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process.go
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process.go
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package containerd
import (
"context"
"strings"
"syscall"
"time"
"github.com/containerd/containerd/api/services/tasks/v1"
"github.com/containerd/containerd/errdefs"
"github.com/pkg/errors"
)
// Process represents a system process
type Process interface {
// Pid is the system specific process id
Pid() uint32
// Start starts the process executing the user's defined binary
Start(context.Context) error
// Delete removes the process and any resources allocated returning the exit status
Delete(context.Context, ...ProcessDeleteOpts) (*ExitStatus, error)
// Kill sends the provided signal to the process
Kill(context.Context, syscall.Signal, ...KillOpts) error
// Wait asynchronously waits for the process to exit, and sends the exit code to the returned channel
Wait(context.Context) (<-chan ExitStatus, error)
// CloseIO allows various pipes to be closed on the process
CloseIO(context.Context, ...IOCloserOpts) error
// Resize changes the width and heigh of the process's terminal
Resize(ctx context.Context, w, h uint32) error
// IO returns the io set for the process
IO() IO
// Status returns the executing status of the process
Status(context.Context) (Status, error)
}
// ExitStatus encapsulates a process' exit status.
// It is used by `Wait()` to return either a process exit code or an error
type ExitStatus struct {
code uint32
exitedAt time.Time
err error
}
// Result returns the exit code and time of the exit status.
// An error may be returned here to which indicates there was an error
// at some point while waiting for the exit status. It does not signify
// an error with the process itself.
// If an error is returned, the process may still be running.
func (s ExitStatus) Result() (uint32, time.Time, error) {
return s.code, s.exitedAt, s.err
}
// ExitCode returns the exit code of the process.
// This is only valid is Error() returns nil
func (s ExitStatus) ExitCode() uint32 {
return s.code
}
// ExitTime returns the exit time of the process
// This is only valid is Error() returns nil
func (s ExitStatus) ExitTime() time.Time {
return s.exitedAt
}
// Error returns the error, if any, that occured while waiting for the
// process.
func (s ExitStatus) Error() error {
return s.err
}
type process struct {
id string
task *task
pid uint32
io IO
}
func (p *process) ID() string {
return p.id
}
// Pid returns the pid of the process
// The pid is not set until start is called and returns
func (p *process) Pid() uint32 {
return p.pid
}
// Start starts the exec process
func (p *process) Start(ctx context.Context) error {
r, err := p.task.client.TaskService().Start(ctx, &tasks.StartRequest{
ContainerID: p.task.id,
ExecID: p.id,
})
if err != nil {
p.io.Cancel()
p.io.Wait()
p.io.Close()
return errdefs.FromGRPC(err)
}
p.pid = r.Pid
return nil
}
func (p *process) Kill(ctx context.Context, s syscall.Signal, opts ...KillOpts) error {
var i KillInfo
for _, o := range opts {
if err := o(ctx, p, &i); err != nil {
return err
}
}
_, err := p.task.client.TaskService().Kill(ctx, &tasks.KillRequest{
Signal: uint32(s),
ContainerID: p.task.id,
ExecID: p.id,
All: i.All,
})
return errdefs.FromGRPC(err)
}
func (p *process) Wait(ctx context.Context) (<-chan ExitStatus, error) {
c := make(chan ExitStatus, 1)
go func() {
defer close(c)
r, err := p.task.client.TaskService().Wait(ctx, &tasks.WaitRequest{
ContainerID: p.task.id,
ExecID: p.id,
})
if err != nil {
c <- ExitStatus{
code: UnknownExitStatus,
err: err,
}
return
}
c <- ExitStatus{
code: r.ExitStatus,
exitedAt: r.ExitedAt,
}
}()
return c, nil
}
func (p *process) CloseIO(ctx context.Context, opts ...IOCloserOpts) error {
r := &tasks.CloseIORequest{
ContainerID: p.task.id,
ExecID: p.id,
}
var i IOCloseInfo
for _, o := range opts {
o(&i)
}
r.Stdin = i.Stdin
_, err := p.task.client.TaskService().CloseIO(ctx, r)
return errdefs.FromGRPC(err)
}
func (p *process) IO() IO {
return p.io
}
func (p *process) Resize(ctx context.Context, w, h uint32) error {
_, err := p.task.client.TaskService().ResizePty(ctx, &tasks.ResizePtyRequest{
ContainerID: p.task.id,
Width: w,
Height: h,
ExecID: p.id,
})
return errdefs.FromGRPC(err)
}
func (p *process) Delete(ctx context.Context, opts ...ProcessDeleteOpts) (*ExitStatus, error) {
for _, o := range opts {
if err := o(ctx, p); err != nil {
return nil, err
}
}
status, err := p.Status(ctx)
if err != nil {
return nil, err
}
switch status.Status {
case Running, Paused, Pausing:
return nil, errors.Wrapf(errdefs.ErrFailedPrecondition, "process must be stopped before deletion")
}
r, err := p.task.client.TaskService().DeleteProcess(ctx, &tasks.DeleteProcessRequest{
ContainerID: p.task.id,
ExecID: p.id,
})
if err != nil {
return nil, errdefs.FromGRPC(err)
}
if p.io != nil {
p.io.Wait()
p.io.Close()
}
return &ExitStatus{code: r.ExitStatus, exitedAt: r.ExitedAt}, nil
}
func (p *process) Status(ctx context.Context) (Status, error) {
r, err := p.task.client.TaskService().Get(ctx, &tasks.GetRequest{
ContainerID: p.task.id,
ExecID: p.id,
})
if err != nil {
return Status{}, errdefs.FromGRPC(err)
}
return Status{
Status: ProcessStatus(strings.ToLower(r.Process.Status.String())),
ExitStatus: r.Process.ExitStatus,
}, nil
}