| /* |
| * Copyright (C) 2014 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_thumb2.h" |
| |
| #include "base/bit_utils.h" |
| #include "base/logging.h" |
| #include "entrypoints/quick/quick_entrypoints.h" |
| #include "offsets.h" |
| #include "thread.h" |
| |
| namespace art { |
| namespace arm { |
| |
| void Thumb2Assembler::BindLabel(Label* label, uint32_t bound_pc) { |
| CHECK(!label->IsBound()); |
| |
| while (label->IsLinked()) { |
| FixupId fixup_id = label->Position(); // The id for linked Fixup. |
| Fixup* fixup = GetFixup(fixup_id); // Get the Fixup at this id. |
| fixup->Resolve(bound_pc); // Fixup can be resolved now. |
| // Add this fixup as a dependency of all later fixups. |
| for (FixupId id = fixup_id + 1u, end = fixups_.size(); id != end; ++id) { |
| GetFixup(id)->AddDependent(fixup_id); |
| } |
| uint32_t fixup_location = fixup->GetLocation(); |
| uint16_t next = buffer_.Load<uint16_t>(fixup_location); // Get next in chain. |
| buffer_.Store<int16_t>(fixup_location, 0); |
| label->position_ = next; // Move to next. |
| } |
| label->BindTo(bound_pc); |
| } |
| |
| void Thumb2Assembler::BindLiterals() { |
| // We don't add the padding here, that's done only after adjusting the Fixup sizes. |
| uint32_t code_size = buffer_.Size(); |
| for (Literal& lit : literals_) { |
| Label* label = lit.GetLabel(); |
| BindLabel(label, code_size); |
| code_size += lit.GetSize(); |
| } |
| } |
| |
| void Thumb2Assembler::AdjustFixupIfNeeded(Fixup* fixup, uint32_t* current_code_size, |
| std::deque<FixupId>* fixups_to_recalculate) { |
| uint32_t adjustment = fixup->AdjustSizeIfNeeded(*current_code_size); |
| if (adjustment != 0u) { |
| *current_code_size += adjustment; |
| for (FixupId dependent_id : fixup->Dependents()) { |
| Fixup* dependent = GetFixup(dependent_id); |
| dependent->IncreaseAdjustment(adjustment); |
| if (buffer_.Load<int16_t>(dependent->GetLocation()) == 0) { |
| buffer_.Store<int16_t>(dependent->GetLocation(), 1); |
| fixups_to_recalculate->push_back(dependent_id); |
| } |
| } |
| } |
| } |
| |
| uint32_t Thumb2Assembler::AdjustFixups() { |
| uint32_t current_code_size = buffer_.Size(); |
| std::deque<FixupId> fixups_to_recalculate; |
| if (kIsDebugBuild) { |
| // We will use the placeholders in the buffer_ to mark whether the fixup has |
| // been added to the fixups_to_recalculate. Make sure we start with zeros. |
| for (Fixup& fixup : fixups_) { |
| CHECK_EQ(buffer_.Load<int16_t>(fixup.GetLocation()), 0); |
| } |
| } |
| for (Fixup& fixup : fixups_) { |
| AdjustFixupIfNeeded(&fixup, ¤t_code_size, &fixups_to_recalculate); |
| } |
| while (!fixups_to_recalculate.empty()) { |
| // Pop the fixup. |
| FixupId fixup_id = fixups_to_recalculate.front(); |
| fixups_to_recalculate.pop_front(); |
| Fixup* fixup = GetFixup(fixup_id); |
| DCHECK_NE(buffer_.Load<int16_t>(fixup->GetLocation()), 0); |
| buffer_.Store<int16_t>(fixup->GetLocation(), 0); |
| // See if it needs adjustment. |
| AdjustFixupIfNeeded(fixup, ¤t_code_size, &fixups_to_recalculate); |
| } |
| if (kIsDebugBuild) { |
| // Check that no fixup is marked as being in fixups_to_recalculate anymore. |
| for (Fixup& fixup : fixups_) { |
| CHECK_EQ(buffer_.Load<int16_t>(fixup.GetLocation()), 0); |
| } |
| } |
| |
| // Adjust literal pool labels for padding. |
| DCHECK_ALIGNED(current_code_size, 2); |
| uint32_t literals_adjustment = current_code_size + (current_code_size & 2) - buffer_.Size(); |
| if (literals_adjustment != 0u) { |
| for (Literal& literal : literals_) { |
| Label* label = literal.GetLabel(); |
| DCHECK(label->IsBound()); |
| int old_position = label->Position(); |
| label->Reinitialize(); |
| label->BindTo(old_position + literals_adjustment); |
| } |
| } |
| |
| return current_code_size; |
| } |
| |
| void Thumb2Assembler::EmitFixups(uint32_t adjusted_code_size) { |
| // Move non-fixup code to its final place and emit fixups. |
| // Process fixups in reverse order so that we don't repeatedly move the same data. |
| size_t src_end = buffer_.Size(); |
| size_t dest_end = adjusted_code_size; |
| buffer_.Resize(dest_end); |
| DCHECK_GE(dest_end, src_end); |
| for (auto i = fixups_.rbegin(), end = fixups_.rend(); i != end; ++i) { |
| Fixup* fixup = &*i; |
| if (fixup->GetOriginalSize() == fixup->GetSize()) { |
| // The size of this Fixup didn't change. To avoid moving the data |
| // in small chunks, emit the code to its original position. |
| fixup->Emit(&buffer_, adjusted_code_size); |
| fixup->Finalize(dest_end - src_end); |
| } else { |
| // Move the data between the end of the fixup and src_end to its final location. |
| size_t old_fixup_location = fixup->GetLocation(); |
| size_t src_begin = old_fixup_location + fixup->GetOriginalSizeInBytes(); |
| size_t data_size = src_end - src_begin; |
| size_t dest_begin = dest_end - data_size; |
| buffer_.Move(dest_begin, src_begin, data_size); |
| src_end = old_fixup_location; |
| dest_end = dest_begin - fixup->GetSizeInBytes(); |
| // Finalize the Fixup and emit the data to the new location. |
| fixup->Finalize(dest_end - src_end); |
| fixup->Emit(&buffer_, adjusted_code_size); |
| } |
| } |
| CHECK_EQ(src_end, dest_end); |
| } |
| |
| void Thumb2Assembler::EmitLiterals() { |
| if (!literals_.empty()) { |
| // Load literal instructions (LDR, LDRD, VLDR) require 4-byte alignment. |
| // We don't support byte and half-word literals. |
| uint32_t code_size = buffer_.Size(); |
| DCHECK_ALIGNED(code_size, 2); |
| if ((code_size & 2u) != 0u) { |
| Emit16(0); |
| } |
| for (Literal& literal : literals_) { |
| AssemblerBuffer::EnsureCapacity ensured(&buffer_); |
| DCHECK_EQ(static_cast<size_t>(literal.GetLabel()->Position()), buffer_.Size()); |
| DCHECK(literal.GetSize() == 4u || literal.GetSize() == 8u); |
| for (size_t i = 0, size = literal.GetSize(); i != size; ++i) { |
| buffer_.Emit<uint8_t>(literal.GetData()[i]); |
| } |
| } |
| } |
| } |
| |
| inline int16_t Thumb2Assembler::BEncoding16(int32_t offset, Condition cond) { |
| DCHECK_ALIGNED(offset, 2); |
| int16_t encoding = B15 | B14; |
| if (cond != AL) { |
| DCHECK(IsInt<9>(offset)); |
| encoding |= B12 | (static_cast<int32_t>(cond) << 8) | ((offset >> 1) & 0xff); |
| } else { |
| DCHECK(IsInt<12>(offset)); |
| encoding |= B13 | ((offset >> 1) & 0x7ff); |
| } |
| return encoding; |
| } |
| |
| inline int32_t Thumb2Assembler::BEncoding32(int32_t offset, Condition cond) { |
| DCHECK_ALIGNED(offset, 2); |
| int32_t s = (offset >> 31) & 1; // Sign bit. |
| int32_t encoding = B31 | B30 | B29 | B28 | B15 | |
| (s << 26) | // Sign bit goes to bit 26. |
| ((offset >> 1) & 0x7ff); // imm11 goes to bits 0-10. |
| if (cond != AL) { |
| DCHECK(IsInt<21>(offset)); |
| // Encode cond, move imm6 from bits 12-17 to bits 16-21 and move J1 and J2. |
| encoding |= (static_cast<int32_t>(cond) << 22) | ((offset & 0x3f000) << (16 - 12)) | |
| ((offset & (1 << 19)) >> (19 - 13)) | // Extract J1 from bit 19 to bit 13. |
| ((offset & (1 << 18)) >> (18 - 11)); // Extract J2 from bit 18 to bit 11. |
| } else { |
| DCHECK(IsInt<25>(offset)); |
| int32_t j1 = ((offset >> 23) ^ s ^ 1) & 1; // Calculate J1 from I1 extracted from bit 23. |
| int32_t j2 = ((offset >> 22)^ s ^ 1) & 1; // Calculate J2 from I2 extracted from bit 22. |
| // Move imm10 from bits 12-21 to bits 16-25 and add J1 and J2. |
| encoding |= B12 | ((offset & 0x3ff000) << (16 - 12)) | |
| (j1 << 13) | (j2 << 11); |
| } |
| return encoding; |
| } |
| |
| inline int16_t Thumb2Assembler::CbxzEncoding16(Register rn, int32_t offset, Condition cond) { |
| DCHECK(!IsHighRegister(rn)); |
| DCHECK_ALIGNED(offset, 2); |
| DCHECK(IsUint<7>(offset)); |
| DCHECK(cond == EQ || cond == NE); |
| return B15 | B13 | B12 | B8 | (cond == NE ? B11 : 0) | static_cast<int32_t>(rn) | |
| ((offset & 0x3e) << (3 - 1)) | // Move imm5 from bits 1-5 to bits 3-7. |
| ((offset & 0x40) << (9 - 6)); // Move i from bit 6 to bit 11 |
| } |
| |
| inline int16_t Thumb2Assembler::CmpRnImm8Encoding16(Register rn, int32_t value) { |
| DCHECK(!IsHighRegister(rn)); |
| DCHECK(IsUint<8>(value)); |
| return B13 | B11 | (rn << 8) | value; |
| } |
| |
| inline int16_t Thumb2Assembler::AddRdnRmEncoding16(Register rdn, Register rm) { |
| // The high bit of rn is moved across 4-bit rm. |
| return B14 | B10 | (static_cast<int32_t>(rm) << 3) | |
| (static_cast<int32_t>(rdn) & 7) | ((static_cast<int32_t>(rdn) & 8) << 4); |
| } |
| |
| inline int32_t Thumb2Assembler::MovwEncoding32(Register rd, int32_t value) { |
| DCHECK(IsUint<16>(value)); |
| return B31 | B30 | B29 | B28 | B25 | B22 | |
| (static_cast<int32_t>(rd) << 8) | |
| ((value & 0xf000) << (16 - 12)) | // Move imm4 from bits 12-15 to bits 16-19. |
| ((value & 0x0800) << (26 - 11)) | // Move i from bit 11 to bit 26. |
| ((value & 0x0700) << (12 - 8)) | // Move imm3 from bits 8-10 to bits 12-14. |
| (value & 0xff); // Keep imm8 in bits 0-7. |
| } |
| |
| inline int32_t Thumb2Assembler::MovtEncoding32(Register rd, int32_t value) { |
| DCHECK_EQ(value & 0xffff, 0); |
| int32_t movw_encoding = MovwEncoding32(rd, (value >> 16) & 0xffff); |
| return movw_encoding | B25 | B23; |
| } |
| |
| inline int32_t Thumb2Assembler::MovModImmEncoding32(Register rd, int32_t value) { |
| uint32_t mod_imm = ModifiedImmediate(value); |
| DCHECK_NE(mod_imm, kInvalidModifiedImmediate); |
| return B31 | B30 | B29 | B28 | B22 | B19 | B18 | B17 | B16 | |
| (static_cast<int32_t>(rd) << 8) | static_cast<int32_t>(mod_imm); |
| } |
| |
| inline int16_t Thumb2Assembler::LdrLitEncoding16(Register rt, int32_t offset) { |
| DCHECK(!IsHighRegister(rt)); |
| DCHECK_ALIGNED(offset, 4); |
| DCHECK(IsUint<10>(offset)); |
| return B14 | B11 | (static_cast<int32_t>(rt) << 8) | (offset >> 2); |
| } |
| |
| inline int32_t Thumb2Assembler::LdrLitEncoding32(Register rt, int32_t offset) { |
| // NOTE: We don't support negative offset, i.e. U=0 (B23). |
| return LdrRtRnImm12Encoding(rt, PC, offset); |
| } |
| |
| inline int32_t Thumb2Assembler::LdrdEncoding32(Register rt, Register rt2, Register rn, int32_t offset) { |
| DCHECK_ALIGNED(offset, 4); |
| CHECK(IsUint<10>(offset)); |
| return B31 | B30 | B29 | B27 | |
| B24 /* P = 1 */ | B23 /* U = 1 */ | B22 | 0 /* W = 0 */ | B20 | |
| (static_cast<int32_t>(rn) << 16) | (static_cast<int32_t>(rt) << 12) | |
| (static_cast<int32_t>(rt2) << 8) | (offset >> 2); |
| } |
| |
| inline int32_t Thumb2Assembler::VldrsEncoding32(SRegister sd, Register rn, int32_t offset) { |
| DCHECK_ALIGNED(offset, 4); |
| CHECK(IsUint<10>(offset)); |
| return B31 | B30 | B29 | B27 | B26 | B24 | |
| B23 /* U = 1 */ | B20 | B11 | B9 | |
| (static_cast<int32_t>(rn) << 16) | |
| ((static_cast<int32_t>(sd) & 0x01) << (22 - 0)) | // Move D from bit 0 to bit 22. |
| ((static_cast<int32_t>(sd) & 0x1e) << (12 - 1)) | // Move Vd from bits 1-4 to bits 12-15. |
| (offset >> 2); |
| } |
| |
| inline int32_t Thumb2Assembler::VldrdEncoding32(DRegister dd, Register rn, int32_t offset) { |
| DCHECK_ALIGNED(offset, 4); |
| CHECK(IsUint<10>(offset)); |
| return B31 | B30 | B29 | B27 | B26 | B24 | |
| B23 /* U = 1 */ | B20 | B11 | B9 | B8 | |
| (rn << 16) | |
| ((static_cast<int32_t>(dd) & 0x10) << (22 - 4)) | // Move D from bit 4 to bit 22. |
| ((static_cast<int32_t>(dd) & 0x0f) << (12 - 0)) | // Move Vd from bits 0-3 to bits 12-15. |
| (offset >> 2); |
| } |
| |
| inline int16_t Thumb2Assembler::LdrRtRnImm5Encoding16(Register rt, Register rn, int32_t offset) { |
| DCHECK(!IsHighRegister(rt)); |
| DCHECK(!IsHighRegister(rn)); |
| DCHECK_ALIGNED(offset, 4); |
| DCHECK(IsUint<7>(offset)); |
| return B14 | B13 | B11 | |
| (static_cast<int32_t>(rn) << 3) | static_cast<int32_t>(rt) | |
| (offset << (6 - 2)); // Move imm5 from bits 2-6 to bits 6-10. |
| } |
| |
| int32_t Thumb2Assembler::Fixup::LoadWideOrFpEncoding(Register rbase, int32_t offset) const { |
| switch (type_) { |
| case kLoadLiteralWide: |
| return LdrdEncoding32(rn_, rt2_, rbase, offset); |
| case kLoadFPLiteralSingle: |
| return VldrsEncoding32(sd_, rbase, offset); |
