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|
//go:build linux
// +build linux
package libpod
import (
"crypto/rand"
"crypto/sha256"
"fmt"
"io/ioutil"
"net"
"os"
"os/exec"
"path/filepath"
"regexp"
"sort"
"strconv"
"strings"
"syscall"
"time"
"github.com/containernetworking/plugins/pkg/ns"
"github.com/containers/common/libnetwork/etchosts"
"github.com/containers/common/libnetwork/types"
"github.com/containers/common/pkg/config"
"github.com/containers/common/pkg/machine"
"github.com/containers/common/pkg/netns"
"github.com/containers/podman/v4/libpod/define"
"github.com/containers/podman/v4/libpod/events"
"github.com/containers/podman/v4/pkg/errorhandling"
"github.com/containers/podman/v4/pkg/namespaces"
"github.com/containers/podman/v4/pkg/resolvconf"
"github.com/containers/podman/v4/pkg/rootless"
"github.com/containers/podman/v4/pkg/util"
"github.com/containers/podman/v4/utils"
"github.com/containers/storage/pkg/lockfile"
spec "github.com/opencontainers/runtime-spec/specs-go"
"github.com/opencontainers/selinux/go-selinux/label"
"github.com/pkg/errors"
"github.com/sirupsen/logrus"
"github.com/vishvananda/netlink"
"golang.org/x/sys/unix"
)
const (
// slirp4netnsMTU the default MTU override
slirp4netnsMTU = 65520
// default slirp4ns subnet
defaultSlirp4netnsSubnet = "10.0.2.0/24"
// rootlessNetNsName is the file name for the rootless network namespace bind mount
rootlessNetNsName = "rootless-netns"
// rootlessNetNsSilrp4netnsPidFile is the name of the rootless netns slirp4netns pid file
rootlessNetNsSilrp4netnsPidFile = "rootless-netns-slirp4netns.pid"
// persistentCNIDir is the directory where the CNI files are stored
persistentCNIDir = "/var/lib/cni"
)
// convertPortMappings will remove the HostIP part from the ports when running inside podman machine.
// This is need because a HostIP of 127.0.0.1 would now allow the gvproxy forwarder to reach to open ports.
// For machine the HostIP must only be used by gvproxy and never in the VM.
func (c *Container) convertPortMappings() []types.PortMapping {
if !machine.IsPodmanMachine() || len(c.config.PortMappings) == 0 {
return c.config.PortMappings
}
// if we run in a machine VM we have to ignore the host IP part
newPorts := make([]types.PortMapping, 0, len(c.config.PortMappings))
for _, port := range c.config.PortMappings {
port.HostIP = ""
newPorts = append(newPorts, port)
}
return newPorts
}
func (c *Container) getNetworkOptions(networkOpts map[string]types.PerNetworkOptions) types.NetworkOptions {
opts := types.NetworkOptions{
ContainerID: c.config.ID,
ContainerName: getCNIPodName(c),
}
opts.PortMappings = c.convertPortMappings()
// If the container requested special network options use this instead of the config.
// This is the case for container restore or network reload.
if c.perNetworkOpts != nil {
opts.Networks = c.perNetworkOpts
} else {
opts.Networks = networkOpts
}
return opts
}
type RootlessNetNS struct {
ns ns.NetNS
dir string
Lock lockfile.Locker
}
// getPath will join the given path to the rootless netns dir
func (r *RootlessNetNS) getPath(path string) string {
return filepath.Join(r.dir, path)
}
// Do - run the given function in the rootless netns.
// It does not lock the rootlessCNI lock, the caller
// should only lock when needed, e.g. for cni operations.
func (r *RootlessNetNS) Do(toRun func() error) error {
err := r.ns.Do(func(_ ns.NetNS) error {
// Before we can run the given function,
// we have to setup all mounts correctly.
// The order of the mounts is IMPORTANT.
// The idea of the extra mount ns is to make /run and /var/lib/cni writeable
// for the cni plugins but not affecting the podman user namespace.
// Because the plugins also need access to XDG_RUNTIME_DIR/netns some special setup is needed.
// The following bind mounts are needed
// 1. XDG_RUNTIME_DIR -> XDG_RUNTIME_DIR/rootless-netns/XDG_RUNTIME_DIR
// 2. /run/systemd -> XDG_RUNTIME_DIR/rootless-netns/run/systemd (only if it exists)
// 3. XDG_RUNTIME_DIR/rootless-netns/resolv.conf -> /etc/resolv.conf or XDG_RUNTIME_DIR/rootless-netns/run/symlink/target
// 4. XDG_RUNTIME_DIR/rootless-netns/var/lib/cni -> /var/lib/cni (if /var/lib/cni does not exists use the parent dir)
// 5. XDG_RUNTIME_DIR/rootless-netns/run -> /run
// Create a new mount namespace,
// this must happen inside the netns thread.
err := unix.Unshare(unix.CLONE_NEWNS)
if err != nil {
return errors.Wrapf(err, "cannot create a new mount namespace")
}
xdgRuntimeDir, err := util.GetRuntimeDir()
if err != nil {
return errors.Wrap(err, "could not get runtime directory")
}
newXDGRuntimeDir := r.getPath(xdgRuntimeDir)
// 1. Mount the netns into the new run to keep them accessible.
// Otherwise cni setup will fail because it cannot access the netns files.
err = unix.Mount(xdgRuntimeDir, newXDGRuntimeDir, "none", unix.MS_BIND|unix.MS_SHARED|unix.MS_REC, "")
if err != nil {
return errors.Wrap(err, "failed to mount runtime directory for rootless netns")
}
// 2. Also keep /run/systemd if it exists.
// Many files are symlinked into this dir, for example /dev/log.
runSystemd := "/run/systemd"
_, err = os.Stat(runSystemd)
if err == nil {
newRunSystemd := r.getPath(runSystemd)
err = unix.Mount(runSystemd, newRunSystemd, "none", unix.MS_BIND|unix.MS_REC, "")
if err != nil {
return errors.Wrap(err, "failed to mount /run/systemd directory for rootless netns")
}
}
// 3. On some distros /etc/resolv.conf is symlinked to somewhere under /run.
// Because the kernel will follow the symlink before mounting, it is not
// possible to mount a file at /etc/resolv.conf. We have to ensure that
// the link target will be available in the mount ns.
// see: https://github.com/containers/podman/issues/10855
resolvePath := "/etc/resolv.conf"
linkCount := 0
for i := 1; i < len(resolvePath); i++ {
// Do not use filepath.EvalSymlinks, we only want the first symlink under /run.
// If /etc/resolv.conf has more than one symlink under /run, e.g.
