package createconfig import ( "fmt" "net" "os" "strconv" "strings" "syscall" "github.com/containers/image/manifest" "github.com/containers/libpod/libpod" "github.com/containers/libpod/pkg/namespaces" "github.com/containers/storage" "github.com/containers/storage/pkg/stringid" "github.com/cri-o/ocicni/pkg/ocicni" "github.com/docker/go-connections/nat" spec "github.com/opencontainers/runtime-spec/specs-go" "github.com/opencontainers/runtime-tools/generate" "github.com/pkg/errors" "github.com/sirupsen/logrus" "golang.org/x/sys/unix" ) // Type constants const ( bps = iota iops // TypeBind is the type for mounting host dir TypeBind = "bind" // TypeVolume is the type for remote storage volumes // TypeVolume = "volume" // re-enable upon use // TypeTmpfs is the type for mounting tmpfs TypeTmpfs = "tmpfs" ) // CreateResourceConfig represents resource elements in CreateConfig // structures type CreateResourceConfig struct { BlkioWeight uint16 // blkio-weight BlkioWeightDevice []string // blkio-weight-device CPUPeriod uint64 // cpu-period CPUQuota int64 // cpu-quota CPURtPeriod uint64 // cpu-rt-period CPURtRuntime int64 // cpu-rt-runtime CPUShares uint64 // cpu-shares CPUs float64 // cpus CPUsetCPUs string CPUsetMems string // cpuset-mems DeviceReadBps []string // device-read-bps DeviceReadIOps []string // device-read-iops DeviceWriteBps []string // device-write-bps DeviceWriteIOps []string // device-write-iops DisableOomKiller bool // oom-kill-disable KernelMemory int64 // kernel-memory Memory int64 //memory MemoryReservation int64 // memory-reservation MemorySwap int64 //memory-swap MemorySwappiness int // memory-swappiness OomScoreAdj int //oom-score-adj PidsLimit int64 // pids-limit ShmSize int64 Ulimit []string //ulimit } // CreateConfig is a pre OCI spec structure. It represents user input from varlink or the CLI type CreateConfig struct { Annotations map[string]string Args []string CapAdd []string // cap-add CapDrop []string // cap-drop CidFile string ConmonPidFile string CgroupParent string // cgroup-parent Command []string Detach bool // detach Devices []string // device DNSOpt []string //dns-opt DNSSearch []string //dns-search DNSServers []string //dns Entrypoint []string //entrypoint Env map[string]string //env ExposedPorts map[nat.Port]struct{} GroupAdd []string // group-add HealthCheck *manifest.Schema2HealthConfig NoHosts bool HostAdd []string //add-host Hostname string //hostname HTTPProxy bool Image string ImageID string BuiltinImgVolumes map[string]struct{} // volumes defined in the image config IDMappings *storage.IDMappingOptions ImageVolumeType string // how to handle the image volume, either bind, tmpfs, or ignore Interactive bool //interactive IpcMode namespaces.IpcMode //ipc IP6Address string //ipv6 IPAddress string //ip Labels map[string]string //label LinkLocalIP []string // link-local-ip LogDriver string // log-driver LogDriverOpt []string // log-opt MacAddress string //mac-address Name string //name NetMode namespaces.NetworkMode //net Network string //network NetworkAlias []string //network-alias PidMode namespaces.PidMode //pid Pod string //pod PortBindings nat.PortMap Privileged bool //privileged Publish []string //publish PublishAll bool //publish-all Quiet bool //quiet ReadOnlyRootfs bool //read-only ReadOnlyTmpfs bool //read-only-tmpfs Resources CreateResourceConfig Rm bool //rm StopSignal syscall.Signal // stop-signal StopTimeout uint // stop-timeout Sysctl map[string]string //sysctl Systemd bool Tmpfs []string // tmpfs Tty bool //tty UsernsMode namespaces.UsernsMode //userns User string //user UtsMode namespaces.UTSMode //uts Mounts []spec.Mount //mounts Volumes []string //volume VolumesFrom []string WorkDir string //workdir LabelOpts []string //SecurityOpts NoNewPrivs bool //SecurityOpts