Move assembler out of runtime into compiler/utils.
Other directory layout bits of clean up. There is still work to separate quick
and portable in some files (e.g. argument visitor, proxy..).
Change-Id: If8fecffda8ba5c4c47a035f0c622c538c6b58351
diff --git a/compiler/utils/arm/assembler_arm.cc b/compiler/utils/arm/assembler_arm.cc
new file mode 100644
index 0000000..0778cd3
--- /dev/null
+++ b/compiler/utils/arm/assembler_arm.cc
@@ -0,0 +1,1895 @@
+/*
+ * 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 "assembler_arm.h"
+
+#include "base/logging.h"
+#include "entrypoints/quick/quick_entrypoints.h"
+#include "offsets.h"
+#include "thread.h"
+#include "utils.h"
+
+namespace art {
+namespace arm {
+
+// Instruction encoding bits.
+enum {
+ H = 1 << 5, // halfword (or byte)
+ L = 1 << 20, // load (or store)
+ S = 1 << 20, // set condition code (or leave unchanged)
+ W = 1 << 21, // writeback base register (or leave unchanged)
+ A = 1 << 21, // accumulate in multiply instruction (or not)
+ B = 1 << 22, // unsigned byte (or word)
+ N = 1 << 22, // long (or short)
+ U = 1 << 23, // positive (or negative) offset/index
+ P = 1 << 24, // offset/pre-indexed addressing (or post-indexed addressing)
+ I = 1 << 25, // immediate shifter operand (or not)
+
+ B0 = 1,
+ B1 = 1 << 1,
+ B2 = 1 << 2,
+ B3 = 1 << 3,
+ B4 = 1 << 4,
+ B5 = 1 << 5,
+ B6 = 1 << 6,
+ B7 = 1 << 7,
+ B8 = 1 << 8,
+ B9 = 1 << 9,
+ B10 = 1 << 10,
+ B11 = 1 << 11,
+ B12 = 1 << 12,
+ B16 = 1 << 16,
+ B17 = 1 << 17,
+ B18 = 1 << 18,
+ B19 = 1 << 19,
+ B20 = 1 << 20,
+ B21 = 1 << 21,
+ B22 = 1 << 22,
+ B23 = 1 << 23,
+ B24 = 1 << 24,
+ B25 = 1 << 25,
+ B26 = 1 << 26,
+ B27 = 1 << 27,
+
+ // Instruction bit masks.
+ RdMask = 15 << 12, // in str instruction
+ CondMask = 15 << 28,
+ CoprocessorMask = 15 << 8,
+ OpCodeMask = 15 << 21, // in data-processing instructions
+ Imm24Mask = (1 << 24) - 1,
+ Off12Mask = (1 << 12) - 1,
+
+ // ldrex/strex register field encodings.
+ kLdExRnShift = 16,
+ kLdExRtShift = 12,
+ kStrExRnShift = 16,
+ kStrExRdShift = 12,
+ kStrExRtShift = 0,
+};
+
+
+static const char* kRegisterNames[] = {
+ "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10",
+ "fp", "ip", "sp", "lr", "pc"
+};
+std::ostream& operator<<(std::ostream& os, const Register& rhs) {
+ if (rhs >= R0 && rhs <= PC) {
+ os << kRegisterNames[rhs];
+ } else {
+ os << "Register[" << static_cast<int>(rhs) << "]";
+ }
+ return os;
+}
+
+
+std::ostream& operator<<(std::ostream& os, const SRegister& rhs) {
+ if (rhs >= S0 && rhs < kNumberOfSRegisters) {
+ os << "s" << static_cast<int>(rhs);
+ } else {
+ os << "SRegister[" << static_cast<int>(rhs) << "]";
+ }
+ return os;
+}
+
+
+std::ostream& operator<<(std::ostream& os, const DRegister& rhs) {
+ if (rhs >= D0 && rhs < kNumberOfDRegisters) {
+ os << "d" << static_cast<int>(rhs);
+ } else {
+ os << "DRegister[" << static_cast<int>(rhs) << "]";
+ }
+ return os;
+}
+
+
+static const char* kConditionNames[] = {
+ "EQ", "NE", "CS", "CC", "MI", "PL", "VS", "VC", "HI", "LS", "GE", "LT", "GT",
+ "LE", "AL",
+};
+std::ostream& operator<<(std::ostream& os, const Condition& rhs) {
+ if (rhs >= EQ && rhs <= AL) {
+ os << kConditionNames[rhs];
+ } else {
+ os << "Condition[" << static_cast<int>(rhs) << "]";
+ }
+ return os;
+}
+
+void ArmAssembler::Emit(int32_t value) {
+ AssemblerBuffer::EnsureCapacity ensured(&buffer_);
+ buffer_.Emit<int32_t>(value);
+}
+
+
+void ArmAssembler::EmitType01(Condition cond,
+ int type,
+ Opcode opcode,
+ int set_cc,
+ Register rn,
+ Register rd,
+ ShifterOperand so) {
+ CHECK_NE(rd, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = static_cast<int32_t>(cond) << kConditionShift |
+ type << kTypeShift |
+ static_cast<int32_t>(opcode) << kOpcodeShift |
+ set_cc << kSShift |
+ static_cast<int32_t>(rn) << kRnShift |
+ static_cast<int32_t>(rd) << kRdShift |
+ so.encoding();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitType5(Condition cond, int offset, bool link) {
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = static_cast<int32_t>(cond) << kConditionShift |
+ 5 << kTypeShift |
+ (link ? 1 : 0) << kLinkShift;
+ Emit(ArmAssembler::EncodeBranchOffset(offset, encoding));
+}
+
+
+void ArmAssembler::EmitMemOp(Condition cond,
+ bool load,
+ bool byte,
+ Register rd,
+ Address ad) {
+ CHECK_NE(rd, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B26 |
+ (load ? L : 0) |
+ (byte ? B : 0) |
+ (static_cast<int32_t>(rd) << kRdShift) |
+ ad.encoding();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitMemOpAddressMode3(Condition cond,
+ int32_t mode,
+ Register rd,
+ Address ad) {
+ CHECK_NE(rd, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B22 |
+ mode |
+ (static_cast<int32_t>(rd) << kRdShift) |
+ ad.encoding3();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitMultiMemOp(Condition cond,
+ BlockAddressMode am,
+ bool load,
+ Register base,
+ RegList regs) {
+ CHECK_NE(base, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 |
+ am |
+ (load ? L : 0) |
+ (static_cast<int32_t>(base) << kRnShift) |
+ regs;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitShiftImmediate(Condition cond,
+ Shift opcode,
+ Register rd,
+ Register rm,
+ ShifterOperand so) {
+ CHECK_NE(cond, kNoCondition);
+ CHECK_EQ(so.type(), 1U);
+ int32_t encoding = static_cast<int32_t>(cond) << kConditionShift |
+ static_cast<int32_t>(MOV) << kOpcodeShift |
+ static_cast<int32_t>(rd) << kRdShift |
+ so.encoding() << kShiftImmShift |
+ static_cast<int32_t>(opcode) << kShiftShift |
+ static_cast<int32_t>(rm);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitShiftRegister(Condition cond,
+ Shift opcode,
+ Register rd,
+ Register rm,
+ ShifterOperand so) {
+ CHECK_NE(cond, kNoCondition);
+ CHECK_EQ(so.type(), 0U);
+ int32_t encoding = static_cast<int32_t>(cond) << kConditionShift |
+ static_cast<int32_t>(MOV) << kOpcodeShift |
+ static_cast<int32_t>(rd) << kRdShift |
+ so.encoding() << kShiftRegisterShift |
+ static_cast<int32_t>(opcode) << kShiftShift |
+ B4 |
+ static_cast<int32_t>(rm);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitBranch(Condition cond, Label* label, bool link) {
+ if (label->IsBound()) {
+ EmitType5(cond, label->Position() - buffer_.Size(), link);
+ } else {
+ int position = buffer_.Size();
+ // Use the offset field of the branch instruction for linking the sites.
+ EmitType5(cond, label->position_, link);
+ label->LinkTo(position);
+ }
+}
+
+void ArmAssembler::and_(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), AND, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::eor(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), EOR, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::sub(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), SUB, 0, rn, rd, so);
+}
+
+void ArmAssembler::rsb(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), RSB, 0, rn, rd, so);
+}
+
+void ArmAssembler::rsbs(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), RSB, 1, rn, rd, so);
+}
+
+
+void ArmAssembler::add(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), ADD, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::adds(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), ADD, 1, rn, rd, so);
+}
+
+
+void ArmAssembler::subs(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), SUB, 1, rn, rd, so);
+}
+
+
+void ArmAssembler::adc(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), ADC, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::sbc(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), SBC, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::rsc(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), RSC, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::tst(Register rn, ShifterOperand so, Condition cond) {
+ CHECK_NE(rn, PC); // Reserve tst pc instruction for exception handler marker.
