runtime/arch/riscv64/context_riscv64.cc - LeafOS-Project/android_art - Gitiles

 /*
  * Copyright (C) 2023 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 "context_riscv64.h"

 #include <stdint.h>

 #include "base/bit_utils.h"
 #include "base/bit_utils_iterator.h"
 #include "quick/quick_method_frame_info.h"
 #include "thread-current-inl.h"

 extern "C" __attribute__((weak)) void __hwasan_handle_longjmp(const void* sp_dst);

 namespace art HIDDEN {
 namespace riscv64 {

 static constexpr uint64_t gZero = 0;

 void Riscv64Context::Reset() {
   std::fill_n(gprs_, arraysize(gprs_), nullptr);
   std::fill_n(fprs_, arraysize(fprs_), nullptr);
   gprs_[SP] = &sp_;
   gprs_[kPC] = &pc_;
   gprs_[A0] = &arg0_;
   // Initialize registers with easy to spot debug values.
   sp_ = kBadGprBase + SP;
   pc_ = kBadGprBase + kPC;
   arg0_ = 0;
 }

 void Riscv64Context::FillCalleeSaves(uint8_t* frame, const QuickMethodFrameInfo& frame_info) {
   // RA is at top of the frame
   DCHECK_NE(frame_info.CoreSpillMask() & (1u << RA), 0u);
   gprs_[RA] = CalleeSaveAddress(frame, 0, frame_info.FrameSizeInBytes());

   // Core registers come first, from the highest down to the lowest, with the exception of RA/X1.
   int spill_pos = 1;
   for (uint32_t core_reg : HighToLowBits(frame_info.CoreSpillMask() & ~(1u << RA))) {
     gprs_[core_reg] = CalleeSaveAddress(frame, spill_pos, frame_info.FrameSizeInBytes());
     ++spill_pos;
   }
   DCHECK_EQ(spill_pos, POPCOUNT(frame_info.CoreSpillMask()));

   // FP registers come second, from the highest down to the lowest.
   for (uint32_t fp_reg : HighToLowBits(frame_info.FpSpillMask())) {
     fprs_[fp_reg] = CalleeSaveAddress(frame, spill_pos, frame_info.FrameSizeInBytes());
     ++spill_pos;
   }
   DCHECK_EQ(spill_pos, POPCOUNT(frame_info.CoreSpillMask()) + POPCOUNT(frame_info.FpSpillMask()));
 }

 void Riscv64Context::SetGPR(uint32_t reg, uintptr_t value) {
   DCHECK_LT(reg, arraysize(gprs_));
   DCHECK_NE(reg, static_cast<uint32_t>(Zero));  // Zero/X0 is immutable (hard-wired zero)
   DCHECK(IsAccessibleGPR(reg));
   DCHECK_NE(gprs_[reg], &gZero);  // Can't overwrite this static value since they are never reset.
   *gprs_[reg] = value;
 }

 void Riscv64Context::SetFPR(uint32_t reg, uintptr_t value) {
   DCHECK_LT(reg, static_cast<uint32_t>(kNumberOfFRegisters));
   DCHECK(IsAccessibleFPR(reg));
   DCHECK_NE(fprs_[reg], &gZero);  // Can't overwrite this static value since they are never reset.
   *fprs_[reg] = value;
 }

 void Riscv64Context::SmashCallerSaves() {
   // Temporary registers T0 - T6 and argument registers A0 - A7 are caller-saved.
   gprs_[Zero] = const_cast<uint64_t*>(&gZero);  // hard-wired zero
   gprs_[T0] = nullptr;
   gprs_[T1] = nullptr;
   gprs_[T2] = nullptr;
   gprs_[T3] = nullptr;
   gprs_[T4] = nullptr;
   gprs_[T5] = nullptr;
   gprs_[T6] = nullptr;
   gprs_[A0] = const_cast<uint64_t*>(&gZero);  // must be 0 because we want a null/zero return value
   gprs_[A1] = nullptr;
   gprs_[A2] = nullptr;
   gprs_[A3] = nullptr;
   gprs_[A4] = nullptr;
   gprs_[A5] = nullptr;
   gprs_[A6] = nullptr;
   gprs_[A7] = nullptr;

