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authorlubinszARM <34124929+lubinszARM@users.noreply.github.com>2020-01-14 22:22:45 -0800
committergVisor bot <gvisor-bot@google.com>2020-01-14 22:24:28 -0800
commitff78a721700f8b7d3c8dae14fc14c04f3a82b970 (patch)
treef72d2a237887ae684bc8660707e6d1b9a915b987 /pkg/sentry/arch
parenta611fdaee3c14abe2222140ae0a8a742ebfd31ab (diff)
enable pkg/sentry/arch to support arm64 basically
Signed-off-by: Bin Lu <bin.lu@arm.com> Change-Id: I9cce23db4e5caec82ce42b4970fdb7f7e8c08f1d COPYBARA_INTEGRATE_REVIEW=https://github.com/google/gvisor/pull/773 from lubinszARM:pr_arch_basic 3fe2fd8e6286766bbe489ef971dce204f924feba PiperOrigin-RevId: 289795569
Diffstat (limited to 'pkg/sentry/arch')
-rw-r--r--pkg/sentry/arch/BUILD6
-rw-r--r--pkg/sentry/arch/arch_aarch64.go293
-rw-r--r--pkg/sentry/arch/arch_arm64.go266
-rw-r--r--pkg/sentry/arch/arch_state_aarch64.go38
-rw-r--r--pkg/sentry/arch/arch_state_x86.go2
-rw-r--r--pkg/sentry/arch/registers.proto37
-rw-r--r--pkg/sentry/arch/signal.go250
-rw-r--r--pkg/sentry/arch/signal_amd64.go230
-rw-r--r--pkg/sentry/arch/signal_arm64.go126
-rw-r--r--pkg/sentry/arch/signal_stack.go2
-rw-r--r--pkg/sentry/arch/syscalls_arm64.go62
11 files changed, 1081 insertions, 231 deletions
diff --git a/pkg/sentry/arch/BUILD b/pkg/sentry/arch/BUILD
index ae3e364cd..65f22af2b 100644
--- a/pkg/sentry/arch/BUILD
+++ b/pkg/sentry/arch/BUILD
@@ -9,17 +9,23 @@ go_library(
srcs = [
"aligned.go",
"arch.go",
+ "arch_aarch64.go",
"arch_amd64.go",
"arch_amd64.s",
+ "arch_arm64.go",
+ "arch_state_aarch64.go",
"arch_state_x86.go",
"arch_x86.go",
"auxv.go",
+ "signal.go",
"signal_act.go",
"signal_amd64.go",
+ "signal_arm64.go",
"signal_info.go",
"signal_stack.go",
"stack.go",
"syscalls_amd64.go",
+ "syscalls_arm64.go",
],
importpath = "gvisor.dev/gvisor/pkg/sentry/arch",
visibility = ["//:sandbox"],
diff --git a/pkg/sentry/arch/arch_aarch64.go b/pkg/sentry/arch/arch_aarch64.go
new file mode 100644
index 000000000..ea4dedbdf
--- /dev/null
+++ b/pkg/sentry/arch/arch_aarch64.go
@@ -0,0 +1,293 @@
+// 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/sentry/usermem"
+ "gvisor.dev/gvisor/pkg/syserror"
+)
+
+const (
+ // SyscallWidth is the width of insturctions.
+ SyscallWidth = 4
+)
+
+// 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, &regs)
+ 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))
+}
diff --git a/pkg/sentry/arch/arch_arm64.go b/pkg/sentry/arch/arch_arm64.go
new file mode 100644
index 000000000..0d5b7d317
--- /dev/null
+++ b/pkg/sentry/arch/arch_arm64.go
@@ -0,0 +1,266 @@
+// 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.
+
+package arch
+
+import (
+ "fmt"
+ "math/rand"
+ "syscall"
+
+ "gvisor.dev/gvisor/pkg/cpuid"
+ "gvisor.dev/gvisor/pkg/sentry/limits"
+ "gvisor.dev/gvisor/pkg/sentry/usermem"
+)
+
+// Host specifies the host architecture.
+const Host = ARM64
+
+// These constants come directly from Linux.
+const (
+ // maxAddr64 is the maximum userspace address. It is TASK_SIZE in Linux
+ // for a 64-bit process.
+ maxAddr64 usermem.Addr = (1 << 48)
+
+ // maxStackRand64 is the maximum randomization to apply to the stack.
+ // It is defined by arch/arm64/mm/mmap.c:(STACK_RND_MASK << PAGE_SHIFT) in Linux.
+ maxStackRand64 = 0x3ffff << 12 // 16 GB
+
+ // maxMmapRand64 is the maximum randomization to apply to the mmap
+ // layout. It is defined by arch/arm64/mm/mmap.c:arch_mmap_rnd in Linux.
+ maxMmapRand64 = (1 << 33) * usermem.PageSize
+
+ // minGap64 is the minimum gap to leave at the top of the address space
+ // for the stack. It is defined by arch/arm64/mm/mmap.c:MIN_GAP in Linux.
+ minGap64 = (128 << 20) + maxStackRand64
+
+ // preferredPIELoadAddr is the standard Linux position-independent
+ // executable base load address. It is ELF_ET_DYN_BASE in Linux.
