/* * Copyright (C) 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include namespace unwindstack { RegsArm64::RegsArm64() : RegsImpl(ARM64_REG_LAST, Location(LOCATION_REGISTER, ARM64_REG_LR)) { ResetPseudoRegisters(); pac_mask_ = 0; } ArchEnum RegsArm64::Arch() { return ARCH_ARM64; } uint64_t RegsArm64::pc() { return regs_[ARM64_REG_PC]; } uint64_t RegsArm64::sp() { return regs_[ARM64_REG_SP]; } void RegsArm64::set_pc(uint64_t pc) { // If the target is aarch64 then the return address may have been // signed using the Armv8.3-A Pointer Authentication extension. The // original return address can be restored by stripping out the // authentication code using a mask or xpaclri. xpaclri is a NOP on // pre-Armv8.3-A architectures. if ((0 != pc) && IsRASigned()) { if (pac_mask_) { pc &= ~pac_mask_; } } regs_[ARM64_REG_PC] = pc; } void RegsArm64::set_sp(uint64_t sp) { regs_[ARM64_REG_SP] = sp; } bool RegsArm64::SetPcFromReturnAddress(Memory*) { uint64_t lr = regs_[ARM64_REG_LR]; if (regs_[ARM64_REG_PC] == lr) { return false; } regs_[ARM64_REG_PC] = lr; return true; } void RegsArm64::IterateRegisters(std::function fn) { fn("x0", regs_[ARM64_REG_R0]); fn("x1", regs_[ARM64_REG_R1]); fn("x2", regs_[ARM64_REG_R2]); fn("x3", regs_[ARM64_REG_R3]); fn("x4", regs_[ARM64_REG_R4]); fn("x5", regs_[ARM64_REG_R5]); fn("x6", regs_[ARM64_REG_R6]); fn("x7", regs_[ARM64_REG_R7]); fn("x8", regs_[ARM64_REG_R8]); fn("x9", regs_[ARM64_REG_R9]); fn("x10", regs_[ARM64_REG_R10]); fn("x11", regs_[ARM64_REG_R11]); fn("x12", regs_[ARM64_REG_R12]); fn("x13", regs_[ARM64_REG_R13]); fn("x14", regs_[ARM64_REG_R14]); fn("x15", regs_[ARM64_REG_R15]); fn("x16", regs_[ARM64_REG_R16]); fn("x17", regs_[ARM64_REG_R17]); fn("x18", regs_[ARM64_REG_R18]); fn("x19", regs_[ARM64_REG_R19]); fn("x20", regs_[ARM64_REG_R20]); fn("x21", regs_[ARM64_REG_R21]); fn("x22", regs_[ARM64_REG_R22]); fn("x23", regs_[ARM64_REG_R23]); fn("x24", regs_[ARM64_REG_R24]); fn("x25", regs_[ARM64_REG_R25]); fn("x26", regs_[ARM64_REG_R26]); fn("x27", regs_[ARM64_REG_R27]); fn("x28", regs_[ARM64_REG_R28]); fn("x29", regs_[ARM64_REG_R29]); fn("lr", regs_[ARM64_REG_LR]); fn("sp", regs_[ARM64_REG_SP]); fn("pc", regs_[ARM64_REG_PC]); fn("pst", regs_[ARM64_REG_PSTATE]); } Regs* RegsArm64::Read(void* remote_data) { arm64_user_regs* user = reinterpret_cast(remote_data); RegsArm64* regs = new RegsArm64(); memcpy(regs->RawData(), &user->regs[0], (ARM64_REG_R30 + 1) * sizeof(uint64_t)); uint64_t* reg_data = reinterpret_cast(regs->RawData()); reg_data[ARM64_REG_SP] = user->sp; reg_data[ARM64_REG_PC] = user->pc; reg_data[ARM64_REG_PSTATE] = user->pstate; return regs; } Regs* RegsArm64::CreateFromUcontext(void* ucontext) { arm64_ucontext_t* arm64_ucontext = reinterpret_cast(ucontext); RegsArm64* regs = new RegsArm64(); memcpy(regs->RawData(), &arm64_ucontext->uc_mcontext.regs[0], ARM64_REG_LAST * sizeof(uint64_t)); return regs; } bool RegsArm64::StepIfSignalHandler(uint64_t elf_offset, Elf* elf, Memory* process_memory) { uint64_t data; Memory* elf_memory = elf->memory(); // Read from elf memory since it is usually more expensive to read from // process memory. if (!elf_memory->ReadFully(elf_offset, &data, sizeof(data))) { return false; } // Look for the kernel sigreturn function. // __kernel_rt_sigreturn: // 0xd2801168 mov x8, #0x8b // 0xd4000001 svc #0x0 if (data != 0xd4000001d2801168ULL) { return false; } // SP + sizeof(siginfo_t) + uc_mcontext offset + X0 offset. if (!process_memory->ReadFully(regs_[ARM64_REG_SP] + 0x80 + 0xb0 + 0x08, regs_.data(), sizeof(uint64_t) * ARM64_REG_LAST)) { return false; } return true; } void RegsArm64::ResetPseudoRegisters(void) { // DWARF for AArch64 says RA_SIGN_STATE should be initialized to 0. this->SetPseudoRegister(Arm64Reg::ARM64_PREG_RA_SIGN_STATE, 0); } bool RegsArm64::SetPseudoRegister(uint16_t id, uint64_t value) { if ((id >= Arm64Reg::ARM64_PREG_FIRST) && (id < Arm64Reg::ARM64_PREG_LAST)) { pseudo_regs_[id - Arm64Reg::ARM64_PREG_FIRST] = value; return true; } return false; } bool RegsArm64::GetPseudoRegister(uint16_t id, uint64_t* value) { if ((id >= Arm64Reg::ARM64_PREG_FIRST) && (id < Arm64Reg::ARM64_PREG_LAST)) { *value = pseudo_regs_[id - Arm64Reg::ARM64_PREG_FIRST]; return true; } return false; } bool RegsArm64::IsRASigned() { uint64_t value; auto result = this->GetPseudoRegister(Arm64Reg::ARM64_PREG_RA_SIGN_STATE, &value); return (result && (value != 0)); } void RegsArm64::SetPACMask(uint64_t mask) { pac_mask_ = mask; } Regs* RegsArm64::Clone() { return new RegsArm64(*this); } } // namespace unwindstack