| case kLoadFPLiteralDouble: |
| return VldrdEncoding32(dd_, rbase, offset); |
| default: |
| LOG(FATAL) << "Unexpected type: " << static_cast<int>(type_); |
| UNREACHABLE(); |
| } |
| } |
| |
| inline int32_t Thumb2Assembler::LdrRtRnImm12Encoding(Register rt, Register rn, int32_t offset) { |
| DCHECK(IsUint<12>(offset)); |
| return B31 | B30 | B29 | B28 | B27 | B23 | B22 | B20 | (rn << 16) | (rt << 12) | offset; |
| } |
| |
| void Thumb2Assembler::FinalizeCode() { |
| ArmAssembler::FinalizeCode(); |
| BindLiterals(); |
| uint32_t adjusted_code_size = AdjustFixups(); |
| EmitFixups(adjusted_code_size); |
| EmitLiterals(); |
| } |
| |
| bool Thumb2Assembler::ShifterOperandCanHold(Register rd ATTRIBUTE_UNUSED, |
| Register rn ATTRIBUTE_UNUSED, |
| Opcode opcode, |
| uint32_t immediate, |
| ShifterOperand* shifter_op) { |
| shifter_op->type_ = ShifterOperand::kImmediate; |
| shifter_op->immed_ = immediate; |
| shifter_op->is_shift_ = false; |
| shifter_op->is_rotate_ = false; |
| switch (opcode) { |
| case ADD: |
| case SUB: |
| if (immediate < (1 << 12)) { // Less than (or equal to) 12 bits can always be done. |
| return true; |
| } |
| return ArmAssembler::ModifiedImmediate(immediate) != kInvalidModifiedImmediate; |
| |
| case MOV: |
| // TODO: Support less than or equal to 12bits. |
| return ArmAssembler::ModifiedImmediate(immediate) != kInvalidModifiedImmediate; |
| case MVN: |
| default: |
| return ArmAssembler::ModifiedImmediate(immediate) != kInvalidModifiedImmediate; |
| } |
| } |
| |
| void Thumb2Assembler::and_(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, AND, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::eor(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, EOR, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::sub(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, SUB, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::rsb(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, RSB, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::rsbs(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, RSB, 1, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::add(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, ADD, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::adds(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, ADD, 1, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::subs(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, SUB, 1, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::adc(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, ADC, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::sbc(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, SBC, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::rsc(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, RSC, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::tst(Register rn, const ShifterOperand& so, Condition cond) { |
| CHECK_NE(rn, PC); // Reserve tst pc instruction for exception handler marker. |
| EmitDataProcessing(cond, TST, 1, rn, R0, so); |
| } |
| |
| |
| void Thumb2Assembler::teq(Register rn, const ShifterOperand& so, Condition cond) { |
| CHECK_NE(rn, PC); // Reserve teq pc instruction for exception handler marker. |
| EmitDataProcessing(cond, TEQ, 1, rn, R0, so); |
| } |
| |
| |
| void Thumb2Assembler::cmp(Register rn, const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, CMP, 1, rn, R0, so); |
| } |
| |
| |
| void Thumb2Assembler::cmn(Register rn, const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, CMN, 1, rn, R0, so); |
| } |
| |
| |
| void Thumb2Assembler::orr(Register rd, Register rn, |
| const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, ORR, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::orrs(Register rd, Register rn, |
| const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, ORR, 1, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::mov(Register rd, const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, MOV, 0, R0, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::movs(Register rd, const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, MOV, 1, R0, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::bic(Register rd, Register rn, const ShifterOperand& so, |
| Condition cond) { |
| EmitDataProcessing(cond, BIC, 0, rn, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::mvn(Register rd, const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, MVN, 0, R0, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::mvns(Register rd, const ShifterOperand& so, Condition cond) { |
| EmitDataProcessing(cond, MVN, 1, R0, rd, so); |
| } |
| |
| |
| void Thumb2Assembler::mul(Register rd, Register rn, Register rm, Condition cond) { |
| CheckCondition(cond); |
| |
| if (rd == rm && !IsHighRegister(rd) && !IsHighRegister(rn) && !force_32bit_) { |
| // 16 bit. |
| int16_t encoding = B14 | B9 | B8 | B6 | |
| rn << 3 | rd; |
| Emit16(encoding); |
| } else { |
| // 32 bit. |
| uint32_t op1 = 0U /* 0b000 */; |
| uint32_t op2 = 0U /* 0b00 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | |
| op1 << 20 | |
| B15 | B14 | B13 | B12 | |
| op2 << 4 | |
| static_cast<uint32_t>(rd) << 8 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| } |
| |
| |
| void Thumb2Assembler::mla(Register rd, Register rn, Register rm, Register ra, |
| Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t op1 = 0U /* 0b000 */; |
| uint32_t op2 = 0U /* 0b00 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | |
| op1 << 20 | |
| op2 << 4 | |
| static_cast<uint32_t>(rd) << 8 | |
| static_cast<uint32_t>(ra) << 12 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::mls(Register rd, Register rn, Register rm, Register ra, |
| Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t op1 = 0U /* 0b000 */; |
| uint32_t op2 = 01 /* 0b01 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | |
| op1 << 20 | |
| op2 << 4 | |
| static_cast<uint32_t>(rd) << 8 | |
| static_cast<uint32_t>(ra) << 12 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::smull(Register rd_lo, Register rd_hi, Register rn, |
| Register rm, Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t op1 = 0U /* 0b000; */; |
| uint32_t op2 = 0U /* 0b0000 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | B23 | |
| op1 << 20 | |
| op2 << 4 | |
| static_cast<uint32_t>(rd_lo) << 12 | |
| static_cast<uint32_t>(rd_hi) << 8 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::umull(Register rd_lo, Register rd_hi, Register rn, |
| Register rm, Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t op1 = 2U /* 0b010; */; |
| uint32_t op2 = 0U /* 0b0000 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | B23 | |
| op1 << 20 | |
| op2 << 4 | |
| static_cast<uint32_t>(rd_lo) << 12 | |
| static_cast<uint32_t>(rd_hi) << 8 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::sdiv(Register rd, Register rn, Register rm, Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t op1 = 1U /* 0b001 */; |
| uint32_t op2 = 15U /* 0b1111 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | B23 | B20 | |
| op1 << 20 | |
| op2 << 4 | |
| 0xf << 12 | |
| static_cast<uint32_t>(rd) << 8 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::udiv(Register rd, Register rn, Register rm, Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t op1 = 1U /* 0b001 */; |
| uint32_t op2 = 15U /* 0b1111 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | B24 | B23 | B21 | B20 | |
| op1 << 20 | |
| op2 << 4 | |
| 0xf << 12 | |
| static_cast<uint32_t>(rd) << 8 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rm); |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::sbfx(Register rd, Register rn, uint32_t lsb, uint32_t width, Condition cond) { |
| CheckCondition(cond); |
| CHECK_LE(lsb, 31U); |
| CHECK(1U <= width && width <= 32U) << width; |
| uint32_t widthminus1 = width - 1; |
| uint32_t imm2 = lsb & (B1 | B0); // Bits 0-1 of `lsb`. |
| uint32_t imm3 = (lsb & (B4 | B3 | B2)) >> 2; // Bits 2-4 of `lsb`. |
| |
| uint32_t op = 20U /* 0b10100 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B25 | |
| op << 20 | |
| static_cast<uint32_t>(rn) << 16 | |
| imm3 << 12 | |
| static_cast<uint32_t>(rd) << 8 | |
| imm2 << 6 | |
| widthminus1; |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::ubfx(Register rd, Register rn, uint32_t lsb, uint32_t width, Condition cond) { |
| CheckCondition(cond); |
| CHECK_LE(lsb, 31U); |
| CHECK(1U <= width && width <= 32U) << width; |
| uint32_t widthminus1 = width - 1; |
| uint32_t imm2 = lsb & (B1 | B0); // Bits 0-1 of `lsb`. |
| uint32_t imm3 = (lsb & (B4 | B3 | B2)) >> 2; // Bits 2-4 of `lsb`. |
| |
| uint32_t op = 28U /* 0b11100 */; |
| int32_t encoding = B31 | B30 | B29 | B28 | B25 | |
| op << 20 | |
| static_cast<uint32_t>(rn) << 16 | |
| imm3 << 12 | |
| static_cast<uint32_t>(rd) << 8 | |
| imm2 << 6 | |
| widthminus1; |
| |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::ldr(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, true, false, false, false, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::str(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, false, false, false, false, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::ldrb(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, true, true, false, false, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::strb(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, false, true, false, false, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::ldrh(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, true, false, true, false, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::strh(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, false, false, true, false, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::ldrsb(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, true, true, false, true, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::ldrsh(Register rd, const Address& ad, Condition cond) { |
| EmitLoadStore(cond, true, false, true, true, rd, ad); |
| } |
| |
| |
| void Thumb2Assembler::ldrd(Register rd, const Address& ad, Condition cond) { |
| ldrd(rd, Register(rd + 1), ad, cond); |
| } |
| |
| |
| void Thumb2Assembler::ldrd(Register rd, Register rd2, const Address& ad, Condition cond) { |
| CheckCondition(cond); |
| // Encoding T1. |
| // This is different from other loads. The encoding is like ARM. |
| int32_t encoding = B31 | B30 | B29 | B27 | B22 | B20 | |
| static_cast<int32_t>(rd) << 12 | |
| static_cast<int32_t>(rd2) << 8 | |
| ad.encodingThumbLdrdStrd(); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::strd(Register rd, const Address& ad, Condition cond) { |
| strd(rd, Register(rd + 1), ad, cond); |
| } |
| |
| |
| void Thumb2Assembler::strd(Register rd, Register rd2, const Address& ad, Condition cond) { |
| CheckCondition(cond); |
| // Encoding T1. |
| // This is different from other loads. The encoding is like ARM. |
| int32_t encoding = B31 | B30 | B29 | B27 | B22 | |
| static_cast<int32_t>(rd) << 12 | |
| static_cast<int32_t>(rd2) << 8 | |
| ad.encodingThumbLdrdStrd(); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::ldm(BlockAddressMode am, |
| Register base, |
| RegList regs, |
| Condition cond) { |
| CHECK_NE(regs, 0u); // Do not use ldm if there's nothing to load. |
| if (IsPowerOfTwo(regs)) { |
| // Thumb doesn't support one reg in the list. |
| // Find the register number. |
| int reg = CTZ(static_cast<uint32_t>(regs)); |
| CHECK_LT(reg, 16); |
| CHECK(am == DB_W); // Only writeback is supported. |
| ldr(static_cast<Register>(reg), Address(base, kRegisterSize, Address::PostIndex), cond); |
| } else { |
| EmitMultiMemOp(cond, am, true, base, regs); |
| } |
| } |
| |
| |
| void Thumb2Assembler::stm(BlockAddressMode am, |
| Register base, |
| RegList regs, |
| Condition cond) { |
| CHECK_NE(regs, 0u); // Do not use stm if there's nothing to store. |
| if (IsPowerOfTwo(regs)) { |
