src/v8/src/compiler/arm64/unwinding-info-writer-arm64.cc - cobalt - Git at Google

 // Copyright 2016 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/compiler/arm64/unwinding-info-writer-arm64.h"
 #include "src/compiler/instruction.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 void UnwindingInfoWriter::BeginInstructionBlock(int pc_offset,
                                                 const InstructionBlock* block) {
   if (!enabled()) return;

   block_will_exit_ = false;

   DCHECK_LT(block->rpo_number().ToInt(),
             static_cast<int>(block_initial_states_.size()));
   const BlockInitialState* initial_state =
       block_initial_states_[block->rpo_number().ToInt()];
   if (initial_state) {
     if (initial_state->saved_lr_ != saved_lr_) {
       eh_frame_writer_.AdvanceLocation(pc_offset);
       if (initial_state->saved_lr_) {
         eh_frame_writer_.RecordRegisterSavedToStack(lr, kPointerSize);
         eh_frame_writer_.RecordRegisterSavedToStack(fp, 0);
       } else {
         eh_frame_writer_.RecordRegisterFollowsInitialRule(lr);
       }
       saved_lr_ = initial_state->saved_lr_;
     }
   } else {
     // The entry block always lacks an explicit initial state.
     // The exit block may lack an explicit state, if it is only reached by
     //   the block ending in a ret.
     // All the other blocks must have an explicit initial state.
     DCHECK(block->predecessors().empty() || block->successors().empty());
   }
 }

 void UnwindingInfoWriter::EndInstructionBlock(const InstructionBlock* block) {
   if (!enabled() || block_will_exit_) return;

   for (const RpoNumber& successor : block->successors()) {
     int successor_index = successor.ToInt();
     DCHECK_LT(successor_index, static_cast<int>(block_initial_states_.size()));
     const BlockInitialState* existing_state =
         block_initial_states_[successor_index];

     // If we already had an entry for this BB, check that the values are the
     // same we are trying to insert.
     if (existing_state) {
       DCHECK_EQ(existing_state->saved_lr_, saved_lr_);
     } else {
       block_initial_states_[successor_index] =
           new (zone_) BlockInitialState(saved_lr_);
     }
   }
 }

 void UnwindingInfoWriter::MarkFrameConstructed(int at_pc) {
   if (!enabled()) return;

   // Regardless of the type of frame constructed, the relevant part of the
   // layout is always the one in the diagram:
   //
   // |   ....   |         higher addresses
   // +----------+               ^
   // |    LR    |               |            |
   // +----------+               |            |
   // | saved FP |               |            |
   // +----------+ <-- FP                     v
   // |   ....   |                       stack growth
   //
   // The LR is pushed on the stack, and we can record this fact at the end of
   // the construction, since the LR itself is not modified in the process.
   eh_frame_writer_.AdvanceLocation(at_pc);
   eh_frame_writer_.RecordRegisterSavedToStack(lr, kPointerSize);
   eh_frame_writer_.RecordRegisterSavedToStack(fp, 0);
   saved_lr_ = true;
 }

 void UnwindingInfoWriter::MarkFrameDeconstructed(int at_pc) {
   if (!enabled()) return;

   // The lr is restored by the last operation in LeaveFrame().
   eh_frame_writer_.AdvanceLocation(at_pc);
   eh_frame_writer_.RecordRegisterFollowsInitialRule(lr);
   saved_lr_ = false;
 }

 void UnwindingInfoWriter::MarkLinkRegisterOnTopOfStack(int pc_offset,
                                                        const Register& sp) {
   if (!enabled()) return;

   eh_frame_writer_.AdvanceLocation(pc_offset);
   eh_frame_writer_.SetBaseAddressRegisterAndOffset(sp, 0);
   eh_frame_writer_.RecordRegisterSavedToStack(lr, 0);
 }

 void UnwindingInfoWriter::MarkPopLinkRegisterFromTopOfStack(int pc_offset) {
   if (!enabled()) return;

   eh_frame_writer_.AdvanceLocation(pc_offset);
   eh_frame_writer_.SetBaseAddressRegisterAndOffset(fp, 0);
   eh_frame_writer_.RecordRegisterFollowsInitialRule(lr);
 }