// -> /run/systemd/resolve/stub-resolv.conf -> /run/systemd/resolve/resolv.conf
// we would put the netns resolv.conf file to the last path. However this will
// break dns because the second link does not exists in the mount ns.
// see https://github.com/containers/podman/issues/11222
//
// We also need to resolve all path components not just the last file.
// see https://github.com/containers/podman/issues/12461
if resolvePath[i] != '/' {
// if we are at the last char we need to inc i by one because there is no final slash
if i == len(resolvePath)-1 {
i++
} else {
// not the end of path, keep going
continue
}
}
path := resolvePath[:i]
fi, err := os.Lstat(path)
if err != nil {
return errors.Wrap(err, "failed to stat resolv.conf path")
}
// no link, just continue
if fi.Mode()&os.ModeSymlink == 0 {
continue
}
link, err := os.Readlink(path)
if err != nil {
return errors.Wrap(err, "failed to read resolv.conf symlink")
}
linkCount++
if filepath.IsAbs(link) {
// link is as an absolute path
resolvePath = filepath.Join(link, resolvePath[i:])
} else {
// link is as a relative, join it with the previous path
base := filepath.Dir(path)
resolvePath = filepath.Join(base, link, resolvePath[i:])
}
// set i back to zero since we now have a new base path
i = 0
// we have to stop at the first path under /run because we will have an empty /run and will create the path anyway
// if we would continue we would need to recreate all links under /run
if strings.HasPrefix(resolvePath, "/run/") {
break
}
// make sure wo do not loop forever
if linkCount == 255 {
return errors.New("too many symlinks while resolving /etc/resolv.conf")
}
}
logrus.Debugf("The path of /etc/resolv.conf in the mount ns is %q", resolvePath)
// When /etc/resolv.conf on the host is a symlink to /run/systemd/resolve/stub-resolv.conf,
// we have to mount an empty filesystem on /run/systemd/resolve in the child namespace,
// so as to isolate the directory from the host mount namespace.
//
// Otherwise our bind-mount for /run/systemd/resolve/stub-resolv.conf is unmounted
// when systemd-resolved unlinks and recreates /run/systemd/resolve/stub-resolv.conf on the host.
// see: https://github.com/containers/podman/issues/10929
if strings.HasPrefix(resolvePath, "/run/systemd/resolve/") {
rsr := r.getPath("/run/systemd/resolve")
err = unix.Mount("", rsr, "tmpfs", unix.MS_NOEXEC|unix.MS_NOSUID|unix.MS_NODEV, "")
if err != nil {
return errors.Wrapf(err, "failed to mount tmpfs on %q for rootless netns", rsr)
}
}
if strings.HasPrefix(resolvePath, "/run/") {
resolvePath = r.getPath(resolvePath)
err = os.MkdirAll(filepath.Dir(resolvePath), 0700)
if err != nil {
return errors.Wrap(err, "failed to create rootless-netns resolv.conf directory")
}
// we want to bind mount on this file so we have to create the file first
_, err = os.OpenFile(resolvePath, os.O_CREATE|os.O_RDONLY, 0700)
if err != nil {
return errors.Wrap(err, "failed to create rootless-netns resolv.conf file")
}
}
// mount resolv.conf to make use of the host dns
err = unix.Mount(r.getPath("resolv.conf"), resolvePath, "none", unix.MS_BIND, "")
if err != nil {
return errors.Wrap(err, "failed to mount resolv.conf for rootless netns")
}
// 4. CNI plugins need access to /var/lib/cni and /run
varDir := ""
varTarget := persistentCNIDir
// we can only mount to a target dir which exists, check /var/lib/cni recursively
// while we could always use /var there are cases where a user might store the cni
// configs under /var/custom and this would break
for {
if _, err := os.Stat(varTarget); err == nil {
varDir = r.getPath(varTarget)
break
}
varTarget = filepath.Dir(varTarget)
if varTarget == "/" {
break
}
}
if varDir == "" {
return errors.New("failed to stat /var directory")
}
// make sure to mount var first
err = unix.Mount(varDir, varTarget, "none", unix.MS_BIND, "")
if err != nil {
return errors.Wrapf(err, "failed to mount %s for rootless netns", varTarget)
}
// 5. Mount the new prepared run dir to /run, it has to be recursive to keep the other bind mounts.
runDir := r.getPath("run")
err = unix.Mount(runDir, "/run", "none", unix.MS_BIND|unix.MS_REC, "")
if err != nil {
return errors.Wrap(err, "failed to mount /run for rootless netns")
}
// run the given function in the correct namespace
err = toRun()
return err
})
return err
}
// Cleanup the rootless network namespace if needed.
// It checks if we have running containers with the bridge network mode.
// Cleanup() expects that r.Lock is locked
func (r *RootlessNetNS) Cleanup(runtime *Runtime) error {
_, err := os.Stat(r.dir)
if os.IsNotExist(err) {
// the directory does not exists no need for cleanup
return nil
}
activeNetns := func(c *Container) bool {
// no bridge => no need to check
if !c.config.NetMode.IsBridge() {
return false
}
// we cannot use c.state() because it will try to lock the container
// locking is a problem because cleanup is called after net teardown
// at this stage the container is already locked.
// also do not try to lock only containers which are not currently in net
// teardown because this will result in an ABBA deadlock between the rootless
// cni lock and the container lock
// because we need to get the state we have to sync otherwise this will not
// work because the state is empty by default
// I do not like this but I do not see a better way at moment
err := c.syncContainer()
if err != nil {
return false
}
// only check for an active netns, we cannot use the container state
// because not running does not mean that the netns does not need cleanup
// only if the netns is empty we know that we do not need cleanup
return c.state.NetNS != nil
}
ctrs, err := runtime.GetContainers(activeNetns)
if err != nil {
return err
}
// no cleanup if we found no other containers with a netns
// we will always find one container (the container cleanup that is currently calling us)
if len(ctrs) > 1 {
return nil
}
logrus.Debug("Cleaning up rootless network namespace")
err = netns.UnmountNS(r.ns)
if err != nil {
return err
}
// make the following errors not fatal
err = r.ns.Close()
if err != nil {
logrus.Error(err)
}
b, err := ioutil.ReadFile(r.getPath(rootlessNetNsSilrp4netnsPidFile))
if err == nil {
var i int
i, err = strconv.Atoi(string(b))
if err == nil {
// kill the slirp process so we do not leak it
err = syscall.Kill(i, syscall.SIGTERM)
}
}
if err != nil {
logrus.Errorf("Failed to kill slirp4netns process: %s", err)
}
err = os.RemoveAll(r.dir)
if err != nil {
logrus.Error(err)
}
return nil
}
// GetRootlessNetNs returns the rootless netns object. If create is set to true
// the rootless network namespace will be created if it does not exists already.