+ //
+ // The Platform {Min,Max}UserAddress() may preclude loading at this
+ // address. See other preferredFoo comments below.
+ preferredPIELoadAddr usermem.Addr = maxAddr64 / 6 * 5
+)
+
+// These constants are selected as heuristics to help make the Platform's
+// potentially limited address space conform as closely to Linux as possible.
+const (
+ preferredTopDownAllocMin usermem.Addr = 0x7e8000000000
+ preferredAllocationGap = 128 << 30 // 128 GB
+ preferredTopDownBaseMin = preferredTopDownAllocMin + preferredAllocationGap
+
+ // minMmapRand64 is the smallest we are willing to make the
+ // randomization to stay above preferredTopDownBaseMin.
+ minMmapRand64 = (1 << 18) * usermem.PageSize
+)
+
+// context64 represents an ARM64 context.
+type context64 struct {
+ State
+}
+
+// Arch implements Context.Arch.
+func (c *context64) Arch() Arch {
+ return ARM64
+}
+
+// Fork returns an exact copy of this context.
+func (c *context64) Fork() Context {
+ return &context64{
+ State: c.State.Fork(),
+ }
+}
+
+// General purpose registers usage on Arm64:
+// R0...R7: parameter/result registers.
+// R8: indirect result location register.
+// R9...R15: temporary rgisters.
+// R16: the first intra-procedure-call scratch register.
+// R17: the second intra-procedure-call scratch register.
+// R18: the platform register.
+// R19...R28: callee-saved registers.
+// R29: the frame pointer.
+// R30: the link register.
+
+// Return returns the current syscall return value.
+func (c *context64) Return() uintptr {
+ return uintptr(c.Regs.Regs[0])
+}
+
+// SetReturn sets the syscall return value.
+func (c *context64) SetReturn(value uintptr) {
+ c.Regs.Regs[0] = uint64(value)
+}
+
+// IP returns the current instruction pointer.
+func (c *context64) IP() uintptr {
+ return uintptr(c.Regs.Pc)
+}
+
+// SetIP sets the current instruction pointer.
+func (c *context64) SetIP(value uintptr) {
+ c.Regs.Pc = uint64(value)
+}
+
+// Stack returns the current stack pointer.
+func (c *context64) Stack() uintptr {
+ return uintptr(c.Regs.Sp)
+}
+
+// SetStack sets the current stack pointer.
+func (c *context64) SetStack(value uintptr) {
+ c.Regs.Sp = uint64(value)
+}
+
+// TLS returns the current TLS pointer.
+func (c *context64) TLS() uintptr {
+ // TODO(gvisor.dev/issue/1238): TLS is not supported.
+ // MRS_TPIDR_EL0
+ return 0
+}
+
+// SetTLS sets the current TLS pointer. Returns false if value is invalid.
+func (c *context64) SetTLS(value uintptr) bool {
+ // TODO(gvisor.dev/issue/1238): TLS is not supported.
+ // MSR_TPIDR_EL0
+ return false
+}
+
+// SetRSEQInterruptedIP implements Context.SetRSEQInterruptedIP.
+func (c *context64) SetRSEQInterruptedIP(value uintptr) {
+ c.Regs.Regs[3] = uint64(value)
+}
+
+// Native returns the native type for the given val.
+func (c *context64) Native(val uintptr) interface{} {
+ v := uint64(val)
+ return &v
+}
+
+// Value returns the generic val for the given native type.
+func (c *context64) Value(val interface{}) uintptr {
+ return uintptr(*val.(*uint64))
+}
+
+// Width returns the byte width of this architecture.
+func (c *context64) Width() uint {
+ return 8
+}
+
+// FeatureSet returns the FeatureSet in use.
+func (c *context64) FeatureSet() *cpuid.FeatureSet {
+ return c.State.FeatureSet
+}
+
+// mmapRand returns a random adjustment for randomizing an mmap layout.
+func mmapRand(max uint64) usermem.Addr {
+ return usermem.Addr(rand.Int63n(int64(max))).RoundDown()
+}
+
+// NewMmapLayout implements Context.NewMmapLayout consistently with Linux.
+func (c *context64) NewMmapLayout(min, max usermem.Addr, r *limits.LimitSet) (MmapLayout, error) {
+ min, ok := min.RoundUp()
+ if !ok {
+ return MmapLayout{}, syscall.EINVAL
+ }
+ if max > maxAddr64 {
+ max = maxAddr64
+ }
+ max = max.RoundDown()
+
+ if min > max {
+ return MmapLayout{}, syscall.EINVAL
+ }
+
+ stackSize := r.Get(limits.Stack)
+
+ // MAX_GAP in Linux.
+ maxGap := (max / 6) * 5
+ gap := usermem.Addr(stackSize.Cur)
+ if gap < minGap64 {
+ gap = minGap64
+ }
+ if gap > maxGap {
+ gap = maxGap
+ }
+ defaultDir := MmapTopDown
+ if stackSize.Cur == limits.Infinity {
+ defaultDir = MmapBottomUp
+ }
+
+ topDownMin := max - gap - maxMmapRand64
+ maxRand := usermem.Addr(maxMmapRand64)
+ if topDownMin < preferredTopDownBaseMin {
+ // Try to keep TopDownBase above preferredTopDownBaseMin by
+ // shrinking maxRand.
