/* * Copyright (C) 2016 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 "jni_macro_assembler_arm_vixl.h" #include #include #include "entrypoints/quick/quick_entrypoints.h" #include "thread.h" using namespace vixl::aarch32; // NOLINT(build/namespaces) namespace vixl32 = vixl::aarch32; using vixl::ExactAssemblyScope; using vixl::CodeBufferCheckScope; namespace art { namespace arm { #ifdef ___ #error "ARM Assembler macro already defined." #else #define ___ asm_.GetVIXLAssembler()-> #endif vixl::aarch32::Register AsVIXLRegister(ArmManagedRegister reg) { CHECK(reg.IsCoreRegister()); return vixl::aarch32::Register(reg.RegId()); } static inline vixl::aarch32::SRegister AsVIXLSRegister(ArmManagedRegister reg) { CHECK(reg.IsSRegister()); return vixl::aarch32::SRegister(reg.RegId() - kNumberOfCoreRegIds); } static inline vixl::aarch32::DRegister AsVIXLDRegister(ArmManagedRegister reg) { CHECK(reg.IsDRegister()); return vixl::aarch32::DRegister(reg.RegId() - kNumberOfCoreRegIds - kNumberOfSRegIds); } static inline vixl::aarch32::Register AsVIXLRegisterPairLow(ArmManagedRegister reg) { return vixl::aarch32::Register(reg.AsRegisterPairLow()); } static inline vixl::aarch32::Register AsVIXLRegisterPairHigh(ArmManagedRegister reg) { return vixl::aarch32::Register(reg.AsRegisterPairHigh()); } void ArmVIXLJNIMacroAssembler::FinalizeCode() { for (const std::unique_ptr< ArmVIXLJNIMacroAssembler::ArmException>& exception : exception_blocks_) { EmitExceptionPoll(exception.get()); } asm_.FinalizeCode(); } static dwarf::Reg DWARFReg(vixl32::Register reg) { return dwarf::Reg::ArmCore(static_cast(reg.GetCode())); } static dwarf::Reg DWARFReg(vixl32::SRegister reg) { return dwarf::Reg::ArmFp(static_cast(reg.GetCode())); } static constexpr size_t kFramePointerSize = static_cast(kArmPointerSize); void ArmVIXLJNIMacroAssembler::BuildFrame(size_t frame_size, ManagedRegister method_reg, ArrayRef callee_save_regs, const ManagedRegisterEntrySpills& entry_spills) { CHECK_ALIGNED(frame_size, kStackAlignment); CHECK(r0.Is(AsVIXLRegister(method_reg.AsArm()))); // Push callee saves and link register. RegList core_spill_mask = 1 << LR; uint32_t fp_spill_mask = 0; for (const ManagedRegister& reg : callee_save_regs) { if (reg.AsArm().IsCoreRegister()) { core_spill_mask |= 1 << reg.AsArm().AsCoreRegister(); } else { fp_spill_mask |= 1 << reg.AsArm().AsSRegister(); } } ___ Push(RegisterList(core_spill_mask)); cfi().AdjustCFAOffset(POPCOUNT(core_spill_mask) * kFramePointerSize); cfi().RelOffsetForMany(DWARFReg(r0), 0, core_spill_mask, kFramePointerSize); if (fp_spill_mask != 0) { uint32_t first = CTZ(fp_spill_mask); // Check that list is contiguous. DCHECK_EQ(fp_spill_mask >> CTZ(fp_spill_mask), ~0u >> (32 - POPCOUNT(fp_spill_mask))); ___ Vpush(SRegisterList(vixl32::SRegister(first), POPCOUNT(fp_spill_mask))); cfi().AdjustCFAOffset(POPCOUNT(fp_spill_mask) * kFramePointerSize); cfi().RelOffsetForMany(DWARFReg(s0), 0, fp_spill_mask, kFramePointerSize); } // Increase frame to required size. int pushed_values = POPCOUNT(core_spill_mask) + POPCOUNT(fp_spill_mask); // Must at least have space for Method*. CHECK_GT(frame_size, pushed_values * kFramePointerSize); IncreaseFrameSize(frame_size - pushed_values * kFramePointerSize); // handles