ApparmorProfile string //SecurityOpts SeccompProfilePath string //SecurityOpts SecurityOpts []string Rootfs string Syslog bool // Whether to enable syslog on exit commands } func u32Ptr(i int64) *uint32 { u := uint32(i); return &u } func fmPtr(i int64) *os.FileMode { fm := os.FileMode(i); return &fm } // CreateBlockIO returns a LinuxBlockIO struct from a CreateConfig func (c *CreateConfig) CreateBlockIO() (*spec.LinuxBlockIO, error) { return c.createBlockIO() } // AddContainerInitBinary adds the init binary specified by path iff the // container will run in a private PID namespace that is not shared with the // host or another pre-existing container, where an init-like process is // already running. // // Note that AddContainerInitBinary prepends "/dev/init" "--" to the command // to execute the bind-mounted binary as PID 1. func (c *CreateConfig) AddContainerInitBinary(path string) error { if path == "" { return fmt.Errorf("please specify a path to the container-init binary") } if !c.PidMode.IsPrivate() { return fmt.Errorf("cannot add init binary as PID 1 (PID namespace isn't private)") } if c.Systemd { return fmt.Errorf("cannot use container-init binary with systemd") } if _, err := os.Stat(path); os.IsNotExist(err) { return errors.Wrap(err, "container-init binary not found on the host") } c.Command = append([]string{"/dev/init", "--"}, c.Command...) c.Mounts = append(c.Mounts, spec.Mount{ Destination: "/dev/init", Type: TypeBind, Source: path, Options: []string{TypeBind, "ro"}, }) return nil } func processOptions(options []string) []string { var ( foundrw, foundro bool rootProp string ) options = append(options, "rbind") for _, opt := range options { switch opt { case "rw": foundrw = true case "ro": foundro = true case "private", "rprivate", "slave", "rslave", "shared", "rshared": rootProp = opt } } if !foundrw && !foundro { options = append(options, "rw") } if rootProp == "" { options = append(options, "rprivate") } return options } func (c *CreateConfig) initFSMounts() []spec.Mount { var mounts []spec.Mount for _, m := range c.Mounts { m.Options = processOptions(m.Options) if m.Type == "tmpfs" { m.Options = append(m.Options, "tmpcopyup") } else { mounts = append(mounts, m) } } return mounts } // GetVolumeMounts takes user provided input for bind mounts and creates Mount structs func (c *CreateConfig) GetVolumeMounts(specMounts []spec.Mount) ([]spec.Mount, error) { m := []spec.Mount{} for _, i := range c.Volumes { var options []string spliti := strings.Split(i, ":") if len(spliti) > 2 { options = strings.Split(spliti[2], ",") } m = append(m, spec.Mount{ Destination: spliti[1], Type: string(TypeBind), Source: spliti[0], Options: processOptions(options), }) logrus.Debugf("User mount %s:%s options %v", spliti[0], spliti[1], options) } if c.ImageVolumeType == "ignore" { return m, nil } for vol := range c.BuiltinImgVolumes { if libpod.MountExists(specMounts, vol) || libpod.MountExists(m, vol) { continue } mount := spec.Mount{ Destination: vol, Type: c.ImageVolumeType, Options: []string{"rprivate", "rw", "nodev"}, } if c.ImageVolumeType == "tmpfs" { mount.Source = "tmpfs" mount.Options = append(mount.Options, "tmpcopyup") } else { // TODO: Move support for this and tmpfs into libpod // Should tmpfs also be handled as named volumes? Wouldn't be hard // This will cause a new local Volume to be created on your system mount.Source = stringid.GenerateNonCryptoID() mount.Options = append(mount.Options, TypeBind) } m = append(m, mount) } return m, nil } // GetVolumesFrom reads the create-config artifact of the container to get volumes from // and adds it to c.Volumes of the current container. func (c *CreateConfig) GetVolumesFrom(runtime *libpod.Runtime) error { if os.Geteuid() != 0 { return nil } for _, vol := range c.VolumesFrom { options := "" splitVol := strings.SplitN(vol, ":", 2) if len(splitVol) == 2 { options = splitVol[1] } ctr, err := runtime.LookupContainer(splitVol[0]) if err != nil { return errors.Wrapf(err, "error looking up container %q", splitVol[0]) } logrus.Debugf("Adding volumes from container %s", ctr.ID()) // Look up the container's user volumes. This gets us the // destinations of all mounts the user added to the container. userVolumesArr := ctr.UserVolumes() // We're going to need to access them a lot, so convert to a map // to reduce looping. // We'll also use the map to indicate if we missed any volumes along the way. userVolumes := make(map[string]bool) for _, dest := range userVolumesArr { userVolumes[dest] = false } // Now we get the container's spec and loop through its volumes // and append them in if we can find them. spec := ctr.Spec() if spec == nil { return errors.Errorf("error retrieving container %s spec", ctr.ID()) } for _, mnt := range spec.Mounts { if mnt.Type != TypeBind { continue } if _, exists := userVolumes[mnt.Destination]; exists { userVolumes[mnt.Destination] = true localOptions := options if localOptions == "" { localOptions = strings.Join(mnt.Options, ",") } c.Volumes = append(c.Volumes, fmt.Sprintf("%s:%s:%s", mnt.Source, mnt.Destination, localOptions)) } } // We're done with the spec mounts. Add named volumes. // Add these unconditionally - none of them are automatically // part of the container, as some spec mounts are. namedVolumes := ctr.NamedVolumes() for _, namedVol := range namedVolumes { if _, exists := userVolumes[namedVol.Dest]; exists { userVolumes[namedVol.Dest] = true } localOptions := options if localOptions == "" { localOptions = strings.Join(namedVol.Options, ",") } c.Volumes = append(c.Volumes, fmt.Sprintf("%s:%s:%s", namedVol.Name, namedVol.Dest, localOptions)) } // Check if we missed any volumes for volDest, found := range userVolumes { if !found { logrus.Warnf("Unable to match volume %s from container %s for volumes-from", volDest, ctr.ID()) } } } return nil } //GetTmpfsMounts takes user provided input for Tmpfs mounts and creates Mount structs func (c *CreateConfig) GetTmpfsMounts() []spec.Mount { var m []spec.Mount for _, i := range c.Tmpfs { // Default options if nothing passed options := []string{"rprivate", "rw", "noexec", "nosuid", "nodev", "size=65536k"} spliti := strings.Split(i, ":") destPath := spliti[0] if len(spliti) > 1 { options = strings.Split(spliti[1], ",") } m = append(m, spec.Mount{ Destination: destPath, Type: string(TypeTmpfs), Options: options, Source: string(TypeTmpfs), }) } return m } func (c *CreateConfig) createExitCommand(runtime *libpod.Runtime) ([]string, error) { config, err := runtime.GetConfig() if err != nil { return nil, err } cmd, _ := os.Executable() command := []string{cmd, "--root", config.StorageConfig.GraphRoot, "--runroot", config.StorageConfig.RunRoot, "--log-level", logrus.GetLevel().String(), "--cgroup-manager", config.CgroupManager, "--tmpdir", config.TmpDir, } if config.OCIRuntime != "" { command = append(command, []string{"--runtime", config.OCIRuntime}...) } if config.StorageConfig.GraphDriverName != "" { command = append(command, []string{"--storage-driver", config.StorageConfig.GraphDriverName}...) } if c.Syslog { command = append(command, "--syslog", "true") } command = append(command, []string{"container", "cleanup"}...) if c.Rm { command = append(command, "--rm") } return command, nil } // GetContainerCreateOptions takes a CreateConfig and returns a slice of CtrCreateOptions func (c *CreateConfig) getContainerCreateOptions(runtime *libpod.Runtime, pod *libpod.Pod, namedVolumes []*libpod.ContainerNamedVolume) ([]libpod.CtrCreateOption, error) { var options []libpod.CtrCreateOption var portBindings []ocicni.PortMapping var err error if c.Interactive { options = append(options, libpod.WithStdin()) } if c.Systemd && (strings.HasSuffix(c.Command[0], "init") || strings.HasSuffix(c.Command[0], "systemd")) { options = append(options, libpod.WithSystemd()) } if c.Name != "" { logrus.Debugf("setting container name %s", c.Name) options = append(options, libpod.WithName(c.Name)) } if c.Pod != "" { logrus.Debugf("adding container to pod %s", c.Pod) options = append(options, runtime.WithPod(pod)) } if len(c.PortBindings) > 0 { portBindings, err = c.CreatePortBindings() if err != nil { return nil, errors.Wrapf(err, "unable to create port bindings") } } if len(c.Volumes) != 0 { // Volumes consist of multiple, comma-delineated fields // The image spec only includes one part of that, so drop the // others, if they are included volumes := make([]string, 0, len(c.Volumes)) for _, vol := range c.Volumes { // We always want the volume destination splitVol := strings.SplitN(vol, ":", 3) if len(splitVol) > 1 { volumes = append(volumes, splitVol[1]) } else { volumes = append(volumes, splitVol[0]) } } options = append(options, libpod.WithUserVolumes(volumes)) } if len(namedVolumes) != 0 { options = append(options, libpod.WithNamedVolumes(namedVolumes)) } if len(c.Command) != 0 { options = append(options, libpod.WithCommand(c.Command)) } // Add entrypoint unconditionally // If it's empty it's because it was explicitly set to "" or the image // does not have one options = append(options, libpod.WithEntrypoint(c.Entrypoint)) networks := make([]string, 0) userNetworks := c.NetMode.UserDefined() if IsPod(userNetworks) { userNetworks = "" } if userNetworks != "" { for _, netName := range strings.Split(userNetworks, ",") { if netName == "" { return nil, errors.Wrapf(err, "container networks %q invalid", networks) } networks = append(networks, netName) } } if c.NetMode.IsNS() { ns := c.NetMode.NS() if ns == "" { return nil, errors.Errorf("invalid empty user-defined network namespace") } _, err := os.Stat(ns) if err != nil { return nil, err } } else if c.NetMode.IsContainer() { connectedCtr, err := runtime.LookupContainer(c.NetMode.Container()) if err != nil { return nil, errors.Wrapf(err, "container %q not found", c.NetMode.Container()) } options = append(options, libpod.WithNetNSFrom(connectedCtr)) } else if !c.NetMode.IsHost() && !c.NetMode.IsNone() { postConfigureNetNS := c.NetMode.IsSlirp4netns() || (len(c.IDMappings.UIDMap) > 0 || len(c.IDMappings.GIDMap) > 0) && !c.UsernsMode.IsHost() options = append(options, libpod.WithNetNS(portBindings, postConfigureNetNS, string(c.NetMode), networks)) } if c.PidMode.IsContainer() { connectedCtr, err := runtime.LookupContainer(c.PidMode.Container()) if err != nil { return nil, errors.Wrapf(err, "container %q not found", c.PidMode.Container()) } options = append(options, libpod.WithPIDNSFrom(connectedCtr)) } if c.IpcMode.IsContainer() { connectedCtr, err := runtime.LookupContainer(c.IpcMode.Container()) if err != nil { return nil, errors.Wrapf(err, "container %q not found", c.IpcMode.Container()) } options = append(options, libpod.WithIPCNSFrom(connectedCtr)) } if IsPod(string(c.UtsMode)) { options = append(options, libpod.WithUTSNSFromPod(pod)) } if c.UtsMode.IsContainer() { connectedCtr, err := runtime.LookupContainer(c.UtsMode.Container()) if err != nil { return nil, errors.Wrapf(err, "container %q not found", c.UtsMode.Container()) } options = append(options, libpod.WithUTSNSFrom(connectedCtr)) } // TODO: MNT, USER, CGROUP options = append(options, libpod.WithStopSignal(c.StopSignal)) options = append(options, libpod.WithStopTimeout(c.StopTimeout)) if len(c.DNSSearch) > 0 { options = append(options, libpod.WithDNSSearch(c.DNSSearch)) } if len(c.DNSServers) > 0 { if len(c.DNSServers) == 