+ maxAdjust := maxRand - minMmapRand64
+ needAdjust := preferredTopDownBaseMin - topDownMin
+ if needAdjust <= maxAdjust {
+ maxRand -= needAdjust
+ }
+ }
+
+ rnd := mmapRand(uint64(maxRand))
+ l := MmapLayout{
+ MinAddr: min,
+ MaxAddr: max,
+ // TASK_UNMAPPED_BASE in Linux.
+ BottomUpBase: (max/3 + rnd).RoundDown(),
+ TopDownBase: (max - gap - rnd).RoundDown(),
+ DefaultDirection: defaultDir,
+ // We may have reduced the maximum randomization to keep
+ // TopDownBase above preferredTopDownBaseMin while maintaining
+ // our stack gap. Stack allocations must use that max
+ // randomization to avoiding eating into the gap.
+ MaxStackRand: uint64(maxRand),
+ }
+
+ // Final sanity check on the layout.
+ if !l.Valid() {
+ panic(fmt.Sprintf("Invalid MmapLayout: %+v", l))
+ }
+
+ return l, nil
+}
+
+// PIELoadAddress implements Context.PIELoadAddress.
+func (c *context64) PIELoadAddress(l MmapLayout) usermem.Addr {
+ base := preferredPIELoadAddr
+ max, ok := base.AddLength(maxMmapRand64)
+ if !ok {
+ panic(fmt.Sprintf("preferredPIELoadAddr %#x too large", base))
+ }
+
+ if max > l.MaxAddr {
+ // preferredPIELoadAddr won't fit; fall back to the standard
+ // Linux behavior of 2/3 of TopDownBase. TSAN won't like this.
+ //
+ // Don't bother trying to shrink the randomization for now.
+ base = l.TopDownBase / 3 * 2
+ }
+
+ return base + mmapRand(maxMmapRand64)
+}
+
+// PtracePeekUser implements Context.PtracePeekUser.
+func (c *context64) PtracePeekUser(addr uintptr) (interface{}, error) {
+ // TODO(gvisor.dev/issue/1239): Full ptrace supporting for Arm64.
+ return c.Native(0), nil
+}
+
+// PtracePokeUser implements Context.PtracePokeUser.
+func (c *context64) PtracePokeUser(addr, data uintptr) error {
+ // TODO(gvisor.dev/issue/1239): Full ptrace supporting for Arm64.
+ return nil
+}
diff --git a/pkg/sentry/arch/arch_state_aarch64.go b/pkg/sentry/arch/arch_state_aarch64.go
new file mode 100644
index 000000000..0136a85ad
--- /dev/null
+++ b/pkg/sentry/arch/arch_state_aarch64.go
@@ -0,0 +1,38 @@
+// 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 (
+ "syscall"
+)
+
+type syscallPtraceRegs struct {
+ Regs [31]uint64
+ Sp uint64
+ Pc uint64
+ Pstate uint64
+}
+
+// saveRegs is invoked by stateify.
+func (s *State) saveRegs() syscallPtraceRegs {
+ return syscallPtraceRegs(s.Regs)
+}
+
+// loadRegs is invoked by stateify.
+func (s *State) loadRegs(r syscallPtraceRegs) {
+ s.Regs = syscall.PtraceRegs(r)
+}
diff --git a/pkg/sentry/arch/arch_state_x86.go b/pkg/sentry/arch/arch_state_x86.go
index 9061fcc86..84f11b0d1 100644
--- a/pkg/sentry/arch/arch_state_x86.go
+++ b/pkg/sentry/arch/arch_state_x86.go
@@ -12,6 +12,8 @@
// See the License for the specific language governing permissions and
// limitations under the License.
+// +build amd64 i386
+
package arch
import (
diff --git a/pkg/sentry/arch/registers.proto b/pkg/sentry/arch/registers.proto
index 9dc83e241..60c027aab 100644
--- a/pkg/sentry/arch/registers.proto
+++ b/pkg/sentry/arch/registers.proto
@@ -48,8 +48,45 @@ message AMD64Registers {
uint64 gs_base = 27;
}
+message ARM64Registers {
+ uint64 r0 = 1;
+ uint64 r1 = 2;
+ uint64 r2 = 3;
+ uint64 r3 = 4;
+ uint64 r4 = 5;
+ uint64 r5 = 6;
+ uint64 r6 = 7;
+ uint64 r7 = 8;
+ uint64 r8 = 9;
+ uint64 r9 = 10;
+ uint64 r10 = 11;
+ uint64 r11 = 12;
+ uint64 r12 = 13;
+ uint64 r13 = 14;
+ uint64 r14 = 15;
+ uint64 r15 = 16;
+ uint64 r16 = 17;
+ uint64 r17 = 18;
+ uint64 r18 = 19;
+ uint64 r19 = 20;
+ uint64 r20 = 21;
+ uint64 r21 = 22;
+ uint64 r22 = 23;
+ uint64 r23 = 24;
+ uint64 r24 = 25;
+ uint64 r25 = 26;
+ uint64 r26 = 27;
+ uint64 r27 = 28;
+ uint64 r28 = 29;
+ uint64 r29 = 30;
+ uint64 r30 = 31;
+ uint64 sp = 32;
+ uint64 pc = 33;
+ uint64 pstate = 34;
+}
message Registers {
oneof arch {
AMD64Registers amd64 = 1;
+ ARM64Registers arm64 = 2;
}
}
diff --git a/pkg/sentry/arch/signal.go b/pkg/sentry/arch/signal.go
new file mode 100644
index 000000000..402e46025
--- /dev/null
+++ b/pkg/sentry/arch/signal.go
@@ -0,0 +1,250 @@
+// 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.
