// Copyright 2020 The gVisor Authors. // // 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. //go:build arm64 // +build arm64 package arch import ( "fmt" "io" "gvisor.dev/gvisor/pkg/abi/linux" "gvisor.dev/gvisor/pkg/cpuid" "gvisor.dev/gvisor/pkg/errors/linuxerr" "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/sentry/arch/fpu" rpb "gvisor.dev/gvisor/pkg/sentry/arch/registers_go_proto" ) // Registers represents the CPU registers for this architecture. // // +stateify savable type Registers struct { linux.PtraceRegs // TPIDR_EL0 is the EL0 Read/Write Software Thread ID Register. TPIDR_EL0 uint64 } const ( // SyscallWidth is the width of insturctions. SyscallWidth = 4 ) // ARMTrapFlag is the mask for the trap flag. const ARMTrapFlag = uint64(1) << 21 // State contains the common architecture bits for aarch64 (the build tag of this // file ensures it's only built on aarch64). // // +stateify savable type State struct { // The system registers. Regs Registers // Our floating point state. fpState fpu.State `state:"wait"` // FeatureSet is a pointer to the currently active feature set. FeatureSet *cpuid.FeatureSet // OrigR0 stores the value of register R0. OrigR0 uint64 } // Proto returns a protobuf representation of the system registers in State. func (s State) Proto() *rpb.Registers { regs := &rpb.ARM64Registers{ R0: s.Regs.Regs[0], R1: s.Regs.Regs[1], R2: s.Regs.Regs[2], R3: s.Regs.Regs[3], R4: s.Regs.Regs[4], R5: s.Regs.Regs[5], R6: s.Regs.Regs[6], R7: s.Regs.Regs[7], R8: s.Regs.Regs[8], R9: s.Regs.Regs[9], R10: s.Regs.Regs[10], R11: s.Regs.Regs[11], R12: s.Regs.Regs[12], R13: s.Regs.Regs[13], R14: s.Regs.Regs[14], R15: s.Regs.Regs[15], R16: s.Regs.Regs[16], R17: s.Regs.Regs[17], R18: s.Regs.Regs[18], R19: s.Regs.Regs[19], R20: s.Regs.Regs[20], R21: s.Regs.Regs[21], R22: s.Regs.Regs[22], R23: s.Regs.Regs[23], R24: s.Regs.Regs[24], R25: s.Regs.Regs[25], R26: s.Regs.Regs[26], R27: s.Regs.Regs[27], R28: s.Regs.Regs[28], R29: s.Regs.Regs[29], R30: s.Regs.Regs[30], Sp: s.Regs.Sp, Pc: s.Regs.Pc, Pstate: s.Regs.Pstate, Tls: s.Regs.TPIDR_EL0, } return &rpb.Registers{Arch: &rpb.Registers_Arm64{Arm64: regs}} } // Fork creates and returns an identical copy of the state. func (s *State) Fork() State { return State{ Regs: s.Regs, fpState: s.fpState.Fork(), FeatureSet: s.FeatureSet, OrigR0: s.OrigR0, } } // StateData implements Context.StateData. func (s *State) StateData() *State { return s } // CPUIDEmulate emulates a cpuid instruction. func (s *State) CPUIDEmulate(l log.Logger) { // TODO(gvisor.dev/issue/1255): cpuid is not supported. } // SingleStep implements Context.SingleStep. func (s *State) SingleStep() bool { return false } // SetSingleStep enables single stepping. func (s *State) SetSingleStep() { // Set the trap flag. // TODO(gvisor.dev/issue/1239): ptrace single-step is not supported. } // ClearSingleStep enables single stepping. func (s *State) ClearSingleStep() { // Clear the trap flag. // TODO(gvisor.dev/issue/1239): ptrace single-step is not supported. } // RegisterMap returns a map of all registers. func (s *State) RegisterMap() (map[string]uintptr, error) { return map[string]uintptr{ "R0": uintptr(s.Regs.Regs[0]), "R1": uintptr(s.Regs.Regs[1]), "R2": uintptr(s.Regs.Regs[2]), "R3": uintptr(s.Regs.Regs[3]), "R4": uintptr(s.Regs.Regs[4]), "R5": uintptr(s.Regs.Regs[5]), "R6": uintptr(s.Regs.Regs[6]), "R7": uintptr(s.Regs.Regs[7]), "R8": uintptr(s.Regs.Regs[8]), "R9": uintptr(s.Regs.Regs[9]), "R10": uintptr(s.Regs.Regs[10]), "R11": uintptr(s.Regs.Regs[11]), "R12": uintptr(s.Regs.Regs[12]), "R13": uintptr(s.Regs.Regs[13]), "R14": uintptr(s.Regs.Regs[14]), "R15": uintptr(s.Regs.Regs[15]), "R16": uintptr(s.Regs.Regs[16]), "R17": uintptr(s.Regs.Regs[17]), "R18": uintptr(s.Regs.Regs[18]), "R19": uintptr(s.Regs.Regs[19]), "R20": uintptr(s.Regs.Regs[20]), "R21": uintptr(s.Regs.Regs[21]), "R22": uintptr(s.Regs.Regs[22]), "R23": uintptr(s.Regs.Regs[23]), "R24": uintptr(s.Regs.Regs[24]), "R25": uintptr(s.Regs.Regs[25]), "R26": uintptr(s.Regs.Regs[26]), "R27": uintptr(s.Regs.Regs[27]), "R28": uintptr(s.Regs.Regs[28]), "R29": uintptr(s.Regs.Regs[29]), "R30": uintptr(s.Regs.Regs[30]), "Sp": uintptr(s.Regs.Sp), "Pc": uintptr(s.Regs.Pc), "Pstate": uintptr(s.Regs.Pstate), "Tls": uintptr(s.Regs.TPIDR_EL0), }, nil } // PtraceGetRegs implements Context.PtraceGetRegs. func (s *State) PtraceGetRegs(dst io.Writer) (int, error) { regs := s.ptraceGetRegs() n, err := regs.WriteTo(dst) return int(n), err } func (s *State) ptraceGetRegs() Registers { return s.Regs } var ptraceRegistersSize = (*linux.PtraceRegs)(nil).SizeBytes() // PtraceSetRegs implements Context.PtraceSetRegs. func (s *State) PtraceSetRegs(src io.Reader) (int, error) { var regs Registers buf := make([]byte, ptraceRegistersSize) if _, err := io.ReadFull(src, buf); err != nil { return 0, err } regs.UnmarshalUnsafe(buf) s.Regs = regs return ptraceRegistersSize, nil } // PtraceGetFPRegs implements Context.PtraceGetFPRegs. func (s *State) PtraceGetFPRegs(dst io.Writer) (int, error) { // TODO(gvisor.dev/issue/1238): floating-point is not supported. return 0, nil } // PtraceSetFPRegs implements Context.PtraceSetFPRegs. func (s *State) PtraceSetFPRegs(src io.Reader) (int, error) { // TODO(gvisor.dev/issue/1238): floating-point is not supported. return 0, nil } // Register sets defined in include/uapi/linux/elf.h. const ( _NT_PRSTATUS = 1 _NT_PRFPREG = 2 _NT_ARM_TLS = 0x401 ) // PtraceGetRegSet implements Context.PtraceGetRegSet. func (s *State) PtraceGetRegSet(regset uintptr, dst io.Writer, maxlen int) (int, error) { switch regset { case _NT_PRSTATUS: if maxlen < ptraceRegistersSize { return 0, linuxerr.EFAULT } return s.PtraceGetRegs(dst) default: return 0, linuxerr.EINVAL } } // PtraceSetRegSet implements Context.PtraceSetRegSet. func (s *State) PtraceSetRegSet(regset uintptr, src io.Reader, maxlen int) (int, error) { switch regset { case _NT_PRSTATUS: if maxlen < ptraceRegistersSize { return 0, linuxerr.EFAULT } return s.PtraceSetRegs(src) default: return 0, linuxerr.EINVAL } } // FullRestore indicates whether a full restore is required. func (s *State) FullRestore() bool { return false } // New returns a new architecture context. func New(arch Arch, fs *cpuid.FeatureSet) Context { switch arch { case ARM64: return &context64{ State{ fpState: fpu.NewState(), FeatureSet: fs, }, []fpu.State(nil), } } panic(fmt.Sprintf("unknown architecture %v", arch)) }