| /* |
| * 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. |
| */ |
| |
| #ifndef ART_COMPILER_UTILS_X86_ASSEMBLER_X86_H_ |
| #define ART_COMPILER_UTILS_X86_ASSEMBLER_X86_H_ |
| |
| #include <vector> |
| |
| #include "arch/x86/instruction_set_features_x86.h" |
| #include "base/arena_containers.h" |
| #include "base/array_ref.h" |
| #include "base/bit_utils.h" |
| #include "base/enums.h" |
| #include "base/globals.h" |
| #include "base/macros.h" |
| #include "constants_x86.h" |
| #include "heap_poisoning.h" |
| #include "managed_register_x86.h" |
| #include "offsets.h" |
| #include "utils/assembler.h" |
| |
| namespace art HIDDEN { |
| namespace x86 { |
| |
| class Immediate : public ValueObject { |
| public: |
| explicit Immediate(int32_t value_in) : value_(value_in) {} |
| |
| int32_t value() const { return value_; } |
| |
| bool is_int8() const { return IsInt<8>(value_); } |
| bool is_uint8() const { return IsUint<8>(value_); } |
| bool is_int16() const { return IsInt<16>(value_); } |
| bool is_uint16() const { return IsUint<16>(value_); } |
| |
| private: |
| const int32_t value_; |
| }; |
| |
| |
| class Operand : public ValueObject { |
| public: |
| uint8_t mod() const { |
| return (encoding_at(0) >> 6) & 3; |
| } |
| |
| Register rm() const { |
| return static_cast<Register>(encoding_at(0) & 7); |
| } |
| |
| ScaleFactor scale() const { |
| return static_cast<ScaleFactor>((encoding_at(1) >> 6) & 3); |
| } |
| |
| Register index() const { |
| return static_cast<Register>((encoding_at(1) >> 3) & 7); |
| } |
| |
| Register base() const { |
| return static_cast<Register>(encoding_at(1) & 7); |
| } |
| |
| int32_t disp() const { |
| return disp_; |
| } |
| |
| int8_t disp8() const { |
| CHECK_GE(length_, 2); |
| return static_cast<int8_t>(encoding_[length_ - 1]); |
| } |
| |
| int32_t disp32() const { |
| CHECK_GE(length_, 5); |
| int32_t value; |
| memcpy(&value, &encoding_[length_ - 4], sizeof(value)); |
| return value; |
| } |
| |
| bool IsRegister(Register reg) const { |
| return ((encoding_[0] & 0xF8) == 0xC0) // Addressing mode is register only. |
| && ((encoding_[0] & 0x07) == reg); // Register codes match. |
| } |
| |
| inline bool operator==(const Operand &op) const { |
| return length_ == op.length_ && |
| memcmp(encoding_, op.encoding_, length_) == 0 && |
| disp_ == op.disp_ && |
| fixup_ == op.fixup_; |
| } |
| |
| protected: |
| // Operand can be sub classed (e.g: Address). |
| Operand() : length_(0), disp_(0), fixup_(nullptr) { } |
| |
| void SetModRM(int mod_in, Register rm_in) { |
| CHECK_EQ(mod_in & ~3, 0); |
| encoding_[0] = (mod_in << 6) | rm_in; |
| length_ = 1; |
| } |
| |
| void SetSIB(ScaleFactor scale_in, Register index_in, Register base_in) { |
| CHECK_EQ(length_, 1); |
| CHECK_EQ(scale_in & ~3, 0); |
| encoding_[1] = (scale_in << 6) | (index_in << 3) | base_in; |
| length_ = 2; |
| } |
| |
| void SetDisp8(int8_t disp) { |
| CHECK(length_ == 1 || length_ == 2); |
| encoding_[length_++] = static_cast<uint8_t>(disp); |
| disp_ = disp; |
| } |
| |
| void SetDisp32(int32_t disp) { |
| CHECK(length_ == 1 || length_ == 2); |
| int disp_size = sizeof(disp); |
| memmove(&encoding_[length_], &disp, disp_size); |
| length_ += disp_size; |
| disp_ = disp; |
| } |
| |
| AssemblerFixup* GetFixup() const { |
| return fixup_; |
| } |
| |
| void SetFixup(AssemblerFixup* fixup) { |
| fixup_ = fixup; |
| } |
| |
| private: |
| uint8_t length_; |
| uint8_t encoding_[6]; |
| int32_t disp_; |
| |
| // A fixup can be associated with the operand, in order to be applied after the |
| // code has been generated. This is used for constant area fixups. |
| AssemblerFixup* fixup_; |
| |
| explicit Operand(Register reg) : disp_(0), fixup_(nullptr) { SetModRM(3, reg); } |
| |
| // Get the operand encoding byte at the given index. |
| uint8_t encoding_at(int index_in) const { |
| CHECK_GE(index_in, 0); |
| CHECK_LT(index_in, length_); |
| return encoding_[index_in]; |
| } |
| |
| friend class X86Assembler; |
| }; |
| |
| |
| class Address : public Operand { |
| public: |
| Address(Register base_in, int32_t disp) { |
| Init(base_in, disp); |
| } |
| |
| Address(Register base_in, int32_t disp, AssemblerFixup *fixup) { |
| Init(base_in, disp); |
| SetFixup(fixup); |
| } |
| |
| Address(Register base_in, Offset disp) { |
| Init(base_in, disp.Int32Value()); |
| } |
| |
| Address(Register base_in, FrameOffset disp) { |
| CHECK_EQ(base_in, ESP); |
| Init(ESP, disp.Int32Value()); |
| } |
| |
| Address(Register base_in, MemberOffset disp) { |
| Init(base_in, disp.Int32Value()); |
| } |
| |
| Address(Register index_in, ScaleFactor scale_in, int32_t disp) { |
| CHECK_NE(index_in, ESP); // Illegal addressing mode. |
| SetModRM(0, ESP); |
| SetSIB(scale_in, index_in, EBP); |
