/* * 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. */ #ifndef ART_RUNTIME_ARCH_RISCV64_JNI_FRAME_RISCV64_H_ #define ART_RUNTIME_ARCH_RISCV64_JNI_FRAME_RISCV64_H_ #include #include "arch/instruction_set.h" #include "base/bit_utils.h" #include "base/globals.h" #include "base/logging.h" #include "base/macros.h" namespace art HIDDEN { namespace riscv64 { constexpr size_t kFramePointerSize = static_cast(PointerSize::k64); static_assert(kRiscv64PointerSize == PointerSize::k64, "Unexpected RISCV64 pointer size"); // The RISCV64 requires 16-byte alignment. This is the same as the Managed ABI stack alignment. static constexpr size_t kNativeStackAlignment = 16u; static_assert(kNativeStackAlignment == kStackAlignment); // Up to how many float-like (float, double) args can be in FP registers. // The rest of the args must go to general purpose registers (native ABI only) or on the stack. constexpr size_t kMaxFloatOrDoubleArgumentRegisters = 8u; // Up to how many integer-like (pointers, objects, longs, int, short, bool, etc) args can be // in registers. The rest of the args must go on the stack. Note that even FP args can use these // registers in native ABI after using all FP arg registers. We do not pass FP args in registers in // managed ABI to avoid some complexity in the compiler - more than 8 FP args are quite rare anyway. constexpr size_t kMaxIntLikeArgumentRegisters = 8u; // Get the size of the arguments for a native call. inline size_t GetNativeOutArgsSize(size_t num_fp_args, size_t num_non_fp_args) { // Account for FP arguments passed through FA0-FA7. size_t num_fp_args_without_fprs = num_fp_args - std::min(kMaxFloatOrDoubleArgumentRegisters, num_fp_args); // All other args are passed through A0-A7 (even FP args) and the stack. size_t num_gpr_and_stack_args = num_non_fp_args + num_fp_args_without_fprs; size_t num_stack_args = num_gpr_and_stack_args - std::min(kMaxIntLikeArgumentRegisters, num_gpr_and_stack_args); // Each stack argument takes 8 bytes. return num_stack_args * static_cast(kRiscv64PointerSize); } // Get stack args size for @CriticalNative method calls. inline size_t GetCriticalNativeCallArgsSize(std::string_view shorty) { size_t num_fp_args = std::count_if(shorty.begin() + 1, shorty.end(), [](char c) { return c == 'F' || c == 'D'; }); size_t num_non_fp_args = shorty.length() - 1u - num_fp_args; return GetNativeOutArgsSize(num_fp_args, num_non_fp_args); } // Get the frame size for @CriticalNative method stub. // This must match the size of the extra frame emitted by the compiler at the native call site. inline size_t GetCriticalNativeStubFrameSize(std::string_view shorty) { // The size of outgoing arguments. size_t size = GetCriticalNativeCallArgsSize(shorty); // We can make a tail call if there are no stack args. Otherwise, add space for return PC. // Note: Result does not neeed to be zero- or sign-extended. if (size != 0u) { size += kFramePointerSize; // We need to spill RA with the args. } return RoundUp(size, kNativeStackAlignment); } // Get the frame size for direct call to a @CriticalNative method. // This must match the size of the frame emitted by the JNI compiler at the native call site. inline size_t GetCriticalNativeDirectCallFrameSize(std::string_view shorty) { // The size of outgoing arguments. size_t size = GetCriticalNativeCallArgsSize(shorty); // No return PC to save. return RoundUp(size, kNativeStackAlignment); } } // namespace riscv64 } // namespace art #endif // ART_RUNTIME_ARCH_RISCV64_JNI_FRAME_RISCV64_H_