Files
runc/libcontainer/process.go
T
Wei Fu 94505a046a *: introduce pidfd-socket flag
The container manager like containerd-shim can't use cgroup.kill feature or
freeze all the processes in cgroup to terminate the exec init process.
It's unsafe to call kill(2) since the pid can be recycled. It's good to
provide the pidfd of init process through the pidfd-socket. It's similar to
the console-socket. With the pidfd, the container manager like containerd-shim
can send the signal to target process safely.

And for the standard init process, we can have polling support to get
exit event instead of blocking on wait4.

Signed-off-by: Wei Fu <fuweid89@gmail.com>
2023-11-21 18:28:50 +08:00

147 lines
4.0 KiB
Go

package libcontainer
import (
"errors"
"io"
"math"
"os"
"github.com/opencontainers/runc/libcontainer/configs"
)
var errInvalidProcess = errors.New("invalid process")
type processOperations interface {
wait() (*os.ProcessState, error)
signal(sig os.Signal) error
pid() int
}
// Process specifies the configuration and IO for a process inside
// a container.
type Process struct {
// The command to be run followed by any arguments.
Args []string
// Env specifies the environment variables for the process.
Env []string
// User will set the uid and gid of the executing process running inside the container
// local to the container's user and group configuration.
User string
// AdditionalGroups specifies the gids that should be added to supplementary groups
// in addition to those that the user belongs to.
AdditionalGroups []string
// Cwd will change the processes current working directory inside the container's rootfs.
Cwd string
// Stdin is a pointer to a reader which provides the standard input stream.
Stdin io.Reader
// Stdout is a pointer to a writer which receives the standard output stream.
Stdout io.Writer
// Stderr is a pointer to a writer which receives the standard error stream.
Stderr io.Writer
// ExtraFiles specifies additional open files to be inherited by the container
ExtraFiles []*os.File
// open handles to cloned binaries -- see dmz.ClonedBinary for more details
clonedExes []*os.File
// Initial sizings for the console
ConsoleWidth uint16
ConsoleHeight uint16
// Capabilities specify the capabilities to keep when executing the process inside the container
// All capabilities not specified will be dropped from the processes capability mask
Capabilities *configs.Capabilities
// AppArmorProfile specifies the profile to apply to the process and is
// changed at the time the process is execed
AppArmorProfile string
// Label specifies the label to apply to the process. It is commonly used by selinux
Label string
// NoNewPrivileges controls whether processes can gain additional privileges.
NoNewPrivileges *bool
// Rlimits specifies the resource limits, such as max open files, to set in the container
// If Rlimits are not set, the container will inherit rlimits from the parent process
Rlimits []configs.Rlimit
// ConsoleSocket provides the masterfd console.
ConsoleSocket *os.File
// PidfdSocket provides process file descriptor of it own.
PidfdSocket *os.File
// Init specifies whether the process is the first process in the container.
Init bool
ops processOperations
// LogLevel is a string containing a numeric representation of the current
// log level (i.e. "4", but never "info"). It is passed on to runc init as
// _LIBCONTAINER_LOGLEVEL environment variable.
LogLevel string
// SubCgroupPaths specifies sub-cgroups to run the process in.
// Map keys are controller names, map values are paths (relative to
// container's top-level cgroup).
//
// If empty, the default top-level container's cgroup is used.
//
// For cgroup v2, the only key allowed is "".
SubCgroupPaths map[string]string
Scheduler *configs.Scheduler
}
// Wait waits for the process to exit.
// Wait releases any resources associated with the Process
func (p Process) Wait() (*os.ProcessState, error) {
if p.ops == nil {
return nil, errInvalidProcess
}
return p.ops.wait()
}
// Pid returns the process ID
func (p Process) Pid() (int, error) {
// math.MinInt32 is returned here, because it's invalid value
// for the kill() system call.
if p.ops == nil {
return math.MinInt32, errInvalidProcess
}
return p.ops.pid(), nil
}
// Signal sends a signal to the Process.
func (p Process) Signal(sig os.Signal) error {
if p.ops == nil {
return errInvalidProcess
}
return p.ops.signal(sig)
}
// closeClonedExes cleans up any existing cloned binaries associated with the
// Process.
func (p *Process) closeClonedExes() {
for _, exe := range p.clonedExes {
_ = exe.Close()
}
p.clonedExes = nil
}
// IO holds the process's STDIO
type IO struct {
Stdin io.WriteCloser
Stdout io.ReadCloser
Stderr io.ReadCloser
}