| SetDisp32(disp); |
| } |
| |
| Address(Register base_in, Register index_in, ScaleFactor scale_in, int32_t disp) { |
| Init(base_in, index_in, scale_in, disp); |
| } |
| |
| Address(Register base_in, |
| Register index_in, |
| ScaleFactor scale_in, |
| int32_t disp, AssemblerFixup *fixup) { |
| Init(base_in, index_in, scale_in, disp); |
| SetFixup(fixup); |
| } |
| |
| // Break the address into pieces and reassemble it again with a new displacement. |
| // Note that it may require a new addressing mode if displacement size is changed. |
| static Address displace(const Address &addr, int32_t disp) { |
| const int32_t new_disp = addr.disp() + disp; |
| const bool sib = addr.rm() == ESP; |
| const bool ebp = EBP == (sib ? addr.base() : addr.rm()); |
| Address new_addr; |
| if (addr.mod() == 0 && ebp) { |
| // Special case: mod 00b and EBP in r/m or SIB base => 32-bit displacement. |
| new_addr.SetModRM(0, addr.rm()); |
| if (sib) { |
| new_addr.SetSIB(addr.scale(), addr.index(), addr.base()); |
| } |
| new_addr.SetDisp32(new_disp); |
| } else if (new_disp == 0 && !ebp) { |
| // Mod 00b (excluding a special case for EBP) => no displacement. |
| new_addr.SetModRM(0, addr.rm()); |
| if (sib) { |
| new_addr.SetSIB(addr.scale(), addr.index(), addr.base()); |
| } |
| } else if (new_disp >= -128 && new_disp <= 127) { |
| // Mod 01b => 8-bit displacement. |
| new_addr.SetModRM(1, addr.rm()); |
| if (sib) { |
| new_addr.SetSIB(addr.scale(), addr.index(), addr.base()); |
| } |
| new_addr.SetDisp8(new_disp); |
| } else { |
| // Mod 10b => 32-bit displacement. |
| new_addr.SetModRM(2, addr.rm()); |
| if (sib) { |
| new_addr.SetSIB(addr.scale(), addr.index(), addr.base()); |
| } |
| new_addr.SetDisp32(new_disp); |
| } |
| new_addr.SetFixup(addr.GetFixup()); |
| return new_addr; |
| } |
| |
| Register GetBaseRegister() { |
| if (rm() == ESP) { |
| return base(); |
| } else { |
| return rm(); |
| } |
| } |
| |
| static Address Absolute(uintptr_t addr) { |
| Address result; |
| result.SetModRM(0, EBP); |
| result.SetDisp32(addr); |
| return result; |
| } |
| |
| static Address Absolute(ThreadOffset32 addr) { |
| return Absolute(addr.Int32Value()); |
| } |
| |
| inline bool operator==(const Address& addr) const { |
| return static_cast<const Operand&>(*this) == static_cast<const Operand&>(addr); |
| } |
| |
| private: |
| Address() {} |
| |
| void Init(Register base_in, int32_t disp) { |
| if (disp == 0 && base_in != EBP) { |
| SetModRM(0, base_in); |
| if (base_in == ESP) SetSIB(TIMES_1, ESP, base_in); |
| } else if (disp >= -128 && disp <= 127) { |
| SetModRM(1, base_in); |
| if (base_in == ESP) SetSIB(TIMES_1, ESP, base_in); |
| SetDisp8(disp); |
| } else { |
| SetModRM(2, base_in); |
| if (base_in == ESP) SetSIB(TIMES_1, ESP, base_in); |
| SetDisp32(disp); |
| } |
| } |
| |
| void Init(Register base_in, Register index_in, ScaleFactor scale_in, int32_t disp) { |
| CHECK_NE(index_in, ESP); // Illegal addressing mode. |
| if (disp == 0 && base_in != EBP) { |
| SetModRM(0, ESP); |
| SetSIB(scale_in, index_in, base_in); |
| } else if (disp >= -128 && disp <= 127) { |
| SetModRM(1, ESP); |
| SetSIB(scale_in, index_in, base_in); |
| SetDisp8(disp); |
| } else { |
| SetModRM(2, ESP); |
| SetSIB(scale_in, index_in, base_in); |
| SetDisp32(disp); |
| } |
| } |
| }; |
| |
| std::ostream& operator<<(std::ostream& os, const Address& addr); |
| |
| // This is equivalent to the Label class, used in a slightly different context. We |
| // inherit the functionality of the Label class, but prevent unintended |
| // derived-to-base conversions by making the base class private. |
| class NearLabel : private Label { |
| public: |
| NearLabel() : Label() {} |
| |
| // Expose the Label routines that we need. |
| using Label::Position; |
| using Label::LinkPosition; |
| using Label::IsBound; |
| using Label::IsUnused; |
| using Label::IsLinked; |
| |
| private: |
| using Label::BindTo; |
| using Label::LinkTo; |
| |
| friend class x86::X86Assembler; |
| |
| DISALLOW_COPY_AND_ASSIGN(NearLabel); |
| }; |
| |
| /** |
| * Class to handle constant area values. |
| */ |
| class ConstantArea { |
| public: |
| explicit ConstantArea(ArenaAllocator* allocator) |
| : buffer_(allocator->Adapter(kArenaAllocAssembler)) {} |
| |
| // Add a double to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddDouble(double v); |
| |
| // Add a float to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddFloat(float v); |
| |
| // Add an int32_t to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddInt32(int32_t v); |
| |
| // Add an int32_t to the end of the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AppendInt32(int32_t v); |
| |
| // Add an int64_t to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddInt64(int64_t v); |