+
+package arch
+
+import (
+ "gvisor.dev/gvisor/pkg/abi/linux"
+ "gvisor.dev/gvisor/pkg/sentry/usermem"
+)
+
+// SignalAct represents the action that should be taken when a signal is
+// delivered, and is equivalent to struct sigaction.
+//
+// +stateify savable
+type SignalAct struct {
+ Handler uint64
+ Flags uint64
+ Restorer uint64 // Only used on amd64.
+ Mask linux.SignalSet
+}
+
+// SerializeFrom implements NativeSignalAct.SerializeFrom.
+func (s *SignalAct) SerializeFrom(other *SignalAct) {
+ *s = *other
+}
+
+// DeserializeTo implements NativeSignalAct.DeserializeTo.
+func (s *SignalAct) DeserializeTo(other *SignalAct) {
+ *other = *s
+}
+
+// SignalStack represents information about a user stack, and is equivalent to
+// stack_t.
+//
+// +stateify savable
+type SignalStack struct {
+ Addr uint64
+ Flags uint32
+ _ uint32
+ Size uint64
+}
+
+// SerializeFrom implements NativeSignalStack.SerializeFrom.
+func (s *SignalStack) SerializeFrom(other *SignalStack) {
+ *s = *other
+}
+
+// DeserializeTo implements NativeSignalStack.DeserializeTo.
+func (s *SignalStack) DeserializeTo(other *SignalStack) {
+ *other = *s
+}
+
+// SignalInfo represents information about a signal being delivered, and is
+// equivalent to struct siginfo in linux kernel(linux/include/uapi/asm-generic/siginfo.h).
+//
+// +stateify savable
+type SignalInfo struct {
+ Signo int32 // Signal number
+ Errno int32 // Errno value
+ Code int32 // Signal code
+ _ uint32
+
+ // struct siginfo::_sifields is a union. In SignalInfo, fields in the union
+ // are accessed through methods.
+ //
+ // For reference, here is the definition of _sifields: (_sigfault._trapno,
+ // which does not exist on x86, omitted for clarity)
+ //
+ // union {
+ // int _pad[SI_PAD_SIZE];
+ //
+ // /* kill() */
+ // struct {
+ // __kernel_pid_t _pid; /* sender's pid */
+ // __ARCH_SI_UID_T _uid; /* sender's uid */
+ // } _kill;
+ //
+ // /* POSIX.1b timers */
+ // struct {
+ // __kernel_timer_t _tid; /* timer id */
+ // int _overrun; /* overrun count */
+ // char _pad[sizeof( __ARCH_SI_UID_T) - sizeof(int)];
+ // sigval_t _sigval; /* same as below */
+ // int _sys_private; /* not to be passed to user */
+ // } _timer;
+ //
+ // /* POSIX.1b signals */
+ // struct {
+ // __kernel_pid_t _pid; /* sender's pid */
+ // __ARCH_SI_UID_T _uid; /* sender's uid */
+ // sigval_t _sigval;
+ // } _rt;
+ //
+ // /* SIGCHLD */
+ // struct {
+ // __kernel_pid_t _pid; /* which child */
+ // __ARCH_SI_UID_T _uid; /* sender's uid */
+ // int _status; /* exit code */
+ // __ARCH_SI_CLOCK_T _utime;
+ // __ARCH_SI_CLOCK_T _stime;
+ // } _sigchld;
+ //
+ // /* SIGILL, SIGFPE, SIGSEGV, SIGBUS */
+ // struct {
+ // void *_addr; /* faulting insn/memory ref. */
+ // short _addr_lsb; /* LSB of the reported address */
+ // } _sigfault;
+ //
+ // /* SIGPOLL */
+ // struct {
+ // __ARCH_SI_BAND_T _band; /* POLL_IN, POLL_OUT, POLL_MSG */
+ // int _fd;
+ // } _sigpoll;
+ //
+ // /* SIGSYS */
+ // struct {
+ // void *_call_addr; /* calling user insn */
+ // int _syscall; /* triggering system call number */
+ // unsigned int _arch; /* AUDIT_ARCH_* of syscall */
+ // } _sigsys;
+ // } _sifields;
+ //
+ // _sifields is padded so that the size of siginfo is SI_MAX_SIZE = 128
+ // bytes.