CFI as well. // Write out Method*. asm_.StoreToOffset(kStoreWord, r0, sp, 0); // Write out entry spills. int32_t offset = frame_size + kFramePointerSize; for (const ManagedRegisterSpill& spill : entry_spills) { ArmManagedRegister reg = spill.AsArm(); if (reg.IsNoRegister()) { // only increment stack offset. offset += spill.getSize(); } else if (reg.IsCoreRegister()) { asm_.StoreToOffset(kStoreWord, AsVIXLRegister(reg), sp, offset); offset += 4; } else if (reg.IsSRegister()) { asm_.StoreSToOffset(AsVIXLSRegister(reg), sp, offset); offset += 4; } else if (reg.IsDRegister()) { asm_.StoreDToOffset(AsVIXLDRegister(reg), sp, offset); offset += 8; } } } void ArmVIXLJNIMacroAssembler::RemoveFrame(size_t frame_size, ArrayRef callee_save_regs, bool may_suspend) { CHECK_ALIGNED(frame_size, kStackAlignment); cfi().RememberState(); // Compute callee saves to pop and LR. RegList core_spill_mask = 1 << LR; uint32_t fp_spill_mask = 0; for (const ManagedRegister& reg : callee_save_regs) { if (reg.AsArm().IsCoreRegister()) { core_spill_mask |= 1 << reg.AsArm().AsCoreRegister(); } else { fp_spill_mask |= 1 << reg.AsArm().AsSRegister(); } } // Decrease frame to start of callee saves. int pop_values = POPCOUNT(core_spill_mask) + POPCOUNT(fp_spill_mask); CHECK_GT(frame_size, pop_values * kFramePointerSize); DecreaseFrameSize(frame_size - (pop_values * kFramePointerSize)); // handles CFI as well. // Pop FP callee saves. if (fp_spill_mask != 0) { uint32_t first = CTZ(fp_spill_mask); // Check that list is contiguous. DCHECK_EQ(fp_spill_mask >> CTZ(fp_spill_mask), ~0u >> (32 - POPCOUNT(fp_spill_mask))); ___ Vpop(SRegisterList(vixl32::SRegister(first), POPCOUNT(fp_spill_mask))); cfi().AdjustCFAOffset(-kFramePointerSize * POPCOUNT(fp_spill_mask)); cfi().RestoreMany(DWARFReg(s0), fp_spill_mask); } // Pop core callee saves and LR. ___ Pop(RegisterList(core_spill_mask)); if (kEmitCompilerReadBarrier && kUseBakerReadBarrier) { if (may_suspend) { // The method may be suspended; refresh the Marking Register. ___ Ldr(mr, MemOperand(tr, Thread::IsGcMarkingOffset().Int32Value())); } else { // The method shall not be suspended; no need to refresh the Marking Register. // Check that the Marking Register is a callee-save register, // and thus has been preserved by native code following the // AAPCS calling convention. DCHECK_NE(core_spill_mask & (1 << MR), 0) << "core_spill_mask should contain Marking Register R" << MR; // The following condition is a compile-time one, so it does not have a run-time cost. if (kIsDebugBuild) { // The following condition is a run-time one; it is executed after the // previous compile-time test, to avoid penalizing non-debug builds. if (emit_run_time_checks_in_debug_mode_) { // Emit a run-time check verifying that the Marking Register is up-to-date. UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); vixl32::Register temp = temps.Acquire(); // Ensure we are not clobbering a callee-save register that was restored before. DCHECK_EQ(core_spill_mask & (1 << temp.GetCode()), 0) << "core_spill_mask hould not contain scratch register R" << temp.GetCode(); asm_.GenerateMarkingRegisterCheck(temp); } } } } // Return to LR. ___ Bx(vixl32::lr); // The CFI should be restored for any code that follows the exit