| |
| bool IsEmpty() const { |
| return buffer_.size() == 0; |
| } |
| |
| size_t GetSize() const { |
| return buffer_.size() * elem_size_; |
| } |
| |
| ArrayRef<const int32_t> GetBuffer() const { |
| return ArrayRef<const int32_t>(buffer_); |
| } |
| |
| private: |
| static constexpr size_t elem_size_ = sizeof(int32_t); |
| ArenaVector<int32_t> buffer_; |
| }; |
| |
| class X86Assembler final : public Assembler { |
| public: |
| explicit X86Assembler(ArenaAllocator* allocator, |
| const X86InstructionSetFeatures* instruction_set_features = nullptr) |
| : Assembler(allocator), |
| constant_area_(allocator), |
| has_AVX_(instruction_set_features != nullptr ? instruction_set_features->HasAVX() : false), |
| has_AVX2_(instruction_set_features != nullptr ? instruction_set_features->HasAVX2() :false) {} |
| virtual ~X86Assembler() {} |
| |
| /* |
| * Emit Machine Instructions. |
| */ |
| void call(Register reg); |
| void call(const Address& address); |
| void call(Label* label); |
| void call(const ExternalLabel& label); |
| |
| void pushl(Register reg); |
| void pushl(const Address& address); |
| void pushl(const Immediate& imm); |
| |
| void popl(Register reg); |
| void popl(const Address& address); |
| |
| void movl(Register dst, const Immediate& src); |
| void movl(Register dst, Register src); |
| |
| void movl(Register dst, const Address& src); |
| void movl(const Address& dst, Register src); |
| void movl(const Address& dst, const Immediate& imm); |
| void movl(const Address& dst, Label* lbl); |
| |
| void movntl(const Address& dst, Register src); |
| |
| void blsi(Register dst, Register src); // no addr variant (for now) |
| void blsmsk(Register dst, Register src); // no addr variant (for now) |
| void blsr(Register dst, Register src); // no addr varianr (for now) |
| |
| void bswapl(Register dst); |
| |
| void bsfl(Register dst, Register src); |
| void bsfl(Register dst, const Address& src); |
| void bsrl(Register dst, Register src); |
| void bsrl(Register dst, const Address& src); |
| |
| void popcntl(Register dst, Register src); |
| void popcntl(Register dst, const Address& src); |
| |
| void rorl(Register reg, const Immediate& imm); |
| void rorl(Register operand, Register shifter); |
| void roll(Register reg, const Immediate& imm); |
| void roll(Register operand, Register shifter); |
| |
| void movzxb(Register dst, ByteRegister src); |
| void movzxb(Register dst, const Address& src); |
| void movsxb(Register dst, ByteRegister src); |
| void movsxb(Register dst, const Address& src); |
| void movb(Register dst, const Address& src); |
| void movb(const Address& dst, ByteRegister src); |
| void movb(const Address& dst, const Immediate& imm); |
| |
| void movzxw(Register dst, Register src); |
| void movzxw(Register dst, const Address& src); |
| void movsxw(Register dst, Register src); |
| void movsxw(Register dst, const Address& src); |
| void movw(Register dst, const Address& src); |
| void movw(const Address& dst, Register src); |
| void movw(const Address& dst, const Immediate& imm); |
| |
| void leal(Register dst, const Address& src); |
| |
| void cmovl(Condition condition, Register dst, Register src); |
| void cmovl(Condition condition, Register dst, const Address& src); |
| |
| void setb(Condition condition, Register dst); |
| |
| void movaps(XmmRegister dst, XmmRegister src); // move |
| void movaps(XmmRegister dst, const Address& src); // load aligned |
| void movups(XmmRegister dst, const Address& src); // load unaligned |
| void movaps(const Address& dst, XmmRegister src); // store aligned |
| void movups(const Address& dst, XmmRegister src); // store unaligned |
| |
| void vmovaps(XmmRegister dst, XmmRegister src); // move |
| void vmovaps(XmmRegister dst, const Address& src); // load aligned |
| void vmovups(XmmRegister dst, const Address& src); // load unaligned |
| void vmovaps(const Address& dst, XmmRegister src); // store aligned |
| void vmovups(const Address& dst, XmmRegister src); // store unaligned |
| |
| void movss(XmmRegister dst, const Address& src); |
| void movss(const Address& dst, XmmRegister src); |
| void movss(XmmRegister dst, XmmRegister src); |
| |
| void movd(XmmRegister dst, Register src); |
| void movd(Register dst, XmmRegister src); |
| |
| void addss(XmmRegister dst, XmmRegister src); |
| void addss(XmmRegister dst, const Address& src); |
| void subss(XmmRegister dst, XmmRegister src); |
| void subss(XmmRegister dst, const Address& src); |
| void mulss(XmmRegister dst, XmmRegister src); |
| void mulss(XmmRegister dst, const Address& src); |
| void divss(XmmRegister dst, XmmRegister src); |
| void divss(XmmRegister dst, const Address& src); |
| |