+ EmitType01(cond, so.type(), TST, 1, rn, R0, so);
+}
+
+
+void ArmAssembler::teq(Register rn, ShifterOperand so, Condition cond) {
+ CHECK_NE(rn, PC); // Reserve teq pc instruction for exception handler marker.
+ EmitType01(cond, so.type(), TEQ, 1, rn, R0, so);
+}
+
+
+void ArmAssembler::cmp(Register rn, ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), CMP, 1, rn, R0, so);
+}
+
+
+void ArmAssembler::cmn(Register rn, ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), CMN, 1, rn, R0, so);
+}
+
+
+void ArmAssembler::orr(Register rd, Register rn,
+ ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), ORR, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::orrs(Register rd, Register rn,
+ ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), ORR, 1, rn, rd, so);
+}
+
+
+void ArmAssembler::mov(Register rd, ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), MOV, 0, R0, rd, so);
+}
+
+
+void ArmAssembler::movs(Register rd, ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), MOV, 1, R0, rd, so);
+}
+
+
+void ArmAssembler::bic(Register rd, Register rn, ShifterOperand so,
+ Condition cond) {
+ EmitType01(cond, so.type(), BIC, 0, rn, rd, so);
+}
+
+
+void ArmAssembler::mvn(Register rd, ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), MVN, 0, R0, rd, so);
+}
+
+
+void ArmAssembler::mvns(Register rd, ShifterOperand so, Condition cond) {
+ EmitType01(cond, so.type(), MVN, 1, R0, rd, so);
+}
+
+
+void ArmAssembler::clz(Register rd, Register rm, Condition cond) {
+ CHECK_NE(rd, kNoRegister);
+ CHECK_NE(rm, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ CHECK_NE(rd, PC);
+ CHECK_NE(rm, PC);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B24 | B22 | B21 | (0xf << 16) |
+ (static_cast<int32_t>(rd) << kRdShift) |
+ (0xf << 8) | B4 | static_cast<int32_t>(rm);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::movw(Register rd, uint16_t imm16, Condition cond) {
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = static_cast<int32_t>(cond) << kConditionShift |
+ B25 | B24 | ((imm16 >> 12) << 16) |
+ static_cast<int32_t>(rd) << kRdShift | (imm16 & 0xfff);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::movt(Register rd, uint16_t imm16, Condition cond) {
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = static_cast<int32_t>(cond) << kConditionShift |
+ B25 | B24 | B22 | ((imm16 >> 12) << 16) |
+ static_cast<int32_t>(rd) << kRdShift | (imm16 & 0xfff);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitMulOp(Condition cond, int32_t opcode,
+ Register rd, Register rn,
+ Register rm, Register rs) {
+ CHECK_NE(rd, kNoRegister);
+ CHECK_NE(rn, kNoRegister);
+ CHECK_NE(rm, kNoRegister);
+ CHECK_NE(rs, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = opcode |
+ (static_cast<int32_t>(cond) << kConditionShift) |
+ (static_cast<int32_t>(rn) << kRnShift) |
+ (static_cast<int32_t>(rd) << kRdShift) |
+ (static_cast<int32_t>(rs) << kRsShift) |
+ B7 | B4 |
+ (static_cast<int32_t>(rm) << kRmShift);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::mul(Register rd, Register rn, Register rm, Condition cond) {
+ // Assembler registers rd, rn, rm are encoded as rn, rm, rs.
+ EmitMulOp(cond, 0, R0, rd, rn, rm);
+}
+
+
+void ArmAssembler::mla(Register rd, Register rn, Register rm, Register ra,
+ Condition cond) {
+ // Assembler registers rd, rn, rm, ra are encoded as rn, rm, rs, rd.
+ EmitMulOp(cond, B21, ra, rd, rn, rm);
+}
+
+
+void ArmAssembler::mls(Register rd, Register rn, Register rm, Register ra,
+ Condition cond) {
+ // Assembler registers rd, rn, rm, ra are encoded as rn, rm, rs, rd.
+ EmitMulOp(cond, B22 | B21, ra, rd, rn, rm);
+}
+
+
+void ArmAssembler::umull(Register rd_lo, Register rd_hi, Register rn,
+ Register rm, Condition cond) {
+ // Assembler registers rd_lo, rd_hi, rn, rm are encoded as rd, rn, rm, rs.
+ EmitMulOp(cond, B23, rd_lo, rd_hi, rn, rm);
+}
+
+
+void ArmAssembler::ldr(Register rd, Address ad, Condition cond) {
+ EmitMemOp(cond, true, false, rd, ad);
+}
+
+
+void ArmAssembler::str(Register rd, Address ad, Condition cond) {
+ EmitMemOp(cond, false, false, rd, ad);
+}
+
+
+void ArmAssembler::ldrb(Register rd, Address ad, Condition cond) {
+ EmitMemOp(cond, true, true, rd, ad);
+}
+
+
+void ArmAssembler::strb(Register rd, Address ad, Condition cond) {
+ EmitMemOp(cond, false, true, rd, ad);
+}
+
+
+void ArmAssembler::ldrh(Register rd, Address ad, Condition cond) {
+ EmitMemOpAddressMode3(cond, L | B7 | H | B4, rd, ad);
+}
+
+
+void ArmAssembler::strh(Register rd, Address ad, Condition cond) {
+ EmitMemOpAddressMode3(cond, B7 | H | B4, rd, ad);
+}
+
+
+void ArmAssembler::ldrsb(Register rd, Address ad, Condition cond) {
+ EmitMemOpAddressMode3(cond, L | B7 | B6 | B4, rd, ad);
+}
+
+
+void ArmAssembler::ldrsh(Register rd, Address ad, Condition cond) {
+ EmitMemOpAddressMode3(cond, L | B7 | B6 | H | B4, rd, ad);
+}
+
+
+void ArmAssembler::ldrd(Register rd, Address ad, Condition cond) {
+ CHECK_EQ(rd % 2, 0);
+ EmitMemOpAddressMode3(cond, B7 | B6 | B4, rd, ad);
+}
+
+
+void ArmAssembler::strd(Register rd, Address ad, Condition cond) {
+ CHECK_EQ(rd % 2, 0);
+ EmitMemOpAddressMode3(cond, B7 | B6 | B5 | B4, rd, ad);
+}
+
+
+void ArmAssembler::ldm(BlockAddressMode am,
+ Register base,
+ RegList regs,
+ Condition cond) {
+ EmitMultiMemOp(cond, am, true, base, regs);
+}
+
+
+void ArmAssembler::stm(BlockAddressMode am,
+ Register base,
+ RegList regs,
+ Condition cond) {
+ EmitMultiMemOp(cond, am, false, base, regs);
+}
+
+
+void ArmAssembler::ldrex(Register rt, Register rn, Condition cond) {
+ CHECK_NE(rn, kNoRegister);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B24 |
+ B23 |
+ L |
+ (static_cast<int32_t>(rn) << kLdExRnShift) |
+ (static_cast<int32_t>(rt) << kLdExRtShift) |
+ B11 | B10 | B9 | B8 | B7 | B4 | B3 | B2 | B1 | B0;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::strex(Register rd,
+ Register rt,
+ Register rn,
+ Condition cond) {
+ CHECK_NE(rn, kNoRegister);
+ CHECK_NE(rd, kNoRegister);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B24 |
+ B23 |
+ (static_cast<int32_t>(rn) << kStrExRnShift) |
+ (static_cast<int32_t>(rd) << kStrExRdShift) |
+ B11 | B10 | B9 | B8 | B7 | B4 |
+ (static_cast<int32_t>(rt) << kStrExRtShift);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::clrex() {
+ int32_t encoding = (kSpecialCondition << kConditionShift) |
+ B26 | B24 | B22 | B21 | B20 | (0xff << 12) | B4 | 0xf;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::nop(Condition cond) {
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B25 | B24 | B21 | (0xf << 12);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovsr(SRegister sn, Register rt, Condition cond) {
+ CHECK_NE(sn, kNoSRegister);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(rt, SP);
+ CHECK_NE(rt, PC);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 |
