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grpc.go
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grpc.go
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//
// Copyright (c) 2017-2019 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0
//
package main
import (
"bufio"
"bytes"
"encoding/json"
"fmt"
"io/ioutil"
"os"
"os/exec"
"path/filepath"
"regexp"
"strconv"
"strings"
"syscall"
"time"
gpb "github.com/gogo/protobuf/types"
"github.com/kata-containers/agent/pkg/types"
pb "github.com/kata-containers/agent/protocols/grpc"
"github.com/opencontainers/runc/libcontainer"
"github.com/opencontainers/runc/libcontainer/configs"
"github.com/opencontainers/runc/libcontainer/seccomp"
"github.com/opencontainers/runc/libcontainer/specconv"
"github.com/opencontainers/runc/libcontainer/utils"
"github.com/opencontainers/runtime-spec/specs-go"
"github.com/sirupsen/logrus"
"golang.org/x/net/context"
"golang.org/x/sys/unix"
"google.golang.org/grpc/codes"
grpcStatus "google.golang.org/grpc/status"
)
type agentGRPC struct {
sandbox *sandbox
version string
}
// CPU and Memory hotplug
const (
cpuRegexpPattern = "cpu[0-9]*"
memRegexpPattern = "memory[0-9]*"
libcontainerPath = "/run/libcontainer"
)
var (
sysfsCPUOnlinePath = "/sys/devices/system/cpu"
sysfsMemOnlinePath = "/sys/devices/system/memory"
sysfsMemoryBlockSizePath = "/sys/devices/system/memory/block_size_bytes"
sysfsMemoryHotplugProbePath = "/sys/devices/system/memory/probe"
sysfsConnectedCPUsPath = filepath.Join(sysfsCPUOnlinePath, "online")
containersRootfsPath = "/run"
// set when StartTracing() is called.
startTracingCalled = false
// set when StopTracing() is called.
stopTracingCalled = false
)
type onlineResource struct {
sysfsOnlinePath string
regexpPattern string
}
type cookie map[string]bool
var emptyResp = &gpb.Empty{}
const onlineCPUMemWaitTime = 100 * time.Millisecond
var onlineCPUMaxTries = uint32(100)
const cpusetMode = 0644
// handleError will log the specified error if wait is false
func handleError(wait bool, err error) error {
if !wait {
agentLog.WithError(err).Error()
}
return err
}
// Online resources, nbResources specifies the maximum number of resources to online.
// If nbResources is <= 0 then there is no limit and all resources are connected.
// Returns the number of resources connected.
func onlineResources(resource onlineResource, nbResources int32) (uint32, error) {
files, err := ioutil.ReadDir(resource.sysfsOnlinePath)
if err != nil {
return 0, err
}
var count uint32
for _, file := range files {
matched, err := regexp.MatchString(resource.regexpPattern, file.Name())
if err != nil {
return count, err
}
if !matched {
continue
}
onlinePath := filepath.Join(resource.sysfsOnlinePath, file.Name(), "online")
status, err := ioutil.ReadFile(onlinePath)
if err != nil {
// resource cold plugged
continue
}
if strings.Trim(string(status), "\n\t ") == "0" {
if err := ioutil.WriteFile(onlinePath, []byte("1"), 0600); err != nil {
agentLog.WithField("online-path", onlinePath).WithError(err).Errorf("Could not online resource")
continue
}
count++
if nbResources > 0 && count == uint32(nbResources) {
return count, nil
}
}
}
return count, nil
}
func onlineCPUResources(nbCpus uint32) error {
resource := onlineResource{
sysfsOnlinePath: sysfsCPUOnlinePath,
regexpPattern: cpuRegexpPattern,
}
var count uint32
for i := uint32(0); i < onlineCPUMaxTries; i++ {
r, err := onlineResources(resource, int32(nbCpus-count))
if err != nil {
return err
}
count += r
if count == nbCpus {
return nil
}
time.Sleep(onlineCPUMemWaitTime)
}
return fmt.Errorf("only %d of %d were connected", count, nbCpus)
}
func onlineMemResources() error {
resource := onlineResource{
sysfsOnlinePath: sysfsMemOnlinePath,
regexpPattern: memRegexpPattern,
}
_, err := onlineResources(resource, -1)
return err
}
// updates a cpuset cgroups path visiting each sub-directory in cgroupPath parent and writing
// the maximal set of cpus in cpuset.cpus file, finally the cgroupPath is updated with the requsted
//value.