| void addps(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void subps(XmmRegister dst, XmmRegister src); |
| void mulps(XmmRegister dst, XmmRegister src); |
| void divps(XmmRegister dst, XmmRegister src); |
| |
| void vmulps(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vmulpd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vdivps(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vdivpd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void vaddps(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| void vsubps(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| void vsubpd(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| void vaddpd(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| |
| void vfmadd213ss(XmmRegister acc, XmmRegister left, XmmRegister right); |
| void vfmadd213sd(XmmRegister acc, XmmRegister left, XmmRegister right); |
| |
| void movapd(XmmRegister dst, XmmRegister src); // move |
| void movapd(XmmRegister dst, const Address& src); // load aligned |
| void movupd(XmmRegister dst, const Address& src); // load unaligned |
| void movapd(const Address& dst, XmmRegister src); // store aligned |
| void movupd(const Address& dst, XmmRegister src); // store unaligned |
| |
| void vmovapd(XmmRegister dst, XmmRegister src); // move |
| void vmovapd(XmmRegister dst, const Address& src); // load aligned |
| void vmovupd(XmmRegister dst, const Address& src); // load unaligned |
| void vmovapd(const Address& dst, XmmRegister src); // store aligned |
| void vmovupd(const Address& dst, XmmRegister src); // store unaligned |
| |
| void movsd(XmmRegister dst, const Address& src); |
| void movsd(const Address& dst, XmmRegister src); |
| void movsd(XmmRegister dst, XmmRegister src); |
| |
| void movhpd(XmmRegister dst, const Address& src); |
| void movhpd(const Address& dst, XmmRegister src); |
| |
| void addsd(XmmRegister dst, XmmRegister src); |
| void addsd(XmmRegister dst, const Address& src); |
| void subsd(XmmRegister dst, XmmRegister src); |
| void subsd(XmmRegister dst, const Address& src); |
| void mulsd(XmmRegister dst, XmmRegister src); |
| void mulsd(XmmRegister dst, const Address& src); |
| void divsd(XmmRegister dst, XmmRegister src); |
| void divsd(XmmRegister dst, const Address& src); |
| |
| void addpd(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void subpd(XmmRegister dst, XmmRegister src); |
| void mulpd(XmmRegister dst, XmmRegister src); |
| void divpd(XmmRegister dst, XmmRegister src); |
| |
| void movdqa(XmmRegister dst, XmmRegister src); // move |
| void movdqa(XmmRegister dst, const Address& src); // load aligned |
| void movdqu(XmmRegister dst, const Address& src); // load unaligned |
| void movdqa(const Address& dst, XmmRegister src); // store aligned |
| void movdqu(const Address& dst, XmmRegister src); // store unaligned |
| |
| void vmovdqa(XmmRegister dst, XmmRegister src); // move |
| void vmovdqa(XmmRegister dst, const Address& src); // load aligned |
| void vmovdqu(XmmRegister dst, const Address& src); // load unaligned |
| void vmovdqa(const Address& dst, XmmRegister src); // store aligned |
| void vmovdqu(const Address& dst, XmmRegister src); // store unaligned |
| |
| void paddb(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void psubb(XmmRegister dst, XmmRegister src); |
| |
| void vpaddb(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| void vpaddw(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| |
| void paddw(XmmRegister dst, XmmRegister src); |
| void psubw(XmmRegister dst, XmmRegister src); |
| void pmullw(XmmRegister dst, XmmRegister src); |
| void vpmullw(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void vpsubb(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vpsubw(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vpsubd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void paddd(XmmRegister dst, XmmRegister src); |
| void psubd(XmmRegister dst, XmmRegister src); |
| void pmulld(XmmRegister dst, XmmRegister src); |
| |
| void vpmulld(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void vpaddd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void paddq(XmmRegister dst, XmmRegister src); |
| void psubq(XmmRegister dst, XmmRegister src); |
| |
| void vpaddq(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| void vpsubq(XmmRegister dst, XmmRegister add_left, XmmRegister add_right); |
| |
| void paddusb(XmmRegister dst, XmmRegister src); |
| void paddsb(XmmRegister dst, XmmRegister src); |
| void paddusw(XmmRegister dst, XmmRegister src); |
| void paddsw(XmmRegister dst, XmmRegister src); |
| void psubusb(XmmRegister dst, XmmRegister src); |
| void psubsb(XmmRegister dst, XmmRegister src); |
| void psubusw(XmmRegister dst, XmmRegister src); |
