/* * 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_arm64.h" #include "entrypoints/quick/quick_entrypoints.h" #include "managed_register_arm64.h" #include "offsets.h" #include "thread.h" using namespace vixl::aarch64; // NOLINT(build/namespaces) namespace art { namespace arm64 { #ifdef ___ #error "ARM64 Assembler macro already defined." #else #define ___ asm_.GetVIXLAssembler()-> #endif #define reg_x(X) Arm64Assembler::reg_x(X) #define reg_w(W) Arm64Assembler::reg_w(W) #define reg_d(D) Arm64Assembler::reg_d(D) #define reg_s(S) Arm64Assembler::reg_s(S) Arm64JNIMacroAssembler::~Arm64JNIMacroAssembler() { } void Arm64JNIMacroAssembler::FinalizeCode() { for (const std::unique_ptr& exception : exception_blocks_) { EmitExceptionPoll(exception.get()); } ___ FinalizeCode(); } void Arm64JNIMacroAssembler::GetCurrentThread(ManagedRegister tr) { ___ Mov(reg_x(tr.AsArm64().AsXRegister()), reg_x(TR)); } void Arm64JNIMacroAssembler::GetCurrentThread(FrameOffset offset, ManagedRegister /* scratch */) { StoreToOffset(TR, SP, offset.Int32Value()); } // See Arm64 PCS Section 5.2.2.1. void Arm64JNIMacroAssembler::IncreaseFrameSize(size_t adjust) { CHECK_ALIGNED(adjust, kStackAlignment); AddConstant(SP, -adjust); cfi().AdjustCFAOffset(adjust); } // See Arm64 PCS Section 5.2.2.1. void Arm64JNIMacroAssembler::DecreaseFrameSize(size_t adjust) { CHECK_ALIGNED(adjust, kStackAlignment); AddConstant(SP, adjust); cfi().AdjustCFAOffset(-adjust); } void Arm64JNIMacroAssembler::AddConstant(XRegister rd, int32_t value, Condition cond) { AddConstant(rd, rd, value, cond); } void Arm64JNIMacroAssembler::AddConstant(XRegister rd, XRegister rn, int32_t value, Condition cond) { if ((cond == al) || (cond == nv)) { // VIXL macro-assembler handles all variants. ___ Add(reg_x(rd), reg_x(rn), value); } else { // temp = rd + value // rd = cond ? temp : rn UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(reg_x(rd), reg_x(rn)); Register temp = temps.AcquireX(); ___ Add(temp, reg_x(rn), value); ___ Csel(reg_x(rd), temp, reg_x(rd), cond); } } void Arm64JNIMacroAssembler::StoreWToOffset(StoreOperandType type, WRegister source, XRegister base, int32_t offset) { switch (type) { case kStoreByte: ___ Strb(reg_w(source), MEM_OP(reg_x(base), offset)); break; case kStoreHalfword: ___ Strh(reg_w(source), MEM_OP(reg_x(base), offset)); break; case kStoreWord: ___ Str(reg_w(source), MEM_OP(reg_x(base), offset)); break; default: LOG(FATAL) << "UNREACHABLE"; } } void Arm64JNIMacroAssembler::StoreToOffset(XRegister source, XRegister base, int32_t offset) { CHECK_NE(source, SP); ___ Str(reg_x(source), MEM_OP(reg_x(base), offset)); } void Arm64JNIMacroAssembler::StoreSToOffset(SRegister source, XRegister base, int32_t offset) { ___ Str(reg_s(source), MEM_OP(reg_x(base), offset)); } void Arm64JNIMacroAssembler::StoreDToOffset(DRegister source, XRegister base, int32_t offset) { ___ Str(reg_d(source), MEM_OP(reg_x(base), offset)); } void Arm64JNIMacroAssembler::Store(FrameOffset offs, ManagedRegister m_src, size_t size) { Arm64ManagedRegister src = m_src.AsArm64(); if (src.IsNoRegister()) { CHECK_EQ(0u, size); } else if (src.IsWRegister()) { CHECK_EQ(4u, size); StoreWToOffset(kStoreWord, src.AsWRegister(), SP, offs.Int32Value()); } else