containerd/api/grpc/server/server.go

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package server
import (
"bufio"
"errors"
"fmt"
"os"
"strconv"
"strings"
"syscall"
"time"
"google.golang.org/grpc"
"google.golang.org/grpc/codes"
"github.com/docker/containerd"
"github.com/docker/containerd/api/grpc/types"
"github.com/docker/containerd/runtime"
"github.com/docker/containerd/supervisor"
"golang.org/x/net/context"
)
type apiServer struct {
sv *supervisor.Supervisor
}
// NewServer returns grpc server instance
func NewServer(sv *supervisor.Supervisor) types.APIServer {
return &apiServer{
sv: sv,
}
}
func (s *apiServer) GetServerVersion(ctx context.Context, c *types.GetServerVersionRequest) (*types.GetServerVersionResponse, error) {
return &types.GetServerVersionResponse{
Major: containerd.VersionMajor,
Minor: containerd.VersionMinor,
Patch: containerd.VersionPatch,
Revision: containerd.GitCommit,
}, nil
}
func (s *apiServer) CreateContainer(ctx context.Context, c *types.CreateContainerRequest) (*types.CreateContainerResponse, error) {
if c.BundlePath == "" {
return nil, errors.New("empty bundle path")
}
e := &supervisor.StartTask{}
e.ID = c.Id
e.BundlePath = c.BundlePath
e.Stdin = c.Stdin
e.Stdout = c.Stdout
e.Stderr = c.Stderr
e.Labels = c.Labels
e.NoPivotRoot = c.NoPivotRoot
e.Runtime = c.Runtime
e.RuntimeArgs = c.RuntimeArgs
e.StartResponse = make(chan supervisor.StartResponse, 1)
if c.Checkpoint != "" {
e.CheckpointDir = c.CheckpointDir
e.Checkpoint = &runtime.Checkpoint{
Name: c.Checkpoint,
}
}
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
r := <-e.StartResponse
apiC, err := createAPIContainer(r.Container, false)
if err != nil {
return nil, err
}
return &types.CreateContainerResponse{
Container: apiC,
}, nil
}
func (s *apiServer) CreateCheckpoint(ctx context.Context, r *types.CreateCheckpointRequest) (*types.CreateCheckpointResponse, error) {
e := &supervisor.CreateCheckpointTask{}
e.ID = r.Id
e.CheckpointDir = r.CheckpointDir
e.Checkpoint = &runtime.Checkpoint{
Name: r.Checkpoint.Name,
Exit: r.Checkpoint.Exit,
TCP: r.Checkpoint.Tcp,
UnixSockets: r.Checkpoint.UnixSockets,
Shell: r.Checkpoint.Shell,
EmptyNS: r.Checkpoint.EmptyNS,
}
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
return &types.CreateCheckpointResponse{}, nil
}
func (s *apiServer) DeleteCheckpoint(ctx context.Context, r *types.DeleteCheckpointRequest) (*types.DeleteCheckpointResponse, error) {
if r.Name == "" {
return nil, errors.New("checkpoint name cannot be empty")
}
e := &supervisor.DeleteCheckpointTask{}
e.ID = r.Id
e.CheckpointDir = r.CheckpointDir
e.Checkpoint = &runtime.Checkpoint{
Name: r.Name,
}
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
return &types.DeleteCheckpointResponse{}, nil
}
func (s *apiServer) ListCheckpoint(ctx context.Context, r *types.ListCheckpointRequest) (*types.ListCheckpointResponse, error) {
e := &supervisor.GetContainersTask{}
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
var container runtime.Container
for _, c := range e.Containers {
if c.ID() == r.Id {
container = c
break
}
}
if container == nil {
return nil, grpc.Errorf(codes.NotFound, "no such containers")
}
var out []*types.Checkpoint
checkpoints, err := container.Checkpoints(r.CheckpointDir)
if err != nil {
return nil, err
}
for _, c := range checkpoints {
out = append(out, &types.Checkpoint{
Name: c.Name,
Tcp: c.TCP,
Shell: c.Shell,
UnixSockets: c.UnixSockets,
// TODO: figure out timestamp
//Timestamp: c.Timestamp,
})
}
return &types.ListCheckpointResponse{Checkpoints: out}, nil
}
func (s *apiServer) Signal(ctx context.Context, r *types.SignalRequest) (*types.SignalResponse, error) {
e := &supervisor.SignalTask{}
e.ID = r.Id
e.PID = r.Pid
e.Signal = syscall.Signal(int(r.Signal))
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
return &types.SignalResponse{}, nil
}
func (s *apiServer) State(ctx context.Context, r *types.StateRequest) (*types.StateResponse, error) {