// cookies are used for performance reasons in order to
// don't update a cgroup twice.
func updateCpusetPath(cgroupPath string, newCpuset string, cookies cookie) error {
// Each cpuset cgroup parent MUST BE updated with the actual number of vCPUs.
//Start to update from cgroup system root.
cgroupParentPath := cgroupCpusetPath
cpusetGuest, err := getCpusetGuest()
if err != nil {
return err
}
// Update parents with max set of current cpus
//Iterate all parent dirs in order.
//This is needed to ensure the cgroup parent has cpus on needed needed
//by the request.
cgroupsParentPaths := strings.Split(filepath.Dir(cgroupPath), "/")
for _, path := range cgroupsParentPaths {
// Skip if empty.
if path == "" {
continue
}
cgroupParentPath = filepath.Join(cgroupParentPath, path)
// check if the cgroup was already updated.
if cookies[cgroupParentPath] {
agentLog.WithField("path", cgroupParentPath).Debug("cpuset cgroup already updated")
continue
}
cpusetCpusParentPath := filepath.Join(cgroupParentPath, "cpuset.cpus")
agentLog.WithField("path", cpusetCpusParentPath).Debug("updating cpuset parent cgroup")
if err := ioutil.WriteFile(cpusetCpusParentPath, []byte(cpusetGuest), cpusetMode); err != nil {
return fmt.Errorf("Could not update parent cpuset cgroup (%s) cpuset:'%s': %v", cpusetCpusParentPath, cpusetGuest, err)
}
// add cgroup path to the cookies.
cookies[cgroupParentPath] = true
}
// Finally update group path with requested value.
cpusetCpusPath := filepath.Join(cgroupCpusetPath, cgroupPath, "cpuset.cpus")
agentLog.WithField("path", cpusetCpusPath).Debug("updating cpuset cgroup")
if err := ioutil.WriteFile(cpusetCpusPath, []byte(newCpuset), cpusetMode); err != nil {
return fmt.Errorf("Could not update parent cpuset cgroup (%s) cpuset:'%s': %v", cpusetCpusPath, cpusetGuest, err)
}
return nil
}
func (a *agentGRPC) onlineCPUMem(req *pb.OnlineCPUMemRequest) error {
if req.NbCpus == 0 && req.CpuOnly {
return handleError(req.Wait, fmt.Errorf("requested number of CPUs '%d' must be greater than 0", req.NbCpus))
}
// we are going to update the containers of the sandbox, we have to lock it
a.sandbox.Lock()
defer a.sandbox.Unlock()
if req.NbCpus > 0 {
agentLog.WithField("vcpus-to-connect", req.NbCpus).Debug("connecting vCPUs")
if err := onlineCPUResources(req.NbCpus); err != nil {
return handleError(req.Wait, err)
}
}
if !req.CpuOnly {
if err := onlineMemResources(); err != nil {
return handleError(req.Wait, err)
}
}
// At this point all CPUs have been connected, we need to know
// the actual range of CPUs
connectedCpus, err := getCpusetGuest()
if err != nil {
return handleError(req.Wait, fmt.Errorf("Could not get the actual range of connected CPUs: %v", err))
}
agentLog.WithField("range-of-vcpus", connectedCpus).Debug("connecting vCPUs")
cookies := make(cookie)
// Now that we know the actual range of connected CPUs, we need to iterate over
// all containers an update each cpuset cgroup. This is not required in docker
// containers since they don't hot add/remove CPUs.
for _, c := range a.sandbox.containers {
agentLog.WithField("container", c.container.ID()).Debug("updating cpuset cgroup")
contConfig := c.container.Config()
cgroupPath := contConfig.Cgroups.Path
// In order to avoid issues updating the container cpuset cgroup, its cpuset cgroup *parents*
// MUST BE updated, otherwise we'll get next errors:
// - write /sys/fs/cgroup/cpuset/XXXXX/cpuset.cpus: permission denied
// - write /sys/fs/cgroup/cpuset/XXXXX/cpuset.cpus: device or resource busy
// NOTE: updating container cpuset cgroup *parents* won't affect container cpuset cgroup, for example if container cpuset cgroup has "0"
// and its cpuset cgroup *parents* have "0-5", the container will be able to use only the CPU 0.