if (src.IsXRegister()) { CHECK_EQ(8u, size); StoreToOffset(src.AsXRegister(), SP, offs.Int32Value()); } else if (src.IsSRegister()) { StoreSToOffset(src.AsSRegister(), SP, offs.Int32Value()); } else { CHECK(src.IsDRegister()) << src; StoreDToOffset(src.AsDRegister(), SP, offs.Int32Value()); } } void Arm64JNIMacroAssembler::StoreRef(FrameOffset offs, ManagedRegister m_src) { Arm64ManagedRegister src = m_src.AsArm64(); CHECK(src.IsXRegister()) << src; StoreWToOffset(kStoreWord, src.AsOverlappingWRegister(), SP, offs.Int32Value()); } void Arm64JNIMacroAssembler::StoreRawPtr(FrameOffset offs, ManagedRegister m_src) { Arm64ManagedRegister src = m_src.AsArm64(); CHECK(src.IsXRegister()) << src; StoreToOffset(src.AsXRegister(), SP, offs.Int32Value()); } void Arm64JNIMacroAssembler::StoreImmediateToFrame(FrameOffset offs, uint32_t imm, ManagedRegister m_scratch) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; LoadImmediate(scratch.AsXRegister(), imm); StoreWToOffset(kStoreWord, scratch.AsOverlappingWRegister(), SP, offs.Int32Value()); } void Arm64JNIMacroAssembler::StoreStackOffsetToThread(ThreadOffset64 tr_offs, FrameOffset fr_offs, ManagedRegister m_scratch) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; AddConstant(scratch.AsXRegister(), SP, fr_offs.Int32Value()); StoreToOffset(scratch.AsXRegister(), TR, tr_offs.Int32Value()); } void Arm64JNIMacroAssembler::StoreStackPointerToThread(ThreadOffset64 tr_offs) { UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); Register temp = temps.AcquireX(); ___ Mov(temp, reg_x(SP)); ___ Str(temp, MEM_OP(reg_x(TR), tr_offs.Int32Value())); } void Arm64JNIMacroAssembler::StoreSpanning(FrameOffset dest_off, ManagedRegister m_source, FrameOffset in_off, ManagedRegister m_scratch) { Arm64ManagedRegister source = m_source.AsArm64(); Arm64ManagedRegister scratch = m_scratch.AsArm64(); StoreToOffset(source.AsXRegister(), SP, dest_off.Int32Value()); LoadFromOffset(scratch.AsXRegister(), SP, in_off.Int32Value()); StoreToOffset(scratch.AsXRegister(), SP, dest_off.Int32Value() + 8); } // Load routines. void Arm64JNIMacroAssembler::LoadImmediate(XRegister dest, int32_t value, Condition cond) { if ((cond == al) || (cond == nv)) { ___ Mov(reg_x(dest), value); } else { // temp = value // rd = cond ? temp : rd if (value != 0) { UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(reg_x(dest)); Register temp = temps.AcquireX(); ___ Mov(temp, value); ___ Csel(reg_x(dest), temp, reg_x(dest), cond); } else { ___ Csel(reg_x(dest), reg_x(XZR), reg_x(dest), cond); } } } void Arm64JNIMacroAssembler::LoadWFromOffset(LoadOperandType type, WRegister dest, XRegister base, int32_t offset) { switch (type) { case kLoadSignedByte: ___ Ldrsb(reg_w(dest), MEM_OP(reg_x(base), offset)); break; case kLoadSignedHalfword: ___ Ldrsh(reg_w(dest), MEM_OP(reg_x(base), offset)); break; case kLoadUnsignedByte: ___ Ldrb(reg_w(dest), MEM_OP(reg_x(base), offset)); break; case kLoadUnsignedHalfword: ___ Ldrh(reg_w(dest), MEM_OP(reg_x(base), offset)); break; case kLoadWord: ___ Ldr(reg_w(dest), MEM_OP(reg_x(base), offset)); break; default: LOG(FATAL) << "UNREACHABLE"; } } // Note: We can extend this member by adding load type info - see // sign extended