package util import ( "fmt" "os" "path/filepath" "strings" "sync" "syscall" "time" "github.com/BurntSushi/toml" "github.com/containers/image/types" "github.com/containers/libpod/pkg/rootless" "github.com/containers/storage" "github.com/containers/storage/pkg/idtools" "github.com/opencontainers/image-spec/specs-go/v1" "github.com/pkg/errors" "golang.org/x/crypto/ssh/terminal" ) // Helper function to determine the username/password passed // in the creds string. It could be either or both. func parseCreds(creds string) (string, string) { if creds == "" { return "", "" } up := strings.SplitN(creds, ":", 2) if len(up) == 1 { return up[0], "" } return up[0], up[1] } // ParseRegistryCreds takes a credentials string in the form USERNAME:PASSWORD // and returns a DockerAuthConfig func ParseRegistryCreds(creds string) (*types.DockerAuthConfig, error) { username, password := parseCreds(creds) if username == "" { fmt.Print("Username: ") fmt.Scanln(&username) } if password == "" { fmt.Print("Password: ") termPassword, err := terminal.ReadPassword(0) if err != nil { return nil, errors.Wrapf(err, "could not read password from terminal") } password = string(termPassword) } return &types.DockerAuthConfig{ Username: username, Password: password, }, nil } // StringInSlice determines if a string is in a string slice, returns bool func StringInSlice(s string, sl []string) bool { for _, i := range sl { if i == s { return true } } return false } // GetImageConfig converts the --change flag values in the format "CMD=/bin/bash USER=example" // to a type v1.ImageConfig func GetImageConfig(changes []string) (v1.ImageConfig, error) { // USER=value | EXPOSE=value | ENV=value | ENTRYPOINT=value | // CMD=value | VOLUME=value | WORKDIR=value | LABEL=key=value | STOPSIGNAL=value var ( user string env []string entrypoint []string cmd []string workingDir string stopSignal string ) exposedPorts := make(map[string]struct{}) volumes := make(map[string]struct{}) labels := make(map[string]string) for _, ch := range changes { pair := strings.Split(ch, "=") if len(pair) == 1 { return v1.ImageConfig{}, errors.Errorf("no value given for instruction %q", ch) } switch pair[0] { case "USER": user = pair[1] case "EXPOSE": var st struct{} exposedPorts[pair[1]] = st case "ENV": env = append(env, pair[1]) case "ENTRYPOINT": entrypoint = append(entrypoint, pair[1]) case "CMD": cmd = append(cmd, pair[1]) case "VOLUME": var st struct{} volumes[pair[1]] = st case "WORKDIR": workingDir = pair[1] case "LABEL": if len(pair) == 3 { labels[pair[1]] = pair[2] } else { labels[pair[1]] = "" } case "STOPSIGNAL": stopSignal = pair[1] } } return v1.ImageConfig{ User: user, ExposedPorts: exposedPorts, Env: env, Entrypoint: entrypoint, Cmd: cmd, Volumes: volumes, WorkingDir: workingDir, Labels: labels, StopSignal: stopSignal, }, nil } // ParseIDMapping takes idmappings and subuid and subgid maps and returns a storage mapping func ParseIDMapping(UIDMapSlice, GIDMapSlice []string, subUIDMap, subGIDMap string) (*storage.IDMappingOptions, error) { options := storage.IDMappingOptions{ HostUIDMapping: true, HostGIDMapping: true, } if subGIDMap == "" && subUIDMap != "" { subGIDMap = subUIDMap } if subUIDMap == "" && subGIDMap != "" { subUIDMap = subGIDMap } if len(GIDMapSlice) == 0 && len(UIDMapSlice) != 0 { GIDMapSlice = UIDMapSlice } if len(UIDMapSlice) == 0 && len(GIDMapSlice) != 0 { UIDMapSlice = GIDMapSlice } if len(UIDMapSlice) == 0 && subUIDMap == "" && os.Getuid() != 0 { UIDMapSlice = []string{fmt.Sprintf("0:%d:1", os.Getuid())} } if len(GIDMapSlice) == 0 && subGIDMap == "" && os.Getuid() != 0 { GIDMapSlice = []string{fmt.Sprintf("0:%d:1", os.Getgid())} } if subUIDMap != "" && subGIDMap != "" { mappings, err := idtools.NewIDMappings(subUIDMap, subGIDMap) if err != nil { return nil, err } options.UIDMap = mappings.UIDs() options.GIDMap = mappings.GIDs() } parsedUIDMap, err := idtools.ParseIDMap(UIDMapSlice, "UID") if err != nil { return nil, err } parsedGIDMap, err := idtools.ParseIDMap(GIDMapSlice, "GID") if err != nil { return nil, err } options.UIDMap = append(options.UIDMap, parsedUIDMap...) options.GIDMap = append(options.GIDMap, parsedGIDMap...) if len(options.UIDMap) > 0 { options.HostUIDMapping = false } if len(options.GIDMap) > 0 { options.HostGIDMapping = false } return &options, nil } var ( rootlessRuntimeDirOnce sync.Once rootlessRuntimeDir string ) // GetRootlessRuntimeDir returns the runtime directory when running as non root func GetRootlessRuntimeDir() (string, error) { var rootlessRuntimeDirError error rootlessRuntimeDirOnce.Do(func() { runtimeDir := os.Getenv("XDG_RUNTIME_DIR") uid := fmt.Sprintf("%d", rootless.GetRootlessUID()) if runtimeDir == "" { tmpDir := filepath.Join("/run", "user", uid) os.MkdirAll(tmpDir, 0700) st, err := os.Stat(tmpDir) if err == nil && int(st.Sys().