// cpuset assinged containers are not updated, only we update its parents.
if contConfig.Cgroups.Resources.CpusetCpus != "" {
agentLog.WithField("cpuset", contConfig.Cgroups.Resources.CpusetCpus).Debug("updating container cpuset cgroup parents")
// remove container cgroup directory
cgroupPath = filepath.Dir(cgroupPath)
}
if err := updateCpusetPath(cgroupPath, connectedCpus, cookies); err != nil {
return handleError(req.Wait, err)
}
}
return nil
}
func setConsoleCarriageReturn(fd int) error {
termios, err := unix.IoctlGetTermios(fd, unix.TCGETS)
if err != nil {
return err
}
termios.Oflag |= unix.ONLCR
return unix.IoctlSetTermios(fd, unix.TCSETS, termios)
}
func buildProcess(agentProcess *pb.Process, procID string, init bool) (*process, error) {
user := agentProcess.User.Username
if user == "" {
// We can specify the user and the group separated by ":"
user = fmt.Sprintf("%d:%d", agentProcess.User.UID, agentProcess.User.GID)
}
additionalGids := []string{}
for _, gid := range agentProcess.User.AdditionalGids {
additionalGids = append(additionalGids, fmt.Sprintf("%d", gid))
}
proc := &process{
id: procID,
process: libcontainer.Process{
Cwd: agentProcess.Cwd,
Args: agentProcess.Args,
Env: agentProcess.Env,
User: user,
AdditionalGroups: additionalGids,
Init: init,
},
}
if agentProcess.Terminal {
parentSock, childSock, err := utils.NewSockPair("console")
if err != nil {
return nil, err
}
proc.process.ConsoleSocket = childSock
proc.consoleSock = parentSock
epoller, err := newEpoller()
if err != nil {
return nil, err
}
proc.epoller = epoller
return proc, nil
}
rStdin, wStdin, err := os.Pipe()
if err != nil {
return nil, err
}
rStdout, wStdout, err := os.Pipe()
if err != nil {
return nil, err
}
rStderr, wStderr, err := os.Pipe()
if err != nil {
return nil, err
}
proc.process.Stdin = rStdin
proc.process.Stdout = wStdout
proc.process.Stderr = wStderr
proc.stdin = wStdin
proc.stdout = rStdout
proc.stderr = rStderr
return proc, nil
}
func (a *agentGRPC) Check(ctx context.Context, req *pb.CheckRequest) (*pb.HealthCheckResponse, error) {
return &pb.HealthCheckResponse{Status: pb.HealthCheckResponse_SERVING}, nil
}
func (a *agentGRPC) Version(ctx context.Context, req *pb.CheckRequest) (*pb.VersionCheckResponse, error) {
return &pb.VersionCheckResponse{
GrpcVersion: pb.APIVersion,
AgentVersion: a.version,
}, nil
}
func (a *agentGRPC) getContainer(cid string) (*container, error) {
if !a.sandbox.running {
return nil, grpcStatus.Error(codes.FailedPrecondition, "Sandbox not started")
}
ctr, err := a.sandbox.getContainer(cid)
if err != nil {
return nil, err
}
return ctr, nil
}
// Shared function between CreateContainer and ExecProcess, because those expect
// a process to be run.
func (a *agentGRPC) execProcess(ctr *container, proc *process, createContainer bool) (err error) {
if ctr == nil {
return grpcStatus.Error(codes.InvalidArgument, "Container cannot be nil")
}
if proc == nil {
return grpcStatus.Error(codes.InvalidArgument, "Process cannot be nil")
}
// This lock is very important to avoid any race with reaper.reap().