A64 load variants. void Arm64JNIMacroAssembler::LoadFromOffset(XRegister dest, XRegister base, int32_t offset) { CHECK_NE(dest, SP); ___ Ldr(reg_x(dest), MEM_OP(reg_x(base), offset)); } void Arm64JNIMacroAssembler::LoadSFromOffset(SRegister dest, XRegister base, int32_t offset) { ___ Ldr(reg_s(dest), MEM_OP(reg_x(base), offset)); } void Arm64JNIMacroAssembler::LoadDFromOffset(DRegister dest, XRegister base, int32_t offset) { ___ Ldr(reg_d(dest), MEM_OP(reg_x(base), offset)); } void Arm64JNIMacroAssembler::Load(Arm64ManagedRegister dest, XRegister base, int32_t offset, size_t size) { if (dest.IsNoRegister()) { CHECK_EQ(0u, size) << dest; } else if (dest.IsWRegister()) { CHECK_EQ(4u, size) << dest; ___ Ldr(reg_w(dest.AsWRegister()), MEM_OP(reg_x(base), offset)); } else if (dest.IsXRegister()) { CHECK_NE(dest.AsXRegister(), SP) << dest; if (size == 1u) { ___ Ldrb(reg_w(dest.AsOverlappingWRegister()), MEM_OP(reg_x(base), offset)); } else if (size == 4u) { ___ Ldr(reg_w(dest.AsOverlappingWRegister()), MEM_OP(reg_x(base), offset)); } else { CHECK_EQ(8u, size) << dest; ___ Ldr(reg_x(dest.AsXRegister()), MEM_OP(reg_x(base), offset)); } } else if (dest.IsSRegister()) { ___ Ldr(reg_s(dest.AsSRegister()), MEM_OP(reg_x(base), offset)); } else { CHECK(dest.IsDRegister()) << dest; ___ Ldr(reg_d(dest.AsDRegister()), MEM_OP(reg_x(base), offset)); } } void Arm64JNIMacroAssembler::Load(ManagedRegister m_dst, FrameOffset src, size_t size) { return Load(m_dst.AsArm64(), SP, src.Int32Value(), size); } void Arm64JNIMacroAssembler::LoadFromThread(ManagedRegister m_dst, ThreadOffset64 src, size_t size) { return Load(m_dst.AsArm64(), TR, src.Int32Value(), size); } void Arm64JNIMacroAssembler::LoadRef(ManagedRegister m_dst, FrameOffset offs) { Arm64ManagedRegister dst = m_dst.AsArm64(); CHECK(dst.IsXRegister()) << dst; LoadWFromOffset(kLoadWord, dst.AsOverlappingWRegister(), SP, offs.Int32Value()); } void Arm64JNIMacroAssembler::LoadRef(ManagedRegister m_dst, ManagedRegister m_base, MemberOffset offs, bool unpoison_reference) { Arm64ManagedRegister dst = m_dst.AsArm64(); Arm64ManagedRegister base = m_base.AsArm64(); CHECK(dst.IsXRegister() && base.IsXRegister()); LoadWFromOffset(kLoadWord, dst.AsOverlappingWRegister(), base.AsXRegister(), offs.Int32Value()); if (unpoison_reference) { WRegister ref_reg = dst.AsOverlappingWRegister(); asm_.MaybeUnpoisonHeapReference(reg_w(ref_reg)); } } void Arm64JNIMacroAssembler::LoadRawPtr(ManagedRegister m_dst, ManagedRegister m_base, Offset offs) { Arm64ManagedRegister dst = m_dst.AsArm64(); Arm64ManagedRegister base = m_base.AsArm64(); CHECK(dst.IsXRegister() && base.IsXRegister()); // Remove dst and base form the temp list - higher level API uses IP1, IP0. UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(reg_x(dst.AsXRegister()), reg_x(base.AsXRegister())); ___ Ldr(reg_x(dst.AsXRegister()), MEM_OP(reg_x(base.AsXRegister()), offs.Int32Value())); } void Arm64JNIMacroAssembler::LoadRawPtrFromThread(ManagedRegister m_dst, ThreadOffset64 offs) { Arm64ManagedRegister dst = m_dst.AsArm64(); CHECK(dst.IsXRegister()) << dst; LoadFromOffset(dst.AsXRegister(), TR, offs.Int32Value()); } // Copying routines. void Arm64JNIMacroAssembler::Move(ManagedRegister