e := &supervisor.GetContainersTask{}
e.ID = r.Id
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
m := s.sv.Machine()
state := &types.StateResponse{
Machine: &types.Machine{
Cpus: uint32(m.Cpus),
Memory: uint64(m.Memory),
},
}
for _, c := range e.Containers {
apiC, err := createAPIContainer(c, true)
if err != nil {
return nil, err
}
state.Containers = append(state.Containers, apiC)
}
return state, nil
}
func createAPIContainer(c runtime.Container, getPids bool) (*types.Container, error) {
processes, err := c.Processes()
if err != nil {
return nil, grpc.Errorf(codes.Internal, "get processes for container: "+err.Error())
}
var procs []*types.Process
for _, p := range processes {
oldProc := p.Spec()
stdio := p.Stdio()
proc := &types.Process{
Pid: p.ID(),
SystemPid: uint32(p.SystemPid()),
Terminal: oldProc.Terminal,
Args: oldProc.Args,
Env: oldProc.Env,
Cwd: oldProc.Cwd,
Stdin: stdio.Stdin,
Stdout: stdio.Stdout,
Stderr: stdio.Stderr,
}
proc.User = &types.User{
Uid: oldProc.User.UID,
Gid: oldProc.User.GID,
AdditionalGids: oldProc.User.AdditionalGids,
}
proc.Capabilities = oldProc.Capabilities
proc.ApparmorProfile = oldProc.ApparmorProfile
proc.SelinuxLabel = oldProc.SelinuxLabel
proc.NoNewPrivileges = oldProc.NoNewPrivileges
for _, rl := range oldProc.Rlimits {
proc.Rlimits = append(proc.Rlimits, &types.Rlimit{
Type: rl.Type,
Soft: rl.Soft,
Hard: rl.Hard,
})
}
procs = append(procs, proc)
}
var pids []int
state := c.State()
if getPids && (state == runtime.Running || state == runtime.Paused) {
if pids, err = c.Pids(); err != nil {
return nil, grpc.Errorf(codes.Internal, "get all pids for container: "+err.Error())
}
}
return &types.Container{
Id: c.ID(),
BundlePath: c.Path(),
Processes: procs,
Labels: c.Labels(),
Status: string(state),
Pids: toUint32(pids),
Runtime: c.Runtime(),
}, nil
}
func toUint32(its []int) []uint32 {
o := []uint32{}
for _, i := range its {
o = append(o, uint32(i))
}
return o
}
func (s *apiServer) UpdateContainer(ctx context.Context, r *types.UpdateContainerRequest) (*types.UpdateContainerResponse, error) {
e := &supervisor.UpdateTask{}
e.ID = r.Id
e.State = runtime.State(r.Status)
if r.Resources != nil {
rs := r.Resources
e.Resources = &runtime.Resource{}
if rs.CpuShares != 0 {
e.Resources.CPUShares = int64(rs.CpuShares)
}
if rs.BlkioWeight != 0 {
e.Resources.BlkioWeight = uint16(rs.BlkioWeight)
}
if rs.CpuPeriod != 0 {
e.Resources.CPUPeriod = int64(rs.CpuPeriod)
}
if rs.CpuQuota != 0 {
e.Resources.CPUQuota = int64(rs.CpuQuota)
}
if rs.CpusetCpus != "" {
e.Resources.CpusetCpus = rs.CpusetCpus
}
if rs.CpusetMems != "" {
e.Resources.CpusetMems = rs.CpusetMems
}
if rs.KernelMemoryLimit != 0 {
e.Resources.KernelMemory = int64(rs.KernelMemoryLimit)
}
if rs.KernelTCPMemoryLimit != 0 {
e.Resources.KernelTCPMemory = int64(rs.KernelTCPMemoryLimit)
}
if rs.MemoryLimit != 0 {
e.Resources.Memory = int64(rs.MemoryLimit)
}
if rs.MemoryReservation != 0 {
e.Resources.MemoryReservation = int64(rs.MemoryReservation)
}
if rs.MemorySwap != 0 {
e.Resources.MemorySwap = int64(rs.MemorySwap)
}
}
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
return &types.UpdateContainerResponse{}, nil
}
func (s *apiServer) UpdateProcess(ctx context.Context, r *types.UpdateProcessRequest) (*types.UpdateProcessResponse, error) {
e := &supervisor.UpdateProcessTask{}
e.ID = r.Id
e.PID = r.Pid
e.Height = int(r.Height)
e.Width = int(r.Width)
e.CloseStdin = r.CloseStdin
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
return &types.UpdateProcessResponse{}, nil
}
func (s *apiServer) Events(r *types.EventsRequest, stream types.API_EventsServer) error {
t := time.Time{}
if r.Timestamp != 0 {
t = time.Unix(int64(r.Timestamp), 0)
}
events := s.sv.Events(t)
defer s.sv.Unsubscribe(events)
for e := range events {
if err := stream.Send(&types.Event{
Id: e.ID,
Type: e.Type,
Timestamp: uint64(e.Timestamp.Unix()),
Pid: e.PID,
Status: uint32(e.Status),