// Indeed, if we don't lock this here, we could potentially get the
// SIGCHLD signal before the channel has been created, meaning we will
// miss the opportunity to get the exit code, leading WaitProcess() to
// wait forever on the new channel.
// This lock has to be taken before we run the new process.
a.sandbox.subreaper.lock()
defer a.sandbox.subreaper.unlock()
if createContainer {
err = ctr.container.Start(&proc.process)
} else {
err = ctr.container.Run(&(proc.process))
}
if err != nil {
return grpcStatus.Errorf(codes.Internal, "Could not run process: %v", err)
}
// Get process PID
pid, err := proc.process.Pid()
if err != nil {
return err
}
proc.exitCodeCh = make(chan int, 1)
// Create process channel to allow WaitProcess to wait on it.
// This channel is buffered so that reaper.reap() will not
// block until WaitProcess listen onto this channel.
a.sandbox.subreaper.setExitCodeCh(pid, proc.exitCodeCh)
return nil
}
// Shared function between CreateContainer and ExecProcess, because those expect
// the console to be properly setup after the process has been started.
func (a *agentGRPC) postExecProcess(ctr *container, proc *process) error {
if ctr == nil {
return grpcStatus.Error(codes.InvalidArgument, "Container cannot be nil")
}
if proc == nil {
return grpcStatus.Error(codes.InvalidArgument, "Process cannot be nil")
}
defer proc.closePostStartFDs()
// Setup terminal if enabled.
if proc.consoleSock != nil {
termMaster, err := utils.RecvFd(proc.consoleSock)
if err != nil {
return err
}
if err := setConsoleCarriageReturn(int(termMaster.Fd())); err != nil {
return err
}
proc.termMaster = termMaster
// Get process PID
pid, err := proc.process.Pid()
if err != nil {
return err
}
a.sandbox.subreaper.setEpoller(pid, proc.epoller)
if err = proc.epoller.add(proc.termMaster); err != nil {
return err
}
}
ctr.setProcess(proc)
return nil
}
// This function updates the container namespaces configuration based on the
// sandbox information. When the sandbox is created, it can be setup in a way
// that all containers will share some specific namespaces. This is the agent
// responsibility to create those namespaces so that they can be shared across
// several containers.
// If the sandbox has not been setup to share namespaces, then we assume all
// containers will be started in their own new namespace.
// The value of a.sandbox.sharedPidNs.path will always override the namespace
// path set by the spec, since we will always ignore it. Indeed, it makes no
// sense to rely on the namespace path provided by the host since namespaces
// are different inside the guest.
func (a *agentGRPC) updateContainerConfigNamespaces(config *configs.Config, ctr *container) {
var ipcNs, utsNs bool
for idx, ns := range config.Namespaces {
if ns.Type == configs.NEWIPC {
config.Namespaces[idx].Path = a.sandbox.sharedIPCNs.path
ipcNs = true
}
if ns.Type == configs.NEWUTS {
config.Namespaces[idx].Path = a.sandbox.sharedUTSNs.path
utsNs = true
}
}
if !ipcNs {
newIPCNs := configs.Namespace{
Type: configs.NEWIPC,
Path: a.sandbox.sharedIPCNs.path,
}
config.Namespaces = append(config.Namespaces, newIPCNs)
}
if !utsNs {
newUTSNs := configs.Namespace{
Type: configs.NEWUTS,
Path: a.sandbox.sharedUTSNs.path,
}
config.Namespaces = append(config.Namespaces, newUTSNs)
}
// Update PID namespace.
var pidNsPath string
// Use shared pid ns if useSandboxPidns has been set in either
// the CreateSandbox request or CreateContainer request.