m_dst, ManagedRegister m_src, size_t size) { Arm64ManagedRegister dst = m_dst.AsArm64(); Arm64ManagedRegister src = m_src.AsArm64(); if (!dst.Equals(src)) { if (dst.IsXRegister()) { if (size == 4) { CHECK(src.IsWRegister()); ___ Mov(reg_w(dst.AsOverlappingWRegister()), reg_w(src.AsWRegister())); } else { if (src.IsXRegister()) { ___ Mov(reg_x(dst.AsXRegister()), reg_x(src.AsXRegister())); } else { ___ Mov(reg_x(dst.AsXRegister()), reg_x(src.AsOverlappingXRegister())); } } } else if (dst.IsWRegister()) { CHECK(src.IsWRegister()) << src; ___ Mov(reg_w(dst.AsWRegister()), reg_w(src.AsWRegister())); } else if (dst.IsSRegister()) { CHECK(src.IsSRegister()) << src; ___ Fmov(reg_s(dst.AsSRegister()), reg_s(src.AsSRegister())); } else { CHECK(dst.IsDRegister()) << dst; CHECK(src.IsDRegister()) << src; ___ Fmov(reg_d(dst.AsDRegister()), reg_d(src.AsDRegister())); } } } void Arm64JNIMacroAssembler::CopyRawPtrFromThread(FrameOffset fr_offs, ThreadOffset64 tr_offs, ManagedRegister m_scratch) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; LoadFromOffset(scratch.AsXRegister(), TR, tr_offs.Int32Value()); StoreToOffset(scratch.AsXRegister(), SP, fr_offs.Int32Value()); } void Arm64JNIMacroAssembler::CopyRawPtrToThread(ThreadOffset64 tr_offs, FrameOffset fr_offs, ManagedRegister m_scratch) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; LoadFromOffset(scratch.AsXRegister(), SP, fr_offs.Int32Value()); StoreToOffset(scratch.AsXRegister(), TR, tr_offs.Int32Value()); } void Arm64JNIMacroAssembler::CopyRef(FrameOffset dest, FrameOffset src, ManagedRegister m_scratch) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; LoadWFromOffset(kLoadWord, scratch.AsOverlappingWRegister(), SP, src.Int32Value()); StoreWToOffset(kStoreWord, scratch.AsOverlappingWRegister(), SP, dest.Int32Value()); } void Arm64JNIMacroAssembler::Copy(FrameOffset dest, FrameOffset src, ManagedRegister m_scratch, size_t size) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; CHECK(size == 4 || size == 8) << size; if (size == 4) { LoadWFromOffset(kLoadWord, scratch.AsOverlappingWRegister(), SP, src.Int32Value()); StoreWToOffset(kStoreWord, scratch.AsOverlappingWRegister(), SP, dest.Int32Value()); } else if (size == 8) { LoadFromOffset(scratch.AsXRegister(), SP, src.Int32Value()); StoreToOffset(scratch.AsXRegister(), SP, dest.Int32Value()); } else { UNIMPLEMENTED(FATAL) << "We only support Copy() of size 4 and 8"; } } void Arm64JNIMacroAssembler::Copy(FrameOffset dest, ManagedRegister src_base, Offset src_offset, ManagedRegister m_scratch, size_t size) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); Arm64ManagedRegister base = src_base.AsArm64(); CHECK(base.IsXRegister()) << base; CHECK(scratch.IsXRegister() || scratch.IsWRegister()) << scratch; CHECK(size == 4 || size == 8) << size; if (size == 4) { LoadWFromOffset(kLoadWord, scratch.AsWRegister(), base.AsXRegister(), src_offset.Int32Value()); StoreWToOffset(kStoreWord, scratch.AsWRegister(), SP, dest.Int32Value()); } else if (size == 8) { LoadFromOffset(scratch.AsXRegister(), base.AsXRegister(), src_offset.Int32Value()); StoreToOffset(scratch.AsXRegister(), SP, dest.Int32Value()); } else { UNIMPLEMENTED(FATAL) << "We only support Copy() of size 