| // Thumb doesn't support one reg in the list. |
| // Find the register number. |
| int reg = CTZ(static_cast<uint32_t>(regs)); |
| CHECK_LT(reg, 16); |
| CHECK(am == IA || am == IA_W); |
| Address::Mode strmode = am == IA ? Address::PreIndex : Address::Offset; |
| str(static_cast<Register>(reg), Address(base, -kRegisterSize, strmode), cond); |
| } else { |
| EmitMultiMemOp(cond, am, false, base, regs); |
| } |
| } |
| |
| |
| bool Thumb2Assembler::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 Thumb2Assembler::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 Thumb2Assembler::vmovs(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vmovd(DRegister dd, DRegister dm, Condition cond) { |
| EmitVFPddd(cond, B23 | B21 | B20 | B6, dd, D0, dm); |
| } |
| |
| |
| void Thumb2Assembler::vadds(SRegister sd, SRegister sn, SRegister sm, |
| Condition cond) { |
| EmitVFPsss(cond, B21 | B20, sd, sn, sm); |
| } |
| |
| |
| void Thumb2Assembler::vaddd(DRegister dd, DRegister dn, DRegister dm, |
| Condition cond) { |
| EmitVFPddd(cond, B21 | B20, dd, dn, dm); |
| } |
| |
| |
| void Thumb2Assembler::vsubs(SRegister sd, SRegister sn, SRegister sm, |
| Condition cond) { |
| EmitVFPsss(cond, B21 | B20 | B6, sd, sn, sm); |
| } |
| |
| |
| void Thumb2Assembler::vsubd(DRegister dd, DRegister dn, DRegister dm, |
| Condition cond) { |
| EmitVFPddd(cond, B21 | B20 | B6, dd, dn, dm); |
| } |
| |
| |
| void Thumb2Assembler::vmuls(SRegister sd, SRegister sn, SRegister sm, |
| Condition cond) { |
| EmitVFPsss(cond, B21, sd, sn, sm); |
| } |
| |
| |
| void Thumb2Assembler::vmuld(DRegister dd, DRegister dn, DRegister dm, |
| Condition cond) { |
| EmitVFPddd(cond, B21, dd, dn, dm); |
| } |
| |
| |
| void Thumb2Assembler::vmlas(SRegister sd, SRegister sn, SRegister sm, |
| Condition cond) { |
| EmitVFPsss(cond, 0, sd, sn, sm); |
| } |
| |
| |
| void Thumb2Assembler::vmlad(DRegister dd, DRegister dn, DRegister dm, |
| Condition cond) { |
| EmitVFPddd(cond, 0, dd, dn, dm); |
| } |
| |
| |
| void Thumb2Assembler::vmlss(SRegister sd, SRegister sn, SRegister sm, |
| Condition cond) { |
| EmitVFPsss(cond, B6, sd, sn, sm); |
| } |
| |
| |
| void Thumb2Assembler::vmlsd(DRegister dd, DRegister dn, DRegister dm, |
| Condition cond) { |
| EmitVFPddd(cond, B6, dd, dn, dm); |
| } |
| |
| |
| void Thumb2Assembler::vdivs(SRegister sd, SRegister sn, SRegister sm, |
| Condition cond) { |
| EmitVFPsss(cond, B23, sd, sn, sm); |
| } |
| |
| |
| void Thumb2Assembler::vdivd(DRegister dd, DRegister dn, DRegister dm, |
| Condition cond) { |
| EmitVFPddd(cond, B23, dd, dn, dm); |
| } |
| |
| |
| void Thumb2Assembler::vabss(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B7 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vabsd(DRegister dd, DRegister dm, Condition cond) { |
| EmitVFPddd(cond, B23 | B21 | B20 | B7 | B6, dd, D0, dm); |
| } |
| |
| |
| void Thumb2Assembler::vnegs(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B16 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vnegd(DRegister dd, DRegister dm, Condition cond) { |
| EmitVFPddd(cond, B23 | B21 | B20 | B16 | B6, dd, D0, dm); |
| } |
| |
| |
| void Thumb2Assembler::vsqrts(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B16 | B7 | B6, sd, S0, sm); |
| } |
| |
| void Thumb2Assembler::vsqrtd(DRegister dd, DRegister dm, Condition cond) { |
| EmitVFPddd(cond, B23 | B21 | B20 | B16 | B7 | B6, dd, D0, dm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtsd(SRegister sd, DRegister dm, Condition cond) { |
| EmitVFPsd(cond, B23 | B21 | B20 | B18 | B17 | B16 | B8 | B7 | B6, sd, dm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtds(DRegister dd, SRegister sm, Condition cond) { |
| EmitVFPds(cond, B23 | B21 | B20 | B18 | B17 | B16 | B7 | B6, dd, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtis(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B19 | B18 | B16 | B7 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtid(SRegister sd, DRegister dm, Condition cond) { |
| EmitVFPsd(cond, B23 | B21 | B20 | B19 | B18 | B16 | B8 | B7 | B6, sd, dm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtsi(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B19 | B7 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtdi(DRegister dd, SRegister sm, Condition cond) { |
| EmitVFPds(cond, B23 | B21 | B20 | B19 | B8 | B7 | B6, dd, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtus(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B19 | B18 | B7 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtud(SRegister sd, DRegister dm, Condition cond) { |
| EmitVFPsd(cond, B23 | B21 | B20 | B19 | B18 | B8 | B7 | B6, sd, dm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtsu(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B19 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcvtdu(DRegister dd, SRegister sm, Condition cond) { |
| EmitVFPds(cond, B23 | B21 | B20 | B19 | B8 | B6, dd, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcmps(SRegister sd, SRegister sm, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B18 | B6, sd, S0, sm); |
| } |
| |
| |
| void Thumb2Assembler::vcmpd(DRegister dd, DRegister dm, Condition cond) { |
| EmitVFPddd(cond, B23 | B21 | B20 | B18 | B6, dd, D0, dm); |
| } |
| |
| |
| void Thumb2Assembler::vcmpsz(SRegister sd, Condition cond) { |
| EmitVFPsss(cond, B23 | B21 | B20 | B18 | B16 | B6, sd, S0, S0); |
| } |
| |
| |
| void Thumb2Assembler::vcmpdz(DRegister dd, Condition cond) { |
| EmitVFPddd(cond, B23 | B21 | B20 | B18 | B16 | B6, dd, D0, D0); |
| } |
| |
| void Thumb2Assembler::b(Label* label, Condition cond) { |
| DCHECK_EQ(next_condition_, AL); |
| EmitBranch(cond, label, false, false); |
| } |
| |
| |
| void Thumb2Assembler::bl(Label* label, Condition cond) { |
| CheckCondition(cond); |
| EmitBranch(cond, label, true, false); |
| } |
| |
| |
| void Thumb2Assembler::blx(Label* label) { |
| EmitBranch(AL, label, true, true); |
| } |
| |
| |
| void Thumb2Assembler::MarkExceptionHandler(Label* label) { |
| EmitDataProcessing(AL, TST, 1, PC, R0, ShifterOperand(0)); |
| Label l; |
| b(&l); |
| EmitBranch(AL, label, false, false); |
| Bind(&l); |
| } |
| |
| |
| void Thumb2Assembler::Emit32(int32_t value) { |
| AssemblerBuffer::EnsureCapacity ensured(&buffer_); |
| buffer_.Emit<int16_t>(value >> 16); |
| buffer_.Emit<int16_t>(value & 0xffff); |
| } |
| |
| |
| void Thumb2Assembler::Emit16(int16_t value) { |
| AssemblerBuffer::EnsureCapacity ensured(&buffer_); |
| buffer_.Emit<int16_t>(value); |
| } |
| |
| |
| bool Thumb2Assembler::Is32BitDataProcessing(Condition cond ATTRIBUTE_UNUSED, |
| Opcode opcode, |
| bool set_cc, |
| Register rn, |
| Register rd, |
| const ShifterOperand& so) { |
| if (force_32bit_) { |
| return true; |
| } |
| |
| // Check special case for SP relative ADD and SUB immediate. |
| if ((opcode == ADD || opcode == SUB) && rn == SP && so.IsImmediate()) { |
| // If the immediate is in range, use 16 bit. |
| if (rd == SP) { |
| if (so.GetImmediate() < (1 << 9)) { // 9 bit immediate. |
| return false; |
| } |
| } else if (!IsHighRegister(rd) && opcode == ADD) { |
| if (so.GetImmediate() < (1 << 10)) { // 10 bit immediate. |
| return false; |
| } |
| } |
| } |
| |
| bool can_contain_high_register = (opcode == MOV) |
| || ((opcode == ADD) && (rn == rd) && !set_cc); |
| |
| if (IsHighRegister(rd) || IsHighRegister(rn)) { |
| if (!can_contain_high_register) { |
| return true; |
| } |
| |
| // There are high register instructions available for this opcode. |
| // However, there is no actual shift available, neither for ADD nor for MOV (ASR/LSR/LSL/ROR). |
| if (so.IsShift() && (so.GetShift() == RRX || so.GetImmediate() != 0u)) { |
| return true; |
| } |
| |
| // The ADD and MOV instructions that work with high registers don't have 16-bit |
| // immediate variants. |
| if (so.IsImmediate()) { |
| return true; |
| } |
| } |
| |
| if (so.IsRegister() && IsHighRegister(so.GetRegister()) && !can_contain_high_register) { |
| return true; |
| } |
| |
| bool rn_is_valid = true; |
| |
| // Check for single operand instructions and ADD/SUB. |
| switch (opcode) { |
| case CMP: |
| case MOV: |
| case TST: |
| case MVN: |
| rn_is_valid = false; // There is no Rn for these instructions. |
| break; |
| case TEQ: |
| return true; |
| case ADD: |
| case SUB: |
| break; |
| default: |
| if (so.IsRegister() && rd != rn) { |
| return true; |
| } |
| } |
| |
| if (so.IsImmediate()) { |
| if (rn_is_valid && rn != rd) { |
| // The only thumb1 instruction with a register and an immediate are ADD and SUB. The |
| // immediate must be 3 bits. |
| if (opcode != ADD && opcode != SUB) { |
| return true; |
| } else { |
| // Check that the immediate is 3 bits for ADD and SUB. |
| if (so.GetImmediate() >= 8) { |
| return true; |
| } |
| } |
| } else { |
| // ADD, SUB, CMP and MOV may be thumb1 only if the immediate is 8 bits. |
| if (!(opcode == ADD || opcode == SUB || opcode == MOV || opcode == CMP)) { |
| return true; |
| } else { |
| if (so.GetImmediate() > 255) { |
| return true; |
| } |
| } |
| } |
| } |
| |
| // Check for register shift operand. |
| if (so.IsRegister() && so.IsShift()) { |
| if (opcode != MOV) { |
| return true; |
| } |
| // Check for MOV with an ROR. |
| if (so.GetShift() == ROR) { |
| if (so.GetImmediate() != 0) { |
| return true; |
| } |
| } |
| } |
| |
| // The instruction can be encoded in 16 bits. |
| return false; |
| } |
| |
| |
| void Thumb2Assembler::Emit32BitDataProcessing(Condition cond ATTRIBUTE_UNUSED, |
| Opcode opcode, |
| bool set_cc, |
| Register rn, |
| Register rd, |
| const ShifterOperand& so) { |
| uint8_t thumb_opcode = 255U /* 0b11111111 */; |
| switch (opcode) { |
| case AND: thumb_opcode = 0U /* 0b0000 */; break; |
| case EOR: thumb_opcode = 4U /* 0b0100 */; break; |
| case SUB: thumb_opcode = 13U /* 0b1101 */; break; |
| case RSB: thumb_opcode = 14U /* 0b1110 */; break; |
| case ADD: thumb_opcode = 8U /* 0b1000 */; break; |
| case ADC: thumb_opcode = 10U /* 0b1010 */; break; |
| case SBC: thumb_opcode = 11U /* 0b1011 */; break; |
| case RSC: break; |
| case TST: thumb_opcode = 0U /* 0b0000 */; set_cc = true; rd = PC; break; |
| case TEQ: thumb_opcode = 4U /* 0b0100 */; set_cc = true; rd = PC; break; |
| case CMP: thumb_opcode = 13U /* 0b1101 */; set_cc = true; rd = PC; break; |
| case CMN: thumb_opcode = 8U /* 0b1000 */; set_cc = true; rd = PC; break; |
| case ORR: thumb_opcode = 2U /* 0b0010 */; break; |
| case MOV: thumb_opcode = 2U /* 0b0010 */; rn = PC; break; |
| case BIC: thumb_opcode = 1U /* 0b0001 */; break; |
| case MVN: thumb_opcode = 3U /* 0b0011 */; rn = PC; break; |
| default: |
| break; |
| } |
| |
| if (thumb_opcode == 255U /* 0b11111111 */) { |
| LOG(FATAL) << "Invalid thumb2 opcode " << opcode; |
| UNREACHABLE(); |
| } |
| |
| int32_t encoding = 0; |
| if (so.IsImmediate()) { |
| // Check special cases. |
| if ((opcode == SUB || opcode == ADD) && (so.GetImmediate() < (1u << 12))) { |
| if (!set_cc) { |
| if (opcode == SUB) { |
| thumb_opcode = 5U; |
| } else if (opcode == ADD) { |
| thumb_opcode = 0U; |
| } |
| } |
| uint32_t imm = so.GetImmediate(); |
| |
| uint32_t i = (imm >> 11) & 1; |
| uint32_t imm3 = (imm >> 8) & 7U /* 0b111 */; |
| uint32_t imm8 = imm & 0xff; |
| |
| encoding = B31 | B30 | B29 | B28 | |
| (set_cc ? B20 : B25) | |
| thumb_opcode << 21 | |
| rn << 16 | |
| rd << 8 | |
| i << 26 | |
| imm3 << 12 | |
| imm8; |
| } else { |
| // Modified immediate. |
| uint32_t imm = ModifiedImmediate(so.encodingThumb()); |
| if (imm == kInvalidModifiedImmediate) { |
| LOG(FATAL) << "Immediate value cannot fit in thumb2 modified immediate"; |
| UNREACHABLE(); |
| } |
| encoding = B31 | B30 | B29 | B28 | |
| thumb_opcode << 21 | |
| (set_cc ? B20 : 0) | |
| rn << 16 | |
| rd << 8 | |
| imm; |
| } |
| } else if (so.IsRegister()) { |
| // Register (possibly shifted) |
| encoding = B31 | B30 | B29 | B27 | B25 | |
| thumb_opcode << 21 | |
| (set_cc ? B20 : 0) | |
| rn << 16 | |