+ ((static_cast<int32_t>(sn) >> 1)*B16) |
+ (static_cast<int32_t>(rt)*B12) | B11 | B9 |
+ ((static_cast<int32_t>(sn) & 1)*B7) | B4;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovrs(Register rt, SRegister sn, Condition cond) {
+ CHECK_NE(sn, kNoSRegister);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(rt, SP);
+ CHECK_NE(rt, PC);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 | B20 |
+ ((static_cast<int32_t>(sn) >> 1)*B16) |
+ (static_cast<int32_t>(rt)*B12) | B11 | B9 |
+ ((static_cast<int32_t>(sn) & 1)*B7) | B4;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovsrr(SRegister sm, Register rt, Register rt2,
+ Condition cond) {
+ CHECK_NE(sm, kNoSRegister);
+ CHECK_NE(sm, S31);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(rt, SP);
+ CHECK_NE(rt, PC);
+ CHECK_NE(rt2, kNoRegister);
+ CHECK_NE(rt2, SP);
+ CHECK_NE(rt2, PC);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B22 |
+ (static_cast<int32_t>(rt2)*B16) |
+ (static_cast<int32_t>(rt)*B12) | B11 | B9 |
+ ((static_cast<int32_t>(sm) & 1)*B5) | B4 |
+ (static_cast<int32_t>(sm) >> 1);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovrrs(Register rt, Register rt2, SRegister sm,
+ Condition cond) {
+ CHECK_NE(sm, kNoSRegister);
+ CHECK_NE(sm, S31);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(rt, SP);
+ CHECK_NE(rt, PC);
+ CHECK_NE(rt2, kNoRegister);
+ CHECK_NE(rt2, SP);
+ CHECK_NE(rt2, PC);
+ CHECK_NE(rt, rt2);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B22 | B20 |
+ (static_cast<int32_t>(rt2)*B16) |
+ (static_cast<int32_t>(rt)*B12) | B11 | B9 |
+ ((static_cast<int32_t>(sm) & 1)*B5) | B4 |
+ (static_cast<int32_t>(sm) >> 1);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovdrr(DRegister dm, Register rt, Register rt2,
+ Condition cond) {
+ CHECK_NE(dm, kNoDRegister);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(rt, SP);
+ CHECK_NE(rt, PC);
+ CHECK_NE(rt2, kNoRegister);
+ CHECK_NE(rt2, SP);
+ CHECK_NE(rt2, PC);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B22 |
+ (static_cast<int32_t>(rt2)*B16) |
+ (static_cast<int32_t>(rt)*B12) | B11 | B9 | B8 |
+ ((static_cast<int32_t>(dm) >> 4)*B5) | B4 |
+ (static_cast<int32_t>(dm) & 0xf);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovrrd(Register rt, Register rt2, DRegister dm,
+ Condition cond) {
+ CHECK_NE(dm, kNoDRegister);
+ CHECK_NE(rt, kNoRegister);
+ CHECK_NE(rt, SP);
+ CHECK_NE(rt, PC);
+ CHECK_NE(rt2, kNoRegister);
+ CHECK_NE(rt2, SP);
+ CHECK_NE(rt2, PC);
+ CHECK_NE(rt, rt2);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B22 | B20 |
+ (static_cast<int32_t>(rt2)*B16) |
+ (static_cast<int32_t>(rt)*B12) | B11 | B9 | B8 |
+ ((static_cast<int32_t>(dm) >> 4)*B5) | B4 |
+ (static_cast<int32_t>(dm) & 0xf);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vldrs(SRegister sd, Address ad, Condition cond) {
+ CHECK_NE(sd, kNoSRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B24 | B20 |
+ ((static_cast<int32_t>(sd) & 1)*B22) |
+ ((static_cast<int32_t>(sd) >> 1)*B12) |
+ B11 | B9 | ad.vencoding();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vstrs(SRegister sd, Address ad, Condition cond) {
+ CHECK_NE(static_cast<Register>(ad.encoding_ & (0xf << kRnShift)), PC);
+ CHECK_NE(sd, kNoSRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B24 |
+ ((static_cast<int32_t>(sd) & 1)*B22) |
+ ((static_cast<int32_t>(sd) >> 1)*B12) |
+ B11 | B9 | ad.vencoding();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vldrd(DRegister dd, Address ad, Condition cond) {
+ CHECK_NE(dd, kNoDRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B24 | B20 |
+ ((static_cast<int32_t>(dd) >> 4)*B22) |
+ ((static_cast<int32_t>(dd) & 0xf)*B12) |
+ B11 | B9 | B8 | ad.vencoding();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vstrd(DRegister dd, Address ad, Condition cond) {
+ CHECK_NE(static_cast<Register>(ad.encoding_ & (0xf << kRnShift)), PC);
+ CHECK_NE(dd, kNoDRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B24 |
+ ((static_cast<int32_t>(dd) >> 4)*B22) |
+ ((static_cast<int32_t>(dd) & 0xf)*B12) |
+ B11 | B9 | B8 | ad.vencoding();
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitVFPsss(Condition cond, int32_t opcode,
+ SRegister sd, SRegister sn, SRegister sm) {
+ CHECK_NE(sd, kNoSRegister);
+ CHECK_NE(sn, kNoSRegister);
+ CHECK_NE(sm, kNoSRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 | B11 | B9 | opcode |
+ ((static_cast<int32_t>(sd) & 1)*B22) |
+ ((static_cast<int32_t>(sn) >> 1)*B16) |
+ ((static_cast<int32_t>(sd) >> 1)*B12) |
+ ((static_cast<int32_t>(sn) & 1)*B7) |
+ ((static_cast<int32_t>(sm) & 1)*B5) |
+ (static_cast<int32_t>(sm) >> 1);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitVFPddd(Condition cond, int32_t opcode,
+ DRegister dd, DRegister dn, DRegister dm) {
+ CHECK_NE(dd, kNoDRegister);
+ CHECK_NE(dn, kNoDRegister);
+ CHECK_NE(dm, kNoDRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 | B11 | B9 | B8 | opcode |
+ ((static_cast<int32_t>(dd) >> 4)*B22) |
+ ((static_cast<int32_t>(dn) & 0xf)*B16) |
+ ((static_cast<int32_t>(dd) & 0xf)*B12) |
+ ((static_cast<int32_t>(dn) >> 4)*B7) |
+ ((static_cast<int32_t>(dm) >> 4)*B5) |
+ (static_cast<int32_t>(dm) & 0xf);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vmovs(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vmovd(DRegister dd, DRegister dm, Condition cond) {
+ EmitVFPddd(cond, B23 | B21 | B20 | B6, dd, D0, dm);
+}
+
+
+bool ArmAssembler::vmovs(SRegister sd, float s_imm, Condition cond) {
+ uint32_t imm32 = bit_cast<uint32_t, float>(s_imm);
+ if (((imm32 & ((1 << 19) - 1)) == 0) &&
+ ((((imm32 >> 25) & ((1 << 6) - 1)) == (1 << 5)) ||
+ (((imm32 >> 25) & ((1 << 6) - 1)) == ((1 << 5) -1)))) {
+ uint8_t imm8 = ((imm32 >> 31) << 7) | (((imm32 >> 29) & 1) << 6) |
+ ((imm32 >> 19) & ((1 << 6) -1));
+ EmitVFPsss(cond, B23 | B21 | B20 | ((imm8 >> 4)*B16) | (imm8 & 0xf),
+ sd, S0, S0);
+ return true;
+ }
+ return false;
+}
+
+
+bool ArmAssembler::vmovd(DRegister dd, double d_imm, Condition cond) {
+ uint64_t imm64 = bit_cast<uint64_t, double>(d_imm);
+ if (((imm64 & ((1LL << 48) - 1)) == 0) &&
+ ((((imm64 >> 54) & ((1 << 9) - 1)) == (1 << 8)) ||
+ (((imm64 >> 54) & ((1 << 9) - 1)) == ((1 << 8) -1)))) {
+ uint8_t imm8 = ((imm64 >> 63) << 7) | (((imm64 >> 61) & 1) << 6) |
+ ((imm64 >> 48) & ((1 << 6) -1));
+ EmitVFPddd(cond, B23 | B21 | B20 | ((imm8 >> 4)*B16) | B8 | (imm8 & 0xf),
+ dd, D0, D0);
+ return true;
+ }
+ return false;
+}
+
+
+void ArmAssembler::vadds(SRegister sd, SRegister sn, SRegister sm,
+ Condition cond) {
+ EmitVFPsss(cond, B21 | B20, sd, sn, sm);
+}
+
+
+void ArmAssembler::vaddd(DRegister dd, DRegister dn, DRegister dm,
+ Condition cond) {
+ EmitVFPddd(cond, B21 | B20, dd, dn, dm);
+}
+
+
+void ArmAssembler::vsubs(SRegister sd, SRegister sn, SRegister sm,
+ Condition cond) {
+ EmitVFPsss(cond, B21 | B20 | B6, sd, sn, sm);