// Else set this to empty string so that a new pid namespace is
// created for the container.
if ctr.useSandboxPidNs || a.sandbox.sandboxPidNs {
pidNsPath = a.sandbox.sharedPidNs.path
} else {
pidNsPath = ""
}
newPidNs := configs.Namespace{
Type: configs.NEWPID,
Path: pidNsPath,
}
config.Namespaces = append(config.Namespaces, newPidNs)
}
func (a *agentGRPC) updateContainerConfigPrivileges(spec *specs.Spec, config *configs.Config) error {
if spec == nil || spec.Process == nil {
// Don't throw an error in case the Spec does not contain any
// information about NoNewPrivileges.
return nil
}
// Add the value for NoNewPrivileges option.
config.NoNewPrivileges = spec.Process.NoNewPrivileges
return nil
}
func (a *agentGRPC) updateContainerConfig(spec *specs.Spec, config *configs.Config, ctr *container) error {
a.updateContainerConfigNamespaces(config, ctr)
return a.updateContainerConfigPrivileges(spec, config)
}
// rollbackFailingContainerCreation rolls back important steps that might have
// been performed before the container creation failed.
// - Destroy the container created by libcontainer
// - Delete the container from the agent internal map
// - Unmount all mounts related to this container
func (a *agentGRPC) rollbackFailingContainerCreation(ctr *container) {
if ctr.container != nil {
ctr.container.Destroy()
}
a.sandbox.deleteContainer(ctr.id)
if err := removeMounts(ctr.mounts); err != nil {
agentLog.WithError(err).Error("rollback failed removeMounts()")
}
}
func (a *agentGRPC) finishCreateContainer(ctr *container, req *pb.CreateContainerRequest, config *configs.Config) (resp *gpb.Empty, err error) {
containerPath := filepath.Join(libcontainerPath, a.sandbox.id)
factory, err := libcontainer.New(containerPath, libcontainer.Cgroupfs)
if err != nil {
return emptyResp, err
}
ctr.container, err = factory.Create(req.ContainerId, config)
if err != nil {
return emptyResp, err
}
ctr.config = *config
ctr.initProcess, err = buildProcess(req.OCI.Process, req.ExecId, true)
if err != nil {
return emptyResp, err
}
if err = a.execProcess(ctr, ctr.initProcess, true); err != nil {
return emptyResp, err
}
// Make sure add Container to Sandbox, before call updateSharedPidNs
a.sandbox.setContainer(ctr.ctx, req.ContainerId, ctr)
if err := a.updateSharedPidNs(ctr); err != nil {
return emptyResp, err
}
return emptyResp, a.postExecProcess(ctr, ctr.initProcess)
}
func (a *agentGRPC) CreateContainer(ctx context.Context, req *pb.CreateContainerRequest) (resp *gpb.Empty, err error) {
if err := a.createContainerChecks(req); err != nil {
return emptyResp, err
}
// re-scan PCI bus
// looking for hidden devices
if err = rescanPciBus(); err != nil {
agentLog.WithError(err).Warn("Could not rescan PCI bus")
}
// Some devices need some extra processing (the ones invoked with
// --device for instance), and that's what this call is doing. It
// updates the devices listed in the OCI spec, so that they actually
// match real devices inside the VM. This step is necessary since we
// cannot predict everything from the caller.
if err = addDevices(req.Devices, req.OCI, a.sandbox); err != nil {
return emptyResp, err
}
// Both rootfs and volumes (invoked with --volume for instance) will
// be processed the same way. The idea is to always mount any provided
// storage to the specified MountPoint, so that it will match what's
// inside oci.Mounts.
// After all those storages have been processed, no matter the order
// here, the agent will rely on libcontainer (using the oci.Mounts
// list) to bind mount all of them inside the container.
mountList, err := addStorages(ctx, req.Storages, a.sandbox)
if err != nil {
return emptyResp, err
}
ctr := &container{
id: req.ContainerId,
processes: make(map[string]*process),
mounts: mountList,
useSandboxPidNs: req.SandboxPidns,
ctx: ctx,
}
// In case the container creation failed, make sure we cleanup
// properly by rolling back the actions previously performed.
defer func() {
if err != nil {
a.rollbackFailingContainerCreation(ctr)
}
}()
// Convert the spec to an actual OCI specification structure.