// If called as root it returns always nil.
// On success the returned RootlessCNI lock is locked and must be unlocked by the caller.
func (r *Runtime) GetRootlessNetNs(new bool) (*RootlessNetNS, error) {
if !rootless.IsRootless() {
return nil, nil
}
var rootlessNetNS *RootlessNetNS
runDir := r.config.Engine.TmpDir
lfile := filepath.Join(runDir, "rootless-netns.lock")
lock, err := lockfile.GetLockfile(lfile)
if err != nil {
return nil, errors.Wrap(err, "failed to get rootless-netns lockfile")
}
lock.Lock()
defer func() {
// In case of an error (early exit) rootlessNetNS will be nil.
// Make sure to unlock otherwise we could deadlock.
if rootlessNetNS == nil {
lock.Unlock()
}
}()
rootlessNetNsDir := filepath.Join(runDir, rootlessNetNsName)
err = os.MkdirAll(rootlessNetNsDir, 0700)
if err != nil {
return nil, errors.Wrap(err, "could not create rootless-netns directory")
}
nsDir, err := netns.GetNSRunDir()
if err != nil {
return nil, err
}
// create a hash from the static dir
// the cleanup will check if there are running containers
// if you run a several libpod instances with different root/runroot directories this check will fail
// we want one netns for each libpod static dir so we use the hash to prevent name collisions
hash := sha256.Sum256([]byte(r.config.Engine.StaticDir))
netnsName := fmt.Sprintf("%s-%x", rootlessNetNsName, hash[:10])
path := filepath.Join(nsDir, netnsName)
ns, err := ns.GetNS(path)
if err != nil {
if !new {
// return a error if we could not get the namespace and should no create one
return nil, errors.Wrap(err, "error getting rootless network namespace")
}
// create a new namespace
logrus.Debugf("creating rootless network namespace with name %q", netnsName)
ns, err = netns.NewNSWithName(netnsName)
if err != nil {
return nil, errors.Wrap(err, "error creating rootless network namespace")
}
// setup slirp4netns here
path := r.config.Engine.NetworkCmdPath
if path == "" {
var err error
path, err = exec.LookPath("slirp4netns")
if err != nil {
return nil, err
}
}
syncR, syncW, err := os.Pipe()
if err != nil {
return nil, errors.Wrapf(err, "failed to open pipe")
}
defer errorhandling.CloseQuiet(syncR)
defer errorhandling.CloseQuiet(syncW)
netOptions, err := parseSlirp4netnsNetworkOptions(r, nil)
if err != nil {
return nil, err
}
slirpFeatures, err := checkSlirpFlags(path)
if err != nil {
return nil, errors.Wrapf(err, "error checking slirp4netns binary %s: %q", path, err)
}
cmdArgs, err := createBasicSlirp4netnsCmdArgs(netOptions, slirpFeatures)
if err != nil {
return nil, err
}
// Note we do not use --exit-fd, we kill this process by pid
cmdArgs = append(cmdArgs, "-c", "-r", "3")
cmdArgs = append(cmdArgs, "--netns-type=path", ns.Path(), "tap0")
cmd := exec.Command(path, cmdArgs...)
logrus.Debugf("slirp4netns command: %s", strings.Join(cmd.Args, " "))
cmd.SysProcAttr = &syscall.SysProcAttr{
Setpgid: true,
}
// workaround for https://github.com/rootless-containers/slirp4netns/pull/153
if !netOptions.noPivotRoot && slirpFeatures.HasEnableSandbox {
cmd.SysProcAttr.Cloneflags = syscall.CLONE_NEWNS
cmd.SysProcAttr.Unshareflags = syscall.CLONE_NEWNS
}
// Leak one end of the pipe in slirp4netns
cmd.ExtraFiles = append(cmd.ExtraFiles, syncW)
logPath := filepath.Join(r.config.Engine.TmpDir, "slirp4netns-rootless-netns.log")
logFile, err := os.Create(logPath)
if err != nil {
return nil, errors.Wrapf(err, "failed to open slirp4netns log file %s", logPath)
}
defer logFile.Close()
// Unlink immediately the file so we won't need to worry about cleaning it up later.
// It is still accessible through the open fd logFile.
if err := os.Remove(logPath); err != nil {
return nil, errors.Wrapf(err, "delete file %s", logPath)
}
cmd.Stdout = logFile
cmd.Stderr = logFile
if err := cmd.Start(); err != nil {
return nil, errors.Wrapf(err, "failed to start slirp4netns process")
}
// create pid file for the slirp4netns process
// this is need to kill the process in the cleanup
pid := strconv.Itoa(cmd.Process.Pid)
err = ioutil.WriteFile(filepath.Join(rootlessNetNsDir, rootlessNetNsSilrp4netnsPidFile), []byte(pid), 0700)
if err != nil {
errors.Wrap(err, "unable to write rootless-netns slirp4netns pid file")
}
defer func() {
if err := cmd.Process.Release(); err != nil {
logrus.Errorf("Unable to release command process: %q", err)
}
}()
if err := waitForSync(syncR, cmd, logFile, 1*time.Second); err != nil {
return nil, err
}
if utils.RunsOnSystemd() {
// move to systemd scope to prevent systemd from killing it
err = utils.MoveRootlessNetnsSlirpProcessToUserSlice(cmd.Process.Pid)
if err != nil {
// only log this, it is not fatal but can lead to issues when running podman inside systemd units
logrus.Errorf("failed to move the rootless netns slirp4netns process to the systemd user.slice: %v", err)
}
}
// build a new resolv.conf file which uses the slirp4netns dns server address
resolveIP, err := GetSlirp4netnsDNS(nil)
if err != nil {
return nil, errors.Wrap(err, "failed to determine default slirp4netns DNS address")
}
if netOptions.cidr != "" {
_, cidr, err := net.ParseCIDR(netOptions.cidr)
if err != nil {
return nil, errors.Wrap(err, "failed to parse slirp4netns cidr")
}
resolveIP, err = GetSlirp4netnsDNS(cidr)
if err != nil {
return nil, errors.Wrapf(err, "failed to determine slirp4netns DNS address from cidr: %s", cidr.String())
}
}
conf, err := resolvconf.Get()
if err != nil {
return nil, err
}
conf, err = resolvconf.FilterResolvDNS(conf.Content, netOptions.enableIPv6, true)
if err != nil {
return nil, err
}
searchDomains := resolvconf.GetSearchDomains(conf.Content)
dnsOptions := resolvconf.GetOptions(conf.Content)
nameServers := resolvconf.GetNameservers(conf.Content)
_, err = resolvconf.Build(filepath.Join(rootlessNetNsDir, "resolv.conf"), append([]string{resolveIP.String()}, nameServers...), searchDomains, dnsOptions)
if err != nil {
return nil, errors.Wrap(err, "failed to create rootless netns resolv.conf")
}
// create cni directories to store files
// they will be bind mounted to the correct location in a extra mount ns
err = os.MkdirAll(filepath.Join(rootlessNetNsDir, persistentCNIDir), 0700)
if err != nil {
return nil, errors.Wrap(err, "could not create rootless-netns var directory")
}
runDir := filepath.Join(rootlessNetNsDir, "run")
err = os.MkdirAll(runDir, 0700)
if err != nil {
return nil, errors.Wrap(err, "could not create rootless-netns run directory")
}
// relabel the new run directory to the iptables /run label
// this is important, otherwise the iptables command will fail
err = label.Relabel(runDir, "system_u:object_r:iptables_var_run_t:s0", false)
if err != nil {
return nil, errors.Wrap(err, "could not create relabel rootless-netns run directory")
}
// create systemd run directory
err = os.MkdirAll(filepath.Join(runDir, "systemd"), 0700)
if err != nil {
return nil, errors.Wrap(err, "could not create rootless-netns systemd directory")
}
// create the directory for the netns files at the same location
// relative to the rootless-netns location
err = os.MkdirAll(filepath.Join(rootlessNetNsDir, nsDir), 0700)
if err != nil {
return nil, errors.Wrap(err, "could not create rootless-netns netns directory")
}
}
// The CNI plugins and netavark need access to iptables in $PATH. As it turns out debian doesn't put
// /usr/sbin in $PATH for rootless users. This will break rootless networking completely.