}); err != nil {
return err
}
}
return nil
}
func convertToPb(st *runtime.Stat) *types.StatsResponse {
pbSt := &types.StatsResponse{
Timestamp: uint64(st.Timestamp.Unix()),
CgroupStats: &types.CgroupStats{},
}
systemUsage, _ := getSystemCPUUsage()
pbSt.CgroupStats.CpuStats = &types.CpuStats{
CpuUsage: &types.CpuUsage{
TotalUsage: st.CPU.Usage.Total,
PercpuUsage: st.CPU.Usage.Percpu,
UsageInKernelmode: st.CPU.Usage.Kernel,
UsageInUsermode: st.CPU.Usage.User,
},
ThrottlingData: &types.ThrottlingData{
Periods: st.CPU.Throttling.Periods,
ThrottledPeriods: st.CPU.Throttling.ThrottledPeriods,
ThrottledTime: st.CPU.Throttling.ThrottledTime,
},
SystemUsage: systemUsage,
}
pbSt.CgroupStats.MemoryStats = &types.MemoryStats{
Cache: st.Memory.Cache,
Usage: &types.MemoryData{
Usage: st.Memory.Usage.Usage,
MaxUsage: st.Memory.Usage.Max,
Failcnt: st.Memory.Usage.Failcnt,
Limit: st.Memory.Usage.Limit,
},
SwapUsage: &types.MemoryData{
Usage: st.Memory.Swap.Usage,
MaxUsage: st.Memory.Swap.Max,
Failcnt: st.Memory.Swap.Failcnt,
Limit: st.Memory.Swap.Limit,
},
KernelUsage: &types.MemoryData{
Usage: st.Memory.Kernel.Usage,
MaxUsage: st.Memory.Kernel.Max,
Failcnt: st.Memory.Kernel.Failcnt,
Limit: st.Memory.Kernel.Limit,
},
Stats: st.Memory.Raw,
}
pbSt.CgroupStats.BlkioStats = &types.BlkioStats{
IoServiceBytesRecursive: convertBlkioEntryToPb(st.Blkio.IoServiceBytesRecursive),
IoServicedRecursive: convertBlkioEntryToPb(st.Blkio.IoServicedRecursive),
IoQueuedRecursive: convertBlkioEntryToPb(st.Blkio.IoQueuedRecursive),
IoServiceTimeRecursive: convertBlkioEntryToPb(st.Blkio.IoServiceTimeRecursive),
IoWaitTimeRecursive: convertBlkioEntryToPb(st.Blkio.IoWaitTimeRecursive),
IoMergedRecursive: convertBlkioEntryToPb(st.Blkio.IoMergedRecursive),
IoTimeRecursive: convertBlkioEntryToPb(st.Blkio.IoTimeRecursive),
SectorsRecursive: convertBlkioEntryToPb(st.Blkio.SectorsRecursive),
}
pbSt.CgroupStats.HugetlbStats = make(map[string]*types.HugetlbStats)
for k, st := range st.Hugetlb {
pbSt.CgroupStats.HugetlbStats[k] = &types.HugetlbStats{
Usage: st.Usage,
MaxUsage: st.Max,
Failcnt: st.Failcnt,
}
}
pbSt.CgroupStats.PidsStats = &types.PidsStats{
Current: st.Pids.Current,
Limit: st.Pids.Limit,
}
return pbSt
}
func convertBlkioEntryToPb(b []runtime.BlkioEntry) []*types.BlkioStatsEntry {
var pbEs []*types.BlkioStatsEntry
for _, e := range b {
pbEs = append(pbEs, &types.BlkioStatsEntry{
Major: e.Major,
Minor: e.Minor,
Op: e.Op,
Value: e.Value,
})
}
return pbEs
}
const nanoSecondsPerSecond = 1e9
// getSystemCPUUsage returns the host system's cpu usage in
// nanoseconds. An error is returned if the format of the underlying
// file does not match.
//
// Uses /proc/stat defined by POSIX. Looks for the cpu
// statistics line and then sums up the first seven fields
// provided. See `man 5 proc` for details on specific field
// information.
func getSystemCPUUsage() (uint64, error) {
var line string
f, err := os.Open("/proc/stat")
if err != nil {
return 0, err
}
bufReader := bufio.NewReaderSize(nil, 128)
defer func() {
bufReader.Reset(nil)
f.Close()
}()
bufReader.Reset(f)
err = nil
for err == nil {
line, err = bufReader.ReadString('\n')
if err != nil {
break
}
parts := strings.Fields(line)
switch parts[0] {
case "cpu":
if len(parts) < 8 {
return 0, fmt.Errorf("bad format of cpu stats")
}
var totalClockTicks uint64
for _, i := range parts[1:8] {
v, err := strconv.ParseUint(i, 10, 64)
if err != nil {
return 0, fmt.Errorf("error parsing cpu stats")
}
totalClockTicks += v
}
return (totalClockTicks * nanoSecondsPerSecond) /
clockTicksPerSecond, nil
}
}
return 0, fmt.Errorf("bad stats format")
}
func (s *apiServer) Stats(ctx context.Context, r *types.StatsRequest) (*types.StatsResponse, error) {
e := &supervisor.StatsTask{}
e.ID = r.Id
e.Stat = make(chan *runtime.Stat, 1)
s.sv.SendTask(e)
if err := <-e.ErrorCh(); err != nil {
return nil, err
}
stats := <-e.Stat
t := convertToPb(stats)
return t, nil
}