block. cfi().RestoreState(); cfi().DefCFAOffset(frame_size); } void ArmVIXLJNIMacroAssembler::IncreaseFrameSize(size_t adjust) { asm_.AddConstant(sp, -adjust); cfi().AdjustCFAOffset(adjust); } void ArmVIXLJNIMacroAssembler::DecreaseFrameSize(size_t adjust) { asm_.AddConstant(sp, adjust); cfi().AdjustCFAOffset(-adjust); } void ArmVIXLJNIMacroAssembler::Store(FrameOffset dest, ManagedRegister m_src, size_t size) { ArmManagedRegister src = m_src.AsArm(); if (src.IsNoRegister()) { CHECK_EQ(0u, size); } else if (src.IsCoreRegister()) { CHECK_EQ(4u, size); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(AsVIXLRegister(src)); asm_.StoreToOffset(kStoreWord, AsVIXLRegister(src), sp, dest.Int32Value()); } else if (src.IsRegisterPair()) { CHECK_EQ(8u, size); asm_.StoreToOffset(kStoreWord, AsVIXLRegisterPairLow(src), sp, dest.Int32Value()); asm_.StoreToOffset(kStoreWord, AsVIXLRegisterPairHigh(src), sp, dest.Int32Value() + 4); } else if (src.IsSRegister()) { CHECK_EQ(4u, size); asm_.StoreSToOffset(AsVIXLSRegister(src), sp, dest.Int32Value()); } else { CHECK_EQ(8u, size); CHECK(src.IsDRegister()) << src; asm_.StoreDToOffset(AsVIXLDRegister(src), sp, dest.Int32Value()); } } void ArmVIXLJNIMacroAssembler::StoreRef(FrameOffset dest, ManagedRegister msrc) { vixl::aarch32::Register src = AsVIXLRegister(msrc.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(src); asm_.StoreToOffset(kStoreWord, src, sp, dest.Int32Value()); } void ArmVIXLJNIMacroAssembler::StoreRawPtr(FrameOffset dest, ManagedRegister msrc) { vixl::aarch32::Register src = AsVIXLRegister(msrc.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(src); asm_.StoreToOffset(kStoreWord, src, sp, dest.Int32Value()); } void ArmVIXLJNIMacroAssembler::StoreSpanning(FrameOffset dest, ManagedRegister msrc, FrameOffset in_off, ManagedRegister mscratch) { vixl::aarch32::Register src = AsVIXLRegister(msrc.AsArm()); vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); asm_.StoreToOffset(kStoreWord, src, sp, dest.Int32Value()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); asm_.LoadFromOffset(kLoadWord, scratch, sp, in_off.Int32Value()); asm_.StoreToOffset(kStoreWord, scratch, sp, dest.Int32Value() + 4); } void ArmVIXLJNIMacroAssembler::CopyRef(FrameOffset dest, FrameOffset src, ManagedRegister mscratch) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); asm_.LoadFromOffset(kLoadWord, scratch, sp, src.Int32Value()); asm_.StoreToOffset(kStoreWord, scratch, sp, dest.Int32Value()); } void ArmVIXLJNIMacroAssembler::LoadRef(ManagedRegister mdest, ManagedRegister mbase, MemberOffset offs, bool unpoison_reference) { vixl::aarch32::Register dest = AsVIXLRegister(mdest.AsArm()); vixl::aarch32::Register base = AsVIXLRegister(mbase.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(dest, base); asm_.LoadFromOffset(kLoadWord, dest, base, offs.Int32Value()); if (unpoison_reference) { asm_.MaybeUnpoisonHeapReference(dest); } } void ArmVIXLJNIMacroAssembler::LoadRef(ManagedRegister dest ATTRIBUTE_UNUSED, FrameOffset src ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::LoadRawPtr(ManagedRegister dest ATTRIBUTE_UNUSED, ManagedRegister base ATTRIBUTE_UNUSED, Offset offs ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::StoreImmediateToFrame(FrameOffset