   // Temporary registers FT0 - FT11 and argument registers FA0 - FA7 are caller-saved.
   fprs_[FT0] = nullptr;
   fprs_[FT1] = nullptr;
   fprs_[FT2] = nullptr;
   fprs_[FT3] = nullptr;
   fprs_[FT4] = nullptr;
   fprs_[FT5] = nullptr;
   fprs_[FT6] = nullptr;
   fprs_[FT7] = nullptr;
   fprs_[FT8] = nullptr;
   fprs_[FT9] = nullptr;
   fprs_[FT10] = nullptr;
   fprs_[FT11] = nullptr;
   fprs_[FA0] = nullptr;
   fprs_[FA1] = nullptr;
   fprs_[FA2] = nullptr;
   fprs_[FA3] = nullptr;
   fprs_[FA4] = nullptr;
   fprs_[FA5] = nullptr;
   fprs_[FA6] = nullptr;
   fprs_[FA7] = nullptr;
 }

 extern "C" NO_RETURN void art_quick_do_long_jump(uint64_t*, uint64_t*);

 void Riscv64Context::DoLongJump() {
   uint64_t gprs[arraysize(gprs_)];
   uint64_t fprs[kNumberOfFRegisters];

   // The long jump routine called below expects to find the value for SP at index 2.
   DCHECK_EQ(SP, 2);

   for (size_t i = 0; i < arraysize(gprs_); ++i) {
     gprs[i] = gprs_[i] != nullptr ? *gprs_[i] : kBadGprBase + i;
   }
   for (size_t i = 0; i < kNumberOfFRegisters; ++i) {
     fprs[i] = fprs_[i] != nullptr ? *fprs_[i] : kBadFprBase + i;
   }

   // Fill in TR (the ART Thread Register) with the address of the current thread.
   gprs[TR] = reinterpret_cast<uintptr_t>(Thread::Current());

   // Tell HWASan about the new stack top.
   if (__hwasan_handle_longjmp != nullptr) {
     __hwasan_handle_longjmp(reinterpret_cast<void*>(gprs[SP]));
   }
   art_quick_do_long_jump(gprs, fprs);
 }

 }  // namespace riscv64
 }  // namespace art
	/*
	* Copyright (C) 2023 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 "context_riscv64.h"

	#include <stdint.h>

	#include "base/bit_utils.h"
	#include "base/bit_utils_iterator.h"
	#include "quick/quick_method_frame_info.h"
	#include "thread-current-inl.h"

	extern "C" __attribute__((weak)) void __hwasan_handle_longjmp(const void* sp_dst);

	namespace art HIDDEN {
	namespace riscv64 {

	static constexpr uint64_t gZero = 0;

	void Riscv64Context::Reset() {
	std::fill_n(gprs_, arraysize(gprs_), nullptr);
	std::fill_n(fprs_, arraysize(fprs_), nullptr);
	gprs_[SP] = &sp_;
	gprs_[kPC] = &pc_;
	gprs_[A0] = &arg0_;
	// Initialize registers with easy to spot debug values.
	sp_ = kBadGprBase + SP;
	pc_ = kBadGprBase + kPC;
	arg0_ = 0;
	}

	void Riscv64Context::FillCalleeSaves(uint8_t* frame, const QuickMethodFrameInfo& frame_info) {
	// RA is at top of the frame
	DCHECK_NE(frame_info.CoreSpillMask() & (1u << RA), 0u);
	gprs_[RA] = CalleeSaveAddress(frame, 0, frame_info.FrameSizeInBytes());

	// Core registers come first, from the highest down to the lowest, with the exception of RA/X1.
	int spill_pos = 1;
	for (uint32_t core_reg : HighToLowBits(frame_info.CoreSpillMask() & ~(1u << RA))) {
	gprs_[core_reg] = CalleeSaveAddress(frame, spill_pos, frame_info.FrameSizeInBytes());
	++spill_pos;
	}
	DCHECK_EQ(spill_pos, POPCOUNT(frame_info.CoreSpillMask()));