// We might break existing users and we cannot expect everyone to change their $PATH so
// lets add /usr/sbin to $PATH ourselves.
path = os.Getenv("PATH")
if !strings.Contains(path, "/usr/sbin") {
path = path + ":/usr/sbin"
os.Setenv("PATH", path)
}
// Important set rootlessNetNS as last step.
// Do not return any errors after this.
rootlessNetNS = &RootlessNetNS{
ns: ns,
dir: rootlessNetNsDir,
Lock: lock,
}
return rootlessNetNS, nil
}
// setUpNetwork will set up the the networks, on error it will also tear down the cni
// networks. If rootless it will join/create the rootless network namespace.
func (r *Runtime) setUpNetwork(ns string, opts types.NetworkOptions) (map[string]types.StatusBlock, error) {
rootlessNetNS, err := r.GetRootlessNetNs(true)
if err != nil {
return nil, err
}
var results map[string]types.StatusBlock
setUpPod := func() error {
results, err = r.network.Setup(ns, types.SetupOptions{NetworkOptions: opts})
return err
}
// rootlessNetNS is nil if we are root
if rootlessNetNS != nil {
// execute the setup in the rootless net ns
err = rootlessNetNS.Do(setUpPod)
rootlessNetNS.Lock.Unlock()
} else {
err = setUpPod()
}
return results, err
}
// getCNIPodName return the pod name (hostname) used by CNI and the dnsname plugin.
// If we are in the pod network namespace use the pod name otherwise the container name
func getCNIPodName(c *Container) string {
if c.config.NetMode.IsPod() || c.IsInfra() {
pod, err := c.runtime.state.Pod(c.PodID())
if err == nil {
return pod.Name()
}
}
return c.Name()
}
// Create and configure a new network namespace for a container
func (r *Runtime) configureNetNS(ctr *Container, ctrNS ns.NetNS) (status map[string]types.StatusBlock, rerr error) {
if err := r.exposeMachinePorts(ctr.config.PortMappings); err != nil {
return nil, err
}
defer func() {
// make sure to unexpose the gvproxy ports when an error happens
if rerr != nil {
if err := r.unexposeMachinePorts(ctr.config.PortMappings); err != nil {
logrus.Errorf("failed to free gvproxy machine ports: %v", err)
}
}
}()
if ctr.config.NetMode.IsSlirp4netns() {
return nil, r.setupSlirp4netns(ctr, ctrNS)
}
networks, err := ctr.networks()
if err != nil {
return nil, err
}
// All networks have been removed from the container.
// This is effectively forcing net=none.
if len(networks) == 0 {
return nil, nil
}
netOpts := ctr.getNetworkOptions(networks)
netStatus, err := r.setUpNetwork(ctrNS.Path(), netOpts)
if err != nil {
return nil, err
}
// setup rootless port forwarder when rootless with ports and the network status is empty,
// if this is called from network reload the network status will not be empty and we should
// not setup port because they are still active
if rootless.IsRootless() && len(ctr.config.PortMappings) > 0 && ctr.getNetworkStatus() == nil {
// set up port forwarder for rootless netns
netnsPath := ctrNS.Path()
// TODO: support slirp4netns port forwarder as well
// make sure to fix this in container.handleRestartPolicy() as well
// Important we have to call this after r.setUpNetwork() so that
// we can use the proper netStatus
err = r.setupRootlessPortMappingViaRLK(ctr, netnsPath, netStatus)
}
return netStatus, err
}
// Create and configure a new network namespace for a container
func (r *Runtime) createNetNS(ctr *Container) (n ns.NetNS, q map[string]types.StatusBlock, retErr error) {
ctrNS, err := netns.NewNS()
if err != nil {
return nil, nil, errors.Wrapf(err, "error creating network namespace for container %s", ctr.ID())
}
defer func() {
if retErr != nil {
if err := netns.UnmountNS(ctrNS); err != nil {
logrus.Errorf("Unmounting partially created network namespace for container %s: %v", ctr.ID(), err)
}
if err := ctrNS.Close(); err != nil {
logrus.Errorf("Closing partially created network namespace for container %s: %v", ctr.ID(), err)
}
}
}()
logrus.Debugf("Made network namespace at %s for container %s", ctrNS.Path(), ctr.ID())
var networkStatus map[string]types.StatusBlock
networkStatus, err = r.configureNetNS(ctr, ctrNS)
return ctrNS, networkStatus, err
}
// Configure the network namespace using the container process
func (r *Runtime) setupNetNS(ctr *Container) error {
nsProcess := fmt.Sprintf("/proc/%d/ns/net", ctr.state.PID)
b := make([]byte, 16)
if _, err := rand.Reader.Read(b); err != nil {
return errors.Wrapf(err, "failed to generate random netns name")
}
nsPath, err := netns.GetNSRunDir()
if err != nil {
return err
}
nsPath = filepath.Join(nsPath, fmt.Sprintf("netns-%x-%x-%x-%x-%x", b[0:4], b[4:6], b[6:8], b[8:10], b[10:]))
if err := os.MkdirAll(filepath.Dir(nsPath), 0711); err != nil {
return err
}
mountPointFd, err := os.Create(nsPath)
if err != nil {
return err
}
if err := mountPointFd.Close(); err != nil {
return err
}
if err := unix.Mount(nsProcess, nsPath, "none", unix.MS_BIND, ""); err != nil {
return errors.Wrapf(err, "cannot mount %s", nsPath)
}
netNS, err := ns.GetNS(nsPath)
if err != nil {
return err
}
networkStatus, err := r.configureNetNS(ctr, netNS)
// Assign NetNS attributes to container
ctr.state.NetNS = netNS
ctr.state.NetworkStatus = networkStatus
return err
}
// Join an existing network namespace
func joinNetNS(path string) (ns.NetNS, error) {
netNS, err := ns.GetNS(path)
if err != nil {
return nil, errors.Wrapf(err, "error retrieving network namespace at %s", path)
}
return netNS, nil
}
// Close a network namespace.