(*syscall.Stat_t).Uid) == os.Geteuid() && st.Mode().Perm() == 0700 { runtimeDir = tmpDir } } if runtimeDir == "" { tmpDir := filepath.Join(os.TempDir(), fmt.Sprintf("run-%s", uid)) os.MkdirAll(tmpDir, 0700) st, err := os.Stat(tmpDir) if err == nil && int(st.Sys().(*syscall.Stat_t).Uid) == os.Geteuid() && st.Mode().Perm() == 0700 { runtimeDir = tmpDir } } if runtimeDir == "" { home := os.Getenv("HOME") if home == "" { rootlessRuntimeDirError = fmt.Errorf("neither XDG_RUNTIME_DIR nor HOME was set non-empty") return } resolvedHome, err := filepath.EvalSymlinks(home) if err != nil { rootlessRuntimeDirError = errors.Wrapf(err, "cannot resolve %s", home) return } runtimeDir = filepath.Join(resolvedHome, "rundir") } rootlessRuntimeDir = runtimeDir }) if rootlessRuntimeDirError != nil { return "", rootlessRuntimeDirError } return rootlessRuntimeDir, nil } // GetRootlessDirInfo returns the parent path of where the storage for containers and // volumes will be in rootless mode func GetRootlessDirInfo() (string, string, error) { rootlessRuntime, err := GetRootlessRuntimeDir() if err != nil { return "", "", err } dataDir := os.Getenv("XDG_DATA_HOME") if dataDir == "" { home := os.Getenv("HOME") if home == "" { return "", "", fmt.Errorf("neither XDG_DATA_HOME nor HOME was set non-empty") } // runc doesn't like symlinks in the rootfs path, and at least // on CoreOS /home is a symlink to /var/home, so resolve any symlink. resolvedHome, err := filepath.EvalSymlinks(home) if err != nil { return "", "", errors.Wrapf(err, "cannot resolve %s", home) } dataDir = filepath.Join(resolvedHome, ".local", "share") } return dataDir, rootlessRuntime, nil } type tomlOptionsConfig struct { MountProgram string `toml:"mount_program"` } type tomlConfig struct { Storage struct { Driver string `toml:"driver"` RunRoot string `toml:"runroot"` GraphRoot string `toml:"graphroot"` Options struct{ tomlOptionsConfig } `toml:"options"` } `toml:"storage"` } func getTomlStorage(storeOptions *storage.StoreOptions) *tomlConfig { config := new(tomlConfig) config.Storage.Driver = storeOptions.GraphDriverName config.Storage.RunRoot = storeOptions.RunRoot config.Storage.GraphRoot = storeOptions.GraphRoot for _, i := range storeOptions.GraphDriverOptions { s := strings.Split(i, "=") if s[0] == "overlay.mount_program" { config.Storage.Options.MountProgram = s[1] } } return config } // WriteStorageConfigFile writes the configuration to a file func WriteStorageConfigFile(storageOpts *storage.StoreOptions, storageConf string) error { os.MkdirAll(filepath.Dir(storageConf), 0755) file, err := os.OpenFile(storageConf, os.O_RDWR|os.O_CREATE|os.O_EXCL, 0666) if err != nil { return errors.Wrapf(err, "cannot open %s", storageConf) } tomlConfiguration := getTomlStorage(storageOpts) defer file.Close() enc := toml.NewEncoder(file) if err := enc.Encode(tomlConfiguration); err != nil { os.Remove(storageConf) return err } return nil } // ParseInputTime takes the users input and to determine if it is valid and // returns a time format and error. The input is compared to known time formats // or a duration which implies no-duration func ParseInputTime(inputTime string) (time.Time, error) { timeFormats := []string{time.RFC3339Nano, time.RFC3339, "2006-01-02T15:04:05", "2006-01-02T15:04:05.999999999", "2006-01-02Z07:00", "2006-01-02"} // iterate the supported time formats for _, tf := range timeFormats { t, err := time.Parse(tf, inputTime) if err == nil { return t, nil } } // input might be a duration duration, err := time.ParseDuration(inputTime) if err != nil { return time.Time{}, errors.Errorf("unable to interpret time value") } return time.Now().Add(-duration), nil }