4 and 8"; } } void Arm64JNIMacroAssembler::Copy(ManagedRegister m_dest_base, Offset dest_offs, FrameOffset src, ManagedRegister m_scratch, size_t size) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); Arm64ManagedRegister base = m_dest_base.AsArm64(); CHECK(base.IsXRegister()) << base; CHECK(scratch.IsXRegister() || scratch.IsWRegister()) << scratch; CHECK(size == 4 || size == 8) << size; if (size == 4) { LoadWFromOffset(kLoadWord, scratch.AsWRegister(), SP, src.Int32Value()); StoreWToOffset(kStoreWord, scratch.AsWRegister(), base.AsXRegister(), dest_offs.Int32Value()); } else if (size == 8) { LoadFromOffset(scratch.AsXRegister(), SP, src.Int32Value()); StoreToOffset(scratch.AsXRegister(), base.AsXRegister(), dest_offs.Int32Value()); } else { UNIMPLEMENTED(FATAL) << "We only support Copy() of size 4 and 8"; } } void Arm64JNIMacroAssembler::Copy(FrameOffset /*dst*/, FrameOffset /*src_base*/, Offset /*src_offset*/, ManagedRegister /*mscratch*/, size_t /*size*/) { UNIMPLEMENTED(FATAL) << "Unimplemented Copy() variant"; } void Arm64JNIMacroAssembler::Copy(ManagedRegister m_dest, Offset dest_offset, ManagedRegister m_src, Offset src_offset, ManagedRegister m_scratch, size_t size) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); Arm64ManagedRegister src = m_src.AsArm64(); Arm64ManagedRegister dest = m_dest.AsArm64(); CHECK(dest.IsXRegister()) << dest; CHECK(src.IsXRegister()) << src; CHECK(scratch.IsXRegister() || scratch.IsWRegister()) << scratch; CHECK(size == 4 || size == 8) << size; if (size == 4) { if (scratch.IsWRegister()) { LoadWFromOffset(kLoadWord, scratch.AsWRegister(), src.AsXRegister(), src_offset.Int32Value()); StoreWToOffset(kStoreWord, scratch.AsWRegister(), dest.AsXRegister(), dest_offset.Int32Value()); } else { LoadWFromOffset(kLoadWord, scratch.AsOverlappingWRegister(), src.AsXRegister(), src_offset.Int32Value()); StoreWToOffset(kStoreWord, scratch.AsOverlappingWRegister(), dest.AsXRegister(), dest_offset.Int32Value()); } } else if (size == 8) { LoadFromOffset(scratch.AsXRegister(), src.AsXRegister(), src_offset.Int32Value()); StoreToOffset(scratch.AsXRegister(), dest.AsXRegister(), dest_offset.Int32Value()); } else { UNIMPLEMENTED(FATAL) << "We only support Copy() of size 4 and 8"; } } void Arm64JNIMacroAssembler::Copy(FrameOffset /*dst*/, Offset /*dest_offset*/, FrameOffset /*src*/, Offset /*src_offset*/, ManagedRegister /*scratch*/, size_t /*size*/) { UNIMPLEMENTED(FATAL) << "Unimplemented Copy() variant"; } void Arm64JNIMacroAssembler::MemoryBarrier(ManagedRegister m_scratch ATTRIBUTE_UNUSED) { // TODO: Should we check that m_scratch is IP? - see arm. ___ Dmb(InnerShareable, BarrierAll); } void Arm64JNIMacroAssembler::SignExtend(ManagedRegister mreg, size_t size) { Arm64ManagedRegister reg = mreg.AsArm64(); CHECK(size == 1 || size == 2) << size; CHECK(reg.IsWRegister()) << reg; if (size == 1) { ___ Sxtb(reg_w(reg.AsWRegister()), reg_w(reg.AsWRegister())); } else { ___ Sxth(reg_w(reg.AsWRegister()), reg_w(reg.AsWRegister())); } } void Arm64JNIMacroAssembler::ZeroExtend(ManagedRegister mreg, size_t size) { Arm64ManagedRegister reg = mreg.AsArm64(); CHECK(size == 1 || size == 2) << size; CHECK(reg.IsWRegister()) << reg; if (size == 1) { ___ Uxtb(reg_w(reg.AsWRegister()), reg_w(reg.AsWRegister())); } else { ___ Uxth(reg_w(reg.AsWRegister()), reg_w(reg.AsWRegister())); } } void Arm64JNIMacroAssembler::VerifyObject(ManagedRegister /*src*/, bool /*could_be_null*/) { // TODO: not validating references. } void Arm64JNIMacroAssembler::VerifyObject(FrameOffset /*src*/, bool /*could_be_null*/) { // TODO: not validating references. } void Arm64JNIMacroAssembler::Call(ManagedRegister m_base, Offset offs, ManagedRegister m_scratch) { Arm64ManagedRegister base = m_base.AsArm64(); Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(base.IsXRegister()) << base; CHECK(scratch.IsXRegister()) << scratch; LoadFromOffset(scratch.AsXRegister(), base.AsXRegister(), offs.Int32Value()); ___ Blr(reg_x(scratch.AsXRegister())); } void Arm64JNIMacroAssembler::Call(FrameOffset base, Offset offs, ManagedRegister m_scratch) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; // Call *(*(SP + base) + offset) LoadFromOffset(scratch.AsXRegister(), SP, base.Int32Value()); LoadFromOffset(scratch.AsXRegister(), scratch.AsXRegister(), offs.Int32Value()); ___ Blr(reg_x(scratch.AsXRegister())); } void Arm64JNIMacroAssembler::CallFromThread(ThreadOffset64 offset ATTRIBUTE_UNUSED, ManagedRegister scratch ATTRIBUTE_UNUSED) { UNIMPLEMENTED(FATAL) << "Unimplemented Call() variant"; } void Arm64JNIMacroAssembler::CreateHandleScopeEntry(ManagedRegister m_out_reg, FrameOffset handle_scope_offs, ManagedRegister m_in_reg, bool null_allowed) { Arm64ManagedRegister out_reg = m_out_reg.AsArm64(); Arm64ManagedRegister in_reg = m_in_reg.AsArm64(); // For now we only hold stale handle scope entries in x registers. CHECK(in_reg.IsNoRegister() || in_reg.IsXRegister()) << in_reg; CHECK(out_reg.IsXRegister()) << 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.IsNoRegister()) { LoadWFromOffset(kLoadWord, out_reg.AsOverlappingWRegister(), SP, handle_scope_offs.Int32Value()); in_reg = out_reg; } ___ Cmp(reg_w(in_reg.AsOverlappingWRegister()), 0); if (!out_reg.Equals(in_reg)) { LoadImmediate(out_reg.AsXRegister(), 0, eq); } AddConstant(out_reg.AsXRegister(), SP, handle_scope_offs.Int32Value(), ne); } else { AddConstant(out_reg.AsXRegister(), SP, handle_scope_offs.Int32Value(), al); } } void Arm64JNIMacroAssembler::CreateHandleScopeEntry(FrameOffset out_off, FrameOffset handle_scope_offset, ManagedRegister m_scratch, bool null_allowed) { Arm64ManagedRegister scratch = m_scratch.AsArm64(); CHECK(scratch.IsXRegister()) << scratch; if (null_allowed) { LoadWFromOffset(kLoadWord, scratch.AsOverlappingWRegister(), 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(reg_w(scratch.AsOverlappingWRegister()), 0); // Move this logic in add constants with flags. AddConstant(scratch.AsXRegister(), SP, handle_scope_offset.Int32Value(), ne); } else { AddConstant(scratch.AsXRegister(), SP, handle_scope_offset.Int32Value(), al); } StoreToOffset(scratch.AsXRegister(), SP, out_off.Int32Value()); } void Arm64JNIMacroAssembler::LoadReferenceFromHandleScope(ManagedRegister m_out_reg, ManagedRegister m_in_reg) { Arm64ManagedRegister out_reg = m_out_reg.AsArm64(); Arm64ManagedRegister in_reg = m_in_reg.AsArm64(); CHECK(out_reg.IsXRegister()) << out_reg; CHECK(in_reg.IsXRegister()) << in_reg; vixl::aarch64::Label