+}
+
+
+void ArmAssembler::vsubd(DRegister dd, DRegister dn, DRegister dm,
+ Condition cond) {
+ EmitVFPddd(cond, B21 | B20 | B6, dd, dn, dm);
+}
+
+
+void ArmAssembler::vmuls(SRegister sd, SRegister sn, SRegister sm,
+ Condition cond) {
+ EmitVFPsss(cond, B21, sd, sn, sm);
+}
+
+
+void ArmAssembler::vmuld(DRegister dd, DRegister dn, DRegister dm,
+ Condition cond) {
+ EmitVFPddd(cond, B21, dd, dn, dm);
+}
+
+
+void ArmAssembler::vmlas(SRegister sd, SRegister sn, SRegister sm,
+ Condition cond) {
+ EmitVFPsss(cond, 0, sd, sn, sm);
+}
+
+
+void ArmAssembler::vmlad(DRegister dd, DRegister dn, DRegister dm,
+ Condition cond) {
+ EmitVFPddd(cond, 0, dd, dn, dm);
+}
+
+
+void ArmAssembler::vmlss(SRegister sd, SRegister sn, SRegister sm,
+ Condition cond) {
+ EmitVFPsss(cond, B6, sd, sn, sm);
+}
+
+
+void ArmAssembler::vmlsd(DRegister dd, DRegister dn, DRegister dm,
+ Condition cond) {
+ EmitVFPddd(cond, B6, dd, dn, dm);
+}
+
+
+void ArmAssembler::vdivs(SRegister sd, SRegister sn, SRegister sm,
+ Condition cond) {
+ EmitVFPsss(cond, B23, sd, sn, sm);
+}
+
+
+void ArmAssembler::vdivd(DRegister dd, DRegister dn, DRegister dm,
+ Condition cond) {
+ EmitVFPddd(cond, B23, dd, dn, dm);
+}
+
+
+void ArmAssembler::vabss(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B7 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vabsd(DRegister dd, DRegister dm, Condition cond) {
+ EmitVFPddd(cond, B23 | B21 | B20 | B7 | B6, dd, D0, dm);
+}
+
+
+void ArmAssembler::vnegs(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B16 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vnegd(DRegister dd, DRegister dm, Condition cond) {
+ EmitVFPddd(cond, B23 | B21 | B20 | B16 | B6, dd, D0, dm);
+}
+
+
+void ArmAssembler::vsqrts(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B16 | B7 | B6, sd, S0, sm);
+}
+
+void ArmAssembler::vsqrtd(DRegister dd, DRegister dm, Condition cond) {
+ EmitVFPddd(cond, B23 | B21 | B20 | B16 | B7 | B6, dd, D0, dm);
+}
+
+
+void ArmAssembler::EmitVFPsd(Condition cond, int32_t opcode,
+ SRegister sd, DRegister dm) {
+ CHECK_NE(sd, kNoSRegister);
+ CHECK_NE(dm, kNoDRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 | B11 | B9 | opcode |
+ ((static_cast<int32_t>(sd) & 1)*B22) |
+ ((static_cast<int32_t>(sd) >> 1)*B12) |
+ ((static_cast<int32_t>(dm) >> 4)*B5) |
+ (static_cast<int32_t>(dm) & 0xf);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::EmitVFPds(Condition cond, int32_t opcode,
+ DRegister dd, SRegister sm) {
+ CHECK_NE(dd, kNoDRegister);
+ CHECK_NE(sm, kNoSRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 | B11 | B9 | opcode |
+ ((static_cast<int32_t>(dd) >> 4)*B22) |
+ ((static_cast<int32_t>(dd) & 0xf)*B12) |
+ ((static_cast<int32_t>(sm) & 1)*B5) |
+ (static_cast<int32_t>(sm) >> 1);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::vcvtsd(SRegister sd, DRegister dm, Condition cond) {
+ EmitVFPsd(cond, B23 | B21 | B20 | B18 | B17 | B16 | B8 | B7 | B6, sd, dm);
+}
+
+
+void ArmAssembler::vcvtds(DRegister dd, SRegister sm, Condition cond) {
+ EmitVFPds(cond, B23 | B21 | B20 | B18 | B17 | B16 | B7 | B6, dd, sm);
+}
+
+
+void ArmAssembler::vcvtis(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B19 | B18 | B16 | B7 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vcvtid(SRegister sd, DRegister dm, Condition cond) {
+ EmitVFPsd(cond, B23 | B21 | B20 | B19 | B18 | B16 | B8 | B7 | B6, sd, dm);
+}
+
+
+void ArmAssembler::vcvtsi(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B19 | B7 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vcvtdi(DRegister dd, SRegister sm, Condition cond) {
+ EmitVFPds(cond, B23 | B21 | B20 | B19 | B8 | B7 | B6, dd, sm);
+}
+
+
+void ArmAssembler::vcvtus(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B19 | B18 | B7 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vcvtud(SRegister sd, DRegister dm, Condition cond) {
+ EmitVFPsd(cond, B23 | B21 | B20 | B19 | B18 | B8 | B7 | B6, sd, dm);
+}
+
+
+void ArmAssembler::vcvtsu(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B19 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vcvtdu(DRegister dd, SRegister sm, Condition cond) {
+ EmitVFPds(cond, B23 | B21 | B20 | B19 | B8 | B6, dd, sm);
+}
+
+
+void ArmAssembler::vcmps(SRegister sd, SRegister sm, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B18 | B6, sd, S0, sm);
+}
+
+
+void ArmAssembler::vcmpd(DRegister dd, DRegister dm, Condition cond) {
+ EmitVFPddd(cond, B23 | B21 | B20 | B18 | B6, dd, D0, dm);
+}
+
+
+void ArmAssembler::vcmpsz(SRegister sd, Condition cond) {
+ EmitVFPsss(cond, B23 | B21 | B20 | B18 | B16 | B6, sd, S0, S0);
+}
+
+
+void ArmAssembler::vcmpdz(DRegister dd, Condition cond) {
+ EmitVFPddd(cond, B23 | B21 | B20 | B18 | B16 | B6, dd, D0, D0);
+}
+
+
+void ArmAssembler::vmstat(Condition cond) { // VMRS APSR_nzcv, FPSCR
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B27 | B26 | B25 | B23 | B22 | B21 | B20 | B16 |
+ (static_cast<int32_t>(PC)*B12) |
+ B11 | B9 | B4;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::svc(uint32_t imm24) {
+ CHECK(IsUint(24, imm24)) << imm24;
+ int32_t encoding = (AL << kConditionShift) | B27 | B26 | B25 | B24 | imm24;
+ Emit(encoding);
+}
+
+
+void ArmAssembler::bkpt(uint16_t imm16) {
+ int32_t encoding = (AL << kConditionShift) | B24 | B21 |
+ ((imm16 >> 4) << 8) | B6 | B5 | B4 | (imm16 & 0xf);
+ Emit(encoding);
+}
+
+
+void ArmAssembler::b(Label* label, Condition cond) {
+ EmitBranch(cond, label, false);
+}
+
+
+void ArmAssembler::bl(Label* label, Condition cond) {
+ EmitBranch(cond, label, true);
+}
+
+
+void ArmAssembler::blx(Register rm, Condition cond) {
+ CHECK_NE(rm, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B24 | B21 | (0xfff << 8) | B5 | B4 |
+ (static_cast<int32_t>(rm) << kRmShift);
+ Emit(encoding);
+}
+
+void ArmAssembler::bx(Register rm, Condition cond) {
+ CHECK_NE(rm, kNoRegister);
+ CHECK_NE(cond, kNoCondition);
+ int32_t encoding = (static_cast<int32_t>(cond) << kConditionShift) |
+ B24 | B21 | (0xfff << 8) | B4 |
+ (static_cast<int32_t>(rm) << kRmShift);
+ Emit(encoding);
+}
+
+void ArmAssembler::MarkExceptionHandler(Label* label) {
+ EmitType01(AL, 1, TST, 1, PC, R0, ShifterOperand(0));
+ Label l;
+ b(&l);
+ EmitBranch(AL, label, false);
+ Bind(&l);
+}
+
+
+void ArmAssembler::Bind(Label* label) {
+ CHECK(!label->IsBound());
+ int bound_pc = buffer_.Size();
+ while (label->IsLinked()) {
+ int32_t position = label->Position();
+ int32_t next = buffer_.Load<int32_t>(position);
+ int32_t encoded = ArmAssembler::EncodeBranchOffset(bound_pc - position, next);
+ buffer_.Store<int32_t>(position, encoded);
+ label->position_ = ArmAssembler::DecodeBranchOffset(next);
+ }
+ label->BindTo(bound_pc);
+}
+
+
+void ArmAssembler::EncodeUint32InTstInstructions(uint32_t data) {
+ // TODO: Consider using movw ip, <16 bits>.