// Differs from teardownNetNS() in that it will not attempt to undo the setup of
// the namespace, but will instead only close the open file descriptor
func (r *Runtime) closeNetNS(ctr *Container) error {
if ctr.state.NetNS == nil {
// The container has no network namespace, we're set
return nil
}
if err := ctr.state.NetNS.Close(); err != nil {
return errors.Wrapf(err, "error closing network namespace for container %s", ctr.ID())
}
ctr.state.NetNS = nil
return nil
}
// Tear down a container's network configuration and joins the
// rootless net ns as rootless user
func (r *Runtime) teardownNetwork(ns string, opts types.NetworkOptions) error {
rootlessNetNS, err := r.GetRootlessNetNs(false)
if err != nil {
return err
}
tearDownPod := func() error {
err := r.network.Teardown(ns, types.TeardownOptions{NetworkOptions: opts})
return errors.Wrapf(err, "error tearing down network namespace configuration for container %s", opts.ContainerID)
}
// rootlessNetNS is nil if we are root
if rootlessNetNS != nil {
// execute the cni setup in the rootless net ns
err = rootlessNetNS.Do(tearDownPod)
if cerr := rootlessNetNS.Cleanup(r); cerr != nil {
logrus.WithError(err).Error("failed to cleanup rootless netns")
}
rootlessNetNS.Lock.Unlock()
} else {
err = tearDownPod()
}
return err
}
// Tear down a container's CNI network configuration, but do not tear down the
// namespace itself.
func (r *Runtime) teardownCNI(ctr *Container) error {
if ctr.state.NetNS == nil {
// The container has no network namespace, we're set
return nil
}
logrus.Debugf("Tearing down network namespace at %s for container %s", ctr.state.NetNS.Path(), ctr.ID())
networks, err := ctr.networks()
if err != nil {
return err
}
if !ctr.config.NetMode.IsSlirp4netns() && len(networks) > 0 {
netOpts := ctr.getNetworkOptions(networks)
return r.teardownNetwork(ctr.state.NetNS.Path(), netOpts)
}
return nil
}
// Tear down a network namespace, undoing all state associated with it.
func (r *Runtime) teardownNetNS(ctr *Container) error {
if err := r.unexposeMachinePorts(ctr.config.PortMappings); err != nil {
// do not return an error otherwise we would prevent network cleanup
logrus.Errorf("failed to free gvproxy machine ports: %v", err)
}
if err := r.teardownCNI(ctr); err != nil {
return err
}
// First unmount the namespace
if err := netns.UnmountNS(ctr.state.NetNS); err != nil {
return errors.Wrapf(err, "error unmounting network namespace for container %s", ctr.ID())
}
// Now close the open file descriptor
if err := ctr.state.NetNS.Close(); err != nil {
return errors.Wrapf(err, "error closing network namespace for container %s", ctr.ID())
}
ctr.state.NetNS = nil
return nil
}
func getContainerNetNS(ctr *Container) (string, *Container, error) {
if ctr.state.NetNS != nil {
return ctr.state.NetNS.Path(), nil, nil
}
if ctr.config.NetNsCtr != "" {
c, err := ctr.runtime.GetContainer(ctr.config.NetNsCtr)
if err != nil {
return "", nil, err
}
if err = c.syncContainer(); err != nil {
return "", c, err
}
netNs, c2, err := getContainerNetNS(c)
if c2 != nil {
c = c2
}
return netNs, c, err
}
return "", nil, nil
}
// isBridgeNetMode checks if the given network mode is bridge.
// It returns nil when it is set to bridge and an error otherwise.
func isBridgeNetMode(n namespaces.NetworkMode) error {
if !n.IsBridge() {
return errors.Wrapf(define.ErrNetworkModeInvalid, "%q is not supported", n)
}
return nil
}
// Reload only works with containers with a configured network.
// It will tear down, and then reconfigure, the network of the container.
// This is mainly used when a reload of firewall rules wipes out existing
// firewall configuration.
// Efforts will be made to preserve MAC and IP addresses, but this only works if
// the container only joined a single CNI network, and was only assigned a
// single MAC or IP.
// Only works on root containers at present, though in the future we could
// extend this to stop + restart slirp4netns
func (r *Runtime) reloadContainerNetwork(ctr *Container) (map[string]types.StatusBlock, error) {
if ctr.state.NetNS == nil {
return nil, errors.Wrapf(define.ErrCtrStateInvalid, "container %s network is not configured, refusing to reload", ctr.ID())
}
if err := isBridgeNetMode(ctr.config.NetMode); err != nil {
return nil, err
}
logrus.Infof("Going to reload container %s network", ctr.ID())
err := r.teardownCNI(ctr)
if err != nil {
// teardownCNI will error if the iptables rules do not exists and this is the case after
// a firewall reload. The purpose of network reload is to recreate the rules if they do
// not exists so we should not log this specific error as error. This would confuse users otherwise.
// iptables-legacy and iptables-nft will create different errors make sure to match both.
b, rerr := regexp.MatchString("Couldn't load target `CNI-[a-f0-9]{24}':No such file or directory|Chain 'CNI-[a-f0-9]{24}' does not exist", err.Error())
if rerr == nil && !b {
logrus.Error(err)
} else {
logrus.Info(err)
}
}
networkOpts, err := ctr.networks()
if err != nil {
return nil, err
}
// Set the same network settings as before..
netStatus := ctr.getNetworkStatus()
for network, perNetOpts := range networkOpts {
for name, netInt := range netStatus[network].Interfaces {
perNetOpts.InterfaceName = name
perNetOpts.StaticMAC = netInt.MacAddress
for _, netAddress := range netInt.Subnets {
perNetOpts.StaticIPs = append(perNetOpts.StaticIPs, netAddress.IPNet.IP)
}
// Normally interfaces have a length of 1, only for some special cni configs we could get more.