+ Fields [128 - 16]byte
+}
+
+// FixSignalCodeForUser fixes up si_code.
+//
+// The si_code we get from Linux may contain the kernel-specific code in the
+// top 16 bits if it's positive (e.g., from ptrace). Linux's
+// copy_siginfo_to_user does
+// err |= __put_user((short)from->si_code, &to->si_code);
+// to mask out those bits and we need to do the same.
+func (s *SignalInfo) FixSignalCodeForUser() {
+ if s.Code > 0 {
+ s.Code &= 0x0000ffff
+ }
+}
+
+// Pid returns the si_pid field.
+func (s *SignalInfo) Pid() int32 {
+ return int32(usermem.ByteOrder.Uint32(s.Fields[0:4]))
+}
+
+// SetPid mutates the si_pid field.
+func (s *SignalInfo) SetPid(val int32) {
+ usermem.ByteOrder.PutUint32(s.Fields[0:4], uint32(val))
+}
+
+// Uid returns the si_uid field.
+func (s *SignalInfo) Uid() int32 {
+ return int32(usermem.ByteOrder.Uint32(s.Fields[4:8]))
+}
+
+// SetUid mutates the si_uid field.
+func (s *SignalInfo) SetUid(val int32) {
+ usermem.ByteOrder.PutUint32(s.Fields[4:8], uint32(val))
+}
+
+// Sigval returns the sigval field, which is aliased to both si_int and si_ptr.
+func (s *SignalInfo) Sigval() uint64 {
+ return usermem.ByteOrder.Uint64(s.Fields[8:16])
+}
+
+// SetSigval mutates the sigval field.
+func (s *SignalInfo) SetSigval(val uint64) {
+ usermem.ByteOrder.PutUint64(s.Fields[8:16], val)
+}
+
+// TimerID returns the si_timerid field.
+func (s *SignalInfo) TimerID() linux.TimerID {
+ return linux.TimerID(usermem.ByteOrder.Uint32(s.Fields[0:4]))
+}
+
+// SetTimerID sets the si_timerid field.
+func (s *SignalInfo) SetTimerID(val linux.TimerID) {
+ usermem.ByteOrder.PutUint32(s.Fields[0:4], uint32(val))
+}
+
+// Overrun returns the si_overrun field.
+func (s *SignalInfo) Overrun() int32 {
+ return int32(usermem.ByteOrder.Uint32(s.Fields[4:8]))
+}
+
+// SetOverrun sets the si_overrun field.
+func (s *SignalInfo) SetOverrun(val int32) {
+ usermem.ByteOrder.PutUint32(s.Fields[4:8], uint32(val))
+}
+
+// Addr returns the si_addr field.
+func (s *SignalInfo) Addr() uint64 {
+ return usermem.ByteOrder.Uint64(s.Fields[0:8])
+}
+
+// SetAddr sets the si_addr field.
+func (s *SignalInfo) SetAddr(val uint64) {
+ usermem.ByteOrder.PutUint64(s.Fields[0:8], val)
+}
+
+// Status returns the si_status field.
+func (s *SignalInfo) Status() int32 {
+ return int32(usermem.ByteOrder.Uint32(s.Fields[8:12]))
+}
+
+// SetStatus mutates the si_status field.
+func (s *SignalInfo) SetStatus(val int32) {
+ usermem.ByteOrder.PutUint32(s.Fields[8:12], uint32(val))
+}
+
+// CallAddr returns the si_call_addr field.
+func (s *SignalInfo) CallAddr() uint64 {
+ return usermem.ByteOrder.Uint64(s.Fields[0:8])
+}
+
+// SetCallAddr mutates the si_call_addr field.
+func (s *SignalInfo) SetCallAddr(val uint64) {
+ usermem.ByteOrder.PutUint64(s.Fields[0:8], val)
+}
+
+// Syscall returns the si_syscall field.
+func (s *SignalInfo) Syscall() int32 {
+ return int32(usermem.ByteOrder.Uint32(s.Fields[8:12]))
+}
+
+// SetSyscall mutates the si_syscall field.
+func (s *SignalInfo) SetSyscall(val int32) {
+ usermem.ByteOrder.PutUint32(s.Fields[8:12], uint32(val))
+}
+
+// Arch returns the si_arch field.
+func (s *SignalInfo) Arch() uint32 {
+ return usermem.ByteOrder.Uint32(s.Fields[12:16])
+}
+
+// SetArch mutates the si_arch field.
+func (s *SignalInfo) SetArch(val uint32) {
+ usermem.ByteOrder.PutUint32(s.Fields[12:16], val)
+}
diff --git a/pkg/sentry/arch/signal_amd64.go b/pkg/sentry/arch/signal_amd64.go
index febd6f9b9..1e4f9c3c2 100644
--- a/pkg/sentry/arch/signal_amd64.go
+++ b/pkg/sentry/arch/signal_amd64.go
@@ -26,236 +26,6 @@ import (
"gvisor.dev/gvisor/pkg/sentry/usermem"
)
-// SignalAct represents the action that should be taken when a signal is
-// delivered, and is equivalent to struct sigaction on 64-bit x86.