+ while (!IsUint(8, data)) {
+ tst(R0, ShifterOperand(data & 0xFF), VS);
+ data >>= 8;
+ }
+ tst(R0, ShifterOperand(data), MI);
+}
+
+
+int32_t ArmAssembler::EncodeBranchOffset(int offset, int32_t inst) {
+ // The offset is off by 8 due to the way the ARM CPUs read PC.
+ offset -= 8;
+ CHECK_ALIGNED(offset, 4);
+ CHECK(IsInt(CountOneBits(kBranchOffsetMask), offset)) << offset;
+
+ // Properly preserve only the bits supported in the instruction.
+ offset >>= 2;
+ offset &= kBranchOffsetMask;
+ return (inst & ~kBranchOffsetMask) | offset;
+}
+
+
+int ArmAssembler::DecodeBranchOffset(int32_t inst) {
+ // Sign-extend, left-shift by 2, then add 8.
+ return ((((inst & kBranchOffsetMask) << 8) >> 6) + 8);
+}
+
+void ArmAssembler::AddConstant(Register rd, int32_t value, Condition cond) {
+ AddConstant(rd, rd, value, cond);
+}
+
+
+void ArmAssembler::AddConstant(Register rd, Register rn, int32_t value,
+ Condition cond) {
+ if (value == 0) {
+ if (rd != rn) {
+ mov(rd, ShifterOperand(rn), cond);
+ }
+ return;
+ }
+ // We prefer to select the shorter code sequence rather than selecting add for
+ // positive values and sub for negatives ones, which would slightly improve
+ // the readability of generated code for some constants.
+ ShifterOperand shifter_op;
+ if (ShifterOperand::CanHold(value, &shifter_op)) {
+ add(rd, rn, shifter_op, cond);
+ } else if (ShifterOperand::CanHold(-value, &shifter_op)) {
+ sub(rd, rn, shifter_op, cond);
+ } else {
+ CHECK(rn != IP);
+ if (ShifterOperand::CanHold(~value, &shifter_op)) {
+ mvn(IP, shifter_op, cond);
+ add(rd, rn, ShifterOperand(IP), cond);
+ } else if (ShifterOperand::CanHold(~(-value), &shifter_op)) {
+ mvn(IP, shifter_op, cond);
+ sub(rd, rn, ShifterOperand(IP), cond);
+ } else {
+ movw(IP, Low16Bits(value), cond);
+ uint16_t value_high = High16Bits(value);
+ if (value_high != 0) {
+ movt(IP, value_high, cond);
+ }
+ add(rd, rn, ShifterOperand(IP), cond);
+ }
+ }
+}
+
+
+void ArmAssembler::AddConstantSetFlags(Register rd, Register rn, int32_t value,
+ Condition cond) {
+ ShifterOperand shifter_op;
+ if (ShifterOperand::CanHold(value, &shifter_op)) {
+ adds(rd, rn, shifter_op, cond);
+ } else if (ShifterOperand::CanHold(-value, &shifter_op)) {
+ subs(rd, rn, shifter_op, cond);
+ } else {
+ CHECK(rn != IP);
+ if (ShifterOperand::CanHold(~value, &shifter_op)) {
+ mvn(IP, shifter_op, cond);
+ adds(rd, rn, ShifterOperand(IP), cond);
+ } else if (ShifterOperand::CanHold(~(-value), &shifter_op)) {
+ mvn(IP, shifter_op, cond);
+ subs(rd, rn, ShifterOperand(IP), cond);
+ } else {
+ movw(IP, Low16Bits(value), cond);
+ uint16_t value_high = High16Bits(value);
+ if (value_high != 0) {
+ movt(IP, value_high, cond);
+ }
+ adds(rd, rn, ShifterOperand(IP), cond);
+ }
+ }
+}
+
+
+void ArmAssembler::LoadImmediate(Register rd, int32_t value, Condition cond) {
+ ShifterOperand shifter_op;
+ if (ShifterOperand::CanHold(value, &shifter_op)) {
+ mov(rd, shifter_op, cond);
+ } else if (ShifterOperand::CanHold(~value, &shifter_op)) {
+ mvn(rd, shifter_op, cond);
+ } else {
+ movw(rd, Low16Bits(value), cond);
+ uint16_t value_high = High16Bits(value);
+ if (value_high != 0) {
+ movt(rd, value_high, cond);
+ }
+ }
+}
+
+
+bool Address::CanHoldLoadOffset(LoadOperandType type, int offset) {
+ switch (type) {
+ case kLoadSignedByte:
+ case kLoadSignedHalfword:
+ case kLoadUnsignedHalfword:
+ case kLoadWordPair:
+ return IsAbsoluteUint(8, offset); // Addressing mode 3.
+ case kLoadUnsignedByte:
+ case kLoadWord:
+ return IsAbsoluteUint(12, offset); // Addressing mode 2.
+ case kLoadSWord:
+ case kLoadDWord:
+ return IsAbsoluteUint(10, offset); // VFP addressing mode.
+ default:
+ LOG(FATAL) << "UNREACHABLE";
+ return false;
+ }
+}
+
+
+bool Address::CanHoldStoreOffset(StoreOperandType type, int offset) {
+ switch (type) {
+ case kStoreHalfword:
+ case kStoreWordPair:
+ return IsAbsoluteUint(8, offset); // Addressing mode 3.
+ case kStoreByte:
+ case kStoreWord:
+ return IsAbsoluteUint(12, offset); // Addressing mode 2.
+ case kStoreSWord:
+ case kStoreDWord:
+ return IsAbsoluteUint(10, offset); // VFP addressing mode.
+ default:
+ LOG(FATAL) << "UNREACHABLE";
+ return false;
+ }
+}
+
+
+// Implementation note: this method must emit at most one instruction when
+// Address::CanHoldLoadOffset.
+void ArmAssembler::LoadFromOffset(LoadOperandType type,
+ Register reg,
+ Register base,
+ int32_t offset,
+ Condition cond) {
+ if (!Address::CanHoldLoadOffset(type, offset)) {
+ CHECK(base != IP);
+ LoadImmediate(IP, offset, cond);
+ add(IP, IP, ShifterOperand(base), cond);
+ base = IP;
+ offset = 0;
+ }
+ CHECK(Address::CanHoldLoadOffset(type, offset));
+ switch (type) {
+ case kLoadSignedByte:
+ ldrsb(reg, Address(base, offset), cond);
+ break;
+ case kLoadUnsignedByte:
+ ldrb(reg, Address(base, offset), cond);
+ break;
+ case kLoadSignedHalfword:
+ ldrsh(reg, Address(base, offset), cond);
+ break;
+ case kLoadUnsignedHalfword:
+ ldrh(reg, Address(base, offset), cond);
+ break;
+ case kLoadWord:
+ ldr(reg, Address(base, offset), cond);
+ break;
+ case kLoadWordPair:
+ ldrd(reg, Address(base, offset), cond);
+ break;
+ default:
+ LOG(FATAL) << "UNREACHABLE";
+ }
+}
+
+// Implementation note: this method must emit at most one instruction when
+// Address::CanHoldLoadOffset, as expected by JIT::GuardedLoadFromOffset.
+void ArmAssembler::LoadSFromOffset(SRegister reg,
+ Register base,
+ int32_t offset,
+ Condition cond) {
+ if (!Address::CanHoldLoadOffset(kLoadSWord, offset)) {
+ CHECK_NE(base, IP);
+ LoadImmediate(IP, offset, cond);
+ add(IP, IP, ShifterOperand(base), cond);
+ base = IP;
+ offset = 0;
+ }
+ CHECK(Address::CanHoldLoadOffset(kLoadSWord, offset));
+ vldrs(reg, Address(base, offset), cond);
+}
+
+// Implementation note: this method must emit at most one instruction when
+// Address::CanHoldLoadOffset, as expected by JIT::GuardedLoadFromOffset.
+void ArmAssembler::LoadDFromOffset(DRegister reg,
+ Register base,
+ int32_t offset,
+ Condition cond) {
+ if (!Address::CanHoldLoadOffset(kLoadDWord, offset)) {
+ CHECK_NE(base, IP);
+ LoadImmediate(IP, offset, cond);
+ add(IP, IP, ShifterOperand(base), cond);
+ base = IP;
+ offset = 0;
+ }
+ CHECK(Address::CanHoldLoadOffset(kLoadDWord, offset));
+ vldrd(reg, Address(base, offset), cond);
+}
+
+// Implementation note: this method must emit at most one instruction when
+// Address::CanHoldStoreOffset.