| void psubsw(XmmRegister dst, XmmRegister src); |
| |
| void cvtsi2ss(XmmRegister dst, Register src); |
| void cvtsi2sd(XmmRegister dst, Register src); |
| |
| void cvtss2si(Register dst, XmmRegister src); |
| void cvtss2sd(XmmRegister dst, XmmRegister src); |
| |
| void cvtsd2si(Register dst, XmmRegister src); |
| void cvtsd2ss(XmmRegister dst, XmmRegister src); |
| |
| void cvttss2si(Register dst, XmmRegister src); |
| void cvttsd2si(Register dst, XmmRegister src); |
| |
| void cvtdq2ps(XmmRegister dst, XmmRegister src); |
| void cvtdq2pd(XmmRegister dst, XmmRegister src); |
| |
| void comiss(XmmRegister a, XmmRegister b); |
| void comiss(XmmRegister a, const Address& b); |
| void comisd(XmmRegister a, XmmRegister b); |
| void comisd(XmmRegister a, const Address& b); |
| void ucomiss(XmmRegister a, XmmRegister b); |
| void ucomiss(XmmRegister a, const Address& b); |
| void ucomisd(XmmRegister a, XmmRegister b); |
| void ucomisd(XmmRegister a, const Address& b); |
| |
| void roundsd(XmmRegister dst, XmmRegister src, const Immediate& imm); |
| void roundss(XmmRegister dst, XmmRegister src, const Immediate& imm); |
| |
| void sqrtsd(XmmRegister dst, XmmRegister src); |
| void sqrtss(XmmRegister dst, XmmRegister src); |
| |
| void xorpd(XmmRegister dst, const Address& src); |
| void xorpd(XmmRegister dst, XmmRegister src); |
| void xorps(XmmRegister dst, const Address& src); |
| void xorps(XmmRegister dst, XmmRegister src); |
| void pxor(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void vpxor(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vxorps(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vxorpd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void andpd(XmmRegister dst, XmmRegister src); |
| void andpd(XmmRegister dst, const Address& src); |
| void andps(XmmRegister dst, XmmRegister src); |
| void andps(XmmRegister dst, const Address& src); |
| void pand(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void vpand(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vandps(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vandpd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void andn(Register dst, Register src1, Register src2); // no addr variant (for now) |
| void andnpd(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void andnps(XmmRegister dst, XmmRegister src); |
| void pandn(XmmRegister dst, XmmRegister src); |
| void vpandn(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vandnps(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vandnpd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void orpd(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void orps(XmmRegister dst, XmmRegister src); |
| void por(XmmRegister dst, XmmRegister src); |
| void vpor(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vorps(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void vorpd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| |
| void pavgb(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void pavgw(XmmRegister dst, XmmRegister src); |
| void psadbw(XmmRegister dst, XmmRegister src); |
| void pmaddwd(XmmRegister dst, XmmRegister src); |
| void vpmaddwd(XmmRegister dst, XmmRegister src1, XmmRegister src2); |
| void phaddw(XmmRegister dst, XmmRegister src); |
| void phaddd(XmmRegister dst, XmmRegister src); |
| void haddps(XmmRegister dst, XmmRegister src); |
| void haddpd(XmmRegister dst, XmmRegister src); |
| void phsubw(XmmRegister dst, XmmRegister src); |
| void phsubd(XmmRegister dst, XmmRegister src); |
| void hsubps(XmmRegister dst, XmmRegister src); |
| void hsubpd(XmmRegister dst, XmmRegister src); |
| |
| void pminsb(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void pmaxsb(XmmRegister dst, XmmRegister src); |
| void pminsw(XmmRegister dst, XmmRegister src); |
| void pmaxsw(XmmRegister dst, XmmRegister src); |
| void pminsd(XmmRegister dst, XmmRegister src); |
| void pmaxsd(XmmRegister dst, XmmRegister src); |
| |
| void pminub(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void pmaxub(XmmRegister dst, XmmRegister src); |
| void pminuw(XmmRegister dst, XmmRegister src); |
| void pmaxuw(XmmRegister dst, XmmRegister src); |
| void pminud(XmmRegister dst, XmmRegister src); |
| void pmaxud(XmmRegister dst, XmmRegister src); |
| |
| void minps(XmmRegister dst, XmmRegister src); // no addr variant (for now) |
| void maxps(XmmRegister dst, XmmRegister src); |
| void minpd(XmmRegister dst, XmmRegister src); |
| void maxpd(XmmRegister dst, XmmRegister src); |
| |
| void pcmpeqb(XmmRegister dst, XmmRegister src); |
| void pcmpeqw(XmmRegister dst, XmmRegister src); |
| void pcmpeqd(XmmRegister dst, XmmRegister src); |
| void pcmpeqq(XmmRegister dst, XmmRegister src); |
| |