-//
-// +stateify savable
-type SignalAct struct {
- Handler uint64
- Flags uint64
- Restorer uint64
- Mask linux.SignalSet
-}
-
-// SerializeFrom implements NativeSignalAct.SerializeFrom.
-func (s *SignalAct) SerializeFrom(other *SignalAct) {
- *s = *other
-}
-
-// DeserializeTo implements NativeSignalAct.DeserializeTo.
-func (s *SignalAct) DeserializeTo(other *SignalAct) {
- *other = *s
-}
-
-// SignalStack represents information about a user stack, and is equivalent to
-// stack_t on 64-bit x86.
-//
-// +stateify savable
-type SignalStack struct {
- Addr uint64
- Flags uint32
- _ uint32
- Size uint64
-}
-
-// SerializeFrom implements NativeSignalStack.SerializeFrom.
-func (s *SignalStack) SerializeFrom(other *SignalStack) {
- *s = *other
-}
-
-// DeserializeTo implements NativeSignalStack.DeserializeTo.
-func (s *SignalStack) DeserializeTo(other *SignalStack) {
- *other = *s
-}
-
-// SignalInfo represents information about a signal being delivered, and is
-// equivalent to struct siginfo on 64-bit x86.
-//
-// +stateify savable
-type SignalInfo struct {
- Signo int32 // Signal number
- Errno int32 // Errno value
- Code int32 // Signal code
- _ uint32
-
- // struct siginfo::_sifields is a union. In SignalInfo, fields in the union
- // are accessed through methods.
- //
- // For reference, here is the definition of _sifields: (_sigfault._trapno,
- // which does not exist on x86, omitted for clarity)
- //
- // union {
- // int _pad[SI_PAD_SIZE];
- //
- // /* kill() */
- // struct {
- // __kernel_pid_t _pid; /* sender's pid */
- // __ARCH_SI_UID_T _uid; /* sender's uid */
- // } _kill;
- //
- // /* POSIX.1b timers */
- // struct {
- // __kernel_timer_t _tid; /* timer id */
- // int _overrun; /* overrun count */
- // char _pad[sizeof( __ARCH_SI_UID_T) - sizeof(int)];
- // sigval_t _sigval; /* same as below */
- // int _sys_private; /* not to be passed to user */
- // } _timer;
- //
- // /* POSIX.1b signals */
- // struct {
- // __kernel_pid_t _pid; /* sender's pid */
- // __ARCH_SI_UID_T _uid; /* sender's uid */
- // sigval_t _sigval;
- // } _rt;
- //
- // /* SIGCHLD */
- // struct {
- // __kernel_pid_t _pid; /* which child */
- // __ARCH_SI_UID_T _uid; /* sender's uid */
- // int _status; /* exit code */
- // __ARCH_SI_CLOCK_T _utime;
- // __ARCH_SI_CLOCK_T _stime;
- // } _sigchld;
- //
- // /* SIGILL, SIGFPE, SIGSEGV, SIGBUS */
- // struct {
- // void *_addr; /* faulting insn/memory ref. */
- // short _addr_lsb; /* LSB of the reported address */
- // } _sigfault;
- //
- // /* SIGPOLL */
- // struct {
- // __ARCH_SI_BAND_T _band; /* POLL_IN, POLL_OUT, POLL_MSG */
- // int _fd;
- // } _sigpoll;
- //
- // /* SIGSYS */
- // struct {
- // void *_call_addr; /* calling user insn */
- // int _syscall; /* triggering system call number */
- // unsigned int _arch; /* AUDIT_ARCH_* of syscall */
- // } _sigsys;
- // } _sifields;
- //
- // _sifields is padded so that the size of siginfo is SI_MAX_SIZE = 128
- // bytes.
- Fields [128 - 16]byte
-}
-
-// FixSignalCodeForUser fixes up si_code.
-//
-// The si_code we get from Linux may contain the kernel-specific code in the
-// top 16 bits if it's positive (e.g., from ptrace). Linux's
-// copy_siginfo_to_user does
-// err |= __put_user((short)from->si_code, &to->si_code);
-// to mask out those bits and we need to do the same.
-func (s *SignalInfo) FixSignalCodeForUser() {
- if s.Code > 0 {
- s.Code &= 0x0000ffff
- }
-}
-
-// Pid returns the si_pid field.
-func (s *SignalInfo) Pid() int32 {
- return int32(usermem.ByteOrder.Uint32(s.Fields[0:4]))
-}
-
-// SetPid mutates the si_pid field.
-func (s *SignalInfo) SetPid(val int32) {
- usermem.ByteOrder.PutUint32(s.Fields[0:4], uint32(val))
-}
-
-// Uid returns the si_uid field.
-func (s *SignalInfo) Uid() int32 {
- return int32(usermem.ByteOrder.Uint32(s.Fields[4:8]))
-}
-
-// SetUid mutates the si_uid field.
-func (s *SignalInfo) SetUid(val int32) {
- usermem.ByteOrder.PutUint32(s.Fields[4:8], uint32(val))
-}
-
-// Sigval returns the sigval field, which is aliased to both si_int and si_ptr.
