/* * Copyright (C) 2011 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 "base/logging.h" #include "calling_convention_arm.h" #include "handle_scope-inl.h" #include "utils/arm/managed_register_arm.h" namespace art { namespace arm { // Used by hard float. static const Register kHFCoreArgumentRegisters[] = { R0, R1, R2, R3 }; static const SRegister kHFSArgumentRegisters[] = { S0, S1, S2, S3, S4, S5, S6, S7, S8, S9, S10, S11, S12, S13, S14, S15 }; static const SRegister kHFSCalleeSaveRegisters[] = { S16, S17, S18, S19, S20, S21, S22, S23, S24, S25, S26, S27, S28, S29, S30, S31 }; static const DRegister kHFDArgumentRegisters[] = { D0, D1, D2, D3, D4, D5, D6, D7 }; static_assert(arraysize(kHFDArgumentRegisters) * 2 == arraysize(kHFSArgumentRegisters), "ks d argument registers mismatch"); // Calling convention ManagedRegister ArmManagedRuntimeCallingConvention::InterproceduralScratchRegister() { return ArmManagedRegister::FromCoreRegister(IP); // R12 } ManagedRegister ArmJniCallingConvention::InterproceduralScratchRegister() { return ArmManagedRegister::FromCoreRegister(IP); // R12 } ManagedRegister ArmManagedRuntimeCallingConvention::ReturnRegister() { if (kArm32QuickCodeUseSoftFloat) { switch (GetShorty()[0]) { case 'V': return ArmManagedRegister::NoRegister(); case 'D': case 'J': return ArmManagedRegister::FromRegisterPair(R0_R1); default: return ArmManagedRegister::FromCoreRegister(R0); } } else { switch (GetShorty()[0]) { case 'V': return ArmManagedRegister::NoRegister(); case 'D': return ArmManagedRegister::FromDRegister(D0); case 'F': return ArmManagedRegister::FromSRegister(S0); case 'J': return ArmManagedRegister::FromRegisterPair(R0_R1); default: return ArmManagedRegister::FromCoreRegister(R0); } } } ManagedRegister ArmJniCallingConvention::ReturnRegister() { switch (GetShorty()[0]) { case 'V': return ArmManagedRegister::NoRegister(); case 'D': case 'J': return ArmManagedRegister::FromRegisterPair(R0_R1); default: return ArmManagedRegister::FromCoreRegister(R0); } } ManagedRegister ArmJniCallingConvention::IntReturnRegister() { return ArmManagedRegister::FromCoreRegister(R0); } // Managed runtime calling convention ManagedRegister ArmManagedRuntimeCallingConvention::MethodRegister() { return ArmManagedRegister::FromCoreRegister(R0); } bool ArmManagedRuntimeCallingConvention::IsCurrentParamInRegister() { return false; // Everything moved to stack on entry. } bool ArmManagedRuntimeCallingConvention::IsCurrentParamOnStack() { return true; } ManagedRegister ArmManagedRuntimeCallingConvention::CurrentParamRegister() { LOG(FATAL) << "Should not reach here"; return ManagedRegister::NoRegister(); } FrameOffset ArmManagedRuntimeCallingConvention::CurrentParamStackOffset() { CHECK(IsCurrentParamOnStack()); FrameOffset result = FrameOffset(displacement_.Int32Value() + // displacement kFramePointerSize + // Method* (itr_slots_ * kFramePointerSize)); // offset into in args return result; } const ManagedRegisterEntrySpills& ArmManagedRuntimeCallingConvention::EntrySpills() { // We spill the argument registers on ARM to free them up for scratch use, we then assume // all arguments are on the stack. if (kArm32QuickCodeUseSoftFloat) { if (entry_spills_.size() == 0) { size_t num_spills = NumArgs() + NumLongOrDoubleArgs(); if (num_spills > 