }

 void UnwindingRecords::UnregisterExecutablePage(Page* page) {
   ASSERT(page->is_executable() && !page->is_image());
   intptr_t unwinding_record_offset =
       page->memory_->size() - UnwindingRecordsPlatform::SizeInBytes();
   CodeRangeUnwindingRecord* record =
       reinterpret_cast<CodeRangeUnwindingRecord*>(
           reinterpret_cast<uint8_t*>(page->memory_->start()) +
           unwinding_record_offset);
   RELEASE_ASSERT(record->magic == kUnwindingRecordMagic);
   RtlDeleteGrowableFunctionTable(record->dynamic_table);
 }

 #endif  // defined(DART_HOST_OS_WINDOWS)

 }  // namespace dart
	// Copyright (c) 2023, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/unwinding_records.h"

	#include "vm/globals.h"

	#include "platform/unwinding_records.h"

	namespace dart {

	#if (defined(DART_TARGET_OS_WINDOWS) \|\| defined(DART_HOST_OS_WINDOWS)) && \
	(defined(TARGET_ARCH_X64) \|\| defined(TARGET_ARCH_ARM64))

	static void InitUnwindingRecord(intptr_t offset,
	CodeRangeUnwindingRecord* record,
	size_t code_size_in_bytes) {
	#if defined(TARGET_ARCH_X64)
	// All addresses are 32bit relative offsets to start.
	record->runtime_function[0].BeginAddress = 0;
	record->runtime_function[0].EndAddress = code_size_in_bytes;
	record->runtime_function[0].UnwindData =
	offset + offsetof(CodeRangeUnwindingRecord, unwind_info);
	record->runtime_function_count = 1;
	#elif defined(TARGET_ARCH_ARM64)

	const intptr_t kInstrSize = 4;

	// We assume that the first page of the code range is executable and
	// committed and reserved to contain multiple PDATA/XDATA to cover the whole
	// range. All addresses are 32bit relative offsets to start.

	// Maximum RUNTIME_FUNCTION count available in reserved memory, this includes
	// static part in Record as kDefaultRuntimeFunctionCount plus dynamic part in
	// the remaining reserved memory.
	const uint32_t max_runtime_function_count =
	static_cast<uint32_t>((UnwindingRecordsPlatform::SizeInBytes() -
	sizeof(CodeRangeUnwindingRecord)) /
	sizeof(RUNTIME_FUNCTION) +
	kDefaultRuntimeFunctionCount);

	uint32_t runtime_function_index = 0;
	uint32_t current_unwind_start_address = 0;
	int64_t remaining_size_in_bytes = static_cast<int64_t>(code_size_in_bytes);

	// Divide the code range into chunks in size kMaxFunctionLength and create a
	// RUNTIME_FUNCTION for each of them. All the chunks in the same size can
	// share 1 unwind_info struct, but a separate unwind_info is needed for the
	// last chunk if it is smaller than kMaxFunctionLength, because unlike X64,
	// unwind_info encodes the function/chunk length.
	while (remaining_size_in_bytes >= kMaxFunctionLength &&
	runtime_function_index < max_runtime_function_count) {
	record->runtime_function[runtime_function_index].BeginAddress =
	current_unwind_start_address;
	record->runtime_function[runtime_function_index].UnwindData =
	offset +
	static_cast<DWORD>(offsetof(CodeRangeUnwindingRecord, unwind_info));

	runtime_function_index++;
	current_unwind_start_address += kMaxFunctionLength;
	remaining_size_in_bytes -= kMaxFunctionLength;
	}
	// FunctionLength is ensured to be aligned at instruction size and Windows
	// ARM64 doesn't encoding 2 LSB.
	record->unwind_info.unwind_info.FunctionLength = kMaxFunctionLength >> 2;

	if (remaining_size_in_bytes > 0 &&
	runtime_function_index < max_runtime_function_count) {
	ASSERT((remaining_size_in_bytes % kInstrSize) == 0);

	record->unwind_info1.unwind_info.FunctionLength = static_cast<uint32_t>(
	remaining_size_in_bytes >> kFunctionLengthShiftSize);
	record->runtime_function[runtime_function_index].BeginAddress =
	current_unwind_start_address;
	record->runtime_function[runtime_function_index].UnwindData =
	offset +
	static_cast<DWORD>(offsetof(CodeRangeUnwindingRecord, unwind_info1));

	remaining_size_in_bytes -= kMaxFunctionLength;
	record->runtime_function_count = runtime_function_index + 1;
	} else {
	record->runtime_function_count = runtime_function_index;
	}

	// 1 page can cover kMaximalCodeRangeSize for ARM64 (128MB). If
	// kMaximalCodeRangeSize is changed for ARM64 and makes 1 page insufficient to
	// cover it, more pages will need to reserved for unwind data.
	ASSERT(remaining_size_in_bytes <= 0);
	#else
	#error What architecture?
	#endif
	record->magic = kUnwindingRecordMagic;
	}

	const void* UnwindingRecords::GenerateRecordsInto(intptr_t offset,
	uint8_t* target_buffer) {
	CodeRangeUnwindingRecord* record =
	new (target_buffer) CodeRangeUnwindingRecord();
	InitUnwindingRecord(offset, record, offset);
	return target_buffer;
	}

	#endif // (defined(DART_TARGET_OS_WINDOWS) \|\| defined(DART_HOST_OS_WINDOWS))

	#if defined(DART_HOST_OS_WINDOWS) && \
	(defined(TARGET_ARCH_X64) \|\| defined(TARGET_ARCH_ARM64))

	// Special exception-unwinding records are put at the end of executable
	// page on Windows for 64-bit applications.
	void UnwindingRecords::RegisterExecutablePage(Page* page) {
	ASSERT(page->is_executable());
	ASSERT(sizeof(CodeRangeUnwindingRecord) <=
	UnwindingRecordsPlatform::SizeInBytes());
	page->top_ -= UnwindingRecordsPlatform::SizeInBytes();
	intptr_t unwinding_record_offset =
	page->memory_->size() - UnwindingRecordsPlatform::SizeInBytes();
	CodeRangeUnwindingRecord* record =
	new (reinterpret_cast<uint8_t*>(page->memory_->start()) +
	unwinding_record_offset) CodeRangeUnwindingRecord();
	InitUnwindingRecord(unwinding_record_offset, record, page->memory_->size());
	RELEASE_ASSERT(record->magic == kUnwindingRecordMagic);
	DWORD status = RtlAddGrowableFunctionTable(
	/DynamicTable=/&record->dynamic_table,
	/FunctionTable=/record->runtime_function,
	/EntryCount=/record->runtime_function_count,
	/MaximumEntryCount=/record->runtime_function_count,
	/RangeBase=/page->memory_->start(),
	/RangeEnd=/page->memory_->end());
	if (status != 0) {
	FATAL("Failed to add growable function table: 0x%x\n", status);
	}
	}

	void UnwindingRecords::UnregisterExecutablePage(Page* page) {
	ASSERT(page->is_executable() && !page->is_image());
	intptr_t unwinding_record_offset =
	page->memory_->size() - UnwindingRecordsPlatform::SizeInBytes();
	CodeRangeUnwindingRecord* record =
	reinterpret_cast<CodeRangeUnwindingRecord*>(
	reinterpret_cast<uint8_t*>(page->memory_->start()) +
	unwinding_record_offset);
	RELEASE_ASSERT(record->magic == kUnwindingRecordMagic);
	RtlDeleteGrowableFunctionTable(record->dynamic_table);
	}

	#endif // defined(DART_HOST_OS_WINDOWS)

	} // namespace dart