exit; if (!out_reg.Equals(in_reg)) { // FIXME: Who sets the flags here? LoadImmediate(out_reg.AsXRegister(), 0, eq); } ___ Cbz(reg_x(in_reg.AsXRegister()), &exit); LoadFromOffset(out_reg.AsXRegister(), in_reg.AsXRegister(), 0); ___ Bind(&exit); } void Arm64JNIMacroAssembler::ExceptionPoll(ManagedRegister m_scratch, size_t stack_adjust) { CHECK_ALIGNED(stack_adjust, kStackAlignment); Arm64ManagedRegister scratch = m_scratch.AsArm64(); exception_blocks_.emplace_back(new Arm64Exception(scratch, stack_adjust)); LoadFromOffset(scratch.AsXRegister(), TR, Thread::ExceptionOffset().Int32Value()); ___ Cbnz(reg_x(scratch.AsXRegister()), exception_blocks_.back()->Entry()); } std::unique_ptr Arm64JNIMacroAssembler::CreateLabel() { return std::unique_ptr(new Arm64JNIMacroLabel()); } void Arm64JNIMacroAssembler::Jump(JNIMacroLabel* label) { CHECK(label != nullptr); ___ B(Arm64JNIMacroLabel::Cast(label)->AsArm64()); } void Arm64JNIMacroAssembler::Jump(JNIMacroLabel* label, JNIMacroUnaryCondition condition, ManagedRegister test) { CHECK(label != nullptr); switch (condition) { case JNIMacroUnaryCondition::kZero: ___ Cbz(reg_x(test.AsArm64().AsXRegister()), Arm64JNIMacroLabel::Cast(label)->AsArm64()); break; case JNIMacroUnaryCondition::kNotZero: ___ Cbnz(reg_x(test.AsArm64().AsXRegister()), Arm64JNIMacroLabel::Cast(label)->AsArm64()); break; default: LOG(FATAL) << "Not implemented unary condition: " << static_cast(condition); UNREACHABLE(); } } void Arm64JNIMacroAssembler::Bind(JNIMacroLabel* label) { CHECK(label != nullptr); ___ Bind(Arm64JNIMacroLabel::Cast(label)->AsArm64()); } void Arm64JNIMacroAssembler::EmitExceptionPoll(Arm64Exception* exception) { UseScratchRegisterScope temps(asm_.GetVIXLAssembler()); temps.Exclude(reg_x(exception->scratch_.AsXRegister())); Register temp = temps.AcquireX(); // Bind exception poll entry. ___ Bind(exception->Entry()); if (exception->stack_adjust_ != 0) { // Fix up the frame. DecreaseFrameSize(exception->stack_adjust_); } // Pass exception object as argument. // Don't care about preserving X0 as this won't return. ___ Mov(reg_x(X0), reg_x(exception->scratch_.AsXRegister())); ___ Ldr(temp, MEM_OP(reg_x(TR), QUICK_ENTRYPOINT_OFFSET(kArm64PointerSize, pDeliverException).Int32Value())); ___ Blr(temp); // Call should never return. ___ Brk(); } void Arm64JNIMacroAssembler::BuildFrame(size_t frame_size, ManagedRegister method_reg, ArrayRef callee_save_regs, const ManagedRegisterEntrySpills& entry_spills) { // Setup VIXL CPURegList for callee-saves. CPURegList core_reg_list(CPURegister::kRegister, kXRegSize, 0); CPURegList fp_reg_list(CPURegister::kFPRegister, kDRegSize, 0); for (auto r : callee_save_regs) { Arm64ManagedRegister reg = r.AsArm64(); if (reg.IsXRegister()) { core_reg_list.Combine(reg_x(reg.AsXRegister()).GetCode()); } else { DCHECK(reg.IsDRegister()); fp_reg_list.Combine(reg_d(reg.AsDRegister()).GetCode()); } } size_t core_reg_size = core_reg_list.GetTotalSizeInBytes(); size_t fp_reg_size = fp_reg_list.GetTotalSizeInBytes(); // Increase frame to required size. DCHECK_ALIGNED(frame_size, kStackAlignment); DCHECK_GE(frame_size, core_reg_size + fp_reg_size + static_cast(kArm64PointerSize)); IncreaseFrameSize(frame_size); // Save