0) { entry_spills_.push_back(ArmManagedRegister::FromCoreRegister(R1)); if (num_spills > 1) { entry_spills_.push_back(ArmManagedRegister::FromCoreRegister(R2)); if (num_spills > 2) { entry_spills_.push_back(ArmManagedRegister::FromCoreRegister(R3)); } } } } } else { if ((entry_spills_.size() == 0) && (NumArgs() > 0)) { uint32_t gpr_index = 1; // R0 ~ R3. Reserve r0 for ArtMethod*. uint32_t fpr_index = 0; // S0 ~ S15. uint32_t fpr_double_index = 0; // D0 ~ D7. ResetIterator(FrameOffset(0)); while (HasNext()) { if (IsCurrentParamAFloatOrDouble()) { if (IsCurrentParamADouble()) { // Double. // Double should not overlap with float. fpr_double_index = (std::max(fpr_double_index * 2, RoundUp(fpr_index, 2))) / 2; if (fpr_double_index < arraysize(kHFDArgumentRegisters)) { entry_spills_.push_back( ArmManagedRegister::FromDRegister(kHFDArgumentRegisters[fpr_double_index++])); } else { entry_spills_.push_back(ManagedRegister::NoRegister(), 8); } } else { // Float. // Float should not overlap with double. if (fpr_index % 2 == 0) { fpr_index = std::max(fpr_double_index * 2, fpr_index); } if (fpr_index < arraysize(kHFSArgumentRegisters)) { entry_spills_.push_back( ArmManagedRegister::FromSRegister(kHFSArgumentRegisters[fpr_index++])); } else { entry_spills_.push_back(ManagedRegister::NoRegister(), 4); } } } else { // FIXME: Pointer this returns as both reference and long. if (IsCurrentParamALong() && !IsCurrentParamAReference()) { // Long. if (gpr_index < arraysize(kHFCoreArgumentRegisters) - 1) { // Skip R1, and use R2_R3 if the long is the first parameter. if (gpr_index == 1) { gpr_index++; } } // If it spans register and memory, we must use the value in memory. if (gpr_index < arraysize(kHFCoreArgumentRegisters) - 1) { entry_spills_.push_back( ArmManagedRegister::FromCoreRegister(kHFCoreArgumentRegisters[gpr_index++])); } else if (gpr_index == arraysize(kHFCoreArgumentRegisters) - 1) { gpr_index++; entry_spills_.push_back(ManagedRegister::NoRegister(), 4); } else { entry_spills_.push_back(ManagedRegister::NoRegister(), 4); } } // High part of long or 32-bit argument. if (gpr_index < arraysize(kHFCoreArgumentRegisters)) { entry_spills_.push_back( ArmManagedRegister::FromCoreRegister(kHFCoreArgumentRegisters[gpr_index++])); } else { entry_spills_.push_back(ManagedRegister::NoRegister(), 4); } } Next(); } } } return entry_spills_; } // JNI calling convention ArmJniCallingConvention::ArmJniCallingConvention(bool is_static, bool is_synchronized, const char* shorty) : JniCallingConvention(is_static, is_synchronized, shorty, kFramePointerSize) { // Compute padding to ensure longs and doubles are not split in AAPCS. Ignore the 'this' jobject // or jclass for static methods and the JNIEnv. We start at the aligned register r2. size_t padding = 0; for (size_t cur_arg = IsStatic() ? 