| rd << 8 | |
| so.encodingThumb(); |
| } |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::Emit16BitDataProcessing(Condition cond, |
| Opcode opcode, |
| bool set_cc, |
| Register rn, |
| Register rd, |
| const ShifterOperand& so) { |
| if (opcode == ADD || opcode == SUB) { |
| Emit16BitAddSub(cond, opcode, set_cc, rn, rd, so); |
| return; |
| } |
| uint8_t thumb_opcode = 255U /* 0b11111111 */; |
| // Thumb1. |
| uint8_t dp_opcode = 1U /* 0b01 */; |
| uint8_t opcode_shift = 6; |
| uint8_t rd_shift = 0; |
| uint8_t rn_shift = 3; |
| uint8_t immediate_shift = 0; |
| bool use_immediate = false; |
| uint8_t immediate = 0; |
| |
| if (opcode == MOV && so.IsRegister() && so.IsShift()) { |
| // Convert shifted mov operand2 into 16 bit opcodes. |
| dp_opcode = 0; |
| opcode_shift = 11; |
| |
| use_immediate = true; |
| immediate = so.GetImmediate(); |
| immediate_shift = 6; |
| |
| rn = so.GetRegister(); |
| |
| switch (so.GetShift()) { |
| case LSL: thumb_opcode = 0U /* 0b00 */; break; |
| case LSR: thumb_opcode = 1U /* 0b01 */; break; |
| case ASR: thumb_opcode = 2U /* 0b10 */; break; |
| case ROR: |
| // ROR doesn't allow immediates. |
| thumb_opcode = 7U /* 0b111 */; |
| dp_opcode = 1U /* 0b01 */; |
| opcode_shift = 6; |
| use_immediate = false; |
| break; |
| case RRX: break; |
| default: |
| break; |
| } |
| } else { |
| if (so.IsImmediate()) { |
| use_immediate = true; |
| immediate = so.GetImmediate(); |
| } else { |
| CHECK(!(so.IsRegister() && so.IsShift() && so.GetSecondRegister() != kNoRegister)) |
| << "No register-shifted register instruction available in thumb"; |
| // Adjust rn and rd: only two registers will be emitted. |
| switch (opcode) { |
| case AND: |
| case ORR: |
| case EOR: |
| case RSB: |
| case ADC: |
| case SBC: |
| case BIC: { |
| if (rn == rd) { |
| rn = so.GetRegister(); |
| } else { |
| CHECK_EQ(rd, so.GetRegister()); |
| } |
| break; |
| } |
| case CMP: |
| case CMN: { |
| CHECK_EQ(rd, 0); |
| rd = rn; |
| rn = so.GetRegister(); |
| break; |
| } |
| case TST: |
| case TEQ: |
| case MVN: { |
| CHECK_EQ(rn, 0); |
| rn = so.GetRegister(); |
| break; |
| } |
| default: |
| break; |
| } |
| } |
| |
| switch (opcode) { |
| case AND: thumb_opcode = 0U /* 0b0000 */; break; |
| case ORR: thumb_opcode = 12U /* 0b1100 */; break; |
| case EOR: thumb_opcode = 1U /* 0b0001 */; break; |
| case RSB: thumb_opcode = 9U /* 0b1001 */; break; |
| case ADC: thumb_opcode = 5U /* 0b0101 */; break; |
| case SBC: thumb_opcode = 6U /* 0b0110 */; break; |
| case BIC: thumb_opcode = 14U /* 0b1110 */; break; |
| case TST: thumb_opcode = 8U /* 0b1000 */; CHECK(!use_immediate); break; |
| case MVN: thumb_opcode = 15U /* 0b1111 */; CHECK(!use_immediate); break; |
| case CMP: { |
| if (use_immediate) { |
| // T2 encoding. |
| dp_opcode = 0; |
| opcode_shift = 11; |
| thumb_opcode = 5U /* 0b101 */; |
| rd_shift = 8; |
| rn_shift = 8; |
| } else { |
| thumb_opcode = 10U /* 0b1010 */; |
| } |
| |
| break; |
| } |
| case CMN: { |
| CHECK(!use_immediate); |
| thumb_opcode = 11U /* 0b1011 */; |
| break; |
| } |
| case MOV: |
| dp_opcode = 0; |
| if (use_immediate) { |
| // T2 encoding. |
| opcode_shift = 11; |
| thumb_opcode = 4U /* 0b100 */; |
| rd_shift = 8; |
| rn_shift = 8; |
| } else { |
| rn = so.GetRegister(); |
| if (IsHighRegister(rn) || IsHighRegister(rd)) { |
| // Special mov for high registers. |
| dp_opcode = 1U /* 0b01 */; |
| opcode_shift = 7; |
| // Put the top bit of rd into the bottom bit of the opcode. |
| thumb_opcode = 12U /* 0b0001100 */ | static_cast<uint32_t>(rd) >> 3; |
| rd = static_cast<Register>(static_cast<uint32_t>(rd) & 7U /* 0b111 */); |
| } else { |
| thumb_opcode = 0; |
| } |
| } |
| break; |
| |
| case TEQ: |
| case RSC: |
| default: |
| LOG(FATAL) << "Invalid thumb1 opcode " << opcode; |
| break; |
| } |
| } |
| |
| if (thumb_opcode == 255U /* 0b11111111 */) { |
| LOG(FATAL) << "Invalid thumb1 opcode " << opcode; |
| UNREACHABLE(); |
| } |
| |
| int16_t encoding = dp_opcode << 14 | |
| (thumb_opcode << opcode_shift) | |
| rd << rd_shift | |
| rn << rn_shift | |
| (use_immediate ? (immediate << immediate_shift) : 0); |
| |
| Emit16(encoding); |
| } |
| |
| |
| // ADD and SUB are complex enough to warrant their own emitter. |
| void Thumb2Assembler::Emit16BitAddSub(Condition cond ATTRIBUTE_UNUSED, |
| Opcode opcode, |
| bool set_cc, |
| Register rn, |
| Register rd, |
| const ShifterOperand& so) { |
| uint8_t dp_opcode = 0; |
| uint8_t opcode_shift = 6; |
| uint8_t rd_shift = 0; |
| uint8_t rn_shift = 3; |
| uint8_t immediate_shift = 0; |
| bool use_immediate = false; |
| uint32_t immediate = 0; // Should be at most 9 bits but keep the full immediate for CHECKs. |
| uint8_t thumb_opcode;; |
| |
| if (so.IsImmediate()) { |
| use_immediate = true; |
| immediate = so.GetImmediate(); |
| } |
| |
| switch (opcode) { |
| case ADD: |
| if (so.IsRegister()) { |
| Register rm = so.GetRegister(); |
| if (rn == rd && !set_cc) { |
| // Can use T2 encoding (allows 4 bit registers) |
| dp_opcode = 1U /* 0b01 */; |
| opcode_shift = 10; |
| thumb_opcode = 1U /* 0b0001 */; |
| // Make Rn also contain the top bit of rd. |
| rn = static_cast<Register>(static_cast<uint32_t>(rm) | |
| (static_cast<uint32_t>(rd) & 8U /* 0b1000 */) << 1); |
| rd = static_cast<Register>(static_cast<uint32_t>(rd) & 7U /* 0b111 */); |
| } else { |
| // T1. |
| opcode_shift = 9; |
| thumb_opcode = 12U /* 0b01100 */; |
| immediate = static_cast<uint32_t>(so.GetRegister()); |
| use_immediate = true; |
| immediate_shift = 6; |
| } |
| } else { |
| // Immediate. |
| if (rd == SP && rn == SP) { |
| // ADD sp, sp, #imm |
| dp_opcode = 2U /* 0b10 */; |
| thumb_opcode = 3U /* 0b11 */; |
| opcode_shift = 12; |
| CHECK_LT(immediate, (1u << 9)); |
| CHECK_ALIGNED(immediate, 4); |
| |
| // Remove rd and rn from instruction by orring it with immed and clearing bits. |
| rn = R0; |
| rd = R0; |
| rd_shift = 0; |
| rn_shift = 0; |
| immediate >>= 2; |
| } else if (rd != SP && rn == SP) { |
| // ADD rd, SP, #imm |
| dp_opcode = 2U /* 0b10 */; |
| thumb_opcode = 5U /* 0b101 */; |
| opcode_shift = 11; |
| CHECK_LT(immediate, (1u << 10)); |
| CHECK_ALIGNED(immediate, 4); |
| |
| // Remove rn from instruction. |
| rn = R0; |
| rn_shift = 0; |
| rd_shift = 8; |
| immediate >>= 2; |
| } else if (rn != rd) { |
| // Must use T1. |
| opcode_shift = 9; |
| thumb_opcode = 14U /* 0b01110 */; |
| immediate_shift = 6; |
| } else { |
| // T2 encoding. |
| opcode_shift = 11; |
| thumb_opcode = 6U /* 0b110 */; |
| rd_shift = 8; |
| rn_shift = 8; |
| } |
| } |
| break; |
| |
| case SUB: |
| if (so.IsRegister()) { |
| // T1. |
| opcode_shift = 9; |
| thumb_opcode = 13U /* 0b01101 */; |
| immediate = static_cast<uint32_t>(so.GetRegister()); |
| use_immediate = true; |
| immediate_shift = 6; |
| } else { |
| if (rd == SP && rn == SP) { |
| // SUB sp, sp, #imm |
| dp_opcode = 2U /* 0b10 */; |
| thumb_opcode = 0x61 /* 0b1100001 */; |
| opcode_shift = 7; |
| CHECK_LT(immediate, (1u << 9)); |
| CHECK_ALIGNED(immediate, 4); |
| |
| // Remove rd and rn from instruction by orring it with immed and clearing bits. |
| rn = R0; |
| rd = R0; |
| rd_shift = 0; |
| rn_shift = 0; |
| immediate >>= 2; |
| } else if (rn != rd) { |
| // Must use T1. |
| opcode_shift = 9; |
| thumb_opcode = 15U /* 0b01111 */; |
| immediate_shift = 6; |
| } else { |
| // T2 encoding. |
| opcode_shift = 11; |
| thumb_opcode = 7U /* 0b111 */; |
| rd_shift = 8; |
| rn_shift = 8; |
| } |
| } |
| break; |
| default: |
| LOG(FATAL) << "This opcode is not an ADD or SUB: " << opcode; |
| UNREACHABLE(); |
| } |
| |
| int16_t encoding = dp_opcode << 14 | |
| (thumb_opcode << opcode_shift) | |
| rd << rd_shift | |
| rn << rn_shift | |
| (use_immediate ? (immediate << immediate_shift) : 0); |
| |
| Emit16(encoding); |
| } |
| |
| |
| void Thumb2Assembler::EmitDataProcessing(Condition cond, |
| Opcode opcode, |
| bool set_cc, |
| Register rn, |
| Register rd, |
| const ShifterOperand& so) { |
| CHECK_NE(rd, kNoRegister); |
| CheckCondition(cond); |
| |
| if (Is32BitDataProcessing(cond, opcode, set_cc, rn, rd, so)) { |
| Emit32BitDataProcessing(cond, opcode, set_cc, rn, rd, so); |
| } else { |
| Emit16BitDataProcessing(cond, opcode, set_cc, rn, rd, so); |
| } |
| } |
| |
| void Thumb2Assembler::EmitShift(Register rd, Register rm, Shift shift, uint8_t amount, bool setcc) { |
| CHECK_LT(amount, (1 << 5)); |
| if (IsHighRegister(rd) || IsHighRegister(rm) || shift == ROR || shift == RRX) { |
| uint16_t opcode = 0; |
| switch (shift) { |
| case LSL: opcode = 0U /* 0b00 */; break; |
| case LSR: opcode = 1U /* 0b01 */; break; |
| case ASR: opcode = 2U /* 0b10 */; break; |
| case ROR: opcode = 3U /* 0b11 */; break; |
| case RRX: opcode = 3U /* 0b11 */; amount = 0; break; |
| default: |
| LOG(FATAL) << "Unsupported thumb2 shift opcode"; |
| UNREACHABLE(); |
| } |
| // 32 bit. |
| int32_t encoding = B31 | B30 | B29 | B27 | B25 | B22 | |
| 0xf << 16 | (setcc ? B20 : 0); |
| uint32_t imm3 = amount >> 2; |
| uint32_t imm2 = amount & 3U /* 0b11 */; |
| encoding |= imm3 << 12 | imm2 << 6 | static_cast<int16_t>(rm) | |
| static_cast<int16_t>(rd) << 8 | opcode << 4; |
| Emit32(encoding); |
| } else { |
| // 16 bit shift |
| uint16_t opcode = 0; |
| switch (shift) { |
| case LSL: opcode = 0U /* 0b00 */; break; |
| case LSR: opcode = 1U /* 0b01 */; break; |
| case ASR: opcode = 2U /* 0b10 */; break; |
| default: |
| LOG(FATAL) << "Unsupported thumb2 shift opcode"; |
| UNREACHABLE(); |
| } |
| int16_t encoding = opcode << 11 | amount << 6 | static_cast<int16_t>(rm) << 3 | |
| static_cast<int16_t>(rd); |
| Emit16(encoding); |
| } |
| } |
| |
| void Thumb2Assembler::EmitShift(Register rd, Register rn, Shift shift, Register rm, bool setcc) { |
| CHECK_NE(shift, RRX); |
| bool must_be_32bit = false; |
| if (IsHighRegister(rd) || IsHighRegister(rm) || IsHighRegister(rn) || rd != rn) { |
| must_be_32bit = true; |
| } |
| |
| if (must_be_32bit) { |
| uint16_t opcode = 0; |
| switch (shift) { |
| case LSL: opcode = 0U /* 0b00 */; break; |
| case LSR: opcode = 1U /* 0b01 */; break; |
| case ASR: opcode = 2U /* 0b10 */; break; |
| case ROR: opcode = 3U /* 0b11 */; break; |
| default: |
| LOG(FATAL) << "Unsupported thumb2 shift opcode"; |
| UNREACHABLE(); |
| } |
| // 32 bit. |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | B25 | |
| 0xf << 12 | (setcc ? B20 : 0); |
| encoding |= static_cast<int16_t>(rn) << 16 | static_cast<int16_t>(rm) | |
| static_cast<int16_t>(rd) << 8 | opcode << 21; |
| Emit32(encoding); |
| } else { |
| uint16_t opcode = 0; |
| switch (shift) { |
| case LSL: opcode = 2U /* 0b0010 */; break; |
| case LSR: opcode = 3U /* 0b0011 */; break; |
| case ASR: opcode = 4U /* 0b0100 */; break; |
| default: |
| LOG(FATAL) << "Unsupported thumb2 shift opcode"; |
| UNREACHABLE(); |
| } |
| int16_t encoding = B14 | opcode << 6 | static_cast<int16_t>(rm) << 3 | |
| static_cast<int16_t>(rd); |
| Emit16(encoding); |
| } |
| } |
| |
| inline size_t Thumb2Assembler::Fixup::SizeInBytes(Size size) { |
| switch (size) { |
| case kBranch16Bit: |
| return 2u; |
| case kBranch32Bit: |
| return 4u; |
| |
| case kCbxz16Bit: |
| return 2u; |
| case kCbxz32Bit: |
| return 4u; |
| case kCbxz48Bit: |
| return 6u; |
| |
| case kLiteral1KiB: |
| return 2u; |
| case kLiteral4KiB: |
| return 4u; |
| case kLiteral64KiB: |
| return 8u; |
| case kLiteral1MiB: |
| return 10u; |
| case kLiteralFar: |
| return 14u; |
| |
| case kLongOrFPLiteral1KiB: |
| return 4u; |
| case kLongOrFPLiteral256KiB: |
| return 10u; |
| case kLongOrFPLiteralFar: |
| return 14u; |
| } |
| LOG(FATAL) << "Unexpected size: " << static_cast<int>(size); |
| UNREACHABLE(); |
| } |
| |
| inline uint32_t Thumb2Assembler::Fixup::GetOriginalSizeInBytes() const { |
| return SizeInBytes(original_size_); |
| } |
| |
| inline uint32_t Thumb2Assembler::Fixup::GetSizeInBytes() const { |
| return SizeInBytes(size_); |
| } |
| |
| inline size_t Thumb2Assembler::Fixup::LiteralPoolPaddingSize(uint32_t current_code_size) { |