callee-saves. asm_.SpillRegisters(core_reg_list, frame_size - core_reg_size); asm_.SpillRegisters(fp_reg_list, frame_size - core_reg_size - fp_reg_size); DCHECK(core_reg_list.IncludesAliasOf(reg_x(TR))); // Write ArtMethod* DCHECK(X0 == method_reg.AsArm64().AsXRegister()); StoreToOffset(X0, SP, 0); // Write out entry spills int32_t offset = frame_size + static_cast(kArm64PointerSize); for (const ManagedRegisterSpill& spill : entry_spills) { Arm64ManagedRegister reg = spill.AsArm64(); if (reg.IsNoRegister()) { // only increment stack offset. offset += spill.getSize(); } else if (reg.IsXRegister()) { StoreToOffset(reg.AsXRegister(), SP, offset); offset += 8; } else if (reg.IsWRegister()) { StoreWToOffset(kStoreWord, reg.AsWRegister(), SP, offset); offset += 4; } else if (reg.IsDRegister()) { StoreDToOffset(reg.AsDRegister(), SP, offset); offset += 8; } else if (reg.IsSRegister()) { StoreSToOffset(reg.AsSRegister(), SP, offset); offset += 4; } } } void Arm64JNIMacroAssembler::RemoveFrame(size_t frame_size, ArrayRef callee_save_regs, bool may_suspend) { // Setup VIXL CPURegList for callee-saves. CPURegList core_reg_list(CPURegister::kRegister, kXRegSize, 0); CPURegList fp_reg_list(CPURegister::kFPRegister, kDRegSize, 0); for (auto r : callee_save_regs) { Arm64ManagedRegister reg = r.AsArm64(); if (reg.IsXRegister()) { core_reg_list.Combine(reg_x(reg.AsXRegister()).GetCode()); } else { DCHECK(reg.IsDRegister()); fp_reg_list.Combine(reg_d(reg.AsDRegister()).GetCode()); } } size_t core_reg_size = core_reg_list.GetTotalSizeInBytes(); size_t fp_reg_size = fp_reg_list.GetTotalSizeInBytes(); // For now we only check that the size of the frame is large enough to hold spills and method // reference. DCHECK_GE(frame_size, core_reg_size + fp_reg_size + static_cast(kArm64PointerSize)); DCHECK_ALIGNED(frame_size, kStackAlignment); DCHECK(core_reg_list.IncludesAliasOf(reg_x(TR))); cfi().RememberState(); // Restore callee-saves. asm_.UnspillRegisters(core_reg_list, frame_size - core_reg_size); asm_.UnspillRegisters(fp_reg_list, frame_size - core_reg_size - fp_reg_size); if (kEmitCompilerReadBarrier && kUseBakerReadBarrier) { vixl::aarch64::Register mr = reg_x(MR); // Marking Register. vixl::aarch64::Register tr = reg_x(TR); // Thread Register. if (may_suspend) { // The method may be suspended; refresh the Marking Register. ___ Ldr(mr.W(), 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 // AAPCS64 calling convention. DCHECK(core_reg_list.IncludesAliasOf(mr)) << "core_reg_list should contain Marking Register X" << mr.GetCode(); // 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()); Register temp = temps.AcquireW(); // Ensure we are not clobbering a callee-save register that was restored before. DCHECK(!core_reg_list.IncludesAliasOf(temp.X())) << "core_reg_list should not contain scratch register X" << temp.GetCode(); asm_.GenerateMarkingRegisterCheck(temp); } } } } // Decrease frame size to start of callee saved regs. DecreaseFrameSize(frame_size); // Return to LR. ___ Ret(); // The CFI should be restored for any code that follows the exit block. cfi().RestoreState(); cfi().DefCFAOffset(frame_size); } #undef ___ } // namespace arm64 } // namespace art