ociSpec, err := pb.GRPCtoOCI(req.OCI)
if err != nil {
return emptyResp, err
}
if err := a.handleCPUSet(ociSpec); err != nil {
return emptyResp, err
}
if err := a.applyNetworkSysctls(ociSpec); err != nil {
return emptyResp, err
}
if a.sandbox.guestHooksPresent {
// Add any custom OCI hooks to the spec
a.sandbox.addGuestHooks(ociSpec)
// write the OCI spec to a file so that hooks can read it
err = writeSpecToFile(ociSpec)
if err != nil {
return emptyResp, err
}
// Change cwd because libcontainer assumes the bundle path is the cwd:
// https://github.com/opencontainers/runc/blob/v1.0.0-rc5/libcontainer/specconv/spec_linux.go#L157
oldcwd, err := changeToBundlePath(ociSpec)
if err != nil {
return emptyResp, err
}
defer os.Chdir(oldcwd)
}
// Convert the OCI specification into a libcontainer configuration.
config, err := specconv.CreateLibcontainerConfig(&specconv.CreateOpts{
CgroupName: req.ContainerId,
NoNewKeyring: true,
Spec: ociSpec,
NoPivotRoot: a.sandbox.noPivotRoot,
})
if err != nil {
return emptyResp, err
}
// apply rlimits
config.Rlimits = posixRlimitsToRlimits(ociSpec.Process.Rlimits)
// Update libcontainer configuration for specific cases not handled
// by the specconv converter.
if err = a.updateContainerConfig(ociSpec, config, ctr); err != nil {
return emptyResp, err
}
return a.finishCreateContainer(ctr, req, config)
}
// Path overridden in unit tests
var procSysDir = "/proc/sys"
// writeSystemProperty writes the value to a path under /proc/sys as determined from the key.
// For e.g. net.ipv4.ip_forward translated to /proc/sys/net/ipv4/ip_forward.
func writeSystemProperty(key, value string) error {
keyPath := strings.Replace(key, ".", "/", -1)
return ioutil.WriteFile(filepath.Join(procSysDir, keyPath), []byte(value), 0644)
}
func isNetworkSysctl(sysctl string) bool {
return strings.HasPrefix(sysctl, "net.")
}
// libcontainer checks if the container is running in a separate network namespace
// before applying the network related sysctls. If it sees that the network namespace of the container
// is the same as the "host", it errors out. Since we do no create a new net namespace inside the guest,
// libcontainer would error out while verifying network sysctls. To overcome this, we dont pass
// network sysctls to libcontainer, we instead have the agent directly apply them. All other namespaced
// sysctls are applied by libcontainer.
func (a *agentGRPC) applyNetworkSysctls(ociSpec *specs.Spec) error {
sysctls := ociSpec.Linux.Sysctl
for key, value := range sysctls {
if isNetworkSysctl(key) {
if err := writeSystemProperty(key, value); err != nil {
return err
}
delete(sysctls, key)
}
}
ociSpec.Linux.Sysctl = sysctls
return nil
}
func (a *agentGRPC) handleCPUSet(ociSpec *specs.Spec) error {
if ociSpec.Linux.Resources.CPU != nil && ociSpec.Linux.Resources.CPU.Cpus != "" {
availableCpuset, err := getAvailableCpusetList(ociSpec.Linux.Resources.CPU.Cpus)
if err != nil {
return err
}
ociSpec.Linux.Resources.CPU.Cpus = availableCpuset
}
return nil
}
func posixRlimitsToRlimits(posixRlimits []specs.POSIXRlimit) []configs.Rlimit {
var rlimits []configs.Rlimit
rlimitsMap := map[string]int{
"RLIMIT_CPU": unix.RLIMIT_CPU, // 0x0
"RLIMIT_FSIZE": unix.RLIMIT_FSIZE, // 0x1
"RLIMIT_DATA": unix.RLIMIT_DATA, // 0x2
"RLIMIT_STACK": unix.RLIMIT_STACK, // 0x3
"RLIMIT_CORE": unix.RLIMIT_CORE, // 0x4
"RLIMIT_RSS": unix.RLIMIT_RSS, // 0x5
"RLIMIT_NPROC": unix.RLIMIT_NPROC, // 0x6
"RLIMIT_NOFILE": unix.RLIMIT_NOFILE, // 0x7
"RLIMIT_MEMLOCK": unix.RLIMIT_MEMLOCK, // 0x8
"RLIMIT_AS": unix.RLIMIT_AS, // 0x9
"RLIMIT_LOCKS": unix.RLIMIT_LOCKS, // 0xa
"RLIMIT_SIGPENDING": unix.RLIMIT_SIGPENDING, // 0xb
"RLIMIT_MSGQUEUE": unix.RLIMIT_MSGQUEUE, // 0xc
"RLIMIT_NICE": unix.RLIMIT_NICE, // 0xd
"RLIMIT_RTPRIO": unix.RLIMIT_RTPRIO, // 0xe