| // The code size must be a multiple of 2. |
| DCHECK_ALIGNED(current_code_size, 2); |
| // If it isn't a multiple of 4, we need to add a 2-byte padding before the literal pool. |
| return current_code_size & 2; |
| } |
| |
| inline int32_t Thumb2Assembler::Fixup::GetOffset(uint32_t current_code_size) const { |
| static constexpr int32_t int32_min = std::numeric_limits<int32_t>::min(); |
| static constexpr int32_t int32_max = std::numeric_limits<int32_t>::max(); |
| DCHECK_LE(target_, static_cast<uint32_t>(int32_max)); |
| DCHECK_LE(location_, static_cast<uint32_t>(int32_max)); |
| DCHECK_LE(adjustment_, static_cast<uint32_t>(int32_max)); |
| int32_t diff = static_cast<int32_t>(target_) - static_cast<int32_t>(location_); |
| if (target_ > location_) { |
| DCHECK_LE(adjustment_, static_cast<uint32_t>(int32_max - diff)); |
| diff += static_cast<int32_t>(adjustment_); |
| } else { |
| DCHECK_LE(int32_min + static_cast<int32_t>(adjustment_), diff); |
| diff -= static_cast<int32_t>(adjustment_); |
| } |
| // The default PC adjustment for Thumb2 is 4 bytes. |
| DCHECK_GE(diff, int32_min + 4); |
| diff -= 4; |
| // Add additional adjustment for instructions preceding the PC usage, padding |
| // before the literal pool and rounding down the PC for literal loads. |
| switch (GetSize()) { |
| case kBranch16Bit: |
| case kBranch32Bit: |
| break; |
| |
| case kCbxz16Bit: |
| break; |
| case kCbxz32Bit: |
| case kCbxz48Bit: |
| DCHECK_GE(diff, int32_min + 2); |
| diff -= 2; // Extra CMP Rn, #0, 16-bit. |
| break; |
| |
| case kLiteral1KiB: |
| case kLiteral4KiB: |
| case kLongOrFPLiteral1KiB: |
| DCHECK(diff >= 0 || (GetSize() == kLiteral1KiB && diff == -2)); |
| diff += LiteralPoolPaddingSize(current_code_size); |
| // Load literal instructions round down the PC+4 to a multiple of 4, so if the PC |
| // isn't a multiple of 2, we need to adjust. Since we already adjusted for the target |
| // being aligned, current PC alignment can be inferred from diff. |
| DCHECK_ALIGNED(diff, 2); |
| diff = diff + (diff & 2); |
| DCHECK_GE(diff, 0); |
| break; |
| case kLiteral1MiB: |
| case kLiteral64KiB: |
| case kLongOrFPLiteral256KiB: |
| DCHECK_GE(diff, 4); // The target must be at least 4 bytes after the ADD rX, PC. |
| diff -= 4; // One extra 32-bit MOV. |
| diff += LiteralPoolPaddingSize(current_code_size); |
| break; |
| case kLiteralFar: |
| case kLongOrFPLiteralFar: |
| DCHECK_GE(diff, 8); // The target must be at least 4 bytes after the ADD rX, PC. |
| diff -= 8; // Extra MOVW+MOVT; both 32-bit. |
| diff += LiteralPoolPaddingSize(current_code_size); |
| break; |
| } |
| return diff; |
| } |
| |
| inline size_t Thumb2Assembler::Fixup::IncreaseSize(Size new_size) { |
| DCHECK_NE(target_, kUnresolved); |
| Size old_size = size_; |
| size_ = new_size; |
| DCHECK_GT(SizeInBytes(new_size), SizeInBytes(old_size)); |
| size_t adjustment = SizeInBytes(new_size) - SizeInBytes(old_size); |
| if (target_ > location_) { |
| adjustment_ += adjustment; |
| } |
| return adjustment; |
| } |
| |
| uint32_t Thumb2Assembler::Fixup::AdjustSizeIfNeeded(uint32_t current_code_size) { |
| uint32_t old_code_size = current_code_size; |
| switch (GetSize()) { |
| case kBranch16Bit: |
| if (IsInt(cond_ != AL ? 9 : 12, GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kBranch32Bit); |
| FALLTHROUGH_INTENDED; |
| case kBranch32Bit: |
| // We don't support conditional branches beyond +-1MiB |
| // or unconditional branches beyond +-16MiB. |
| break; |
| |
| case kCbxz16Bit: |
| if (IsUint<7>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kCbxz32Bit); |
| FALLTHROUGH_INTENDED; |
| case kCbxz32Bit: |
| if (IsInt<9>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kCbxz48Bit); |
| FALLTHROUGH_INTENDED; |
| case kCbxz48Bit: |
| // We don't support conditional branches beyond +-1MiB. |
| break; |
| |
| case kLiteral1KiB: |
| DCHECK(!IsHighRegister(rn_)); |
| if (IsUint<10>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kLiteral4KiB); |
| FALLTHROUGH_INTENDED; |
| case kLiteral4KiB: |
| if (IsUint<12>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kLiteral64KiB); |
| FALLTHROUGH_INTENDED; |
| case kLiteral64KiB: |
| // Can't handle high register which we can encounter by fall-through from kLiteral4KiB. |
| if (!IsHighRegister(rn_) && IsUint<16>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kLiteral1MiB); |
| FALLTHROUGH_INTENDED; |
| case kLiteral1MiB: |
| if (IsUint<20>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kLiteralFar); |
| FALLTHROUGH_INTENDED; |
| case kLiteralFar: |
| // This encoding can reach any target. |
| break; |
| |
| case kLongOrFPLiteral1KiB: |
| if (IsUint<10>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kLongOrFPLiteral256KiB); |
| FALLTHROUGH_INTENDED; |
| case kLongOrFPLiteral256KiB: |
| if (IsUint<18>(GetOffset(current_code_size))) { |
| break; |
| } |
| current_code_size += IncreaseSize(kLongOrFPLiteralFar); |
| FALLTHROUGH_INTENDED; |
| case kLongOrFPLiteralFar: |
| // This encoding can reach any target. |
| break; |
| } |
| return current_code_size - old_code_size; |
| } |
| |
| void Thumb2Assembler::Fixup::Emit(AssemblerBuffer* buffer, uint32_t code_size) const { |
| switch (GetSize()) { |
| case kBranch16Bit: { |
| DCHECK(type_ == kUnconditional || type_ == kConditional); |
| DCHECK_EQ(type_ == kConditional, cond_ != AL); |
| int16_t encoding = BEncoding16(GetOffset(code_size), cond_); |
| buffer->Store<int16_t>(location_, encoding); |
| break; |
| } |
| case kBranch32Bit: { |
| DCHECK(type_ == kConditional || type_ == kUnconditional || |
| type_ == kUnconditionalLink || type_ == kUnconditionalLinkX); |
| DCHECK_EQ(type_ == kConditional, cond_ != AL); |
| int32_t encoding = BEncoding32(GetOffset(code_size), cond_); |
| if (type_ == kUnconditionalLink) { |
| DCHECK_NE(encoding & B12, 0); |
| encoding |= B14; |
| } else if (type_ == kUnconditionalLinkX) { |
| DCHECK_NE(encoding & B12, 0); |
| encoding ^= B14 | B12; |
| } |
| buffer->Store<int16_t>(location_, encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(encoding & 0xffff)); |
| break; |
| } |
| |
| case kCbxz16Bit: { |
| DCHECK(type_ == kCompareAndBranchXZero); |
| int16_t encoding = CbxzEncoding16(rn_, GetOffset(code_size), cond_); |
| buffer->Store<int16_t>(location_, encoding); |
| break; |
| } |
| case kCbxz32Bit: { |
| DCHECK(type_ == kCompareAndBranchXZero); |
| DCHECK(cond_ == EQ || cond_ == NE); |
| int16_t cmp_encoding = CmpRnImm8Encoding16(rn_, 0); |
| int16_t b_encoding = BEncoding16(GetOffset(code_size), cond_); |
| buffer->Store<int16_t>(location_, cmp_encoding); |
| buffer->Store<int16_t>(location_ + 2, b_encoding); |
| break; |
| } |
| case kCbxz48Bit: { |
| DCHECK(type_ == kCompareAndBranchXZero); |
| DCHECK(cond_ == EQ || cond_ == NE); |
| int16_t cmp_encoding = CmpRnImm8Encoding16(rn_, 0); |
| int32_t b_encoding = BEncoding32(GetOffset(code_size), cond_); |
| buffer->Store<int16_t>(location_, cmp_encoding); |
| buffer->Store<int16_t>(location_ + 2u, b_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 4u, static_cast<int16_t>(b_encoding & 0xffff)); |
| break; |
| } |
| |
| case kLiteral1KiB: { |
| DCHECK(type_ == kLoadLiteralNarrow); |
| int16_t encoding = LdrLitEncoding16(rn_, GetOffset(code_size)); |
| buffer->Store<int16_t>(location_, encoding); |
| break; |
| } |
| case kLiteral4KiB: { |
| DCHECK(type_ == kLoadLiteralNarrow); |
| // GetOffset() uses PC+4 but load literal uses AlignDown(PC+4, 4). Adjust offset accordingly. |
| int32_t encoding = LdrLitEncoding32(rn_, GetOffset(code_size)); |
| buffer->Store<int16_t>(location_, encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(encoding & 0xffff)); |
| break; |
| } |
| case kLiteral64KiB: { |
| DCHECK(type_ == kLoadLiteralNarrow); |
| int32_t mov_encoding = MovwEncoding32(rn_, GetOffset(code_size)); |
| int16_t add_pc_encoding = AddRdnRmEncoding16(rn_, PC); |
| int16_t ldr_encoding = LdrRtRnImm5Encoding16(rn_, rn_, 0); |
| buffer->Store<int16_t>(location_, mov_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(mov_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 4u, add_pc_encoding); |
| buffer->Store<int16_t>(location_ + 6u, ldr_encoding); |
| break; |
| } |
| case kLiteral1MiB: { |
| DCHECK(type_ == kLoadLiteralNarrow); |
| int32_t offset = GetOffset(code_size); |
| int32_t mov_encoding = MovModImmEncoding32(rn_, offset & ~0xfff); |
| int16_t add_pc_encoding = AddRdnRmEncoding16(rn_, PC); |
| int32_t ldr_encoding = LdrRtRnImm12Encoding(rn_, rn_, offset & 0xfff); |
| buffer->Store<int16_t>(location_, mov_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(mov_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 4u, add_pc_encoding); |
| buffer->Store<int16_t>(location_ + 6u, ldr_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 8u, static_cast<int16_t>(ldr_encoding & 0xffff)); |
| break; |
| } |
| case kLiteralFar: { |
| DCHECK(type_ == kLoadLiteralNarrow); |
| int32_t offset = GetOffset(code_size); |
| int32_t movw_encoding = MovwEncoding32(rn_, offset & 0xffff); |
| int32_t movt_encoding = MovtEncoding32(rn_, offset & ~0xffff); |
| int16_t add_pc_encoding = AddRdnRmEncoding16(rn_, PC); |
| int32_t ldr_encoding = LdrRtRnImm12Encoding(rn_, rn_, 0); |
| buffer->Store<int16_t>(location_, movw_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(movw_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 4u, movt_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 6u, static_cast<int16_t>(movt_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 8u, add_pc_encoding); |
| buffer->Store<int16_t>(location_ + 10u, ldr_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 12u, static_cast<int16_t>(ldr_encoding & 0xffff)); |
| break; |
| } |
| |
| case kLongOrFPLiteral1KiB: { |
| int32_t encoding = LoadWideOrFpEncoding(PC, GetOffset(code_size)); // DCHECKs type_. |
| buffer->Store<int16_t>(location_, encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(encoding & 0xffff)); |
| break; |
| } |
| case kLongOrFPLiteral256KiB: { |
| int32_t offset = GetOffset(code_size); |
| int32_t mov_encoding = MovModImmEncoding32(IP, offset & ~0x3ff); |
| int16_t add_pc_encoding = AddRdnRmEncoding16(IP, PC); |
| int32_t ldr_encoding = LoadWideOrFpEncoding(IP, offset & 0x3ff); // DCHECKs type_. |
| buffer->Store<int16_t>(location_, mov_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(mov_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 4u, add_pc_encoding); |
| buffer->Store<int16_t>(location_ + 6u, ldr_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 8u, static_cast<int16_t>(ldr_encoding & 0xffff)); |
| break; |
| } |
| case kLongOrFPLiteralFar: { |
| int32_t offset = GetOffset(code_size); |
| int32_t movw_encoding = MovwEncoding32(IP, offset & 0xffff); |
| int32_t movt_encoding = MovtEncoding32(IP, offset & ~0xffff); |
| int16_t add_pc_encoding = AddRdnRmEncoding16(IP, PC); |
| int32_t ldr_encoding = LoadWideOrFpEncoding(IP, 0); // DCHECKs type_. |
| buffer->Store<int16_t>(location_, movw_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 2u, static_cast<int16_t>(movw_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 4u, movt_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 6u, static_cast<int16_t>(movt_encoding & 0xffff)); |
| buffer->Store<int16_t>(location_ + 8u, add_pc_encoding); |
| buffer->Store<int16_t>(location_ + 10u, ldr_encoding >> 16); |
| buffer->Store<int16_t>(location_ + 12u, static_cast<int16_t>(ldr_encoding & 0xffff)); |
| break; |
| } |
| } |
| } |
| |
| uint16_t Thumb2Assembler::EmitCompareAndBranch(Register rn, uint16_t prev, bool n) { |
| CHECK(IsLowRegister(rn)); |
| uint32_t location = buffer_.Size(); |
| |
| // This is always unresolved as it must be a forward branch. |
| Emit16(prev); // Previous link. |
| return AddFixup(Fixup::CompareAndBranch(location, rn, n ? NE : EQ)); |
| } |
| |
| |
| // NOTE: this only support immediate offsets, not [rx,ry]. |