dest, uint32_t imm, ManagedRegister mscratch) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); asm_.LoadImmediate(scratch, imm); asm_.StoreToOffset(kStoreWord, scratch, sp, dest.Int32Value()); } void ArmVIXLJNIMacroAssembler::Load(ManagedRegister m_dst, FrameOffset src, size_t size) { return Load(m_dst.AsArm(), sp, src.Int32Value(), size); } void ArmVIXLJNIMacroAssembler::LoadFromThread(ManagedRegister m_dst, ThreadOffset32 src, size_t size) { return Load(m_dst.AsArm(), tr, src.Int32Value(), size); } void ArmVIXLJNIMacroAssembler::LoadRawPtrFromThread(ManagedRegister mdest, ThreadOffset32 offs) { vixl::aarch32::Register dest = AsVIXLRegister(mdest.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(dest); asm_.LoadFromOffset(kLoadWord, dest, tr, offs.Int32Value()); } void ArmVIXLJNIMacroAssembler::CopyRawPtrFromThread(FrameOffset fr_offs, ThreadOffset32 thr_offs, ManagedRegister mscratch) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); asm_.LoadFromOffset(kLoadWord, scratch, tr, thr_offs.Int32Value()); asm_.StoreToOffset(kStoreWord, scratch, sp, fr_offs.Int32Value()); } void ArmVIXLJNIMacroAssembler::CopyRawPtrToThread(ThreadOffset32 thr_offs ATTRIBUTE_UNUSED, FrameOffset fr_offs ATTRIBUTE_UNUSED, ManagedRegister mscratch ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::StoreStackOffsetToThread(ThreadOffset32 thr_offs, FrameOffset fr_offs, ManagedRegister mscratch) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); asm_.AddConstant(scratch, sp, fr_offs.Int32Value()); asm_.StoreToOffset(kStoreWord, scratch, tr, thr_offs.Int32Value()); } void ArmVIXLJNIMacroAssembler::StoreStackPointerToThread(ThreadOffset32 thr_offs) { asm_.StoreToOffset(kStoreWord, sp, tr, thr_offs.Int32Value()); } void ArmVIXLJNIMacroAssembler::SignExtend(ManagedRegister mreg ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL) << "no sign extension necessary for arm"; } void ArmVIXLJNIMacroAssembler::ZeroExtend(ManagedRegister mreg ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL) << "no zero extension necessary for arm"; } void ArmVIXLJNIMacroAssembler::Move(ManagedRegister mdst, ManagedRegister msrc, size_t size ATTRIBUTE_UNUSED) { ArmManagedRegister dst = mdst.AsArm(); ArmManagedRegister src = msrc.AsArm(); if (!dst.Equals(src)) { if (dst.IsCoreRegister()) { CHECK(src.IsCoreRegister()) << src; UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(AsVIXLRegister(dst)); ___ Mov(AsVIXLRegister(dst), AsVIXLRegister(src)); } else if (dst.IsDRegister()) { if (src.IsDRegister()) { ___ Vmov(F64, AsVIXLDRegister(dst), AsVIXLDRegister(src)); } else { // VMOV Dn, Rlo, Rhi (Dn = {Rlo, Rhi}) CHECK(src.IsRegisterPair()) << src; ___ Vmov(AsVIXLDRegister(dst), AsVIXLRegisterPairLow(src), AsVIXLRegisterPairHigh(src)); } } else if (dst.IsSRegister()) { if (src.IsSRegister()) { ___ Vmov(F32, AsVIXLSRegister(dst), AsVIXLSRegister(src)); } else { // VMOV Sn, Rn (Sn = Rn) CHECK(src.IsCoreRegister()) << src; ___ Vmov(AsVIXLSRegister(dst), AsVIXLRegister(src)); } } else { CHECK(dst.IsRegisterPair()) << dst; CHECK(src.IsRegisterPair()) << src; // Ensure that the first move doesn't clobber the input of the second. if (src.AsRegisterPairHigh() != dst.AsRegisterPairLow()) { ___ Mov(AsVIXLRegisterPairLow(dst), AsVIXLRegisterPairLow(src)); ___ Mov(AsVIXLRegisterPairHigh(dst), AsVIXLRegisterPairHigh(src)); } else { ___ Mov(AsVIXLRegisterPairHigh(dst), AsVIXLRegisterPairHigh(src)); ___ Mov(AsVIXLRegisterPairLow(dst), AsVIXLRegisterPairLow(src)); } } } } void ArmVIXLJNIMacroAssembler::Copy(FrameOffset dest, FrameOffset src, ManagedRegister mscratch, size_t size) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); CHECK(size == 4 || size == 8) << size; UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); if (size == 4) { asm_.LoadFromOffset(kLoadWord, scratch, sp, src.Int32Value()); asm_.StoreToOffset(kStoreWord, scratch, sp, dest.Int32Value()); } else if (size == 8) { asm_.LoadFromOffset(kLoadWord, scratch, sp, src.Int32Value()); asm_.StoreToOffset(kStoreWord, scratch, sp, dest.Int32Value()); asm_.LoadFromOffset(kLoadWord, scratch, sp, src.Int32Value() + 4); asm_.StoreToOffset(kStoreWord, scratch, sp, dest.Int32Value() + 4); } } void ArmVIXLJNIMacroAssembler::Copy(FrameOffset dest ATTRIBUTE_UNUSED, ManagedRegister src_base ATTRIBUTE_UNUSED, Offset src_offset ATTRIBUTE_UNUSED, ManagedRegister mscratch ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::Copy(ManagedRegister dest_base ATTRIBUTE_UNUSED, Offset dest_offset ATTRIBUTE_UNUSED, FrameOffset src ATTRIBUTE_UNUSED, ManagedRegister mscratch ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::Copy(FrameOffset dst ATTRIBUTE_UNUSED, FrameOffset src_base ATTRIBUTE_UNUSED, Offset src_offset ATTRIBUTE_UNUSED, ManagedRegister mscratch ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::Copy(ManagedRegister dest ATTRIBUTE_UNUSED, Offset dest_offset ATTRIBUTE_UNUSED, ManagedRegister src ATTRIBUTE_UNUSED, Offset src_offset ATTRIBUTE_UNUSED, ManagedRegister mscratch ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::Copy(FrameOffset dst ATTRIBUTE_UNUSED, Offset dest_offset ATTRIBUTE_UNUSED, FrameOffset src ATTRIBUTE_UNUSED, Offset src_offset ATTRIBUTE_UNUSED, ManagedRegister scratch ATTRIBUTE_UNUSED, size_t size ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::CreateHandleScopeEntry(ManagedRegister mout_reg, FrameOffset handle_scope_offset, ManagedRegister min_reg, bool null_allowed) { vixl::aarch32::Register out_reg = AsVIXLRegister(mout_reg.AsArm()); vixl::aarch32::Register in_reg = min_reg.AsArm().IsNoRegister() ? vixl::aarch32::Register() : AsVIXLRegister(min_reg.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(out_reg); if (null_allowed) { // Null values get a handle scope entry value of 0. Otherwise, the handle scope entry is // the address in the handle scope holding the reference. // e.g. out_reg = (handle == 0) ? 0 : (SP+handle_offset) if (!in_reg.IsValid()) { asm_.LoadFromOffset(kLoadWord, out_reg, sp, handle_scope_offset.Int32Value()); in_reg = out_reg; } temps.Exclude(in_reg); ___ Cmp(in_reg, 0); if (asm_.ShifterOperandCanHold(ADD, handle_scope_offset.Int32Value())) { if (!out_reg.Is(in_reg)) { ExactAssemblyScope guard(asm_.GetVIXLAssembler(), 3 * vixl32::kMaxInstructionSizeInBytes, CodeBufferCheckScope::kMaximumSize); ___ it(eq, 0xc); ___ mov(eq, out_reg, 0); asm_.AddConstantInIt(out_reg, sp, handle_scope_offset.Int32Value(), ne); } else { ExactAssemblyScope guard(asm_.GetVIXLAssembler(), 2 * vixl32::kMaxInstructionSizeInBytes, CodeBufferCheckScope::kMaximumSize); ___ it(ne, 0x8); asm_.AddConstantInIt(out_reg, sp, handle_scope_offset.Int32Value(), ne); } } else { // TODO: Implement this (old arm assembler would have crashed here). UNIMPLEMENTED(FATAL); } } else { asm_.AddConstant(out_reg, sp, handle_scope_offset.Int32Value()); } } void ArmVIXLJNIMacroAssembler::CreateHandleScopeEntry(FrameOffset out_off, FrameOffset handle_scope_offset, ManagedRegister mscratch, bool null_allowed) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); if (null_allowed) { asm_.LoadFromOffset(kLoadWord, scratch, sp, handle_scope_offset.Int32Value()); // Null values get a handle scope entry value of 0. Otherwise, the handle scope entry is // the address in the handle scope holding the reference. // e.g. scratch = (scratch == 0) ? 0 : (SP+handle_scope_offset) ___ Cmp(scratch, 0); if (asm_.ShifterOperandCanHold(ADD, handle_scope_offset.Int32Value())) { ExactAssemblyScope guard(asm_.GetVIXLAssembler(), 2 * vixl32::kMaxInstructionSizeInBytes, CodeBufferCheckScope::kMaximumSize); ___ it(ne, 0x8); asm_.AddConstantInIt(scratch, sp, handle_scope_offset.Int32Value(), ne); } else { // TODO: Implement this (old arm assembler would have crashed here). UNIMPLEMENTED(FATAL); } } else { asm_.AddConstant(scratch, sp, handle_scope_offset.Int32Value()); } asm_.StoreToOffset(kStoreWord, scratch, sp, out_off.Int32Value()); } void ArmVIXLJNIMacroAssembler::LoadReferenceFromHandleScope( ManagedRegister mout_reg ATTRIBUTE_UNUSED, ManagedRegister min_reg ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::VerifyObject(ManagedRegister src ATTRIBUTE_UNUSED, bool could_be_null ATTRIBUTE_UNUSED) { // TODO: not validating references. } void ArmVIXLJNIMacroAssembler::VerifyObject(FrameOffset src ATTRIBUTE_UNUSED, bool could_be_null ATTRIBUTE_UNUSED) { // TODO: not validating references. } void ArmVIXLJNIMacroAssembler::Call(ManagedRegister mbase, Offset offset, ManagedRegister mscratch) { vixl::aarch32::Register base = AsVIXLRegister(mbase.AsArm()); vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); asm_.LoadFromOffset(kLoadWord, scratch, base, offset.Int32Value()); ___ Blx(scratch); // TODO: place reference map on call. } void ArmVIXLJNIMacroAssembler::Call(FrameOffset base, Offset offset, ManagedRegister mscratch) { vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); // Call *(*(SP + base) + offset) asm_.LoadFromOffset(kLoadWord, scratch, sp, base.Int32Value()); asm_.LoadFromOffset(kLoadWord, scratch, scratch, offset.Int32Value()); ___ Blx(scratch); // TODO: place reference map on call } void ArmVIXLJNIMacroAssembler::CallFromThread(ThreadOffset32 offset ATTRIBUTE_UNUSED, ManagedRegister scratch ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::GetCurrentThread(ManagedRegister mtr) { UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(AsVIXLRegister(mtr.AsArm())); ___ Mov(AsVIXLRegister(mtr.AsArm()), tr); } void ArmVIXLJNIMacroAssembler::GetCurrentThread(FrameOffset dest_offset, ManagedRegister scratch ATTRIBUTE_UNUSED) { asm_.StoreToOffset(kStoreWord, tr, sp, dest_offset.Int32Value()); } void ArmVIXLJNIMacroAssembler::ExceptionPoll(ManagedRegister mscratch, size_t stack_adjust) { CHECK_ALIGNED(stack_adjust, kStackAlignment); vixl::aarch32::Register scratch = AsVIXLRegister(mscratch.