| void pcmpgtb(XmmRegister dst, XmmRegister src); |
| void pcmpgtw(XmmRegister dst, XmmRegister src); |
| void pcmpgtd(XmmRegister dst, XmmRegister src); |
| void pcmpgtq(XmmRegister dst, XmmRegister src); // SSE4.2 |
| |
| void shufpd(XmmRegister dst, XmmRegister src, const Immediate& imm); |
| void shufps(XmmRegister dst, XmmRegister src, const Immediate& imm); |
| void pshufd(XmmRegister dst, XmmRegister src, const Immediate& imm); |
| |
| void punpcklbw(XmmRegister dst, XmmRegister src); |
| void punpcklwd(XmmRegister dst, XmmRegister src); |
| void punpckldq(XmmRegister dst, XmmRegister src); |
| void punpcklqdq(XmmRegister dst, XmmRegister src); |
| |
| void punpckhbw(XmmRegister dst, XmmRegister src); |
| void punpckhwd(XmmRegister dst, XmmRegister src); |
| void punpckhdq(XmmRegister dst, XmmRegister src); |
| void punpckhqdq(XmmRegister dst, XmmRegister src); |
| |
| void psllw(XmmRegister reg, const Immediate& shift_count); |
| void pslld(XmmRegister reg, const Immediate& shift_count); |
| void psllq(XmmRegister reg, const Immediate& shift_count); |
| |
| void psraw(XmmRegister reg, const Immediate& shift_count); |
| void psrad(XmmRegister reg, const Immediate& shift_count); |
| // no psraq |
| |
| void psrlw(XmmRegister reg, const Immediate& shift_count); |
| void psrld(XmmRegister reg, const Immediate& shift_count); |
| void psrlq(XmmRegister reg, const Immediate& shift_count); |
| void psrldq(XmmRegister reg, const Immediate& shift_count); |
| |
| void flds(const Address& src); |
| void fstps(const Address& dst); |
| void fsts(const Address& dst); |
| |
| void fldl(const Address& src); |
| void fstpl(const Address& dst); |
| void fstl(const Address& dst); |
| |
| void fstsw(); |
| |
| void fucompp(); |
| |
| void fnstcw(const Address& dst); |
| void fldcw(const Address& src); |
| |
| void fistpl(const Address& dst); |
| void fistps(const Address& dst); |
| void fildl(const Address& src); |
| void filds(const Address& src); |
| |
| void fincstp(); |
| void ffree(const Immediate& index); |
| |
| void fsin(); |
| void fcos(); |
| void fptan(); |
| void fprem(); |
| |
| void xchgb(ByteRegister dst, ByteRegister src); |
| void xchgb(ByteRegister reg, const Address& address); |
| |
| // Wrappers for `xchgb` that accept `Register` instead of `ByteRegister` (used for testing). |
| void xchgb(Register dst, Register src); |
| void xchgb(Register reg, const Address& address); |
| |
| void xchgw(Register dst, Register src); |
| void xchgw(Register reg, const Address& address); |
| |
| void xchgl(Register dst, Register src); |
| void xchgl(Register reg, const Address& address); |
| |
| void cmpb(const Address& address, const Immediate& imm); |
| void cmpw(const Address& address, const Immediate& imm); |
| |
| void cmpl(Register reg, const Immediate& imm); |
| void cmpl(Register reg0, Register reg1); |
| void cmpl(Register reg, const Address& address); |
| |
| void cmpl(const Address& address, Register reg); |
| void cmpl(const Address& address, const Immediate& imm); |
| |
| void testl(Register reg1, Register reg2); |
| void testl(Register reg, const Immediate& imm); |
| void testl(Register reg1, const Address& address); |
| |
| void testb(const Address& dst, const Immediate& imm); |
| void testl(const Address& dst, const Immediate& imm); |
| |
| void andl(Register dst, const Immediate& imm); |
| void andl(Register dst, Register src); |
| void andl(Register dst, const Address& address); |
| void andw(const Address& address, const Immediate& imm); |
| |
| void orl(Register dst, const Immediate& imm); |
| void orl(Register dst, Register src); |
| void orl(Register dst, const Address& address); |
| |
| void xorl(Register dst, Register src); |
| void xorl(Register dst, const Immediate& imm); |
| void xorl(Register dst, const Address& address); |
| |
| void addl(Register dst, Register src); |
| void addl(Register reg, const Immediate& imm); |
| void addl(Register reg, const Address& address); |
| |
| void addl(const Address& address, Register reg); |
| void addl(const Address& address, const Immediate& imm); |
| void addw(const Address& address, const Immediate& imm); |
| |
| void adcl(Register dst, Register src); |
| void adcl(Register reg, const Immediate& imm); |
| void adcl(Register dst, const Address& address); |
| |
| void subl(Register dst, Register src); |
| void subl(Register reg, const Immediate& imm); |
| void subl(Register reg, const Address& address); |
| void subl(const Address& address, Register src); |
| |
| void cdq(); |
| |
| void idivl(Register reg); |
| void divl(Register reg); |
| |
| void imull(Register dst, Register src); |
| void imull(Register reg, const Immediate& imm); |
| void imull(Register dst, Register src, const Immediate& imm); |