+void ArmAssembler::StoreToOffset(StoreOperandType type,
+ Register reg,
+ Register base,
+ int32_t offset,
+ Condition cond) {
+ if (!Address::CanHoldStoreOffset(type, offset)) {
+ CHECK(reg != IP);
+ CHECK(base != IP);
+ LoadImmediate(IP, offset, cond);
+ add(IP, IP, ShifterOperand(base), cond);
+ base = IP;
+ offset = 0;
+ }
+ CHECK(Address::CanHoldStoreOffset(type, offset));
+ switch (type) {
+ case kStoreByte:
+ strb(reg, Address(base, offset), cond);
+ break;
+ case kStoreHalfword:
+ strh(reg, Address(base, offset), cond);
+ break;
+ case kStoreWord:
+ str(reg, Address(base, offset), cond);
+ break;
+ case kStoreWordPair:
+ strd(reg, Address(base, offset), cond);
+ break;
+ default:
+ LOG(FATAL) << "UNREACHABLE";
+ }
+}
+
+// Implementation note: this method must emit at most one instruction when
+// Address::CanHoldStoreOffset, as expected by JIT::GuardedStoreToOffset.
+void ArmAssembler::StoreSToOffset(SRegister reg,
+ Register base,
+ int32_t offset,
+ Condition cond) {
+ if (!Address::CanHoldStoreOffset(kStoreSWord, offset)) {
+ CHECK_NE(base, IP);
+ LoadImmediate(IP, offset, cond);
+ add(IP, IP, ShifterOperand(base), cond);
+ base = IP;
+ offset = 0;
+ }
+ CHECK(Address::CanHoldStoreOffset(kStoreSWord, offset));
+ vstrs(reg, Address(base, offset), cond);
+}
+
+// Implementation note: this method must emit at most one instruction when
+// Address::CanHoldStoreOffset, as expected by JIT::GuardedStoreSToOffset.
+void ArmAssembler::StoreDToOffset(DRegister reg,
+ Register base,
+ int32_t offset,
+ Condition cond) {
+ if (!Address::CanHoldStoreOffset(kStoreDWord, offset)) {
+ CHECK_NE(base, IP);
+ LoadImmediate(IP, offset, cond);
+ add(IP, IP, ShifterOperand(base), cond);
+ base = IP;
+ offset = 0;
+ }
+ CHECK(Address::CanHoldStoreOffset(kStoreDWord, offset));
+ vstrd(reg, Address(base, offset), cond);
+}
+
+void ArmAssembler::Push(Register rd, Condition cond) {
+ str(rd, Address(SP, -kRegisterSize, Address::PreIndex), cond);
+}
+
+void ArmAssembler::Pop(Register rd, Condition cond) {
+ ldr(rd, Address(SP, kRegisterSize, Address::PostIndex), cond);
+}
+
+void ArmAssembler::PushList(RegList regs, Condition cond) {
+ stm(DB_W, SP, regs, cond);
+}
+
+void ArmAssembler::PopList(RegList regs, Condition cond) {
+ ldm(IA_W, SP, regs, cond);
+}
+
+void ArmAssembler::Mov(Register rd, Register rm, Condition cond) {
+ if (rd != rm) {
+ mov(rd, ShifterOperand(rm), cond);
+ }
+}
+
+void ArmAssembler::Lsl(Register rd, Register rm, uint32_t shift_imm,
+ Condition cond) {
+ CHECK_NE(shift_imm, 0u); // Do not use Lsl if no shift is wanted.
+ mov(rd, ShifterOperand(rm, LSL, shift_imm), cond);
+}
+
+void ArmAssembler::Lsr(Register rd, Register rm, uint32_t shift_imm,
+ Condition cond) {
+ CHECK_NE(shift_imm, 0u); // Do not use Lsr if no shift is wanted.
+ if (shift_imm == 32) shift_imm = 0; // Comply to UAL syntax.
+ mov(rd, ShifterOperand(rm, LSR, shift_imm), cond);
+}
+
+void ArmAssembler::Asr(Register rd, Register rm, uint32_t shift_imm,
+ Condition cond) {
+ CHECK_NE(shift_imm, 0u); // Do not use Asr if no shift is wanted.
+ if (shift_imm == 32) shift_imm = 0; // Comply to UAL syntax.
+ mov(rd, ShifterOperand(rm, ASR, shift_imm), cond);
+}
+
+void ArmAssembler::Ror(Register rd, Register rm, uint32_t shift_imm,
+ Condition cond) {
+ CHECK_NE(shift_imm, 0u); // Use Rrx instruction.
+ mov(rd, ShifterOperand(rm, ROR, shift_imm), cond);
+}
+
+void ArmAssembler::Rrx(Register rd, Register rm, Condition cond) {
+ mov(rd, ShifterOperand(rm, ROR, 0), cond);
+}
+
+void ArmAssembler::BuildFrame(size_t frame_size, ManagedRegister method_reg,
+ const std::vector<ManagedRegister>& callee_save_regs,
+ const std::vector<ManagedRegister>& entry_spills) {
+ CHECK_ALIGNED(frame_size, kStackAlignment);
+ CHECK_EQ(R0, method_reg.AsArm().AsCoreRegister());
+
+ // Push callee saves and link register.
+ RegList push_list = 1 << LR;
+ size_t pushed_values = 1;
+ for (size_t i = 0; i < callee_save_regs.size(); i++) {
+ Register reg = callee_save_regs.at(i).AsArm().AsCoreRegister();
+ push_list |= 1 << reg;
+ pushed_values++;
+ }
+ PushList(push_list);
+
+ // Increase frame to required size.
+ CHECK_GT(frame_size, pushed_values * kPointerSize); // Must be at least space to push Method*
+ size_t adjust = frame_size - (pushed_values * kPointerSize);
+ IncreaseFrameSize(adjust);
+
+ // Write out Method*.
+ StoreToOffset(kStoreWord, R0, SP, 0);
+
+ // Write out entry spills.