	// FP registers come second, from the highest down to the lowest.
	for (uint32_t fp_reg : HighToLowBits(frame_info.FpSpillMask())) {
	fprs_[fp_reg] = CalleeSaveAddress(frame, spill_pos, frame_info.FrameSizeInBytes());
	++spill_pos;
	}
	DCHECK_EQ(spill_pos, POPCOUNT(frame_info.CoreSpillMask()) + POPCOUNT(frame_info.FpSpillMask()));
	}

	void Riscv64Context::SetGPR(uint32_t reg, uintptr_t value) {
	DCHECK_LT(reg, arraysize(gprs_));
	DCHECK_NE(reg, static_cast<uint32_t>(Zero)); // Zero/X0 is immutable (hard-wired zero)
	DCHECK(IsAccessibleGPR(reg));
	DCHECK_NE(gprs_[reg], &gZero); // Can't overwrite this static value since they are never reset.
	*gprs_[reg] = value;
	}

	void Riscv64Context::SetFPR(uint32_t reg, uintptr_t value) {
	DCHECK_LT(reg, static_cast<uint32_t>(kNumberOfFRegisters));
	DCHECK(IsAccessibleFPR(reg));
	DCHECK_NE(fprs_[reg], &gZero); // Can't overwrite this static value since they are never reset.
	*fprs_[reg] = value;
	}

	void Riscv64Context::SmashCallerSaves() {
	// Temporary registers T0 - T6 and argument registers A0 - A7 are caller-saved.
	gprs_[Zero] = const_cast<uint64_t*>(&gZero); // hard-wired zero
	gprs_[T0] = nullptr;
	gprs_[T1] = nullptr;
	gprs_[T2] = nullptr;
	gprs_[T3] = nullptr;
	gprs_[T4] = nullptr;
	gprs_[T5] = nullptr;
	gprs_[T6] = nullptr;
	gprs_[A0] = const_cast<uint64_t*>(&gZero); // must be 0 because we want a null/zero return value
	gprs_[A1] = nullptr;
	gprs_[A2] = nullptr;
	gprs_[A3] = nullptr;
	gprs_[A4] = nullptr;
	gprs_[A5] = nullptr;
	gprs_[A6] = nullptr;
	gprs_[A7] = nullptr;

	// Temporary registers FT0 - FT11 and argument registers FA0 - FA7 are caller-saved.
	fprs_[FT0] = nullptr;
	fprs_[FT1] = nullptr;
	fprs_[FT2] = nullptr;
	fprs_[FT3] = nullptr;
	fprs_[FT4] = nullptr;
	fprs_[FT5] = nullptr;
	fprs_[FT6] = nullptr;
	fprs_[FT7] = nullptr;
	fprs_[FT8] = nullptr;
	fprs_[FT9] = nullptr;
	fprs_[FT10] = nullptr;
	fprs_[FT11] = nullptr;
	fprs_[FA0] = nullptr;
	fprs_[FA1] = nullptr;
	fprs_[FA2] = nullptr;
	fprs_[FA3] = nullptr;
	fprs_[FA4] = nullptr;
	fprs_[FA5] = nullptr;
	fprs_[FA6] = nullptr;
	fprs_[FA7] = nullptr;
	}

	extern "C" NO_RETURN void art_quick_do_long_jump(uint64_t, uint64_t);

	void Riscv64Context::DoLongJump() {
	uint64_t gprs[arraysize(gprs_)];
	uint64_t fprs[kNumberOfFRegisters];

	// The long jump routine called below expects to find the value for SP at index 2.
	DCHECK_EQ(SP, 2);

	for (size_t i = 0; i < arraysize(gprs_); ++i) {
	gprs[i] = gprs_[i] != nullptr ? *gprs_[i] : kBadGprBase + i;
	}
	for (size_t i = 0; i < kNumberOfFRegisters; ++i) {
	fprs[i] = fprs_[i] != nullptr ? *fprs_[i] : kBadFprBase + i;
	}

	// Fill in TR (the ART Thread Register) with the address of the current thread.
	gprs[TR] = reinterpret_cast<uintptr_t>(Thread::Current());

	// Tell HWASan about the new stack top.
	if (__hwasan_handle_longjmp != nullptr) {
	__hwasan_handle_longjmp(reinterpret_cast<void*>(gprs[SP]));
	}
	art_quick_do_long_jump(gprs, fprs);
	}

	} // namespace riscv64
	} // namespace art