// For now just use the first interface to get the ips this should be good enough for most cases.
break
}
networkOpts[network] = perNetOpts
}
ctr.perNetworkOpts = networkOpts
return r.configureNetNS(ctr, ctr.state.NetNS)
}
func getContainerNetIO(ctr *Container) (*netlink.LinkStatistics, error) {
var netStats *netlink.LinkStatistics
netNSPath, otherCtr, netPathErr := getContainerNetNS(ctr)
if netPathErr != nil {
return nil, netPathErr
}
if netNSPath == "" {
// If netNSPath is empty, it was set as none, and no netNS was set up
// this is a valid state and thus return no error, nor any statistics
return nil, nil
}
// FIXME get the interface from the container netstatus
dev := "eth0"
netMode := ctr.config.NetMode
if otherCtr != nil {
netMode = otherCtr.config.NetMode
}
if netMode.IsSlirp4netns() {
dev = "tap0"
}
err := ns.WithNetNSPath(netNSPath, func(_ ns.NetNS) error {
link, err := netlink.LinkByName(dev)
if err != nil {
return err
}
netStats = link.Attrs().Statistics
return nil
})
return netStats, err
}
// Produce an InspectNetworkSettings containing information on the container
// network.
func (c *Container) getContainerNetworkInfo() (*define.InspectNetworkSettings, error) {
if c.config.NetNsCtr != "" {
netNsCtr, err := c.runtime.GetContainer(c.config.NetNsCtr)
if err != nil {
return nil, err
}
// see https://github.com/containers/podman/issues/10090
// the container has to be locked for syncContainer()
netNsCtr.lock.Lock()
defer netNsCtr.lock.Unlock()
// Have to sync to ensure that state is populated
if err := netNsCtr.syncContainer(); err != nil {
return nil, err
}
logrus.Debugf("Container %s shares network namespace, retrieving network info of container %s", c.ID(), c.config.NetNsCtr)
return netNsCtr.getContainerNetworkInfo()
}
settings := new(define.InspectNetworkSettings)
settings.Ports = makeInspectPortBindings(c.config.PortMappings, c.config.ExposedPorts)
networks, err := c.networks()
if err != nil {
return nil, err
}
if c.state.NetNS == nil {
if networkNSPath := c.joinedNetworkNSPath(); networkNSPath != "" {
if result, err := c.inspectJoinedNetworkNS(networkNSPath); err == nil {
// fallback to dummy configuration
settings.InspectBasicNetworkConfig = resultToBasicNetworkConfig(result)
return settings, nil
}
// do not propagate error inspecting a joined network ns
logrus.Errorf("Inspecting network namespace: %s of container %s: %v", networkNSPath, c.ID(), err)
}
// We can't do more if the network is down.
// We still want to make dummy configurations for each CNI net
// the container joined.
if len(networks) > 0 {
settings.Networks = make(map[string]*define.InspectAdditionalNetwork, len(networks))
for net, opts := range networks {
cniNet := new(define.InspectAdditionalNetwork)
cniNet.NetworkID = net
cniNet.Aliases = opts.Aliases
settings.Networks[net] = cniNet
}
}
return settings, nil
}
// Set network namespace path
settings.SandboxKey = c.state.NetNS.Path()
netStatus := c.getNetworkStatus()
// If this is empty, we're probably slirp4netns
if len(netStatus) == 0 {
return settings, nil
}
// If we have networks - handle that here
if len(networks) > 0 {
if len(networks) != len(netStatus) {
return nil, errors.Wrapf(define.ErrInternal, "network inspection mismatch: asked to join %d network(s) %v, but have information on %d network(s)", len(networks), networks, len(netStatus))
}
settings.Networks = make(map[string]*define.InspectAdditionalNetwork)
for name, opts := range networks {
result := netStatus[name]
addedNet := new(define.InspectAdditionalNetwork)
addedNet.NetworkID = name
addedNet.Aliases = opts.Aliases
addedNet.InspectBasicNetworkConfig = resultToBasicNetworkConfig(result)
settings.Networks[name] = addedNet
}
// if not only the default network is connected we can return here
// otherwise we have to populate the InspectBasicNetworkConfig settings
_, isDefaultNet := networks[c.runtime.config.Network.DefaultNetwork]
if !(len(networks) == 1 && isDefaultNet) {
return settings, nil
}
}
// If not joining networks, we should have at most 1 result
if len(netStatus) > 1 {
return nil, errors.Wrapf(define.ErrInternal, "should have at most 1 network status result if not joining networks, instead got %d", len(netStatus))
}
if len(netStatus) == 1 {
for _, status := range netStatus {
settings.InspectBasicNetworkConfig = resultToBasicNetworkConfig(status)
}
}
return settings, nil
}
func (c *Container) joinedNetworkNSPath() string {
for _, namespace := range c.config.Spec.Linux.Namespaces {
if namespace.Type == spec.NetworkNamespace {
return namespace.Path
}
}
return ""
}
func (c *Container) inspectJoinedNetworkNS(networkns string) (q types.StatusBlock, retErr error) {
var result types.StatusBlock
err := ns.WithNetNSPath(networkns, func(_ ns.NetNS) error {
ifaces, err := net.Interfaces()
if err != nil {
return err
}
routes, err := netlink.RouteList(nil, netlink.FAMILY_ALL)
if err != nil {
return err
}
var gateway net.IP
for _, route := range routes {
// default gateway
if route.Dst == nil {
gateway = route.Gw
}
}
result.Interfaces = make(map[string]types.NetInterface)
for _, iface := range ifaces {
if iface.Flags&net.FlagLoopback != 0 {
continue
}
addrs, err := iface.Addrs()
if err != nil {
continue
}
if len(addrs) == 0 {
continue
}
subnets := make([]types.NetAddress, 0, len(addrs))
for _, address := range addrs {
if ipnet, ok := address.(*net.IPNet); ok {
if ipnet.IP.IsLinkLocalMulticast() || ipnet.IP.IsLinkLocalUnicast() {
continue
}
subnet := types.NetAddress{
IPNet: types.IPNet{
IPNet: *ipnet,
},
}
if ipnet.Contains(gateway) {
subnet.Gateway = gateway
}
subnets = append(subnets, subnet)
}
}
result.Interfaces[iface.Name] = types.NetInterface{
Subnets: subnets,
MacAddress: types.HardwareAddr(iface.HardwareAddr),
}
}
return nil
})
return result, err
}
// resultToBasicNetworkConfig produces an InspectBasicNetworkConfig from a CNI
// result
func resultToBasicNetworkConfig(result types.StatusBlock) define.InspectBasicNetworkConfig {
config := define.InspectBasicNetworkConfig{}
interfaceNames := make([]string, 0, len(result.Interfaces))
for interfaceName := range result.Interfaces {
interfaceNames = append(interfaceNames, interfaceName)
}
// ensure consistent inspect results by sorting
sort.Strings(interfaceNames)
for _, interfaceName := range interfaceNames {
netInt := result.Interfaces[interfaceName]
for _, netAddress := range netInt.Subnets {
size, _ := netAddress.IPNet.Mask.Size()