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8
	// Copyright 2016 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/compiler/arm64/unwinding-info-writer-arm64.h"
	#include "src/compiler/instruction.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	void UnwindingInfoWriter::BeginInstructionBlock(int pc_offset,
	const InstructionBlock* block) {
	if (!enabled()) return;

	block_will_exit_ = false;

	DCHECK_LT(block->rpo_number().ToInt(),
	static_cast<int>(block_initial_states_.size()));
	const BlockInitialState* initial_state =
	block_initial_states_[block->rpo_number().ToInt()];
	if (initial_state) {
	if (initial_state->saved_lr_ != saved_lr_) {
	eh_frame_writer_.AdvanceLocation(pc_offset);
	if (initial_state->saved_lr_) {
	eh_frame_writer_.RecordRegisterSavedToStack(lr, kPointerSize);
	eh_frame_writer_.RecordRegisterSavedToStack(fp, 0);
	} else {
	eh_frame_writer_.RecordRegisterFollowsInitialRule(lr);
	}
	saved_lr_ = initial_state->saved_lr_;
	}
	} else {
	// The entry block always lacks an explicit initial state.
	// The exit block may lack an explicit state, if it is only reached by
	// the block ending in a ret.
	// All the other blocks must have an explicit initial state.
	DCHECK(block->predecessors().empty() \|\| block->successors().empty());
	}
	}

	void UnwindingInfoWriter::EndInstructionBlock(const InstructionBlock* block) {
	if (!enabled() \|\| block_will_exit_) return;

	for (const RpoNumber& successor : block->successors()) {
	int successor_index = successor.ToInt();
	DCHECK_LT(successor_index, static_cast<int>(block_initial_states_.size()));
	const BlockInitialState* existing_state =
	block_initial_states_[successor_index];

	// If we already had an entry for this BB, check that the values are the
	// same we are trying to insert.
	if (existing_state) {
	DCHECK_EQ(existing_state->saved_lr_, saved_lr_);
	} else {
	block_initial_states_[successor_index] =
	new (zone_) BlockInitialState(saved_lr_);
	}
	}
	}

	void UnwindingInfoWriter::MarkFrameConstructed(int at_pc) {
	if (!enabled()) return;

	// Regardless of the type of frame constructed, the relevant part of the
	// layout is always the one in the diagram:
	//
	// \| .... \| higher addresses
	// +----------+ ^
	// \| LR \| \| \|
	// +----------+ \| \|
	// \| saved FP \| \| \|
	// +----------+ <-- FP v
	// \| .... \| stack growth
	//
	// The LR is pushed on the stack, and we can record this fact at the end of
	// the construction, since the LR itself is not modified in the process.
	eh_frame_writer_.AdvanceLocation(at_pc);
	eh_frame_writer_.RecordRegisterSavedToStack(lr, kPointerSize);
	eh_frame_writer_.RecordRegisterSavedToStack(fp, 0);
	saved_lr_ = true;
	}

	void UnwindingInfoWriter::MarkFrameDeconstructed(int at_pc) {
	if (!enabled()) return;

	// The lr is restored by the last operation in LeaveFrame().
	eh_frame_writer_.AdvanceLocation(at_pc);
	eh_frame_writer_.RecordRegisterFollowsInitialRule(lr);
	saved_lr_ = false;
	}

	void UnwindingInfoWriter::MarkLinkRegisterOnTopOfStack(int pc_offset,
	const Register& sp) {
	if (!enabled()) return;

	eh_frame_writer_.AdvanceLocation(pc_offset);
	eh_frame_writer_.SetBaseAddressRegisterAndOffset(sp, 0);
	eh_frame_writer_.RecordRegisterSavedToStack(lr, 0);
	}

	void UnwindingInfoWriter::MarkPopLinkRegisterFromTopOfStack(int pc_offset) {
	if (!enabled()) return;

	eh_frame_writer_.AdvanceLocation(pc_offset);
	eh_frame_writer_.SetBaseAddressRegisterAndOffset(fp, 0);
	eh_frame_writer_.RecordRegisterFollowsInitialRule(lr);
	}

	} // namespace compiler
	} // namespace internal
	} // namespace v8