| // TODO: support [rx,ry] instructions. |
| void Thumb2Assembler::EmitLoadStore(Condition cond, |
| bool load, |
| bool byte, |
| bool half, |
| bool is_signed, |
| Register rd, |
| const Address& ad) { |
| CHECK_NE(rd, kNoRegister); |
| CheckCondition(cond); |
| bool must_be_32bit = force_32bit_; |
| if (IsHighRegister(rd)) { |
| must_be_32bit = true; |
| } |
| |
| Register rn = ad.GetRegister(); |
| if (IsHighRegister(rn) && rn != SP && rn != PC) { |
| must_be_32bit = true; |
| } |
| |
| if (is_signed || ad.GetOffset() < 0 || ad.GetMode() != Address::Offset) { |
| must_be_32bit = true; |
| } |
| |
| if (ad.IsImmediate()) { |
| // Immediate offset |
| int32_t offset = ad.GetOffset(); |
| |
| // The 16 bit SP relative instruction can only have a 10 bit offset. |
| if (rn == SP && offset >= (1 << 10)) { |
| must_be_32bit = true; |
| } |
| |
| if (byte) { |
| // 5 bit offset, no shift. |
| if (offset >= (1 << 5)) { |
| must_be_32bit = true; |
| } |
| } else if (half) { |
| // 6 bit offset, shifted by 1. |
| if (offset >= (1 << 6)) { |
| must_be_32bit = true; |
| } |
| } else { |
| // 7 bit offset, shifted by 2. |
| if (offset >= (1 << 7)) { |
| must_be_32bit = true; |
| } |
| } |
| |
| if (must_be_32bit) { |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | |
| (load ? B20 : 0) | |
| (is_signed ? B24 : 0) | |
| static_cast<uint32_t>(rd) << 12 | |
| ad.encodingThumb(true) | |
| (byte ? 0 : half ? B21 : B22); |
| Emit32(encoding); |
| } else { |
| // 16 bit thumb1. |
| uint8_t opA = 0; |
| bool sp_relative = false; |
| |
| if (byte) { |
| opA = 7U /* 0b0111 */; |
| } else if (half) { |
| opA = 8U /* 0b1000 */; |
| } else { |
| if (rn == SP) { |
| opA = 9U /* 0b1001 */; |
| sp_relative = true; |
| } else { |
| opA = 6U /* 0b0110 */; |
| } |
| } |
| int16_t encoding = opA << 12 | |
| (load ? B11 : 0); |
| |
| CHECK_GE(offset, 0); |
| if (sp_relative) { |
| // SP relative, 10 bit offset. |
| CHECK_LT(offset, (1 << 10)); |
| CHECK_ALIGNED(offset, 4); |
| encoding |= rd << 8 | offset >> 2; |
| } else { |
| // No SP relative. The offset is shifted right depending on |
| // the size of the load/store. |
| encoding |= static_cast<uint32_t>(rd); |
| |
| if (byte) { |
| // 5 bit offset, no shift. |
| CHECK_LT(offset, (1 << 5)); |
| } else if (half) { |
| // 6 bit offset, shifted by 1. |
| CHECK_LT(offset, (1 << 6)); |
| CHECK_ALIGNED(offset, 2); |
| offset >>= 1; |
| } else { |
| // 7 bit offset, shifted by 2. |
| CHECK_LT(offset, (1 << 7)); |
| CHECK_ALIGNED(offset, 4); |
| offset >>= 2; |
| } |
| encoding |= rn << 3 | offset << 6; |
| } |
| |
| Emit16(encoding); |
| } |
| } else { |
| // Register shift. |
| if (ad.GetRegister() == PC) { |
| // PC relative literal encoding. |
| int32_t offset = ad.GetOffset(); |
| if (must_be_32bit || offset < 0 || offset >= (1 << 10) || !load) { |
| int32_t up = B23; |
| if (offset < 0) { |
| offset = -offset; |
| up = 0; |
| } |
| CHECK_LT(offset, (1 << 12)); |
| int32_t encoding = 0x1f << 27 | 0xf << 16 | B22 | (load ? B20 : 0) | |
| offset | up | |
| static_cast<uint32_t>(rd) << 12; |
| Emit32(encoding); |
| } else { |
| // 16 bit literal load. |
| CHECK_GE(offset, 0); |
| CHECK_LT(offset, (1 << 10)); |
| int32_t encoding = B14 | (load ? B11 : 0) | static_cast<uint32_t>(rd) << 8 | offset >> 2; |
| Emit16(encoding); |
| } |
| } else { |
| if (ad.GetShiftCount() != 0) { |
| // If there is a shift count this must be 32 bit. |
| must_be_32bit = true; |
| } else if (IsHighRegister(ad.GetRegisterOffset())) { |
| must_be_32bit = true; |
| } |
| |
| if (must_be_32bit) { |
| int32_t encoding = 0x1f << 27 | (load ? B20 : 0) | static_cast<uint32_t>(rd) << 12 | |
| ad.encodingThumb(true); |
| if (half) { |
| encoding |= B21; |
| } else if (!byte) { |
| encoding |= B22; |
| } |
| Emit32(encoding); |
| } else { |
| // 16 bit register offset. |
| int32_t encoding = B14 | B12 | (load ? B11 : 0) | static_cast<uint32_t>(rd) | |
| ad.encodingThumb(false); |
| if (byte) { |
| encoding |= B10; |
| } else if (half) { |
| encoding |= B9; |
| } |
| Emit16(encoding); |
| } |
| } |
| } |
| } |
| |
| |
| void Thumb2Assembler::EmitMultiMemOp(Condition cond, |
| BlockAddressMode bam, |
| bool load, |
| Register base, |
| RegList regs) { |
| CHECK_NE(base, kNoRegister); |
| CheckCondition(cond); |
| bool must_be_32bit = force_32bit_; |
| |
| if (!must_be_32bit && base == SP && bam == (load ? IA_W : DB_W) && |
| (regs & 0xff00 & ~(1 << (load ? PC : LR))) == 0) { |
| // Use 16-bit PUSH/POP. |
| int16_t encoding = B15 | B13 | B12 | (load ? B11 : 0) | B10 | |
| ((regs & (1 << (load ? PC : LR))) != 0 ? B8 : 0) | (regs & 0x00ff); |
| Emit16(encoding); |
| return; |
| } |
| |
| if ((regs & 0xff00) != 0) { |
| must_be_32bit = true; |
| } |
| |
| bool w_bit = bam == IA_W || bam == DB_W || bam == DA_W || bam == IB_W; |
| // 16 bit always uses writeback. |
| if (!w_bit) { |
| must_be_32bit = true; |
| } |
| |
| if (must_be_32bit) { |
| uint32_t op = 0; |
| switch (bam) { |
| case IA: |
| case IA_W: |
| op = 1U /* 0b01 */; |
| break; |
| case DB: |
| case DB_W: |
| op = 2U /* 0b10 */; |
| break; |
| case DA: |
| case IB: |
| case DA_W: |
| case IB_W: |
| LOG(FATAL) << "LDM/STM mode not supported on thumb: " << bam; |
| UNREACHABLE(); |
| } |
| if (load) { |
| // Cannot have SP in the list. |
| CHECK_EQ((regs & (1 << SP)), 0); |
| } else { |
| // Cannot have PC or SP in the list. |
| CHECK_EQ((regs & (1 << PC | 1 << SP)), 0); |
| } |
| int32_t encoding = B31 | B30 | B29 | B27 | |
| (op << 23) | |
| (load ? B20 : 0) | |
| base << 16 | |
| regs | |
| (w_bit << 21); |
| Emit32(encoding); |
| } else { |
| int16_t encoding = B15 | B14 | |
| (load ? B11 : 0) | |
| base << 8 | |
| regs; |
| Emit16(encoding); |
| } |
| } |
| |
| void Thumb2Assembler::EmitBranch(Condition cond, Label* label, bool link, bool x) { |
| bool use32bit = IsForced32Bit() || !CanRelocateBranches(); |
| uint32_t pc = buffer_.Size(); |
| Fixup::Type branch_type; |
| if (cond == AL) { |
| if (link) { |
| use32bit = true; |
| if (x) { |
| branch_type = Fixup::kUnconditionalLinkX; // BLX. |
| } else { |
| branch_type = Fixup::kUnconditionalLink; // BX. |
| } |
| } else { |
| branch_type = Fixup::kUnconditional; // B. |
| } |
| } else { |
| branch_type = Fixup::kConditional; // B<cond>. |
| } |
| |
| Fixup::Size size = use32bit ? Fixup::kBranch32Bit : Fixup::kBranch16Bit; |
| FixupId branch_id = AddFixup(Fixup::Branch(pc, branch_type, size, cond)); |
| |
| if (label->IsBound()) { |
| // The branch is to a bound label which means that it's a backwards branch. |
| // Record this branch as a dependency of all Fixups between the label and the branch. |
| GetFixup(branch_id)->Resolve(label->Position()); |
| for (FixupId fixup_id = branch_id; fixup_id != 0u; ) { |
| --fixup_id; |
| Fixup* fixup = GetFixup(fixup_id); |
| DCHECK_GE(label->Position(), 0); |
| if (fixup->GetLocation() < static_cast<uint32_t>(label->Position())) { |
| break; |
| } |
| fixup->AddDependent(branch_id); |
| } |
| Emit16(0); |
| } else { |
| // Branch target is an unbound label. Add it to a singly-linked list maintained within |
| // the code with the label serving as the head. |
| Emit16(static_cast<uint16_t>(label->position_)); |
| label->LinkTo(branch_id); |
| } |
| |
| if (use32bit) { |
| Emit16(0); |
| } |
| DCHECK_EQ(buffer_.Size() - pc, GetFixup(branch_id)->GetSizeInBytes()); |
| } |
| |
| |
| void Thumb2Assembler::clz(Register rd, Register rm, Condition cond) { |
| CHECK_NE(rd, kNoRegister); |
| CHECK_NE(rm, kNoRegister); |
| CheckCondition(cond); |
| CHECK_NE(rd, PC); |
| CHECK_NE(rm, PC); |
| int32_t encoding = B31 | B30 | B29 | B28 | B27 | |
| B25 | B23 | B21 | B20 | |
| static_cast<uint32_t>(rm) << 16 | |
| 0xf << 12 | |
| static_cast<uint32_t>(rd) << 8 | |
| B7 | |
| static_cast<uint32_t>(rm); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::movw(Register rd, uint16_t imm16, Condition cond) { |
| CheckCondition(cond); |
| bool must_be_32bit = force_32bit_; |
| if (IsHighRegister(rd)|| imm16 >= 256u) { |
| must_be_32bit = true; |
| } |
| |
| if (must_be_32bit) { |
| // Use encoding T3. |
| uint32_t imm4 = (imm16 >> 12) & 15U /* 0b1111 */; |
| uint32_t i = (imm16 >> 11) & 1U /* 0b1 */; |
| uint32_t imm3 = (imm16 >> 8) & 7U /* 0b111 */; |
| uint32_t imm8 = imm16 & 0xff; |
| int32_t encoding = B31 | B30 | B29 | B28 | |
| B25 | B22 | |
| static_cast<uint32_t>(rd) << 8 | |
| i << 26 | |
| imm4 << 16 | |
| imm3 << 12 | |
| imm8; |
| Emit32(encoding); |
| } else { |
| int16_t encoding = B13 | static_cast<uint16_t>(rd) << 8 | |
| imm16; |
| Emit16(encoding); |
| } |
| } |
| |
| |
| void Thumb2Assembler::movt(Register rd, uint16_t imm16, Condition cond) { |
| CheckCondition(cond); |
| // Always 32 bits. |
| uint32_t imm4 = (imm16 >> 12) & 15U /* 0b1111 */; |
| uint32_t i = (imm16 >> 11) & 1U /* 0b1 */; |
| uint32_t imm3 = (imm16 >> 8) & 7U /* 0b111 */; |
| uint32_t imm8 = imm16 & 0xff; |
| int32_t encoding = B31 | B30 | B29 | B28 | |
| B25 | B23 | B22 | |
| static_cast<uint32_t>(rd) << 8 | |
| i << 26 | |
| imm4 << 16 | |
| imm3 << 12 | |
| imm8; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::ldrex(Register rt, Register rn, uint16_t imm, Condition cond) { |
| CHECK_NE(rn, kNoRegister); |
| CHECK_NE(rt, kNoRegister); |
| CheckCondition(cond); |
| CHECK_LT(imm, (1u << 10)); |
| |
| int32_t encoding = B31 | B30 | B29 | B27 | B22 | B20 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rt) << 12 | |
| 0xf << 8 | |
| imm >> 2; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::ldrex(Register rt, Register rn, Condition cond) { |
| ldrex(rt, rn, 0, cond); |
| } |
| |
| |
| void Thumb2Assembler::strex(Register rd, |
| Register rt, |
| Register rn, |
| uint16_t imm, |
| Condition cond) { |
| CHECK_NE(rn, kNoRegister); |
| CHECK_NE(rd, kNoRegister); |
| CHECK_NE(rt, kNoRegister); |
| CheckCondition(cond); |
| CHECK_LT(imm, (1u << 10)); |
| |
| int32_t encoding = B31 | B30 | B29 | B27 | B22 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rt) << 12 | |
| static_cast<uint32_t>(rd) << 8 | |
| imm >> 2; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::ldrexd(Register rt, Register rt2, Register rn, Condition cond) { |
| CHECK_NE(rn, kNoRegister); |
| CHECK_NE(rt, kNoRegister); |
| CHECK_NE(rt2, kNoRegister); |
| CHECK_NE(rt, rt2); |
| CheckCondition(cond); |
| |
| int32_t encoding = B31 | B30 | B29 | B27 | B23 | B22 | B20 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rt) << 12 | |
| static_cast<uint32_t>(rt2) << 8 | |
| B6 | B5 | B4 | B3 | B2 | B1 | B0; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::strex(Register rd, |
| Register rt, |
| Register rn, |
| Condition cond) { |
| strex(rd, rt, rn, 0, cond); |
| } |
| |
| |
| void Thumb2Assembler::strexd(Register rd, Register rt, Register rt2, Register rn, Condition cond) { |
| CHECK_NE(rd, kNoRegister); |
| CHECK_NE(rn, kNoRegister); |
| CHECK_NE(rt, kNoRegister); |
| CHECK_NE(rt2, kNoRegister); |
| CHECK_NE(rt, rt2); |
| CHECK_NE(rd, rt); |
| CHECK_NE(rd, rt2); |
| CheckCondition(cond); |
| |
| int32_t encoding = B31 | B30 | B29 | B27 | B23 | B22 | |
| static_cast<uint32_t>(rn) << 16 | |
| static_cast<uint32_t>(rt) << 12 | |
| static_cast<uint32_t>(rt2) << 8 | |
| B6 | B5 | B4 | |
| static_cast<uint32_t>(rd); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::clrex(Condition cond) { |
| CheckCondition(cond); |
| int32_t encoding = B31 | B30 | B29 | B27 | B28 | B25 | B24 | B23 | |
| B21 | B20 | |
| 0xf << 16 | |
| B15 | |
| 0xf << 8 | |
| B5 | |
| 0xf; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::nop(Condition cond) { |
| CheckCondition(cond); |
| uint16_t encoding = B15 | B13 | B12 | |
| B11 | B10 | B9 | B8; |
| Emit16(static_cast<int16_t>(encoding)); |
| } |
| |
| |
| void Thumb2Assembler::vmovsr(SRegister sn, Register rt, Condition cond) { |
| CHECK_NE(sn, kNoSRegister); |
| CHECK_NE(rt, kNoRegister); |
| CHECK_NE(rt, SP); |
| CHECK_NE(rt, PC); |
| CheckCondition(cond); |