+ for (size_t i = 0; i < entry_spills.size(); ++i) {
+ Register reg = entry_spills.at(i).AsArm().AsCoreRegister();
+ StoreToOffset(kStoreWord, reg, SP, frame_size + kPointerSize + (i * kPointerSize));
+ }
+}
+
+void ArmAssembler::RemoveFrame(size_t frame_size,
+ const std::vector<ManagedRegister>& callee_save_regs) {
+ CHECK_ALIGNED(frame_size, kStackAlignment);
+ // Compute callee saves to pop and PC
+ RegList pop_list = 1 << PC;
+ size_t pop_values = 1;
+ for (size_t i = 0; i < callee_save_regs.size(); i++) {
+ Register reg = callee_save_regs.at(i).AsArm().AsCoreRegister();
+ pop_list |= 1 << reg;
+ pop_values++;
+ }
+
+ // Decrease frame to start of callee saves
+ CHECK_GT(frame_size, pop_values * kPointerSize);
+ size_t adjust = frame_size - (pop_values * kPointerSize);
+ DecreaseFrameSize(adjust);
+
+ // Pop callee saves and PC
+ PopList(pop_list);
+}
+
+void ArmAssembler::IncreaseFrameSize(size_t adjust) {
+ AddConstant(SP, -adjust);
+}
+
+void ArmAssembler::DecreaseFrameSize(size_t adjust) {
+ AddConstant(SP, adjust);
+}
+
+void ArmAssembler::Store(FrameOffset dest, ManagedRegister msrc, size_t size) {
+ ArmManagedRegister src = msrc.AsArm();
+ if (src.IsNoRegister()) {
+ CHECK_EQ(0u, size);
+ } else if (src.IsCoreRegister()) {
+ CHECK_EQ(4u, size);
+ StoreToOffset(kStoreWord, src.AsCoreRegister(), SP, dest.Int32Value());
+ } else if (src.IsRegisterPair()) {
+ CHECK_EQ(8u, size);
+ StoreToOffset(kStoreWord, src.AsRegisterPairLow(), SP, dest.Int32Value());
+ StoreToOffset(kStoreWord, src.AsRegisterPairHigh(),
+ SP, dest.Int32Value() + 4);
+ } else if (src.IsSRegister()) {
+ StoreSToOffset(src.AsSRegister(), SP, dest.Int32Value());
+ } else {
+ CHECK(src.IsDRegister()) << src;
+ StoreDToOffset(src.AsDRegister(), SP, dest.Int32Value());
+ }
+}
+
+void ArmAssembler::StoreRef(FrameOffset dest, ManagedRegister msrc) {
+ ArmManagedRegister src = msrc.AsArm();
+ CHECK(src.IsCoreRegister()) << src;
+ StoreToOffset(kStoreWord, src.AsCoreRegister(), SP, dest.Int32Value());
+}
+
+void ArmAssembler::StoreRawPtr(FrameOffset dest, ManagedRegister msrc) {
+ ArmManagedRegister src = msrc.AsArm();
+ CHECK(src.IsCoreRegister()) << src;
+ StoreToOffset(kStoreWord, src.AsCoreRegister(), SP, dest.Int32Value());
+}
+
+void ArmAssembler::StoreSpanning(FrameOffset dest, ManagedRegister msrc,
+ FrameOffset in_off, ManagedRegister mscratch) {
+ ArmManagedRegister src = msrc.AsArm();
+ ArmManagedRegister scratch = mscratch.AsArm();
+ StoreToOffset(kStoreWord, src.AsCoreRegister(), SP, dest.Int32Value());
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(), SP, in_off.Int32Value());
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, dest.Int32Value() + 4);
+}
+
+void ArmAssembler::CopyRef(FrameOffset dest, FrameOffset src,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(), SP, src.Int32Value());
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, dest.Int32Value());
+}
+
+void ArmAssembler::LoadRef(ManagedRegister mdest, ManagedRegister base,
+ MemberOffset offs) {
+ ArmManagedRegister dst = mdest.AsArm();
+ CHECK(dst.IsCoreRegister() && dst.IsCoreRegister()) << dst;
+ LoadFromOffset(kLoadWord, dst.AsCoreRegister(),
+ base.AsArm().AsCoreRegister(), offs.Int32Value());
+}
+
+void ArmAssembler::LoadRef(ManagedRegister mdest, FrameOffset src) {
+ ArmManagedRegister dst = mdest.AsArm();
+ CHECK(dst.IsCoreRegister()) << dst;
+ LoadFromOffset(kLoadWord, dst.AsCoreRegister(), SP, src.Int32Value());
+}
+
+void ArmAssembler::LoadRawPtr(ManagedRegister mdest, ManagedRegister base,
+ Offset offs) {
+ ArmManagedRegister dst = mdest.AsArm();
+ CHECK(dst.IsCoreRegister() && dst.IsCoreRegister()) << dst;
+ LoadFromOffset(kLoadWord, dst.AsCoreRegister(),
+ base.AsArm().AsCoreRegister(), offs.Int32Value());
+}
+
+void ArmAssembler::StoreImmediateToFrame(FrameOffset dest, uint32_t imm,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ LoadImmediate(scratch.AsCoreRegister(), imm);
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, dest.Int32Value());
+}
+
+void ArmAssembler::StoreImmediateToThread(ThreadOffset dest, uint32_t imm,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ LoadImmediate(scratch.AsCoreRegister(), imm);
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), TR, dest.Int32Value());
+}
+
+static void EmitLoad(ArmAssembler* assembler, ManagedRegister m_dst,
+ Register src_register, int32_t src_offset, size_t size) {
+ ArmManagedRegister dst = m_dst.AsArm();
+ if (dst.IsNoRegister()) {
+ CHECK_EQ(0u, size) << dst;
+ } else if (dst.IsCoreRegister()) {
+ CHECK_EQ(4u, size) << dst;
+ assembler->LoadFromOffset(kLoadWord, dst.AsCoreRegister(), src_register, src_offset);
+ } else if (dst.IsRegisterPair()) {
+ CHECK_EQ(8u, size) << dst;
+ assembler->LoadFromOffset(kLoadWord, dst.AsRegisterPairLow(), src_register, src_offset);
+ assembler->LoadFromOffset(kLoadWord, dst.AsRegisterPairHigh(), src_register, src_offset + 4);
+ } else if (dst.IsSRegister()) {
+ assembler->LoadSFromOffset(dst.AsSRegister(), src_register, src_offset);
+ } else {
+ CHECK(dst.IsDRegister()) << dst;
+ assembler->LoadDFromOffset(dst.AsDRegister(), src_register, src_offset);
+ }
+}
+
+void ArmAssembler::Load(ManagedRegister m_dst, FrameOffset src, size_t size) {
+ return EmitLoad(this, m_dst, SP, src.Int32Value(), size);
+}
+
+void ArmAssembler::Load(ManagedRegister m_dst, ThreadOffset src, size_t size) {
+ return EmitLoad(this, m_dst, TR, src.Int32Value(), size);
+}
+
+void ArmAssembler::LoadRawPtrFromThread(ManagedRegister m_dst, ThreadOffset offs) {
+ ArmManagedRegister dst = m_dst.AsArm();
+ CHECK(dst.IsCoreRegister()) << dst;
+ LoadFromOffset(kLoadWord, dst.AsCoreRegister(), TR, offs.Int32Value());
+}
+
+void ArmAssembler::CopyRawPtrFromThread(FrameOffset fr_offs,
+ ThreadOffset thr_offs,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(),
+ TR, thr_offs.Int32Value());
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(),
+ SP, fr_offs.Int32Value());
+}
+
+void ArmAssembler::CopyRawPtrToThread(ThreadOffset thr_offs,
+ FrameOffset fr_offs,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(),
+ SP, fr_offs.Int32Value());
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(),
+ TR, thr_offs.Int32Value());
+}
+
+void ArmAssembler::StoreStackOffsetToThread(ThreadOffset thr_offs,
+ FrameOffset fr_offs,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ AddConstant(scratch.AsCoreRegister(), SP, fr_offs.Int32Value(), AL);
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(),
+ TR, thr_offs.Int32Value());
+}
+
+void ArmAssembler::StoreStackPointerToThread(ThreadOffset thr_offs) {
+ StoreToOffset(kStoreWord, SP, TR, thr_offs.Int32Value());
+}
+
+void ArmAssembler::SignExtend(ManagedRegister /*mreg*/, size_t /*size*/) {
+ UNIMPLEMENTED(FATAL) << "no sign extension necessary for arm";
+}
+
+void ArmAssembler::ZeroExtend(ManagedRegister /*mreg*/, size_t /*size*/) {
+ UNIMPLEMENTED(FATAL) << "no zero extension necessary for arm";
+}
+
+void ArmAssembler::Move(ManagedRegister m_dst, ManagedRegister m_src, size_t /*size*/) {
+ ArmManagedRegister dst = m_dst.AsArm();
+ ArmManagedRegister src = m_src.AsArm();
+ if (!dst.Equals(src)) {
+ if (dst.IsCoreRegister()) {
+ CHECK(src.IsCoreRegister()) << src;
+ mov(dst.AsCoreRegister(), ShifterOperand(src.AsCoreRegister()));
+ } else if (dst.IsDRegister()) {
+ CHECK(src.IsDRegister()) << src;
+ vmovd(dst.AsDRegister(), src.AsDRegister());
+ } else if (dst.IsSRegister()) {
+ CHECK(src.IsSRegister()) << src;
+ vmovs(dst.AsSRegister(), src.AsSRegister());
+ } 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(dst.AsRegisterPairLow(), ShifterOperand(src.AsRegisterPairLow()));
+ mov(dst.AsRegisterPairHigh(), ShifterOperand(src.AsRegisterPairHigh()));
+ } else {
+ mov(dst.AsRegisterPairHigh(), ShifterOperand(src.AsRegisterPairHigh()));