0 : 1, cur_reg = 2; cur_arg < NumArgs(); cur_arg++) { if (IsParamALongOrDouble(cur_arg)) { if ((cur_reg & 1) != 0) { padding += 4; cur_reg++; // additional bump to ensure alignment } cur_reg++; // additional bump to skip extra long word } cur_reg++; // bump the iterator for every argument } padding_ = padding; callee_save_regs_.push_back(ArmManagedRegister::FromCoreRegister(R5)); callee_save_regs_.push_back(ArmManagedRegister::FromCoreRegister(R6)); callee_save_regs_.push_back(ArmManagedRegister::FromCoreRegister(R7)); callee_save_regs_.push_back(ArmManagedRegister::FromCoreRegister(R8)); callee_save_regs_.push_back(ArmManagedRegister::FromCoreRegister(R10)); callee_save_regs_.push_back(ArmManagedRegister::FromCoreRegister(R11)); for (size_t i = 0; i < arraysize(kHFSCalleeSaveRegisters); ++i) { callee_save_regs_.push_back(ArmManagedRegister::FromSRegister(kHFSCalleeSaveRegisters[i])); } } uint32_t ArmJniCallingConvention::CoreSpillMask() const { // Compute spill mask to agree with callee saves initialized in the constructor uint32_t result = 0; result = 1 << R5 | 1 << R6 | 1 << R7 | 1 << R8 | 1 << R10 | 1 << R11 | 1 << LR; return result; } uint32_t ArmJniCallingConvention::FpSpillMask() const { uint32_t result = 0; for (size_t i = 0; i < arraysize(kHFSCalleeSaveRegisters); ++i) { result |= (1 << kHFSCalleeSaveRegisters[i]); } return result; } ManagedRegister ArmJniCallingConvention::ReturnScratchRegister() const { return ArmManagedRegister::FromCoreRegister(R2); } size_t ArmJniCallingConvention::FrameSize() { // Method*, LR and callee save area size, local reference segment state size_t frame_data_size = kArmPointerSize + (2 + CalleeSaveRegisters().size()) * kFramePointerSize; // References plus 2 words for HandleScope header size_t handle_scope_size = HandleScope::SizeOf(kFramePointerSize, ReferenceCount()); // Plus return value spill area size return RoundUp(frame_data_size + handle_scope_size + SizeOfReturnValue(), kStackAlignment); } size_t ArmJniCallingConvention::OutArgSize() { return RoundUp(NumberOfOutgoingStackArgs() * kFramePointerSize + padding_, kStackAlignment); } // JniCallingConvention ABI follows AAPCS where longs and doubles must occur // in even register numbers and stack slots void ArmJniCallingConvention::Next() { JniCallingConvention::Next(); size_t arg_pos = itr_args_ - NumberOfExtraArgumentsForJni(); if ((itr_args_ >= 2) && (arg_pos < NumArgs()) && IsParamALongOrDouble(arg_pos)) { // itr_slots_ needs to be an even number, according to AAPCS. if ((itr_slots_ & 0x1u) != 0) { itr_slots_++; } } } bool ArmJniCallingConvention::IsCurrentParamInRegister() { return itr_slots_ < 4; } bool ArmJniCallingConvention::IsCurrentParamOnStack() { return !IsCurrentParamInRegister(); } static const Register kJniArgumentRegisters[] = { R0, R1, R2, R3 }; ManagedRegister ArmJniCallingConvention::CurrentParamRegister() { CHECK_LT(itr_slots_, 4u); int arg_pos = itr_args_ - NumberOfExtraArgumentsForJni(); if ((itr_args_ >= 2) && IsParamALongOrDouble(arg_pos)) { CHECK_EQ(itr_slots_, 2u); return ArmManagedRegister::FromRegisterPair(R2_R3); } else { return ArmManagedRegister::FromCoreRegister(kJniArgumentRegisters[itr_slots_]); } } FrameOffset ArmJniCallingConvention::CurrentParamStackOffset() { CHECK_GE(itr_slots_, 4u); size_t offset = displacement_.Int32Value() - OutArgSize() + ((itr_slots_ - 4) * kFramePointerSize); CHECK_LT(offset, OutArgSize()); return FrameOffset(offset); } size_t ArmJniCallingConvention::NumberOfOutgoingStackArgs() { size_t static_args = IsStatic() ? 1 : 0; // count jclass // regular argument parameters and this size_t param_args = NumArgs() + NumLongOrDoubleArgs(); // count JNIEnv* less arguments in registers return static_args + param_args + 1 - 4; } } // namespace arm } // namespace art