| 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; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vmovrs(Register rt, SRegister sn, Condition cond) { |
| CHECK_NE(sn, kNoSRegister); |
| CHECK_NE(rt, kNoRegister); |
| CHECK_NE(rt, SP); |
| CHECK_NE(rt, PC); |
| CheckCondition(cond); |
| 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; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::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); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::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); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::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); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::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); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vldrs(SRegister sd, const Address& ad, Condition cond) { |
| const Address& addr = static_cast<const Address&>(ad); |
| CHECK_NE(sd, kNoSRegister); |
| CheckCondition(cond); |
| 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 | addr.vencoding(); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vstrs(SRegister sd, const Address& ad, Condition cond) { |
| const Address& addr = static_cast<const Address&>(ad); |
| CHECK_NE(static_cast<Register>(addr.encodingArm() & (0xf << kRnShift)), PC); |
| CHECK_NE(sd, kNoSRegister); |
| CheckCondition(cond); |
| 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 | addr.vencoding(); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vldrd(DRegister dd, const Address& ad, Condition cond) { |
| const Address& addr = static_cast<const Address&>(ad); |
| CHECK_NE(dd, kNoDRegister); |
| CheckCondition(cond); |
| 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 | addr.vencoding(); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vstrd(DRegister dd, const Address& ad, Condition cond) { |
| const Address& addr = static_cast<const Address&>(ad); |
| CHECK_NE(static_cast<Register>(addr.encodingArm() & (0xf << kRnShift)), PC); |
| CHECK_NE(dd, kNoDRegister); |
| CheckCondition(cond); |
| 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 | addr.vencoding(); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vpushs(SRegister reg, int nregs, Condition cond) { |
| EmitVPushPop(static_cast<uint32_t>(reg), nregs, true, false, cond); |
| } |
| |
| |
| void Thumb2Assembler::vpushd(DRegister reg, int nregs, Condition cond) { |
| EmitVPushPop(static_cast<uint32_t>(reg), nregs, true, true, cond); |
| } |
| |
| |
| void Thumb2Assembler::vpops(SRegister reg, int nregs, Condition cond) { |
| EmitVPushPop(static_cast<uint32_t>(reg), nregs, false, false, cond); |
| } |
| |
| |
| void Thumb2Assembler::vpopd(DRegister reg, int nregs, Condition cond) { |
| EmitVPushPop(static_cast<uint32_t>(reg), nregs, false, true, cond); |
| } |
| |
| |
| void Thumb2Assembler::EmitVPushPop(uint32_t reg, int nregs, bool push, bool dbl, Condition cond) { |
| CheckCondition(cond); |
| |
| uint32_t D; |
| uint32_t Vd; |
| if (dbl) { |
| // Encoded as D:Vd. |
| D = (reg >> 4) & 1; |
| Vd = reg & 15U /* 0b1111 */; |
| } else { |
| // Encoded as Vd:D. |
| D = reg & 1; |
| Vd = (reg >> 1) & 15U /* 0b1111 */; |
| } |
| int32_t encoding = B27 | B26 | B21 | B19 | B18 | B16 | |
| B11 | B9 | |
| (dbl ? B8 : 0) | |
| (push ? B24 : (B23 | B20)) | |
| 14U /* 0b1110 */ << 28 | |
| nregs << (dbl ? 1 : 0) | |
| D << 22 | |
| Vd << 12; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::EmitVFPsss(Condition cond, int32_t opcode, |
| SRegister sd, SRegister sn, SRegister sm) { |
| CHECK_NE(sd, kNoSRegister); |
| CHECK_NE(sn, kNoSRegister); |
| CHECK_NE(sm, kNoSRegister); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::EmitVFPddd(Condition cond, int32_t opcode, |
| DRegister dd, DRegister dn, DRegister dm) { |
| CHECK_NE(dd, kNoDRegister); |
| CHECK_NE(dn, kNoDRegister); |
| CHECK_NE(dm, kNoDRegister); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::EmitVFPsd(Condition cond, int32_t opcode, |
| SRegister sd, DRegister dm) { |
| CHECK_NE(sd, kNoSRegister); |
| CHECK_NE(dm, kNoDRegister); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::EmitVFPds(Condition cond, int32_t opcode, |
| DRegister dd, SRegister sm) { |
| CHECK_NE(dd, kNoDRegister); |
| CHECK_NE(sm, kNoSRegister); |
| CheckCondition(cond); |
| 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); |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::vmstat(Condition cond) { // VMRS APSR_nzcv, FPSCR. |
| CHECK_NE(cond, kNoCondition); |
| CheckCondition(cond); |
| 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; |
| Emit32(encoding); |
| } |
| |
| |
| void Thumb2Assembler::svc(uint32_t imm8) { |
| CHECK(IsUint<8>(imm8)) << imm8; |
| int16_t encoding = B15 | B14 | B12 | |
| B11 | B10 | B9 | B8 | |
| imm8; |
| Emit16(encoding); |
| } |
| |
| |
| void Thumb2Assembler::bkpt(uint16_t imm8) { |
| CHECK(IsUint<8>(imm8)) << imm8; |
| int16_t encoding = B15 | B13 | B12 | |
| B11 | B10 | B9 | |
| imm8; |
| Emit16(encoding); |
| } |
| |
| // Convert the given IT state to a mask bit given bit 0 of the first |
| // condition and a shift position. |
| static uint8_t ToItMask(ItState s, uint8_t firstcond0, uint8_t shift) { |
| switch (s) { |
| case kItOmitted: return 1 << shift; |
| case kItThen: return firstcond0 << shift; |
| case kItElse: return !firstcond0 << shift; |
| } |
| return 0; |
| } |
| |
| |
| // Set the IT condition in the given position for the given state. This is used |
| // to check that conditional instructions match the preceding IT statement. |
| void Thumb2Assembler::SetItCondition(ItState s, Condition cond, uint8_t index) { |
| switch (s) { |
| case kItOmitted: it_conditions_[index] = AL; break; |
| case kItThen: it_conditions_[index] = cond; break; |
| case kItElse: |
| it_conditions_[index] = static_cast<Condition>(static_cast<uint8_t>(cond) ^ 1); |
| break; |
| } |
| } |
| |
| |
| void Thumb2Assembler::it(Condition firstcond, ItState i1, ItState i2, ItState i3) { |
| CheckCondition(AL); // Not allowed in IT block. |
| uint8_t firstcond0 = static_cast<uint8_t>(firstcond) & 1; |
| |
| // All conditions to AL. |
| for (uint8_t i = 0; i < 4; ++i) { |
| it_conditions_[i] = AL; |
| } |
| |
| SetItCondition(kItThen, firstcond, 0); |
| uint8_t mask = ToItMask(i1, firstcond0, 3); |
| SetItCondition(i1, firstcond, 1); |
| |
| if (i1 != kItOmitted) { |
| mask |= ToItMask(i2, firstcond0, 2); |
| SetItCondition(i2, firstcond, 2); |
| if (i2 != kItOmitted) { |
| mask |= ToItMask(i3, firstcond0, 1); |
| SetItCondition(i3, firstcond, 3); |
| if (i3 != kItOmitted) { |
| mask |= 1U /* 0b0001 */; |
| } |
| } |
| } |
| |
| // Start at first condition. |
| it_cond_index_ = 0; |
| next_condition_ = it_conditions_[0]; |
| uint16_t encoding = B15 | B13 | B12 | |
| B11 | B10 | B9 | B8 | |
| firstcond << 4 | |
| mask; |
| Emit16(encoding); |
| } |
| |
| |
| void Thumb2Assembler::cbz(Register rn, Label* label) { |
| CheckCondition(AL); |
| if (label->IsBound()) { |
| LOG(FATAL) << "cbz can only be used to branch forwards"; |
| UNREACHABLE(); |
| } else if (IsHighRegister(rn)) { |
| LOG(FATAL) << "cbz can only be used with low registers"; |
| UNREACHABLE(); |
| } else { |
| uint16_t branchid = EmitCompareAndBranch(rn, static_cast<uint16_t>(label->position_), false); |
| label->LinkTo(branchid); |
| } |
| } |
| |
| |
| void Thumb2Assembler::cbnz(Register rn, Label* label) { |
| CheckCondition(AL); |
| if (label->IsBound()) { |
| LOG(FATAL) << "cbnz can only be used to branch forwards"; |
| UNREACHABLE(); |
| } else if (IsHighRegister(rn)) { |
| LOG(FATAL) << "cbnz can only be used with low registers"; |
| UNREACHABLE(); |
| } else { |
| uint16_t branchid = EmitCompareAndBranch(rn, static_cast<uint16_t>(label->position_), true); |
| label->LinkTo(branchid); |
| } |
| } |
| |
| |
| void Thumb2Assembler::blx(Register rm, Condition cond) { |
| CHECK_NE(rm, kNoRegister); |
| CheckCondition(cond); |
| int16_t encoding = B14 | B10 | B9 | B8 | B7 | static_cast<int16_t>(rm) << 3; |
| Emit16(encoding); |
| } |
| |
| |
| void Thumb2Assembler::bx(Register rm, Condition cond) { |
| CHECK_NE(rm, kNoRegister); |
| CheckCondition(cond); |
| int16_t encoding = B14 | B10 | B9 | B8 | static_cast<int16_t>(rm) << 3; |
| Emit16(encoding); |
| } |
| |
| |
| void Thumb2Assembler::Push(Register rd, Condition cond) { |
| str(rd, Address(SP, -kRegisterSize, Address::PreIndex), cond); |
| } |
| |
| |
| void Thumb2Assembler::Pop(Register rd, Condition cond) { |
| ldr(rd, Address(SP, kRegisterSize, Address::PostIndex), cond); |
| } |
| |
| |
| void Thumb2Assembler::PushList(RegList regs, Condition cond) { |
| stm(DB_W, SP, regs, cond); |
| } |
| |
| |
| void Thumb2Assembler::PopList(RegList regs, Condition cond) { |
| ldm(IA_W, SP, regs, cond); |
| } |
| |
| |
| void Thumb2Assembler::Mov(Register rd, Register rm, Condition cond) { |
| if (cond != AL || rd != rm) { |
| mov(rd, ShifterOperand(rm), cond); |
| } |
| } |
| |
| |
| void Thumb2Assembler::Bind(Label* label) { |
| BindLabel(label, buffer_.Size()); |
| } |
| |
| |
| void Thumb2Assembler::Lsl(Register rd, Register rm, uint32_t shift_imm, |
| bool setcc, Condition cond) { |
| CHECK_LE(shift_imm, 31u); |
| CheckCondition(cond); |
| EmitShift(rd, rm, LSL, shift_imm, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Lsr(Register rd, Register rm, uint32_t shift_imm, |
| bool setcc, Condition cond) { |
| CHECK(1u <= shift_imm && shift_imm <= 32u); |
| if (shift_imm == 32) shift_imm = 0; // Comply to UAL syntax. |
| CheckCondition(cond); |
| EmitShift(rd, rm, LSR, shift_imm, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Asr(Register rd, Register rm, uint32_t shift_imm, |
| bool setcc, Condition cond) { |
| CHECK(1u <= shift_imm && shift_imm <= 32u); |
| if (shift_imm == 32) shift_imm = 0; // Comply to UAL syntax. |
| CheckCondition(cond); |
| EmitShift(rd, rm, ASR, shift_imm, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Ror(Register rd, Register rm, uint32_t shift_imm, |
| bool setcc, Condition cond) { |
| CHECK(1u <= shift_imm && shift_imm <= 31u); |
| CheckCondition(cond); |
| EmitShift(rd, rm, ROR, shift_imm, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Rrx(Register rd, Register rm, bool setcc, Condition cond) { |
| CheckCondition(cond); |
| EmitShift(rd, rm, RRX, rm, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Lsl(Register rd, Register rm, Register rn, |
| bool setcc, Condition cond) { |
| CheckCondition(cond); |
| EmitShift(rd, rm, LSL, rn, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Lsr(Register rd, Register rm, Register rn, |
| bool setcc, Condition cond) { |
| CheckCondition(cond); |
| EmitShift(rd, rm, LSR, rn, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Asr(Register rd, Register rm, Register rn, |
| bool setcc, Condition cond) { |
| CheckCondition(cond); |
| EmitShift(rd, rm, ASR, rn, setcc); |
| } |
| |
| |
| void Thumb2Assembler::Ror(Register rd, Register rm, Register rn, |
| bool setcc, Condition cond) { |
| CheckCondition(cond); |
| EmitShift(rd, rm, ROR, rn, setcc); |
| } |
| |
| |
| int32_t Thumb2Assembler::EncodeBranchOffset(int32_t offset, int32_t inst) { |
| // The offset is off by 4 due to the way the ARM CPUs read PC. |
| offset -= 4; |
| offset >>= 1; |
| |
| uint32_t value = 0; |
| // There are two different encodings depending on the value of bit 12. In one case |
| // intermediate values are calculated using the sign bit. |
| if ((inst & B12) == B12) { |
| // 25 bits of offset. |
| uint32_t signbit = (offset >> 31) & 0x1; |
| uint32_t i1 = (offset >> 22) & 0x1; |
| uint32_t i2 = (offset >> 21) & 0x1; |
| uint32_t imm10 = (offset >> 11) & 0x03ff; |
| uint32_t imm11 = offset & 0x07ff; |
| uint32_t j1 = (i1 ^ signbit) ? 0 : 1; |
| uint32_t j2 = (i2 ^ signbit) ? 0 : 1; |
| value = (signbit << 26) | (j1 << 13) | (j2 << 11) | (imm10 << 16) | |
| imm11; |
| // Remove the offset from the current encoding. |