-func (s *SignalInfo) Sigval() uint64 {
- return usermem.ByteOrder.Uint64(s.Fields[8:16])
-}
-
-// SetSigval mutates the sigval field.
-func (s *SignalInfo) SetSigval(val uint64) {
- usermem.ByteOrder.PutUint64(s.Fields[8:16], val)
-}
-
-// TimerID returns the si_timerid field.
-func (s *SignalInfo) TimerID() linux.TimerID {
- return linux.TimerID(usermem.ByteOrder.Uint32(s.Fields[0:4]))
-}
-
-// SetTimerID sets the si_timerid field.
-func (s *SignalInfo) SetTimerID(val linux.TimerID) {
- usermem.ByteOrder.PutUint32(s.Fields[0:4], uint32(val))
-}
-
-// Overrun returns the si_overrun field.
-func (s *SignalInfo) Overrun() int32 {
- return int32(usermem.ByteOrder.Uint32(s.Fields[4:8]))
-}
-
-// SetOverrun sets the si_overrun field.
-func (s *SignalInfo) SetOverrun(val int32) {
- usermem.ByteOrder.PutUint32(s.Fields[4:8], uint32(val))
-}
-
-// Addr returns the si_addr field.
-func (s *SignalInfo) Addr() uint64 {
- return usermem.ByteOrder.Uint64(s.Fields[0:8])
-}
-
-// SetAddr sets the si_addr field.
-func (s *SignalInfo) SetAddr(val uint64) {
- usermem.ByteOrder.PutUint64(s.Fields[0:8], val)
-}
-
-// Status returns the si_status field.
-func (s *SignalInfo) Status() int32 {
- return int32(usermem.ByteOrder.Uint32(s.Fields[8:12]))
-}
-
-// SetStatus mutates the si_status field.
-func (s *SignalInfo) SetStatus(val int32) {
- usermem.ByteOrder.PutUint32(s.Fields[8:12], uint32(val))
-}
-
-// CallAddr returns the si_call_addr field.
-func (s *SignalInfo) CallAddr() uint64 {
- return usermem.ByteOrder.Uint64(s.Fields[0:8])
-}
-
-// SetCallAddr mutates the si_call_addr field.
-func (s *SignalInfo) SetCallAddr(val uint64) {
- usermem.ByteOrder.PutUint64(s.Fields[0:8], val)
-}
-
-// Syscall returns the si_syscall field.
-func (s *SignalInfo) Syscall() int32 {
- return int32(usermem.ByteOrder.Uint32(s.Fields[8:12]))
-}
-
-// SetSyscall mutates the si_syscall field.
-func (s *SignalInfo) SetSyscall(val int32) {
- usermem.ByteOrder.PutUint32(s.Fields[8:12], uint32(val))
-}
-
-// Arch returns the si_arch field.
-func (s *SignalInfo) Arch() uint32 {
- return usermem.ByteOrder.Uint32(s.Fields[12:16])
-}
-
-// SetArch mutates the si_arch field.
-func (s *SignalInfo) SetArch(val uint32) {
- usermem.ByteOrder.PutUint32(s.Fields[12:16], val)
-}
-
// SignalContext64 is equivalent to struct sigcontext, the type passed as the
// second argument to signal handlers set by signal(2).
type SignalContext64 struct {
diff --git a/pkg/sentry/arch/signal_arm64.go b/pkg/sentry/arch/signal_arm64.go
new file mode 100644
index 000000000..7d0e98935
--- /dev/null
+++ b/pkg/sentry/arch/signal_arm64.go
@@ -0,0 +1,126 @@
+// 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.
+
+package arch
+
+import (
+ "encoding/binary"
+ "syscall"
+
+ "gvisor.dev/gvisor/pkg/abi/linux"
+ "gvisor.dev/gvisor/pkg/sentry/usermem"
+)
+
+// SignalContext64 is equivalent to struct sigcontext, the type passed as the
+// second argument to signal handlers set by signal(2).
+type SignalContext64 struct {
+ FaultAddr uint64
+ Regs [31]uint64
+ Sp uint64
+ Pc uint64
+ Pstate uint64
+ _pad [8]byte // __attribute__((__aligned__(16)))
+ Reserved [4096]uint8
+}
+
+// UContext64 is equivalent to ucontext on arm64(arch/arm64/include/uapi/asm/ucontext.h).
+type UContext64 struct {
+ Flags uint64
+ Link *UContext64
+ Stack SignalStack
+ Sigset linux.SignalSet
+ // glibc uses a 1024-bit sigset_t
+ _pad [(1024 - 64) / 8]byte
+ // sigcontext must be aligned to 16-byte
+ _pad2 [8]byte
+ // last for future expansion
+ MContext SignalContext64
+}
+
+// NewSignalAct implements Context.NewSignalAct.
+func (c *context64) NewSignalAct() NativeSignalAct {
+ return &SignalAct{}
+}
+
+// NewSignalStack implements Context.NewSignalStack.
+func (c *context64) NewSignalStack() NativeSignalStack {
+ return &SignalStack{}
+}
+
+// SignalSetup implements Context.SignalSetup.
