go-sandbox/container/container_exec_linux.go
2022-08-13 01:15:37 -07:00

204 lines
4.5 KiB
Go

package container
import (
"fmt"
"syscall"
"time"
"github.com/criyle/go-sandbox/pkg/forkexec"
"github.com/criyle/go-sandbox/pkg/unixsocket"
"github.com/criyle/go-sandbox/runner"
)
func (c *containerServer) handleExecve(cmd *execCmd, msg unixsocket.Msg) error {
var (
files []uintptr
execFile uintptr
cred *syscall.Credential
)
if cmd == nil {
return c.sendErrorReply("handle: no parameter provided")
}
if len(msg.Fds) > 0 {
files = intSliceToUintptr(msg.Fds)
// don't leak fds to child
closeOnExecFds(msg.Fds)
// release files after execve
defer closeFds(msg.Fds)
}
// if fexecve, then the first fd must be executable
if cmd.FdExec {
if len(files) == 0 {
return c.sendErrorReply("handle: expected fexecve fd")
}
execFile = files[0]
files = files[1:]
}
if len(cmd.Argv) > 0 {
exePath, err := lookPath(cmd.Argv[0], cmd.Env)
if err != nil {
return c.sendErrorReply("handle: %s: %v", cmd.Argv[0], err)
}
cmd.Argv[0] = exePath
}
syncFunc := func(pid int) error {
msg := unixsocket.Msg{
Cred: &syscall.Ucred{
Pid: int32(pid),
Uid: uint32(syscall.Getuid()),
Gid: uint32(syscall.Getgid()),
},
}
if err := c.sendReply(reply{}, msg); err != nil {
return fmt.Errorf("syncFunc: sendReply %v", err)
}
cmd, _, err := c.recvCmd()
if err != nil {
return fmt.Errorf("syncFunc: recvCmd %v", err)
}
if cmd.Cmd == cmdKill {
return fmt.Errorf("syncFunc: received kill")
}
return nil
}
if c.Cred {
cred = &syscall.Credential{
Uid: uint32(c.ContainerUID),
Gid: uint32(c.ContainerGID),
NoSetGroups: true,
}
}
var seccomp *syscall.SockFprog
if cmd.Seccomp != nil {
seccomp = cmd.Seccomp.SockFprog()
}
r := forkexec.Runner{
Args: cmd.Argv,
Env: cmd.Env,
ExecFile: execFile,
RLimits: cmd.RLimits,
Files: files,
WorkDir: c.WorkDir,
NoNewPrivs: true,
DropCaps: true,
SyncFunc: syncFunc,
Credential: cred,
CTTY: cmd.CTTY,
Seccomp: seccomp,
UnshareCgroupAfterSync: c.UnshareCgroup,
}
// starts the runner, error is handled same as wait4 to make communication equal
pid, err := r.Start()
if err != nil {
c.sendErrorReply("execve: start: %v", err)
c.recvCmd()
return c.sendReply(reply{}, unixsocket.Msg{})
}
return c.handleExecveStarted(pid)
}
func (c *containerServer) handleExecveStarted(pid int) error {
// At this point, either recv kill / send result would be happened
// host -> container: kill
// container -> host: result
// container -> host: done
// Let's register a wait event
c.waitPid <- pid
var ret waitPidResult
select {
case <-c.done: // socket error happened
return c.err
case <-c.recvCh: // kill cmd received
syscall.Kill(-1, syscall.SIGKILL)
ret = <-c.waitPidResult
c.waitAll <- struct{}{}
if err := c.sendReply(convertReply(ret), unixsocket.Msg{}); err != nil {
return err
}
case ret = <-c.waitPidResult: // child process returned
syscall.Kill(-1, syscall.SIGKILL)
c.waitAll <- struct{}{}
if err := c.sendReply(convertReply(ret), unixsocket.Msg{}); err != nil {
return err
}
if _, _, err := c.recvCmd(); err != nil { // kill cmd received
return err
}
}
<-c.waitAllDone
return c.sendReply(reply{}, unixsocket.Msg{})
}
func convertReply(ret waitPidResult) reply {
if ret.Err != nil {
return reply{
Error: &errorReply{
Msg: fmt.Sprintf("execve: wait4 %v", ret.Err),
},
}
}
waitStatus := ret.WaitStatus
rusage := ret.Rusage
status := runner.StatusNormal
userTime := time.Duration(rusage.Utime.Nano()) // ns
userMem := runner.Size(rusage.Maxrss << 10) // bytes
switch {
case waitStatus.Exited():
exitStatus := waitStatus.ExitStatus()
if exitStatus != 0 {
status = runner.StatusNonzeroExitStatus
}
return reply{
ExecReply: &execReply{
Status: status,
ExitStatus: exitStatus,
Time: userTime,
Memory: userMem,
},
}
case waitStatus.Signaled():
switch waitStatus.Signal() {
// kill signal treats as TLE
case syscall.SIGXCPU, syscall.SIGKILL:
status = runner.StatusTimeLimitExceeded
case syscall.SIGXFSZ:
status = runner.StatusOutputLimitExceeded
case syscall.SIGSYS:
status = runner.StatusDisallowedSyscall
default:
status = runner.StatusSignalled
}
return reply{
ExecReply: &execReply{
ExitStatus: int(waitStatus.Signal()),
Status: status,
Time: userTime,
Memory: userMem,
},
}
default:
return reply{
Error: &errorReply{
Msg: fmt.Sprintf("execve: unknown status %v", waitStatus),
},
}
}
}