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// Copyright 2018 Google Inc.
//
// 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 linux
import (
"time"
"gvisor.googlesource.com/gvisor/pkg/abi/linux"
"gvisor.googlesource.com/gvisor/pkg/sentry/arch"
"gvisor.googlesource.com/gvisor/pkg/sentry/kernel"
ktime "gvisor.googlesource.com/gvisor/pkg/sentry/kernel/time"
"gvisor.googlesource.com/gvisor/pkg/sentry/usermem"
"gvisor.googlesource.com/gvisor/pkg/syserror"
)
// The most significant 29 bits hold either a pid or a file descriptor.
func pidOfClockID(c int32) kernel.ThreadID {
return kernel.ThreadID(^(c >> 3))
}
// whichCPUClock returns one of CPUCLOCK_PERF, CPUCLOCK_VIRT, CPUCLOCK_SCHED or
// CLOCK_FD.
func whichCPUClock(c int32) int32 {
return c & linux.CPUCLOCK_CLOCK_MASK
}
// isCPUClockPerThread returns true if the CPUCLOCK_PERTHREAD bit is set in the
// clock id.
func isCPUClockPerThread(c int32) bool {
return c&linux.CPUCLOCK_PERTHREAD_MASK != 0
}
// isValidCPUClock returns checks that the cpu clock id is valid.
func isValidCPUClock(c int32) bool {
// Bits 0, 1, and 2 cannot all be set.
if c&7 == 7 {
return false
}
if whichCPUClock(c) >= linux.CPUCLOCK_MAX {
return false
}
return true
}
// targetTask returns the kernel.Task for the given clock id.
func targetTask(t *kernel.Task, c int32) *kernel.Task {
pid := pidOfClockID(c)
if pid == 0 {
return t
}
return t.PIDNamespace().TaskWithID(pid)
}
// ClockGetres implements linux syscall clock_getres(2).
func ClockGetres(t *kernel.Task, args arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
clockID := int32(args[0].Int())
addr := args[1].Pointer()
r := linux.Timespec{
Sec: 0,
Nsec: 1,
}
if _, err := getClock(t, clockID); err != nil {
return 0, nil, syserror.EINVAL
}
if addr == 0 {
// Don't need to copy out.
return 0, nil, nil
}
return 0, nil, copyTimespecOut(t, addr, &r)
}
type cpuClocker interface {
UserCPUClock() ktime.Clock
CPUClock() ktime.Clock
}
func getClock(t *kernel.Task, clockID int32) (ktime.Clock, error) {
if clockID < 0 {
if !isValidCPUClock(clockID) {
return nil, syserror.EINVAL
}
targetTask := targetTask(t, clockID)
if targetTask == nil {
return nil, syserror.EINVAL
}
var target cpuClocker
if isCPUClockPerThread(clockID) {
target = targetTask
} else {
target = targetTask.ThreadGroup()
}
switch whichCPUClock(clockID) {
case linux.CPUCLOCK_VIRT:
return target.UserCPUClock(), nil
case linux.CPUCLOCK_PROF, linux.CPUCLOCK_SCHED:
// CPUCLOCK_SCHED is approximated by CPUCLOCK_PROF.
return target.CPUClock(), nil
default:
return nil, syserror.EINVAL
}
}
switch clockID {
case linux.CLOCK_REALTIME, linux.CLOCK_REALTIME_COARSE:
return t.Kernel().RealtimeClock(), nil
case linux.CLOCK_MONOTONIC, linux.CLOCK_MONOTONIC_COARSE, linux.CLOCK_MONOTONIC_RAW:
// CLOCK_MONOTONIC approximates CLOCK_MONOTONIC_RAW.
return t.Kernel().MonotonicClock(), nil
case linux.CLOCK_PROCESS_CPUTIME_ID:
return t.ThreadGroup().CPUClock(), nil
case linux.CLOCK_THREAD_CPUTIME_ID:
return t.CPUClock(), nil
default:
return nil, syserror.EINVAL
}
}
// ClockGettime implements linux syscall clock_gettime(2).
func ClockGettime(t *kernel.Task, args arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
clockID := int32(args[0].Int())
addr := args[1].Pointer()
c, err := getClock(t, clockID)
if err != nil {
return 0, nil, err
}
ts := c.Now().Timespec()
return 0, nil, copyTimespecOut(t, addr, &ts)
}
// ClockSettime implements linux syscall clock_settime(2).
func ClockSettime(*kernel.Task, arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
return 0, nil, syserror.EPERM
}
// Time implements linux syscall time(2).
func Time(t *kernel.Task, args arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
addr := args[0].Pointer()
r := t.Kernel().RealtimeClock().Now().TimeT()
if addr == usermem.Addr(0) {
return uintptr(r), nil, nil
}
if _, err := t.CopyOut(addr, r); err != nil {
return 0, nil, err
}
return uintptr(r), nil, nil
}
// clockNanosleepRestartBlock encapsulates the state required to restart
// clock_nanosleep(2) via restart_syscall(2).
type clockNanosleepRestartBlock struct {
c ktime.Clock
duration time.Duration
rem usermem.Addr
}
// Restart implements kernel.SyscallRestartBlock.Restart.
func (n *clockNanosleepRestartBlock) Restart(t *kernel.Task) (uintptr, error) {
return 0, clockNanosleepFor(t, n.c, n.duration, n.rem)
}
// clockNanosleepUntil blocks until a specified time.