"RLIMIT_RTTIME": unix.RLIMIT_RTTIME, // 0xf
}
for _, l := range posixRlimits {
limit, ok := rlimitsMap[l.Type]
if !ok {
agentLog.WithField("rlimit", l.Type).Warnf("Unknown rlimit")
continue
}
rl := configs.Rlimit{
Type: limit,
Hard: l.Hard,
Soft: l.Soft,
}
rlimits = append(rlimits, rl)
}
return rlimits
}
func (a *agentGRPC) createContainerChecks(req *pb.CreateContainerRequest) (err error) {
if !a.sandbox.running {
return grpcStatus.Error(codes.FailedPrecondition, "Sandbox not started, impossible to run a new container")
}
if _, err = a.sandbox.getContainer(req.ContainerId); err == nil {
return grpcStatus.Errorf(codes.AlreadyExists, "Container %s already exists, impossible to create", req.ContainerId)
}
if a.pidNsExists(req.OCI) {
return grpcStatus.Errorf(codes.FailedPrecondition, "Unexpected PID namespace received for container %s, should have been cleared out", req.ContainerId)
}
return nil
}
func (a *agentGRPC) pidNsExists(grpcSpec *pb.Spec) bool {
if grpcSpec.Linux != nil {
for _, n := range grpcSpec.Linux.Namespaces {
if n.Type == string(configs.NEWPID) {
return true
}
}
}
return false
}
func (a *agentGRPC) updateSharedPidNs(ctr *container) error {
// Populate the shared pid path only if this is an infra container and
// SandboxPidns has not been passed in the CreateSandbox request.
// This means a separate pause process has not been created. We treat the
// first container created as the infra container in that case
// and use its pid namespace in case pid namespace needs to be shared.
if !a.sandbox.sandboxPidNs && len(a.sandbox.containers) == 1 {
pid, err := ctr.initProcess.process.Pid()
if err != nil {
return err
}
a.sandbox.sharedPidNs.path = fmt.Sprintf("/proc/%d/ns/pid", pid)
}
return nil
}
func (a *agentGRPC) StartContainer(ctx context.Context, req *pb.StartContainerRequest) (*gpb.Empty, error) {
ctr, err := a.getContainer(req.ContainerId)
if err != nil {
return emptyResp, err
}
status, err := ctr.container.Status()
if err != nil {
return nil, err
}
if status != libcontainer.Created {
return nil, grpcStatus.Errorf(codes.FailedPrecondition, "Container %s status %s, should be %s", req.ContainerId, status.String(), libcontainer.Created.String())
}
if err := ctr.container.Exec(); err != nil {
return emptyResp, err
}
return emptyResp, nil
}
func (a *agentGRPC) ExecProcess(ctx context.Context, req *pb.ExecProcessRequest) (*gpb.Empty, error) {
ctr, err := a.getContainer(req.ContainerId)
if err != nil {
return emptyResp, err
}
status, err := ctr.container.Status()
if err != nil {
return nil, err
}
if status == libcontainer.Stopped {
return nil, grpcStatus.Errorf(codes.FailedPrecondition, "Cannot exec in stopped container %s", req.ContainerId)
}
proc, err := buildProcess(req.Process, req.ExecId, false)
if err != nil {
return emptyResp, err
}
if err := a.execProcess(ctr, proc, false); err != nil {
return emptyResp, err
}
return emptyResp, a.postExecProcess(ctr, proc)
}
func (a *agentGRPC) SignalProcess(ctx context.Context, req *pb.SignalProcessRequest) (*gpb.Empty, error) {
if !a.sandbox.running {
return emptyResp, grpcStatus.Error(codes.FailedPrecondition, "Sandbox not started, impossible to signal the container")
}
ctr, err := a.sandbox.getContainer(req.ContainerId)
if err != nil {
return emptyResp, grpcStatus.Errorf(codes.FailedPrecondition, "Could not signal process %s: %v", req.ExecId, err)
}
status, err := ctr.container.Status()
if err != nil {
return emptyResp, err
}
signal := syscall.Signal(req.Signal)
if status == libcontainer.Stopped {
agentLog.WithFields(logrus.Fields{
"containerID": req.ContainerId,
"signal": signal.String(),
}).Info("discarding signal as container stopped")
return emptyResp, nil
}
// If the exec ID provided is empty, let's apply the signal to all
// processes inside the container.