1 && strings.ToLower(c.DNSServers[0]) == "none" { options = append(options, libpod.WithUseImageResolvConf()) } else { options = append(options, libpod.WithDNS(c.DNSServers)) } } if len(c.DNSOpt) > 0 { options = append(options, libpod.WithDNSOption(c.DNSOpt)) } if c.NoHosts { options = append(options, libpod.WithUseImageHosts()) } if len(c.HostAdd) > 0 && !c.NoHosts { options = append(options, libpod.WithHosts(c.HostAdd)) } logPath := getLoggingPath(c.LogDriverOpt) if logPath != "" { options = append(options, libpod.WithLogPath(logPath)) } if c.IPAddress != "" { ip := net.ParseIP(c.IPAddress) if ip == nil { return nil, errors.Wrapf(libpod.ErrInvalidArg, "cannot parse %s as IP address", c.IPAddress) } else if ip.To4() == nil { return nil, errors.Wrapf(libpod.ErrInvalidArg, "%s is not an IPv4 address", c.IPAddress) } options = append(options, libpod.WithStaticIP(ip)) } options = append(options, libpod.WithPrivileged(c.Privileged)) useImageVolumes := c.ImageVolumeType == TypeBind // Gather up the options for NewContainer which consist of With... funcs options = append(options, libpod.WithRootFSFromImage(c.ImageID, c.Image, useImageVolumes)) options = append(options, libpod.WithSecLabels(c.LabelOpts)) options = append(options, libpod.WithConmonPidFile(c.ConmonPidFile)) options = append(options, libpod.WithLabels(c.Labels)) options = append(options, libpod.WithUser(c.User)) if c.IpcMode.IsHost() { options = append(options, libpod.WithShmDir("/dev/shm")) } else if c.IpcMode.IsContainer() { ctr, err := runtime.LookupContainer(c.IpcMode.Container()) if err != nil { return nil, errors.Wrapf(err, "container %q not found", c.IpcMode.Container()) } options = append(options, libpod.WithShmDir(ctr.ShmDir())) } options = append(options, libpod.WithShmSize(c.Resources.ShmSize)) options = append(options, libpod.WithGroups(c.GroupAdd)) options = append(options, libpod.WithIDMappings(*c.IDMappings)) if c.Rootfs != "" { options = append(options, libpod.WithRootFS(c.Rootfs)) } // Default used if not overridden on command line if c.CgroupParent != "" { options = append(options, libpod.WithCgroupParent(c.CgroupParent)) } // Always use a cleanup process to clean up Podman after termination exitCmd, err := c.createExitCommand(runtime) if err != nil { return nil, err } options = append(options, libpod.WithExitCommand(exitCmd)) if c.HealthCheck != nil { options = append(options, libpod.WithHealthCheck(c.HealthCheck)) logrus.Debugf("New container has a health check") } return options, nil } // CreatePortBindings iterates ports mappings and exposed ports into a format CNI understands func (c *CreateConfig) CreatePortBindings() ([]ocicni.PortMapping, error) { return NatToOCIPortBindings(c.PortBindings) } // NatToOCIPortBindings iterates a nat.portmap slice and creates []ocicni portmapping slice func NatToOCIPortBindings(ports nat.PortMap) ([]ocicni.PortMapping, error) { var portBindings []ocicni.PortMapping for containerPb, hostPb := range ports { var pm ocicni.PortMapping pm.ContainerPort = int32(containerPb.Int()) for _, i := range hostPb { var hostPort int var err error pm.HostIP = i.HostIP if i.HostPort == "" { hostPort = containerPb.Int() } else { hostPort, err = strconv.Atoi(i.HostPort) if err != nil { return nil, errors.Wrapf(err, "unable to convert host port to integer") } } pm.HostPort = int32(hostPort) pm.Protocol = containerPb.Proto() portBindings = append(portBindings, pm) } } return portBindings, nil } // AddPrivilegedDevices iterates through host devices and adds all // host devices to the spec func (c *CreateConfig) AddPrivilegedDevices(g *generate.Generator) error { return c.addPrivilegedDevices(g) } func getStatFromPath(path string) (unix.Stat_t, error) { s := unix.Stat_t{} err := unix.Stat(path, &s) return s, err }