if netAddress.IPNet.IP.To4() != nil {
//ipv4
if config.IPAddress == "" {
config.IPAddress = netAddress.IPNet.IP.String()
config.IPPrefixLen = size
config.Gateway = netAddress.Gateway.String()
} else {
config.SecondaryIPAddresses = append(config.SecondaryIPAddresses, define.Address{Addr: netAddress.IPNet.IP.String(), PrefixLength: size})
}
} else {
//ipv6
if config.GlobalIPv6Address == "" {
config.GlobalIPv6Address = netAddress.IPNet.IP.String()
config.GlobalIPv6PrefixLen = size
config.IPv6Gateway = netAddress.Gateway.String()
} else {
config.SecondaryIPv6Addresses = append(config.SecondaryIPv6Addresses, define.Address{Addr: netAddress.IPNet.IP.String(), PrefixLength: size})
}
}
}
if config.MacAddress == "" {
config.MacAddress = netInt.MacAddress.String()
} else {
config.AdditionalMacAddresses = append(config.AdditionalMacAddresses, netInt.MacAddress.String())
}
}
return config
}
type logrusDebugWriter struct {
prefix string
}
func (w *logrusDebugWriter) Write(p []byte) (int, error) {
logrus.Debugf("%s%s", w.prefix, string(p))
return len(p), nil
}
// NetworkDisconnect removes a container from the network
func (c *Container) NetworkDisconnect(nameOrID, netName string, force bool) error {
// only the bridge mode supports cni networks
if err := isBridgeNetMode(c.config.NetMode); err != nil {
return err
}
c.lock.Lock()
defer c.lock.Unlock()
networks, err := c.networks()
if err != nil {
return err
}
// check if network exists and if the input is a ID we get the name
// CNI only uses names so it is important that we only use the name
netName, err = c.runtime.normalizeNetworkName(netName)
if err != nil {
return err
}
_, nameExists := networks[netName]
if !nameExists && len(networks) > 0 {
return errors.Errorf("container %s is not connected to network %s", nameOrID, netName)
}
if err := c.syncContainer(); err != nil {
return err
}
// get network status before we disconnect
networkStatus := c.getNetworkStatus()
if err := c.runtime.state.NetworkDisconnect(c, netName); err != nil {
return err
}
c.newNetworkEvent(events.NetworkDisconnect, netName)
if !c.ensureState(define.ContainerStateRunning, define.ContainerStateCreated) {
return nil
}
if c.state.NetNS == nil {
return errors.Wrapf(define.ErrNoNetwork, "unable to disconnect %s from %s", nameOrID, netName)
}
opts := types.NetworkOptions{
ContainerID: c.config.ID,
ContainerName: getCNIPodName(c),
}
opts.PortMappings = c.convertPortMappings()
opts.Networks = map[string]types.PerNetworkOptions{
netName: networks[netName],
}
if err := c.runtime.teardownNetwork(c.state.NetNS.Path(), opts); err != nil {
return err
}
// update network status if container is running
oldStatus, statusExist := networkStatus[netName]
delete(networkStatus, netName)
c.state.NetworkStatus = networkStatus
err = c.save()
if err != nil {
return err
}
// Reload ports when there are still connected networks, maybe we removed the network interface with the child ip.
// Reloading without connected networks does not make sense, so we can skip this step.
if rootless.IsRootless() && len(networkStatus) > 0 {
if err := c.reloadRootlessRLKPortMapping(); err != nil {
return err
}
}
// Update resolv.conf if required
if statusExist {
stringIPs := make([]string, 0, len(oldStatus.DNSServerIPs))
for _, ip := range oldStatus.DNSServerIPs {
stringIPs = append(stringIPs, ip.String())
}
if len(stringIPs) > 0 {
logrus.Debugf("Removing DNS Servers %v from resolv.conf", stringIPs)
if err := c.removeNameserver(stringIPs); err != nil {
return err
}
}
// update /etc/hosts file
if file, ok := c.state.BindMounts[config.DefaultHostsFile]; ok {
// sync the names with c.getHostsEntries()
names := []string{c.Hostname(), c.config.Name}
rm := etchosts.GetNetworkHostEntries(map[string]types.StatusBlock{netName: oldStatus}, names...)
if len(rm) > 0 {
// make sure to lock this file to prevent concurrent writes when
// this is used a net dependency container
lock, err := lockfile.GetLockfile(file)
if err != nil {
return fmt.Errorf("failed to lock hosts file: %w", err)
}
logrus.Debugf("Remove /etc/hosts entries %v", rm)
lock.Lock()
err = etchosts.Remove(file, rm)
lock.Unlock()
if err != nil {
return err
}
}
}
}
return nil
}
// ConnectNetwork connects a container to a given network
func (c *Container) NetworkConnect(nameOrID, netName string, netOpts types.PerNetworkOptions) error {
// only the bridge mode supports cni networks
if err := isBridgeNetMode(c.config.NetMode); err != nil {
return err
}
c.lock.Lock()
defer c.lock.Unlock()
networks, err := c.networks()
if err != nil {
return err
}
// check if network exists and if the input is a ID we get the name
// CNI only uses names so it is important that we only use the name
netName, err = c.runtime.normalizeNetworkName(netName)
if err != nil {
return err
}
if err := c.syncContainer(); err != nil {
return err
}
// get network status before we connect
networkStatus := c.getNetworkStatus()
// always add the short id as alias for docker compat
netOpts.Aliases = append(netOpts.Aliases, c.config.ID[:12])
if netOpts.InterfaceName == "" {
netOpts.InterfaceName = getFreeInterfaceName(networks)
if netOpts.InterfaceName == "" {
return errors.New("could not find free network interface name")
}
}
if err := c.runtime.state.NetworkConnect(c, netName, netOpts); err != nil {
return err
}
c.newNetworkEvent(events.NetworkConnect, netName)
if !c.ensureState(define.ContainerStateRunning, define.ContainerStateCreated) {
return nil
}
if c.state.NetNS == nil {
return errors.Wrapf(define.ErrNoNetwork, "unable to connect %s to %s", nameOrID, netName)
}
opts := types.NetworkOptions{
ContainerID: c.config.ID,
ContainerName: getCNIPodName(c),
}
opts.PortMappings = c.convertPortMappings()
opts.Networks = map[string]types.PerNetworkOptions{
netName: netOpts,
}
results, err := c.runtime.setUpNetwork(c.state.NetNS.Path(), opts)
if err != nil {
return err
}
if len(results) != 1 {
return errors.New("when adding aliases, results must be of length 1")
}
// we need to get the old host entries before we add the new one to the status
// if we do not add do it here we will get the wrong existing entries which will throw of the logic
// we could also copy the map but this does not seem worth it
// sync the hostNames with c.getHostsEntries()
hostNames := []string{c.Hostname(), c.config.Name}
oldHostEntries := etchosts.GetNetworkHostEntries(networkStatus, hostNames...)