// If the process is the container process, let's use the container
// API for that.
// Frozen processes are thawed when `all` is true, allowing them to receive and process signals.
if req.ExecId == "" || status == libcontainer.Paused {
return emptyResp, ctr.container.Signal(signal, true)
} else if ctr.initProcess.id == req.ExecId {
pid, err := ctr.initProcess.process.Pid()
if err != nil {
return emptyResp, err
}
// For container initProcess, if it hasn't installed handler for "SIGTERM" signal,
// it will ignore the "SIGTERM" signal sent to it, thus send it "SIGKILL" signal
// instead of "SIGTERM" to terminate it.
if signal == syscall.SIGTERM && !isSignalHandled(pid, syscall.SIGTERM) {
signal = syscall.SIGKILL
}
return emptyResp, ctr.container.Signal(signal, false)
}
proc, err := ctr.getProcess(req.ExecId)
if err != nil {
return emptyResp, grpcStatus.Errorf(grpcStatus.Convert(err).Code(), "Could not signal process: %v", err)
}
if err := proc.process.Signal(signal); err != nil {
return emptyResp, err
}
return emptyResp, nil
}
// Check is the container process installed the
// handler for specific signal.
func isSignalHandled(pid int, signum syscall.Signal) bool {
var sigMask uint64 = 1 << (uint(signum) - 1)
procFile := fmt.Sprintf("/proc/%d/status", pid)
file, err := os.Open(procFile)
if err != nil {
agentLog.WithField("procFile", procFile).Warn("Open proc file failed")
return false
}
defer file.Close()
scanner := bufio.NewScanner(file)
for scanner.Scan() {
line := scanner.Text()
if strings.HasPrefix(line, "SigCgt:") {
maskSlice := strings.Split(line, ":")
if len(maskSlice) != 2 {
agentLog.WithField("procFile", procFile).Warn("Parse the SigCgt field failed")
return false
}
sigCgtStr := strings.TrimSpace(maskSlice[1])
sigCgtMask, err := strconv.ParseUint(sigCgtStr, 16, 64)
if err != nil {
agentLog.WithField("sigCgt", sigCgtStr).Warn("parse the SigCgt to hex failed")
return false
}
return (sigCgtMask & sigMask) == sigMask
}
}
return false
}
func (a *agentGRPC) WaitProcess(ctx context.Context, req *pb.WaitProcessRequest) (*pb.WaitProcessResponse, error) {
proc, ctr, err := a.sandbox.getProcess(req.ContainerId, req.ExecId)
if err != nil {
return &pb.WaitProcessResponse{}, err
}
defer proc.Do(func() {
proc.closePostExitFDs()
ctr.deleteProcess(proc.id)
})
// Using helper function wait() to deal with the subreaper.
libContProcess := (*reaperLibcontainerProcess)(&(proc.process))
exitCode, err := a.sandbox.subreaper.wait(proc.exitCodeCh, libContProcess)
if err != nil {
return &pb.WaitProcessResponse{}, err
}
//refill the exitCodeCh with the exitcode which can be read out
//by another WaitProcess(). Since this channel isn't be closed,