| void imull(Register reg, const Address& address); |
| |
| void imull(Register reg); |
| void imull(const Address& address); |
| |
| void mull(Register reg); |
| void mull(const Address& address); |
| |
| void sbbl(Register dst, Register src); |
| void sbbl(Register reg, const Immediate& imm); |
| void sbbl(Register reg, const Address& address); |
| void sbbl(const Address& address, Register src); |
| |
| void incl(Register reg); |
| void incl(const Address& address); |
| |
| void decl(Register reg); |
| void decl(const Address& address); |
| |
| void shll(Register reg, const Immediate& imm); |
| void shll(Register operand, Register shifter); |
| void shll(const Address& address, const Immediate& imm); |
| void shll(const Address& address, Register shifter); |
| void shrl(Register reg, const Immediate& imm); |
| void shrl(Register operand, Register shifter); |
| void shrl(const Address& address, const Immediate& imm); |
| void shrl(const Address& address, Register shifter); |
| void sarl(Register reg, const Immediate& imm); |
| void sarl(Register operand, Register shifter); |
| void sarl(const Address& address, const Immediate& imm); |
| void sarl(const Address& address, Register shifter); |
| void shld(Register dst, Register src, Register shifter); |
| void shld(Register dst, Register src, const Immediate& imm); |
| void shrd(Register dst, Register src, Register shifter); |
| void shrd(Register dst, Register src, const Immediate& imm); |
| |
| void negl(Register reg); |
| void notl(Register reg); |
| |
| void enter(const Immediate& imm); |
| void leave(); |
| |
| void ret(); |
| void ret(const Immediate& imm); |
| |
| void nop(); |
| void int3(); |
| void hlt(); |
| |
| void j(Condition condition, Label* label); |
| void j(Condition condition, NearLabel* label); |
| void jecxz(NearLabel* label); |
| |
| void jmp(Register reg); |
| void jmp(const Address& address); |
| void jmp(Label* label); |
| void jmp(NearLabel* label); |
| |
| void repne_scasb(); |
| void repne_scasw(); |
| void repe_cmpsb(); |
| void repe_cmpsw(); |
| void repe_cmpsl(); |
| void rep_movsb(); |
| void rep_movsl(); |
| void rep_movsw(); |
| |
| X86Assembler* lock(); |
| void cmpxchgb(const Address& address, ByteRegister reg); |
| void cmpxchgw(const Address& address, Register reg); |
| void cmpxchgl(const Address& address, Register reg); |
| void cmpxchg8b(const Address& address); |
| |
| void xaddb(const Address& address, ByteRegister reg); |
| void xaddw(const Address& address, Register reg); |
| void xaddl(const Address& address, Register reg); |
| |
| void mfence(); |
| |
| X86Assembler* fs(); |
| X86Assembler* gs(); |
| |
| // |
| // Macros for High-level operations. |
| // |
| |
| void AddImmediate(Register reg, const Immediate& imm); |
| |
| void LoadLongConstant(XmmRegister dst, int64_t value); |
| void LoadDoubleConstant(XmmRegister dst, double value); |
| |
| // For testing purpose (Repeat* functions expect Register rather than ByteRegister). |
| void cmpxchgb(const Address& address, Register reg) { |
| cmpxchgb(address, static_cast<ByteRegister>(reg)); |
| } |
| |
| // For testing purpose (Repeat* functions expect Register rather than ByteRegister). |
| void LockCmpxchgb(const Address& address, Register reg) { |
| LockCmpxchgb(address, static_cast<ByteRegister>(reg)); |
| } |
| |
| void LockCmpxchgb(const Address& address, ByteRegister reg) { |
| lock()->cmpxchgb(address, reg); |
| } |
| |
| void LockCmpxchgw(const Address& address, Register reg) { |
| AssemblerBuffer::EnsureCapacity ensured(&buffer_); |
| // We make sure that the operand size override bytecode is emited before the lock bytecode. |
| // We test against clang which enforces this bytecode order. |
| EmitOperandSizeOverride(); |
| EmitUint8(0xF0); |
| EmitUint8(0x0F); |
| EmitUint8(0xB1); |
| EmitOperand(reg, address); |
| } |
| |
| void LockCmpxchgl(const Address& address, Register reg) { |
| lock()->cmpxchgl(address, reg); |
| } |
| |
| void LockCmpxchg8b(const Address& address) { |
| lock()->cmpxchg8b(address); |
| } |
| |
| // For testing purpose (Repeat* functions expect Register rather than ByteRegister). |
| void LockXaddb(const Address& address, Register reg) { |
| LockXaddb(address, static_cast<ByteRegister>(reg)); |
| } |
| |
| void LockXaddb(const Address& address, ByteRegister reg) { |
| lock()->xaddb(address, reg); |
| } |
| |
| void LockXaddw(const Address& address, Register reg) { |
| AssemblerBuffer::EnsureCapacity ensured(&buffer_); |
| // We make sure that the operand size override bytecode is emited before the lock bytecode. |
| // We test against clang which enforces this bytecode order. |
| EmitOperandSizeOverride(); |
| EmitUint8(0xF0); |
| EmitUint8(0x0F); |
| EmitUint8(0xC1); |
| EmitOperand(reg, address); |