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); exception_blocks_.emplace_back( new ArmVIXLJNIMacroAssembler::ArmException(mscratch.AsArm(), stack_adjust)); asm_.LoadFromOffset(kLoadWord, scratch, tr, Thread::ExceptionOffset().Int32Value()); ___ Cmp(scratch, 0); vixl32::Label* label = exception_blocks_.back()->Entry(); ___ BPreferNear(ne, label); // TODO: think about using CBNZ here. } std::unique_ptr ArmVIXLJNIMacroAssembler::CreateLabel() { return std::unique_ptr(new ArmVIXLJNIMacroLabel()); } void ArmVIXLJNIMacroAssembler::Jump(JNIMacroLabel* label) { CHECK(label != nullptr); ___ B(ArmVIXLJNIMacroLabel::Cast(label)->AsArm()); } void ArmVIXLJNIMacroAssembler::Jump(JNIMacroLabel* label, JNIMacroUnaryCondition condition, ManagedRegister mtest) { CHECK(label != nullptr); vixl::aarch32::Register test = AsVIXLRegister(mtest.AsArm()); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(test); switch (condition) { case JNIMacroUnaryCondition::kZero: ___ CompareAndBranchIfZero(test, ArmVIXLJNIMacroLabel::Cast(label)->AsArm()); break; case JNIMacroUnaryCondition::kNotZero: ___ CompareAndBranchIfNonZero(test, ArmVIXLJNIMacroLabel::Cast(label)->AsArm()); break; default: LOG(FATAL) << "Not implemented unary condition: " << static_cast(condition); UNREACHABLE(); } } void ArmVIXLJNIMacroAssembler::Bind(JNIMacroLabel* label) { CHECK(label != nullptr); ___ Bind(ArmVIXLJNIMacroLabel::Cast(label)->AsArm()); } void ArmVIXLJNIMacroAssembler::EmitExceptionPoll( ArmVIXLJNIMacroAssembler::ArmException* exception) { ___ Bind(exception->Entry()); if (exception->stack_adjust_ != 0) { // Fix up the frame. DecreaseFrameSize(exception->stack_adjust_); } vixl::aarch32::Register scratch = AsVIXLRegister(exception->scratch_); UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(scratch); // Pass exception object as argument. // Don't care about preserving r0 as this won't return. ___ Mov(r0, scratch); temps.Include(scratch); // TODO: check that exception->scratch_ is dead by this point. vixl32::Register temp = temps.Acquire(); ___ Ldr(temp, MemOperand(tr, QUICK_ENTRYPOINT_OFFSET(kArmPointerSize, pDeliverException).Int32Value())); ___ Blx(temp); } void ArmVIXLJNIMacroAssembler::MemoryBarrier(ManagedRegister scratch ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL); } void ArmVIXLJNIMacroAssembler::Load(ArmManagedRegister dest, vixl32::Register base, int32_t offset, size_t size) { if (dest.IsNoRegister()) { CHECK_EQ(0u, size) << dest; } else if (dest.IsCoreRegister()) { vixl::aarch32::Register dst = AsVIXLRegister(dest); CHECK(!dst.Is(sp)) << dest; UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(dst); if (size == 1u) { ___ Ldrb(dst, MemOperand(base, offset)); } else { CHECK_EQ(4u, size) << dest; ___ Ldr(dst, MemOperand(base, offset)); } } else if (dest.IsRegisterPair()) { CHECK_EQ(8u, size) << dest; ___ Ldr(AsVIXLRegisterPairLow(dest), MemOperand(base, offset)); ___ Ldr(AsVIXLRegisterPairHigh(dest), MemOperand(base, offset + 4)); } else if (dest.IsSRegister()) { ___ Vldr(AsVIXLSRegister(dest), MemOperand(base, offset)); } else { CHECK(dest.IsDRegister()) << dest; ___ Vldr(AsVIXLDRegister(dest), MemOperand(base, offset)); } } } // namespace arm } // namespace art