//
// If blocking is interrupted, the syscall is restarted with the original
// arguments.
func clockNanosleepUntil(t *kernel.Task, c ktime.Clock, ts linux.Timespec) error {
notifier, tchan := ktime.NewChannelNotifier()
timer := ktime.NewTimer(c, notifier)
// Turn on the timer.
timer.Swap(ktime.Setting{
Period: 0,
Enabled: true,
Next: ktime.FromTimespec(ts),
})
err := t.BlockWithTimer(nil, tchan)
timer.Destroy()
// Did we just block until the timeout happened?
if err == syserror.ETIMEDOUT {
return nil
}
return syserror.ConvertIntr(err, kernel.ERESTARTNOHAND)
}
// clockNanosleepFor blocks for a specified duration.
//
// If blocking is interrupted, the syscall is restarted with the remaining
// duration timeout.
func clockNanosleepFor(t *kernel.Task, c ktime.Clock, dur time.Duration, rem usermem.Addr) error {
timer, start, tchan := ktime.After(c, dur)
err := t.BlockWithTimer(nil, tchan)
after := c.Now()
timer.Destroy()
var remaining time.Duration
// Did we just block for the entire duration?
if err == syserror.ETIMEDOUT {
remaining = 0
} else {
remaining = dur - after.Sub(start)
if remaining < 0 {
remaining = time.Duration(0)
}
}
// Copy out remaining time.
if err != nil && rem != usermem.Addr(0) {
timeleft := linux.NsecToTimespec(remaining.Nanoseconds())
if err := copyTimespecOut(t, rem, &timeleft); err != nil {
return err
}
}
// Did we just block for the entire duration?
if err == syserror.ETIMEDOUT {
return nil
}
// If interrupted, arrange for a restart with the remaining duration.
if err == syserror.ErrInterrupted {
t.SetSyscallRestartBlock(&clockNanosleepRestartBlock{
c: c,
duration: remaining,
rem: rem,
})
return kernel.ERESTART_RESTARTBLOCK
}
return err
}
// Nanosleep implements linux syscall Nanosleep(2).
func Nanosleep(t *kernel.Task, args arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
addr := args[0].Pointer()
rem := args[1].Pointer()
ts, err := copyTimespecIn(t, addr)
if err != nil {
return 0, nil, err
}
if !ts.Valid() {
return 0, nil, syserror.EINVAL
}
// Just like linux, we cap the timeout with the max number that int64 can
// represent which is roughly 292 years.
dur := time.Duration(ts.ToNsecCapped()) * time.Nanosecond
return 0, nil, clockNanosleepFor(t, t.Kernel().MonotonicClock(), dur, rem)
}
// ClockNanosleep implements linux syscall clock_nanosleep(2).
func ClockNanosleep(t *kernel.Task, args arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
clockID := int32(args[0].Int())
flags := args[1].Int()
addr := args[2].Pointer()
rem := args[3].Pointer()
req, err := copyTimespecIn(t, addr)
if err != nil {
return 0, nil, err
}
if !req.Valid() {
return 0, nil, syserror.EINVAL
}
// Only allow clock constants also allowed by Linux.
if clockID > 0 {
if clockID != linux.CLOCK_REALTIME &&
clockID != linux.CLOCK_MONOTONIC &&
clockID != linux.CLOCK_PROCESS_CPUTIME_ID {
return 0, nil, syserror.EINVAL
}
}
c, err := getClock(t, clockID)
if err != nil {
return 0, nil, err
}
if flags&linux.TIMER_ABSTIME != 0 {
return 0, nil, clockNanosleepUntil(t, c, req)
}
dur := time.Duration(req.ToNsecCapped()) * time.Nanosecond
return 0, nil, clockNanosleepFor(t, c, dur, rem)
}
// Gettimeofday implements linux syscall gettimeofday(2).
func Gettimeofday(t *kernel.Task, args arch.SyscallArguments) (uintptr, *kernel.SyscallControl, error) {
tv := args[0].Pointer()
tz := args[1].Pointer()
if tv != usermem.Addr(0) {
nowTv := t.Kernel().RealtimeClock().Now().Timeval()
if err := copyTimevalOut(t, tv, &nowTv); err != nil {
return 0, nil, err
}
}
if tz != usermem.Addr(0) {
// Ask the time package for the timezone.
_, offset := time.Now().Zone()
// This int32 array mimics linux's struct timezone.
timezone := [2]int32{-int32(offset) / 60, 0}
_, err := t.CopyOut(tz, timezone)
return 0, nil, err
}
return 0, nil, nil
}
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