| } |
| |
| void LockXaddl(const Address& address, Register reg) { |
| lock()->xaddl(address, reg); |
| } |
| |
| // |
| // Misc. functionality |
| // |
| int PreferredLoopAlignment() { return 16; } |
| void Align(int alignment, int offset); |
| void Bind(Label* label) override; |
| void Jump(Label* label) override { |
| jmp(label); |
| } |
| void Bind(NearLabel* label); |
| |
| // |
| // Heap poisoning. |
| // |
| |
| // Poison a heap reference contained in `reg`. |
| void PoisonHeapReference(Register reg) { negl(reg); } |
| // Unpoison a heap reference contained in `reg`. |
| void UnpoisonHeapReference(Register reg) { negl(reg); } |
| // Poison a heap reference contained in `reg` if heap poisoning is enabled. |
| void MaybePoisonHeapReference(Register reg) { |
| if (kPoisonHeapReferences) { |
| PoisonHeapReference(reg); |
| } |
| } |
| // Unpoison a heap reference contained in `reg` if heap poisoning is enabled. |
| void MaybeUnpoisonHeapReference(Register reg) { |
| if (kPoisonHeapReferences) { |
| UnpoisonHeapReference(reg); |
| } |
| } |
| |
| // Add a double to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddDouble(double v) { return constant_area_.AddDouble(v); } |
| |
| // Add a float to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddFloat(float v) { return constant_area_.AddFloat(v); } |
| |
| // Add an int32_t to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddInt32(int32_t v) { |
| return constant_area_.AddInt32(v); |
| } |
| |
| // Add an int32_t to the end of the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AppendInt32(int32_t v) { |
| return constant_area_.AppendInt32(v); |
| } |
| |
| // Add an int64_t to the constant area, returning the offset into |
| // the constant area where the literal resides. |
| size_t AddInt64(int64_t v) { return constant_area_.AddInt64(v); } |
| |
| // Add the contents of the constant area to the assembler buffer. |
| void AddConstantArea(); |
| |
| // Is the constant area empty? Return true if there are no literals in the constant area. |
| bool IsConstantAreaEmpty() const { return constant_area_.IsEmpty(); } |
| |
| // Return the current size of the constant area. |
| size_t ConstantAreaSize() const { return constant_area_.GetSize(); } |
| |
| bool CpuHasAVXorAVX2FeatureFlag(); |
| |
| private: |
| inline void EmitUint8(uint8_t value); |
| inline void EmitInt32(int32_t value); |
| inline void EmitRegisterOperand(int rm, int reg); |
| inline void EmitXmmRegisterOperand(int rm, XmmRegister reg); |
| inline void EmitFixup(AssemblerFixup* fixup); |
| inline void EmitOperandSizeOverride(); |
| |
| void EmitOperand(int rm, const Operand& operand); |
| void EmitImmediate(const Immediate& imm, bool is_16_op = false); |
| void EmitComplex( |
| int rm, const Operand& operand, const Immediate& immediate, bool is_16_op = false); |
| void EmitLabel(Label* label, int instruction_size); |
| void EmitLabelLink(Label* label); |
| void EmitLabelLink(NearLabel* label); |
| |
| void EmitGenericShift(int rm, const Operand& operand, const Immediate& imm); |
| void EmitGenericShift(int rm, const Operand& operand, Register shifter); |
| |
| uint8_t EmitVexPrefixByteZero(bool is_twobyte_form); |
| uint8_t EmitVexPrefixByteOne(bool R, bool X, bool B, int SET_VEX_M); |
| uint8_t EmitVexPrefixByteOne(bool R, |
| X86ManagedRegister operand, |
| int SET_VEX_L, |
| int SET_VEX_PP); |
| uint8_t EmitVexPrefixByteTwo(bool W, |
| X86ManagedRegister operand, |
| int SET_VEX_L, |
| int SET_VEX_PP); |
| uint8_t EmitVexPrefixByteTwo(bool W, |
| int SET_VEX_L, |
| int SET_VEX_PP); |
| |
| // Helper function to emit a shorter variant of XCHG for when at least one operand is EAX/AX. |
| bool try_xchg_eax(Register dst, Register src); |
| |
| ConstantArea constant_area_; |
| bool has_AVX_; // x86 256bit SIMD AVX. |
| bool has_AVX2_; // x86 256bit SIMD AVX 2.0. |
| |
| DISALLOW_COPY_AND_ASSIGN(X86Assembler); |
| }; |
| |
| inline void X86Assembler::EmitUint8(uint8_t value) { |
| buffer_.Emit<uint8_t>(value); |
| } |
| |
| inline void X86Assembler::EmitInt32(int32_t value) { |
| buffer_.Emit<int32_t>(value); |
| } |
| |
| inline void X86Assembler::EmitRegisterOperand(int rm, int reg) { |
| CHECK_GE(rm, 0); |
| CHECK_LT(rm, 8); |
| buffer_.Emit<uint8_t>(0xC0 + (rm << 3) + reg); |
| } |
| |
| inline void X86Assembler::EmitXmmRegisterOperand(int rm, XmmRegister reg) { |
| EmitRegisterOperand(rm, static_cast<Register>(reg)); |
| } |
| |
| inline void X86Assembler::EmitFixup(AssemblerFixup* fixup) { |
| buffer_.EmitFixup(fixup); |
| } |
| |
| inline void X86Assembler::EmitOperandSizeOverride() { |
| EmitUint8(0x66); |
| } |
| |
| } // namespace x86 |
| } // namespace art |
| |
| #endif // ART_COMPILER_UTILS_X86_ASSEMBLER_X86_H_ |