package common import ( "fmt" "net" "path/filepath" "strconv" "strings" "github.com/containers/podman/v3/cmd/podman/registry" "github.com/containers/podman/v3/pkg/api/handlers" "github.com/containers/podman/v3/pkg/cgroups" "github.com/containers/podman/v3/pkg/domain/entities" "github.com/containers/podman/v3/pkg/rootless" "github.com/containers/podman/v3/pkg/specgen" ) type ContainerCLIOpts struct { Annotation []string Attach []string Authfile string BlkIOWeight string BlkIOWeightDevice []string CapAdd []string CapDrop []string CgroupNS string CGroupsMode string CGroupParent string CIDFile string ConmonPIDFile string CPUPeriod uint64 CPUQuota int64 CPURTPeriod uint64 CPURTRuntime int64 CPUShares uint64 CPUS float64 CPUSetCPUs string CPUSetMems string Devices []string DeviceCGroupRule []string DeviceReadBPs []string DeviceReadIOPs []string DeviceWriteBPs []string DeviceWriteIOPs []string Entrypoint *string Env []string EnvHost bool EnvFile []string Expose []string GIDMap []string GroupAdd []string HealthCmd string HealthInterval string HealthRetries uint HealthStartPeriod string HealthTimeout string Hostname string HTTPProxy bool ImageVolume string Init bool InitPath string Interactive bool IPC string KernelMemory string Label []string LabelFile []string LogDriver string LogOptions []string Memory string MemoryReservation string MemorySwap string MemorySwappiness int64 Name string NoHealthCheck bool OOMKillDisable bool OOMScoreAdj int Arch string OS string Variant string PID string PIDsLimit *int64 Platform string Pod string PodIDFile string PreserveFDs uint Privileged bool PublishAll bool Pull string Quiet bool ReadOnly bool ReadOnlyTmpFS bool Restart string Replace bool Rm bool RootFS bool Secrets []string SecurityOpt []string SdNotifyMode string ShmSize string SignaturePolicy string StopSignal string StopTimeout uint StorageOpt []string SubUIDName string SubGIDName string Sysctl []string Systemd string TmpFS []string TTY bool Timezone string Umask string UIDMap []string Ulimit []string User string UserNS string UTS string Mount []string Volume []string VolumesFrom []string Workdir string SeccompPolicy string Net *entities.NetOptions CgroupConf []string } func stringMaptoArray(m map[string]string) []string { a := make([]string, 0, len(m)) for k, v := range m { a = append(a, fmt.Sprintf("%s=%s", k, v)) } return a } // ContainerCreateToContainerCLIOpts converts a compat input struct to cliopts so it can be converted to // a specgen spec. func ContainerCreateToContainerCLIOpts(cc handlers.CreateContainerConfig, cgroupsManager string) (*ContainerCLIOpts, []string, error) { var ( capAdd []string cappDrop []string entrypoint *string init bool specPorts []specgen.PortMapping ) if cc.HostConfig.Init != nil { init = *cc.HostConfig.Init } // Iterate devices and convert back to string devices := make([]string, 0, len(cc.HostConfig.Devices)) for _, dev := range cc.HostConfig.Devices { devices = append(devices, fmt.Sprintf("%s:%s:%s", dev.PathOnHost, dev.PathInContainer, dev.CgroupPermissions)) } // iterate blkreaddevicebps readBps := make([]string, 0, len(cc.HostConfig.BlkioDeviceReadBps)) for _, dev := range cc.HostConfig.BlkioDeviceReadBps { readBps = append(readBps, dev.String()) } // iterate blkreaddeviceiops readIops := make([]string, 0, len(cc.HostConfig.BlkioDeviceReadIOps)) for _, dev := range cc.HostConfig.BlkioDeviceReadIOps { readIops = append(readIops, dev.String()) } // iterate blkwritedevicebps writeBps := make([]string, 0, len(cc.HostConfig.BlkioDeviceWriteBps)) for _, dev := range cc.HostConfig.BlkioDeviceWriteBps { writeBps = append(writeBps, dev.String()) } // iterate blkwritedeviceiops writeIops := make([]string, 0, len(cc.HostConfig.BlkioDeviceWriteIOps)) for _, dev := range cc.HostConfig.BlkioDeviceWriteIOps { writeIops = append(writeIops, dev.String()) } // entrypoint // can be a string or slice. if it is a slice, we need to // marshall it to json; otherwise it should just be the string // value if len(cc.Config.Entrypoint) > 0 { entrypoint = &cc.Config.Entrypoint[0] if len(cc.Config.Entrypoint) > 1 { b, err := json.Marshal(cc.Config.Entrypoint) if err != nil { return nil, nil, err } var jsonString = string(b) entrypoint = &jsonString } } // expose ports expose := make([]string, 0, len(cc.Config.ExposedPorts)) for p := range cc.Config.ExposedPorts { expose = append(expose, fmt.Sprintf("%s/%s", p.Port(), p.Proto())) } // mounts type=tmpfs/bind,source=,dest=,opt=val // TODO options mounts := make([]string, 0, len(cc.HostConfig.Mounts)) for _, m := range cc.HostConfig.Mounts { mount := fmt.Sprintf("type=%s", m.Type) if len(m.Source) > 0 { mount += fmt.Sprintf(",source=%s", m.Source) } if len(m.Target) > 0 { mount += fmt.Sprintf(",dst=%s", m.Target) } mounts = append(mounts, mount) } // dns dns := make([]net.IP, 0, len(cc.HostConfig.DNS)) for _, d := range cc.HostConfig.DNS { dns = append(dns, net.ParseIP(d)) } // publish for port, pbs := range cc.HostConfig.PortBindings { for _, pb := range pbs { var hostport int var err error if pb.HostPort != "" { hostport, err = strconv.Atoi(pb.HostPort) } if err != nil { return nil, nil, err } tmpPort := specgen.PortMapping{ HostIP: pb.HostIP, ContainerPort: uint16(port.Int()), HostPort: uint16(hostport), Range: 0, Protocol: port.Proto(), } specPorts = append(specPorts, tmpPort) } } // netMode nsmode, _, err := specgen.ParseNetworkNamespace(string(cc.HostConfig.NetworkMode)) if err != nil { return nil, nil, err } netNS := specgen.Namespace{ NSMode: nsmode.NSMode, Value: nsmode.Value, } // network // Note: we cannot emulate compat exactly here. we only allow specifics of networks to be // defined when there is only one network. netInfo := entities.NetOptions{ AddHosts: cc.HostConfig.ExtraHosts, DNSOptions: cc.HostConfig.DNSOptions, DNSSearch: cc.HostConfig.DNSSearch, DNSServers: dns, Network: netNS, PublishPorts: specPorts, } // network names switch { case len(cc.NetworkingConfig.EndpointsConfig) > 0: var aliases []string endpointsConfig := cc.NetworkingConfig.EndpointsConfig cniNetworks := make([]string, 0, len(endpointsConfig)) for netName, endpoint := range endpointsConfig { cniNetworks = append(cniNetworks, netName) if endpoint == nil { continue } if len(endpoint.Aliases) > 0 { aliases = append(aliases, endpoint.Aliases...) } } // static IP and MAC if len(endpointsConfig) == 1 { for _, ep := range endpointsConfig { if ep == nil { continue } // if IP address is provided if len(ep.IPAddress) > 0 { staticIP := net.ParseIP(ep.IPAddress) netInfo.StaticIP = &staticIP } // If MAC address is provided if len(ep.MacAddress) > 0 { staticMac, err := net.ParseMAC(ep.MacAddress) if err != nil { return nil, nil, err } netInfo.StaticMAC = &staticMac } break } } netInfo.Aliases = aliases netInfo.CNINetworks = cniNetworks case len(cc.HostConfig.NetworkMode) > 0: netInfo.CNINetworks = []string{string(cc.HostConfig.NetworkMode)} } // Note: several options here are marked as "don't need". this is based // on speculation by Matt and I. We think that these come into play later // like with start. We believe this is just a difference in podman/compat cliOpts := ContainerCLIOpts{ // Attach: nil, // don't need? Authfile: "", CapAdd: append(capAdd, cc.HostConfig.CapAdd...), CapDrop: append(cappDrop, cc.HostConfig.CapDrop...), CGroupParent: cc.HostConfig.CgroupParent, CIDFile: cc.HostConfig.ContainerIDFile, CPUPeriod: uint64(cc.HostConfig.CPUPeriod), CPUQuota: cc.HostConfig.CPUQuota, CPURTPeriod: uint64(cc.HostConfig.CPURealtimePeriod), CPURTRuntime: cc.HostConfig.CPURealtimeRuntime, CPUShares: uint64(cc.HostConfig.CPUShares), // CPUS: 0, // don't need? CPUSetCPUs: cc.HostConfig.CpusetCpus, CPUSetMems: cc.HostConfig.CpusetMems, // Detach: false, // don't need // DetachKeys: "", // don't need Devices: devices, DeviceCGroupRule: nil, DeviceReadBPs: readBps, DeviceReadIOPs: readIops, DeviceWriteBPs: writeBps, DeviceWriteIOPs: writeIops, Entrypoint: entrypoint, Env: cc.Config.Env, Expose: expose, GroupAdd: cc.HostConfig.GroupAdd, Hostname: cc.Config.Hostname, ImageVolume: "bind", Init: init, Interactive: cc.Config.OpenStdin, IPC: string(cc.HostConfig.IpcMode), Label: stringMaptoArray(cc.Config.Labels), LogDriver: cc.HostConfig.LogConfig.Type, LogOptions: stringMaptoArray(cc.HostConfig.LogConfig.Config), Name: cc.Name, OOMScoreAdj: cc.HostConfig.OomScoreAdj, Arch: "", OS: "", Variant: "", PID: string(cc.HostConfig.PidMode), PIDsLimit: cc.HostConfig.PidsLimit, Privileged: cc.HostConfig.Privileged, PublishAll: cc.HostConfig.PublishAllPorts, Quiet: false, ReadOnly: cc.HostConfig.ReadonlyRootfs, ReadOnlyTmpFS: true, // podman default Rm: cc.HostConfig.AutoRemove, SecurityOpt: cc.HostConfig.SecurityOpt, StopSignal: cc.Config.StopSignal, StorageOpt: stringMaptoArray(cc.HostConfig.StorageOpt), Sysctl: stringMaptoArray(cc.HostConfig.Sysctls), Systemd: "true", // podman default TmpFS: stringMaptoArray(cc.HostConfig.Tmpfs), TTY: cc.Config.Tty, User: cc.Config.User, UserNS: string(cc.HostConfig.UsernsMode), UTS: string(cc.HostConfig.UTSMode), Mount: mounts, VolumesFrom: cc.HostConfig.VolumesFrom, Workdir: cc.Config.WorkingDir, Net: &netInfo, } if !rootless.IsRootless() { var ulimits []string if len(cc.HostConfig.Ulimits) > 0 { for _, ul := range cc.HostConfig.Ulimits { ulimits = append(ulimits, ul.String()) } cliOpts.Ulimit = ulimits } } // volumes volDestinations := make(map[string]bool) for _, vol := range cc.HostConfig.Binds { cliOpts.Volume = append(cliOpts.Volume, vol) // Extract the destination so we don't add duplicate mounts in // the volumes phase. splitVol := strings.SplitN(vol, ":", 3) switch len(splitVol) { case 1: volDestinations[vol] = true default: volDestinations[splitVol[1]] = true } } // Anonymous volumes are added differently from other volumes, in their // own special field, for reasons known only to Docker. Still use the // format of `-v` so we can just append them in there. // Unfortunately, these may be duplicates of existing mounts in Binds. // So... We need to catch that. for vol := range cc.Volumes { if _, ok := volDestinations[filepath.Clean(vol)]; ok { continue } cliOpts.Volume = append(cliOpts.Volume, vol) } if len(cc.HostConfig.BlkioWeightDevice) > 0 { devices := make([]string, 0, len(cc.HostConfig.BlkioWeightDevice)) for _, d := range cc.HostConfig.BlkioWeightDevice { devices = append(devices, d.String()) } cliOpts.BlkIOWeightDevice = devices } if cc.HostConfig.BlkioWeight > 0 { cliOpts.BlkIOWeight = strconv.Itoa(int(cc.HostConfig.BlkioWeight)) } if cc.HostConfig.Memory > 0 { cliOpts.Memory = strconv.Itoa(int(cc.HostConfig.Memory)) } if cc.HostConfig.MemoryReservation > 0 { cliOpts.MemoryReservation = strconv.Itoa(int(cc.HostConfig.MemoryReservation)) } cgroupsv2, err := cgroups.IsCgroup2UnifiedMode() if err != nil { return nil, nil, err } if cc.HostConfig.MemorySwap > 0 && (!rootless.IsRootless() || (rootless.IsRootless() && cgroupsv2)) { cliOpts.MemorySwap = strconv.Itoa(int(cc.HostConfig.MemorySwap)) } if cc.Config.StopTimeout != nil { cliOpts.StopTimeout = uint(*cc.Config.StopTimeout) } if cc.HostConfig.ShmSize > 0 { cliOpts.ShmSize = strconv.Itoa(int(cc.HostConfig.ShmSize)) } if cc.HostConfig.KernelMemory > 0 { cliOpts.KernelMemory = strconv.Itoa(int(cc.HostConfig.KernelMemory)) } if len(cc.HostConfig.RestartPolicy.Name) > 0 { policy := cc.HostConfig.RestartPolicy.Name // only add restart count on failure if cc.HostConfig.RestartPolicy.IsOnFailure() { policy += fmt.Sprintf(":%d", cc.HostConfig.RestartPolicy.MaximumRetryCount) } cliOpts.Restart = policy } if cc.HostConfig.MemorySwappiness != nil && (!rootless.IsRootless() || rootless.IsRootless() && cgroupsv2 && cgroupsManager == "systemd") { cliOpts.MemorySwappiness = *cc.HostConfig.MemorySwappiness } else { cliOpts.MemorySwappiness = -1 } if cc.HostConfig.OomKillDisable != nil { cliOpts.OOMKillDisable = *cc.HostConfig.OomKillDisable } if cc.Config.Healthcheck != nil { cliOpts.HealthCmd = strings.Join(cc.Config.Healthcheck.Test, " ") cliOpts.HealthInterval = cc.Config.Healthcheck.Interval.String() cliOpts.HealthRetries = uint(cc.Config.Healthcheck.Retries) cliOpts.HealthStartPeriod = cc.Config.Healthcheck.StartPeriod.String() cliOpts.HealthTimeout = cc.Config.Healthcheck.Timeout.String() } // specgen assumes the image name is arg[0] cmd := []string{cc.Config.Image} cmd = append(cmd, cc.Config.Cmd...) return &cliOpts, cmd, nil } func ulimits() []string { if !registry.IsRemote() { return containerConfig.Ulimits() } return nil } func cgroupConfig() string { if !registry.IsRemote() { return containerConfig.Cgroups() } return "" } func devices() []string { if !registry.IsRemote() { return containerConfig.Devices() } return nil } func env() []string { if !registry.IsRemote() { return containerConfig.Env() } return nil } func initPath() string { if !registry.IsRemote() { return containerConfig.InitPath() } return "" } func pidsLimit() int64 { if !registry.IsRemote() { return containerConfig.PidsLimit() } return -1 } func policy() string { if !registry.IsRemote() { return containerConfig.Engine.PullPolicy } return "" } func shmSize() string { if !registry.IsRemote() { return containerConfig.ShmSize() } return "" } func volumes() []string { if !registry.IsRemote() { return containerConfig.Volumes() } return nil } func logDriver() string { if !registry.IsRemote() { return containerConfig.Containers.LogDriver } return "" }