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// 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.
// +build arm64
package arch
import (
"fmt"
"io"
"syscall"
"gvisor.dev/gvisor/pkg/binary"
"gvisor.dev/gvisor/pkg/cpuid"
"gvisor.dev/gvisor/pkg/log"
rpb "gvisor.dev/gvisor/pkg/sentry/arch/registers_go_proto"
"gvisor.dev/gvisor/pkg/syserror"
"gvisor.dev/gvisor/pkg/usermem"
)
const (
// SyscallWidth is the width of insturctions.
SyscallWidth = 4
)
// ARMTrapFlag is the mask for the trap flag.
const ARMTrapFlag = uint64(1) << 21
// aarch64FPState is aarch64 floating point state.
type aarch64FPState []byte
// initAarch64FPState (defined in asm files) sets up initial state.
func initAarch64FPState(data *FloatingPointData) {
// TODO(gvisor.dev/issue/1238): floating-point is not supported.
}
func newAarch64FPStateSlice() []byte {
return alignedBytes(4096, 32)[:4096]
}
// newAarch64FPState returns an initialized floating point state.
//
// The returned state is large enough to store all floating point state
// supported by host, even if the app won't use much of it due to a restricted
// FeatureSet. Since they may still be able to see state not advertised by
// CPUID we must ensure it does not contain any sentry state.
func newAarch64FPState() aarch64FPState {
f := aarch64FPState(newAarch64FPStateSlice())
initAarch64FPState(f.FloatingPointData())
return f
}
// fork creates and returns an identical copy of the aarch64 floating point state.
func (f aarch64FPState) fork() aarch64FPState {
n := aarch64FPState(newAarch64FPStateSlice())
copy(n, f)
return n
}
// FloatingPointData returns the raw data pointer.
func (f aarch64FPState) FloatingPointData() *FloatingPointData {
return (*FloatingPointData)(&f[0])
}
// NewFloatingPointData returns a new floating point data blob.
//
// This is primarily for use in tests.
func NewFloatingPointData() *FloatingPointData {
return (*FloatingPointData)(&(newAarch64FPState()[0]))
}
// State contains the common architecture bits for aarch64 (the build tag of this
// file ensures it's only built on aarch64).
type State struct {
// The system registers.
Regs syscall.PtraceRegs `state:".(syscallPtraceRegs)"`
// Our floating point state.
aarch64FPState `state:"wait"`
// FeatureSet is a pointer to the currently active feature set.
FeatureSet *cpuid.FeatureSet
}
// 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,
}
return &rpb.Registers{Arch: &rpb.Registers_Arm64{Arm64: regs}}
}
// Fork creates and returns an identical copy of the state.
func (s *State) Fork() State {
// TODO(gvisor.dev/issue/1238): floating-point is not supported.
return State{
Regs: s.Regs,
FeatureSet: s.FeatureSet,
}
}
// 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),
}, nil
}
// PtraceGetRegs implements Context.PtraceGetRegs.
func (s *State) PtraceGetRegs(dst io.Writer) (int, error) {
return dst.Write(binary.Marshal(nil, usermem.ByteOrder, s.ptraceGetRegs()))
}
func (s *State) ptraceGetRegs() syscall.PtraceRegs {
return s.Regs
}
var ptraceRegsSize = int(binary.Size(syscall.PtraceRegs{}))
// PtraceSetRegs implements Context.PtraceSetRegs.
func (s *State) PtraceSetRegs(src io.Reader) (int, error) {
var regs syscall.PtraceRegs
buf := make([]byte, ptraceRegsSize)
if _, err := io.ReadFull(src, buf); err != nil {
return 0, err
}
binary.Unmarshal(buf, usermem.ByteOrder, ®s)
s.Regs = regs
return ptraceRegsSize, 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
)
// PtraceGetRegSet implements Context.PtraceGetRegSet.
func (s *State) PtraceGetRegSet(regset uintptr, dst io.Writer, maxlen int) (int, error) {
switch regset {
case _NT_PRSTATUS:
if maxlen < ptraceRegsSize {
return 0, syserror.EFAULT
}
return s.PtraceGetRegs(dst)
default:
return 0, syserror.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 < ptraceRegsSize {
return 0, syserror.EFAULT
}
return s.PtraceSetRegs(src)
default:
return 0, syserror.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{
FeatureSet: fs,
},
}
}
panic(fmt.Sprintf("unknown architecture %v", arch))
}
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