| inst &= ~(0x3ff << 16 | 0x7ff); |
| } else { |
| uint32_t signbit = (offset >> 31) & 0x1; |
| uint32_t imm6 = (offset >> 11) & 0x03f; |
| uint32_t imm11 = offset & 0x07ff; |
| uint32_t j1 = (offset >> 19) & 1; |
| uint32_t j2 = (offset >> 17) & 1; |
| value = (signbit << 26) | (j1 << 13) | (j2 << 11) | (imm6 << 16) | |
| imm11; |
| // Remove the offset from the current encoding. |
| inst &= ~(0x3f << 16 | 0x7ff); |
| } |
| // Mask out offset bits in current instruction. |
| inst &= ~(B26 | B13 | B11); |
| inst |= value; |
| return inst; |
| } |
| |
| |
| int Thumb2Assembler::DecodeBranchOffset(int32_t instr) { |
| int32_t imm32; |
| if ((instr & B12) == B12) { |
| uint32_t S = (instr >> 26) & 1; |
| uint32_t J2 = (instr >> 11) & 1; |
| uint32_t J1 = (instr >> 13) & 1; |
| uint32_t imm10 = (instr >> 16) & 0x3FF; |
| uint32_t imm11 = instr & 0x7FF; |
| |
| uint32_t I1 = ~(J1 ^ S) & 1; |
| uint32_t I2 = ~(J2 ^ S) & 1; |
| imm32 = (S << 24) | (I1 << 23) | (I2 << 22) | (imm10 << 12) | (imm11 << 1); |
| imm32 = (imm32 << 8) >> 8; // sign extend 24 bit immediate. |
| } else { |
| uint32_t S = (instr >> 26) & 1; |
| uint32_t J2 = (instr >> 11) & 1; |
| uint32_t J1 = (instr >> 13) & 1; |
| uint32_t imm6 = (instr >> 16) & 0x3F; |
| uint32_t imm11 = instr & 0x7FF; |
| |
| imm32 = (S << 20) | (J2 << 19) | (J1 << 18) | (imm6 << 12) | (imm11 << 1); |
| imm32 = (imm32 << 11) >> 11; // sign extend 21 bit immediate. |
| } |
| imm32 += 4; |
| return imm32; |
| } |
| |
| uint32_t Thumb2Assembler::GetAdjustedPosition(uint32_t old_position) { |
| // We can reconstruct the adjustment by going through all the fixups from the beginning |
| // up to the old_position. Since we expect AdjustedPosition() to be called in a loop |
| // with increasing old_position, we can use the data from last AdjustedPosition() to |
| // continue where we left off and the whole loop should be O(m+n) where m is the number |
| // of positions to adjust and n is the number of fixups. |
| if (old_position < last_old_position_) { |
| last_position_adjustment_ = 0u; |
| last_old_position_ = 0u; |
| last_fixup_id_ = 0u; |
| } |
| while (last_fixup_id_ != fixups_.size()) { |
| Fixup* fixup = GetFixup(last_fixup_id_); |
| if (fixup->GetLocation() >= old_position + last_position_adjustment_) { |
| break; |
| } |
| if (fixup->GetSize() != fixup->GetOriginalSize()) { |
| last_position_adjustment_ += fixup->GetSizeInBytes() - fixup->GetOriginalSizeInBytes(); |
| } |
| ++last_fixup_id_; |
| } |
| last_old_position_ = old_position; |
| return old_position + last_position_adjustment_; |
| } |
| |
| Literal* Thumb2Assembler::NewLiteral(size_t size, const uint8_t* data) { |
| DCHECK(size == 4u || size == 8u) << size; |
| literals_.emplace_back(size, data); |
| return &literals_.back(); |
| } |
| |
| void Thumb2Assembler::LoadLiteral(Register rt, Literal* literal) { |
| DCHECK_EQ(literal->GetSize(), 4u); |
| DCHECK(!literal->GetLabel()->IsBound()); |
| bool use32bit = IsForced32Bit() || IsHighRegister(rt); |
| uint32_t location = buffer_.Size(); |
| Fixup::Size size = use32bit ? Fixup::kLiteral4KiB : Fixup::kLiteral1KiB; |
| FixupId fixup_id = AddFixup(Fixup::LoadNarrowLiteral(location, rt, size)); |
| Emit16(static_cast<uint16_t>(literal->GetLabel()->position_)); |
| literal->GetLabel()->LinkTo(fixup_id); |
| if (use32bit) { |
| Emit16(0); |
| } |
| DCHECK_EQ(location + GetFixup(fixup_id)->GetSizeInBytes(), buffer_.Size()); |
| } |
| |
| void Thumb2Assembler::LoadLiteral(Register rt, Register rt2, Literal* literal) { |
| DCHECK_EQ(literal->GetSize(), 8u); |
| DCHECK(!literal->GetLabel()->IsBound()); |
| uint32_t location = buffer_.Size(); |
| FixupId fixup_id = |
| AddFixup(Fixup::LoadWideLiteral(location, rt, rt2, Fixup::kLongOrFPLiteral1KiB)); |
| Emit16(static_cast<uint16_t>(literal->GetLabel()->position_)); |
| literal->GetLabel()->LinkTo(fixup_id); |
| Emit16(0); |
| DCHECK_EQ(location + GetFixup(fixup_id)->GetSizeInBytes(), buffer_.Size()); |
| } |
| |
| void Thumb2Assembler::LoadLiteral(SRegister sd, Literal* literal) { |
| DCHECK_EQ(literal->GetSize(), 4u); |
| DCHECK(!literal->GetLabel()->IsBound()); |
| uint32_t location = buffer_.Size(); |
| FixupId fixup_id = AddFixup(Fixup::LoadSingleLiteral(location, sd, Fixup::kLongOrFPLiteral1KiB)); |
| Emit16(static_cast<uint16_t>(literal->GetLabel()->position_)); |
| literal->GetLabel()->LinkTo(fixup_id); |
| Emit16(0); |
| DCHECK_EQ(location + GetFixup(fixup_id)->GetSizeInBytes(), buffer_.Size()); |
| } |
| |
| void Thumb2Assembler::LoadLiteral(DRegister dd, Literal* literal) { |
| DCHECK_EQ(literal->GetSize(), 8u); |
| DCHECK(!literal->GetLabel()->IsBound()); |
| uint32_t location = buffer_.Size(); |
| FixupId fixup_id = AddFixup(Fixup::LoadDoubleLiteral(location, dd, Fixup::kLongOrFPLiteral1KiB)); |
| Emit16(static_cast<uint16_t>(literal->GetLabel()->position_)); |
| literal->GetLabel()->LinkTo(fixup_id); |
| Emit16(0); |
| DCHECK_EQ(location + GetFixup(fixup_id)->GetSizeInBytes(), buffer_.Size()); |
| } |
| |
| void Thumb2Assembler::AddConstant(Register rd, int32_t value, Condition cond) { |
| AddConstant(rd, rd, value, cond); |
| } |
| |
| |
| void Thumb2Assembler::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 (ShifterOperandCanHold(rd, rn, ADD, value, &shifter_op)) { |
| add(rd, rn, shifter_op, cond); |
| } else if (ShifterOperandCanHold(rd, rn, SUB, -value, &shifter_op)) { |
| sub(rd, rn, shifter_op, cond); |
| } else { |
| CHECK(rn != IP); |
| if (ShifterOperandCanHold(rd, rn, MVN, ~value, &shifter_op)) { |
| mvn(IP, shifter_op, cond); |
| add(rd, rn, ShifterOperand(IP), cond); |
| } else if (ShifterOperandCanHold(rd, rn, MVN, ~(-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 Thumb2Assembler::AddConstantSetFlags(Register rd, Register rn, int32_t value, |
| Condition cond) { |
| ShifterOperand shifter_op; |
| if (ShifterOperandCanHold(rd, rn, ADD, value, &shifter_op)) { |
| adds(rd, rn, shifter_op, cond); |
| } else if (ShifterOperandCanHold(rd, rn, ADD, -value, &shifter_op)) { |
| subs(rd, rn, shifter_op, cond); |
| } else { |
| CHECK(rn != IP); |
| if (ShifterOperandCanHold(rd, rn, MVN, ~value, &shifter_op)) { |
| mvn(IP, shifter_op, cond); |
| adds(rd, rn, ShifterOperand(IP), cond); |
| } else if (ShifterOperandCanHold(rd, rn, MVN, ~(-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 Thumb2Assembler::LoadImmediate(Register rd, int32_t value, Condition cond) { |
| ShifterOperand shifter_op; |
| if (ShifterOperandCanHold(rd, R0, MOV, value, &shifter_op)) { |
| mov(rd, shifter_op, cond); |
| } else if (ShifterOperandCanHold(rd, R0, MVN, ~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); |
| } |
| } |
| } |
| |
| |
| // Implementation note: this method must emit at most one instruction when |
| // Address::CanHoldLoadOffsetThumb. |
| void Thumb2Assembler::LoadFromOffset(LoadOperandType type, |
| Register reg, |
| Register base, |
| int32_t offset, |
| Condition cond) { |
| if (!Address::CanHoldLoadOffsetThumb(type, offset)) { |
| CHECK_NE(base, IP); |
| LoadImmediate(IP, offset, cond); |
| add(IP, IP, ShifterOperand(base), cond); |
| base = IP; |
| offset = 0; |
| } |
| CHECK(Address::CanHoldLoadOffsetThumb(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"; |
| UNREACHABLE(); |
| } |
| } |
| |
| |
| // Implementation note: this method must emit at most one instruction when |
| // Address::CanHoldLoadOffsetThumb, as expected by JIT::GuardedLoadFromOffset. |
| void Thumb2Assembler::LoadSFromOffset(SRegister reg, |
| Register base, |
| int32_t offset, |
| Condition cond) { |
| if (!Address::CanHoldLoadOffsetThumb(kLoadSWord, offset)) { |
| CHECK_NE(base, IP); |
| LoadImmediate(IP, offset, cond); |
| add(IP, IP, ShifterOperand(base), cond); |
| base = IP; |
| offset = 0; |
| } |
| CHECK(Address::CanHoldLoadOffsetThumb(kLoadSWord, offset)); |
| vldrs(reg, Address(base, offset), cond); |
| } |
| |
| |
| // Implementation note: this method must emit at most one instruction when |
| // Address::CanHoldLoadOffsetThumb, as expected by JIT::GuardedLoadFromOffset. |
| void Thumb2Assembler::LoadDFromOffset(DRegister reg, |
| Register base, |
| int32_t offset, |
| Condition cond) { |
| if (!Address::CanHoldLoadOffsetThumb(kLoadDWord, offset)) { |
| CHECK_NE(base, IP); |
| LoadImmediate(IP, offset, cond); |
| add(IP, IP, ShifterOperand(base), cond); |
| base = IP; |
| offset = 0; |
| } |
| CHECK(Address::CanHoldLoadOffsetThumb(kLoadDWord, offset)); |
| vldrd(reg, Address(base, offset), cond); |
| } |
| |
| |
| // Implementation note: this method must emit at most one instruction when |
| // Address::CanHoldStoreOffsetThumb. |
| void Thumb2Assembler::StoreToOffset(StoreOperandType type, |
| Register reg, |
| Register base, |
| int32_t offset, |
| Condition cond) { |
| Register tmp_reg = kNoRegister; |
| if (!Address::CanHoldStoreOffsetThumb(type, offset)) { |
| CHECK_NE(base, IP); |
| if (reg != IP && |
| (type != kStoreWordPair || reg + 1 != IP)) { |
| tmp_reg = IP; |
| } else { |
| // Be careful not to use IP twice (for `reg` (or `reg` + 1 in |
| // the case of a word-pair store)) and to build the Address |
| // object used by the store instruction(s) below). Instead, |
| // save R5 on the stack (or R6 if R5 is not available), use it |
| // as secondary temporary register, and restore it after the |
| // store instruction has been emitted. |
| tmp_reg = base != R5 ? R5 : R6; |
| Push(tmp_reg); |
| if (base == SP) { |
| offset += kRegisterSize; |
| } |
| } |
| LoadImmediate(tmp_reg, offset, cond); |
| add(tmp_reg, tmp_reg, ShifterOperand(base), cond); |
| base = tmp_reg; |
| offset = 0; |
| } |
| CHECK(Address::CanHoldStoreOffsetThumb(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"; |
| UNREACHABLE(); |
| } |
| if (tmp_reg != kNoRegister && tmp_reg != IP) { |
| DCHECK(tmp_reg == R5 || tmp_reg == R6); |
| Pop(tmp_reg); |
| } |
| } |
| |
| |
| // Implementation note: this method must emit at most one instruction when |
| // Address::CanHoldStoreOffsetThumb, as expected by JIT::GuardedStoreToOffset. |
| void Thumb2Assembler::StoreSToOffset(SRegister reg, |
| Register base, |
| int32_t offset, |
| Condition cond) { |
| if (!Address::CanHoldStoreOffsetThumb(kStoreSWord, offset)) { |
| CHECK_NE(base, IP); |
| LoadImmediate(IP, offset, cond); |
| add(IP, IP, ShifterOperand(base), cond); |
| base = IP; |
| offset = 0; |
| } |
| CHECK(Address::CanHoldStoreOffsetThumb(kStoreSWord, offset)); |
| vstrs(reg, Address(base, offset), cond); |
| } |
| |
| |
| // Implementation note: this method must emit at most one instruction when |
| // Address::CanHoldStoreOffsetThumb, as expected by JIT::GuardedStoreSToOffset. |
| void Thumb2Assembler::StoreDToOffset(DRegister reg, |
| Register base, |
| int32_t offset, |
| Condition cond) { |
| if (!Address::CanHoldStoreOffsetThumb(kStoreDWord, offset)) { |
| CHECK_NE(base, IP); |
| LoadImmediate(IP, offset, cond); |
| add(IP, IP, ShifterOperand(base), cond); |
| base = IP; |
| offset = 0; |
| } |
| CHECK(Address::CanHoldStoreOffsetThumb(kStoreDWord, offset)); |
| vstrd(reg, Address(base, offset), cond); |
| } |
| |
| |
| void Thumb2Assembler::MemoryBarrier(ManagedRegister mscratch) { |
| CHECK_EQ(mscratch.AsArm().AsCoreRegister(), R12); |
| dmb(SY); |
| } |
| |
| |
| void Thumb2Assembler::dmb(DmbOptions flavor) { |
| int32_t encoding = 0xf3bf8f50; // dmb in T1 encoding. |
| Emit32(encoding | flavor); |
| } |
| |
| |
| void Thumb2Assembler::CompareAndBranchIfZero(Register r, Label* label) { |
| if (CanRelocateBranches() && IsLowRegister(r) && !label->IsBound()) { |
| cbz(r, label); |
| } else { |
| cmp(r, ShifterOperand(0)); |
| b(label, EQ); |
| } |
| } |
| |
| |
| void Thumb2Assembler::CompareAndBranchIfNonZero(Register r, Label* label) { |
| if (CanRelocateBranches() && IsLowRegister(r) && !label->IsBound()) { |
| cbnz(r, label); |
| } else { |
| cmp(r, ShifterOperand(0)); |
| b(label, NE); |
| } |
| } |
| } // namespace arm |
| } // namespace art |