// update network status
if networkStatus == nil {
networkStatus = make(map[string]types.StatusBlock, 1)
}
networkStatus[netName] = results[netName]
c.state.NetworkStatus = networkStatus
err = c.save()
if err != nil {
return err
}
// The first network needs a port reload to set the correct child ip for the rootlessport process.
// Adding a second network does not require a port reload because the child ip is still valid.
if rootless.IsRootless() && len(networks) == 0 {
if err := c.reloadRootlessRLKPortMapping(); err != nil {
return err
}
}
ipv6, err := c.checkForIPv6(networkStatus)
if err != nil {
return err
}
// Update resolv.conf if required
stringIPs := make([]string, 0, len(results[netName].DNSServerIPs))
for _, ip := range results[netName].DNSServerIPs {
if (ip.To4() == nil) && !ipv6 {
continue
}
stringIPs = append(stringIPs, ip.String())
}
if len(stringIPs) > 0 {
logrus.Debugf("Adding DNS Servers %v to resolv.conf", stringIPs)
if err := c.addNameserver(stringIPs); err != nil {
return err
}
}
// update /etc/hosts file
if file, ok := c.state.BindMounts[config.DefaultHostsFile]; ok {
// make sure to lock this file to prevent concurrent writes when
// this is used a net dependency container
lock, err := lockfile.GetLockfile(file)
if err != nil {
return fmt.Errorf("failed to lock hosts file: %w", err)
}
new := etchosts.GetNetworkHostEntries(results, hostNames...)
logrus.Debugf("Add /etc/hosts entries %v", new)
// use special AddIfExists API to make sure we only add new entries if an old one exists
// see the AddIfExists() comment for more information
lock.Lock()
err = etchosts.AddIfExists(file, oldHostEntries, new)
lock.Unlock()
if err != nil {
return err
}
}
return nil
}
// get a free interface name for a new network
// return an empty string if no free name was found
func getFreeInterfaceName(networks map[string]types.PerNetworkOptions) string {
ifNames := make([]string, 0, len(networks))
for _, opts := range networks {
ifNames = append(ifNames, opts.InterfaceName)
}
for i := 0; i < 100000; i++ {
ifName := fmt.Sprintf("eth%d", i)
if !util.StringInSlice(ifName, ifNames) {
return ifName
}
}
return ""
}
// DisconnectContainerFromNetwork removes a container from its CNI network
func (r *Runtime) DisconnectContainerFromNetwork(nameOrID, netName string, force bool) error {
ctr, err := r.LookupContainer(nameOrID)
if err != nil {
return err
}
return ctr.NetworkDisconnect(nameOrID, netName, force)
}
// ConnectContainerToNetwork connects a container to a CNI network
func (r *Runtime) ConnectContainerToNetwork(nameOrID, netName string, netOpts types.PerNetworkOptions) error {
ctr, err := r.LookupContainer(nameOrID)
if err != nil {
return err
}
return ctr.NetworkConnect(nameOrID, netName, netOpts)
}
// normalizeNetworkName takes a network name, a partial or a full network ID and returns the network name.
// If the network is not found a errors is returned.
func (r *Runtime) normalizeNetworkName(nameOrID string) (string, error) {
net, err := r.network.NetworkInspect(nameOrID)
if err != nil {
return "", err
}
return net.Name, nil
}
// ocicniPortsToNetTypesPorts convert the old port format to the new one
// while deduplicating ports into ranges
func ocicniPortsToNetTypesPorts(ports []types.OCICNIPortMapping) []types.PortMapping {
if len(ports) == 0 {
return nil
}
newPorts := make([]types.PortMapping, 0, len(ports))
// first sort the ports
sort.Slice(ports, func(i, j int) bool {
return compareOCICNIPorts(ports[i], ports[j])
})
// we already check if the slice is empty so we can use the first element
currentPort := types.PortMapping{
HostIP: ports[0].HostIP,
HostPort: uint16(ports[0].HostPort),
ContainerPort: uint16(ports[0].ContainerPort),
Protocol: ports[0].Protocol,
Range: 1,
}
for i := 1; i < len(ports); i++ {
if ports[i].HostIP == currentPort.HostIP &&
ports[i].Protocol == currentPort.Protocol &&
ports[i].HostPort-int32(currentPort.Range) == int32(currentPort.HostPort) &&
ports[i].ContainerPort-int32(currentPort.Range) == int32(currentPort.ContainerPort) {
currentPort.Range = currentPort.Range + 1
} else {
newPorts = append(newPorts, currentPort)
currentPort = types.PortMapping{
HostIP: ports[i].HostIP,
HostPort: uint16(ports[i].HostPort),
ContainerPort: uint16(ports[i].ContainerPort),
Protocol: ports[i].Protocol,
Range: 1,
}
}
}
newPorts = append(newPorts, currentPort)
return newPorts
}
// compareOCICNIPorts will sort the ocicni ports by
// 1) host ip
// 2) protocol
// 3) hostPort
// 4) container port
func compareOCICNIPorts(i, j types.OCICNIPortMapping) bool {
if i.HostIP != j.HostIP {
return i.HostIP < j.HostIP
}
if i.Protocol != j.Protocol {
return i.Protocol < j.Protocol
}
if i.HostPort != j.HostPort {
return i.HostPort < j.HostPort
}
return i.ContainerPort < j.ContainerPort
}
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