+func (c *context64) SignalSetup(st *Stack, act *SignalAct, info *SignalInfo, alt *SignalStack, sigset linux.SignalSet) error {
+ sp := st.Bottom
+
+ if !(alt.IsEnabled() && sp == alt.Top()) {
+ sp -= 128
+ }
+
+ // Construct the UContext64 now since we need its size.
+ uc := &UContext64{
+ Flags: 0,
+ Stack: *alt,
+ MContext: SignalContext64{
+ Regs: c.Regs.Regs,
+ Sp: c.Regs.Sp,
+ Pc: c.Regs.Pc,
+ Pstate: c.Regs.Pstate,
+ },
+ Sigset: sigset,
+ }
+
+ ucSize := binary.Size(uc)
+ if ucSize < 0 {
+ panic("can't get size of UContext64")
+ }
+ // st.Arch.Width() is for the restorer address. sizeof(siginfo) == 128.
+ frameSize := int(st.Arch.Width()) + ucSize + 128
+ frameBottom := (sp-usermem.Addr(frameSize)) & ^usermem.Addr(15) - 8
+ sp = frameBottom + usermem.Addr(frameSize)
+ st.Bottom = sp
+
+ // Prior to proceeding, figure out if the frame will exhaust the range
+ // for the signal stack. This is not allowed, and should immediately
+ // force signal delivery (reverting to the default handler).
+ if act.IsOnStack() && alt.IsEnabled() && !alt.Contains(frameBottom) {
+ return syscall.EFAULT
+ }
+
+ // Adjust the code.
+ info.FixSignalCodeForUser()
+
+ // Set up the stack frame.
+ infoAddr, err := st.Push(info)
+ if err != nil {
+ return err
+ }
+ ucAddr, err := st.Push(uc)
+ if err != nil {
+ return err
+ }
+
+ // Set up registers.
+ c.Regs.Sp = uint64(st.Bottom)
+ c.Regs.Pc = act.Handler
+ c.Regs.Regs[0] = uint64(info.Signo)
+ c.Regs.Regs[1] = uint64(infoAddr)
+ c.Regs.Regs[2] = uint64(ucAddr)
+
+ return nil
+}
+
+// SignalRestore implements Context.SignalRestore.
+// Only used on intel.
+func (c *context64) SignalRestore(st *Stack, rt bool) (linux.SignalSet, SignalStack, error) {
+ return 0, SignalStack{}, nil
+}
diff --git a/pkg/sentry/arch/signal_stack.go b/pkg/sentry/arch/signal_stack.go
index 5a3228113..d324da705 100644
--- a/pkg/sentry/arch/signal_stack.go
+++ b/pkg/sentry/arch/signal_stack.go
@@ -12,7 +12,7 @@
// See the License for the specific language governing permissions and
// limitations under the License.
-// +build i386 amd64
+// +build i386 amd64 arm64
package arch
diff --git a/pkg/sentry/arch/syscalls_arm64.go b/pkg/sentry/arch/syscalls_arm64.go
new file mode 100644
index 000000000..00d5ef461
--- /dev/null
+++ b/pkg/sentry/arch/syscalls_arm64.go
@@ -0,0 +1,62 @@
+// 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
+
+const restartSyscallNr = uintptr(128)
+
+// SyscallNo returns the syscall number according to the 64-bit convention.
+func (c *context64) SyscallNo() uintptr {
+ return uintptr(c.Regs.Regs[8])
+}
+
+// SyscallArgs provides syscall arguments according to the 64-bit convention.
+//
+// Due to the way addresses are mapped for the sentry this binary *must* be
+// built in 64-bit mode. So we can just assume the syscall numbers that come
+// back match the expected host system call numbers.
+// General purpose registers usage on Arm64:
+// R0...R7: parameter/result registers.
+// R8: indirect result location register.
+// R9...R15: temporary registers.
+// R16: the first intra-procedure-call scratch register.
+// R17: the second intra-procedure-call scratch register.
+// R18: the platform register.
+// R19...R28: callee-saved registers.
+// R29: the frame pointer.
+// R30: the link register.
+func (c *context64) SyscallArgs() SyscallArguments {
+ return SyscallArguments{
+ SyscallArgument{Value: uintptr(c.Regs.Regs[0])},
+ SyscallArgument{Value: uintptr(c.Regs.Regs[1])},
+ SyscallArgument{Value: uintptr(c.Regs.Regs[2])},
+ SyscallArgument{Value: uintptr(c.Regs.Regs[3])},
+ SyscallArgument{Value: uintptr(c.Regs.Regs[4])},
+ SyscallArgument{Value: uintptr(c.Regs.Regs[5])},
+ }
+}
+
+// RestartSyscall implements Context.RestartSyscall.
+func (c *context64) RestartSyscall() {
+ c.Regs.Pc -= SyscallWidth
+ c.Regs.Regs[8] = uint64(restartSyscallNr)
+}
+
+// RestartSyscallWithRestartBlock implements Context.RestartSyscallWithRestartBlock.
+func (c *context64) RestartSyscallWithRestartBlock() {
+ c.Regs.Pc -= SyscallWidth
+ c.Regs.Regs[8] = uint64(restartSyscallNr)
+}