+ mov(dst.AsRegisterPairLow(), ShifterOperand(src.AsRegisterPairLow()));
+ }
+ }
+ }
+}
+
+void ArmAssembler::Copy(FrameOffset dest, FrameOffset src, ManagedRegister mscratch, size_t size) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ CHECK(size == 4 || size == 8) << size;
+ if (size == 4) {
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(), SP, src.Int32Value());
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, dest.Int32Value());
+ } else if (size == 8) {
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(), SP, src.Int32Value());
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, dest.Int32Value());
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(), SP, src.Int32Value() + 4);
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, dest.Int32Value() + 4);
+ }
+}
+
+void ArmAssembler::Copy(FrameOffset dest, ManagedRegister src_base, Offset src_offset,
+ ManagedRegister mscratch, size_t size) {
+ Register scratch = mscratch.AsArm().AsCoreRegister();
+ CHECK_EQ(size, 4u);
+ LoadFromOffset(kLoadWord, scratch, src_base.AsArm().AsCoreRegister(), src_offset.Int32Value());
+ StoreToOffset(kStoreWord, scratch, SP, dest.Int32Value());
+}
+
+void ArmAssembler::Copy(ManagedRegister dest_base, Offset dest_offset, FrameOffset src,
+ ManagedRegister mscratch, size_t size) {
+ Register scratch = mscratch.AsArm().AsCoreRegister();
+ CHECK_EQ(size, 4u);
+ LoadFromOffset(kLoadWord, scratch, SP, src.Int32Value());
+ StoreToOffset(kStoreWord, scratch, dest_base.AsArm().AsCoreRegister(), dest_offset.Int32Value());
+}
+
+void ArmAssembler::Copy(FrameOffset /*dst*/, FrameOffset /*src_base*/, Offset /*src_offset*/,
+ ManagedRegister /*mscratch*/, size_t /*size*/) {
+ UNIMPLEMENTED(FATAL);
+}
+
+void ArmAssembler::Copy(ManagedRegister dest, Offset dest_offset,
+ ManagedRegister src, Offset src_offset,
+ ManagedRegister mscratch, size_t size) {
+ CHECK_EQ(size, 4u);
+ Register scratch = mscratch.AsArm().AsCoreRegister();
+ LoadFromOffset(kLoadWord, scratch, src.AsArm().AsCoreRegister(), src_offset.Int32Value());
+ StoreToOffset(kStoreWord, scratch, dest.AsArm().AsCoreRegister(), dest_offset.Int32Value());
+}
+
+void ArmAssembler::Copy(FrameOffset /*dst*/, Offset /*dest_offset*/, FrameOffset /*src*/, Offset /*src_offset*/,
+ ManagedRegister /*scratch*/, size_t /*size*/) {
+ UNIMPLEMENTED(FATAL);
+}
+
+
+void ArmAssembler::MemoryBarrier(ManagedRegister mscratch) {
+ CHECK_EQ(mscratch.AsArm().AsCoreRegister(), R12);
+#if ANDROID_SMP != 0
+#if defined(__ARM_HAVE_DMB)
+ int32_t encoding = 0xf57ff05f; // dmb
+ Emit(encoding);
+#elif defined(__ARM_HAVE_LDREX_STREX)
+ LoadImmediate(R12, 0);
+ int32_t encoding = 0xee07cfba; // mcr p15, 0, r12, c7, c10, 5
+ Emit(encoding);
+#else
+ LoadImmediate(R12, 0xffff0fa0); // kuser_memory_barrier
+ blx(R12);
+#endif
+#endif
+}
+
+void ArmAssembler::CreateSirtEntry(ManagedRegister mout_reg,
+ FrameOffset sirt_offset,
+ ManagedRegister min_reg, bool null_allowed) {
+ ArmManagedRegister out_reg = mout_reg.AsArm();
+ ArmManagedRegister in_reg = min_reg.AsArm();
+ CHECK(in_reg.IsNoRegister() || in_reg.IsCoreRegister()) << in_reg;
+ CHECK(out_reg.IsCoreRegister()) << out_reg;
+ if (null_allowed) {
+ // Null values get a SIRT entry value of 0. Otherwise, the SIRT entry is
+ // the address in the SIRT holding the reference.
+ // e.g. out_reg = (handle == 0) ? 0 : (SP+handle_offset)
+ if (in_reg.IsNoRegister()) {
+ LoadFromOffset(kLoadWord, out_reg.AsCoreRegister(),
+ SP, sirt_offset.Int32Value());
+ in_reg = out_reg;
+ }
+ cmp(in_reg.AsCoreRegister(), ShifterOperand(0));
+ if (!out_reg.Equals(in_reg)) {
+ LoadImmediate(out_reg.AsCoreRegister(), 0, EQ);
+ }
+ AddConstant(out_reg.AsCoreRegister(), SP, sirt_offset.Int32Value(), NE);
+ } else {
+ AddConstant(out_reg.AsCoreRegister(), SP, sirt_offset.Int32Value(), AL);
+ }
+}
+
+void ArmAssembler::CreateSirtEntry(FrameOffset out_off,
+ FrameOffset sirt_offset,
+ ManagedRegister mscratch,
+ bool null_allowed) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ if (null_allowed) {
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(), SP,
+ sirt_offset.Int32Value());
+ // Null values get a SIRT entry value of 0. Otherwise, the sirt entry is
+ // the address in the SIRT holding the reference.
+ // e.g. scratch = (scratch == 0) ? 0 : (SP+sirt_offset)
+ cmp(scratch.AsCoreRegister(), ShifterOperand(0));
+ AddConstant(scratch.AsCoreRegister(), SP, sirt_offset.Int32Value(), NE);
+ } else {
+ AddConstant(scratch.AsCoreRegister(), SP, sirt_offset.Int32Value(), AL);
+ }
+ StoreToOffset(kStoreWord, scratch.AsCoreRegister(), SP, out_off.Int32Value());
+}
+
+void ArmAssembler::LoadReferenceFromSirt(ManagedRegister mout_reg,
+ ManagedRegister min_reg) {
+ ArmManagedRegister out_reg = mout_reg.AsArm();
+ ArmManagedRegister in_reg = min_reg.AsArm();
+ CHECK(out_reg.IsCoreRegister()) << out_reg;
+ CHECK(in_reg.IsCoreRegister()) << in_reg;
+ Label null_arg;
+ if (!out_reg.Equals(in_reg)) {
+ LoadImmediate(out_reg.AsCoreRegister(), 0, EQ);
+ }
+ cmp(in_reg.AsCoreRegister(), ShifterOperand(0));
+ LoadFromOffset(kLoadWord, out_reg.AsCoreRegister(),
+ in_reg.AsCoreRegister(), 0, NE);
+}
+
+void ArmAssembler::VerifyObject(ManagedRegister /*src*/, bool /*could_be_null*/) {
+ // TODO: not validating references
+}
+
+void ArmAssembler::VerifyObject(FrameOffset /*src*/, bool /*could_be_null*/) {
+ // TODO: not validating references
+}
+
+void ArmAssembler::Call(ManagedRegister mbase, Offset offset,
+ ManagedRegister mscratch) {
+ ArmManagedRegister base = mbase.AsArm();
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(base.IsCoreRegister()) << base;
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(),
+ base.AsCoreRegister(), offset.Int32Value());
+ blx(scratch.AsCoreRegister());
+ // TODO: place reference map on call
+}
+
+void ArmAssembler::Call(FrameOffset base, Offset offset,
+ ManagedRegister mscratch) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ CHECK(scratch.IsCoreRegister()) << scratch;
+ // Call *(*(SP + base) + offset)
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(),
+ SP, base.Int32Value());
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(),
+ scratch.AsCoreRegister(), offset.Int32Value());
+ blx(scratch.AsCoreRegister());
+ // TODO: place reference map on call
+}
+
+void ArmAssembler::Call(ThreadOffset /*offset*/, ManagedRegister /*scratch*/) {
+ UNIMPLEMENTED(FATAL);
+}
+
+void ArmAssembler::GetCurrentThread(ManagedRegister tr) {
+ mov(tr.AsArm().AsCoreRegister(), ShifterOperand(TR));
+}
+
+void ArmAssembler::GetCurrentThread(FrameOffset offset,
+ ManagedRegister /*scratch*/) {
+ StoreToOffset(kStoreWord, TR, SP, offset.Int32Value(), AL);
+}
+
+void ArmAssembler::ExceptionPoll(ManagedRegister mscratch, size_t stack_adjust) {
+ ArmManagedRegister scratch = mscratch.AsArm();
+ ArmExceptionSlowPath* slow = new ArmExceptionSlowPath(scratch, stack_adjust);
+ buffer_.EnqueueSlowPath(slow);
+ LoadFromOffset(kLoadWord, scratch.AsCoreRegister(),
+ TR, Thread::ExceptionOffset().Int32Value());
+ cmp(scratch.AsCoreRegister(), ShifterOperand(0));
+ b(slow->Entry(), NE);
+}
+
+void ArmExceptionSlowPath::Emit(Assembler* sasm) {
+ ArmAssembler* sp_asm = down_cast<ArmAssembler*>(sasm);
+#define __ sp_asm->
+ __ Bind(&entry_);
+ if (stack_adjust_ != 0) { // Fix up the frame.
+ __ DecreaseFrameSize(stack_adjust_);
+ }
+ // Pass exception object as argument
+ // Don't care about preserving R0 as this call won't return
+ __ mov(R0, ShifterOperand(scratch_.AsCoreRegister()));
+ // Set up call to Thread::Current()->pDeliverException
+ __ LoadFromOffset(kLoadWord, R12, TR, ENTRYPOINT_OFFSET(pDeliverException));
+ __ blx(R12);
+ // Call never returns
+ __ bkpt(0);
+#undef __
+}
+
+} // namespace arm
+} // namespace art