package idtools // import "github.com/docker/docker/pkg/idtools" import ( "bufio" "fmt" "os" "sort" "strconv" "strings" ) // IDMap contains a single entry for user namespace range remapping. An array // of IDMap entries represents the structure that will be provided to the Linux // kernel for creating a user namespace. type IDMap struct { ContainerID int `json:"container_id"` HostID int `json:"host_id"` Size int `json:"size"` } type subIDRange struct { Start int Length int } type ranges []subIDRange func (e ranges) Len() int { return len(e) } func (e ranges) Swap(i, j int) { e[i], e[j] = e[j], e[i] } func (e ranges) Less(i, j int) bool { return e[i].Start < e[j].Start } const ( subuidFileName = "/etc/subuid" subgidFileName = "/etc/subgid" ) // MkdirAllAndChown creates a directory (include any along the path) and then modifies // ownership to the requested uid/gid. If the directory already exists, this // function will still change ownership to the requested uid/gid pair. func MkdirAllAndChown(path string, mode os.FileMode, owner Identity) error { return mkdirAs(path, mode, owner, true, true) } // MkdirAndChown creates a directory and then modifies ownership to the requested uid/gid. // If the directory already exists, this function still changes ownership. // Note that unlike os.Mkdir(), this function does not return IsExist error // in case path already exists. func MkdirAndChown(path string, mode os.FileMode, owner Identity) error { return mkdirAs(path, mode, owner, false, true) } // MkdirAllAndChownNew creates a directory (include any along the path) and then modifies // ownership ONLY of newly created directories to the requested uid/gid. If the // directories along the path exist, no change of ownership will be performed func MkdirAllAndChownNew(path string, mode os.FileMode, owner Identity) error { return mkdirAs(path, mode, owner, true, false) } // GetRootUIDGID retrieves the remapped root uid/gid pair from the set of maps. // If the maps are empty, then the root uid/gid will default to "real" 0/0 func GetRootUIDGID(uidMap, gidMap []IDMap) (int, int, error) { uid, err := toHost(0, uidMap) if err != nil { return -1, -1, err } gid, err := toHost(0, gidMap) if err != nil { return -1, -1, err } return uid, gid, nil } // toContainer takes an id mapping, and uses it to translate a // host ID to the remapped ID. If no map is provided, then the translation // assumes a 1-to-1 mapping and returns the passed in id func toContainer(hostID int, idMap []IDMap) (int, error) { if idMap == nil { return hostID, nil } for _, m := range idMap { if (hostID >= m.HostID) && (hostID <= (m.HostID + m.Size - 1)) { contID := m.ContainerID + (hostID - m.HostID) return contID, nil } } return -1, fmt.Errorf("Host ID %d cannot be mapped to a container ID", hostID) } // toHost takes an id mapping and a remapped ID, and translates the // ID to the mapped host ID. If no map is provided, then the translation // assumes a 1-to-1 mapping and returns the passed in id # func toHost(contID int, idMap []IDMap) (int, error) { if idMap == nil { return contID, nil } for _, m := range idMap { if (contID >= m.ContainerID) && (contID <= (m.ContainerID + m.Size - 1)) { hostID := m.HostID + (contID - m.ContainerID) return hostID, nil } } return -1, fmt.Errorf("Container ID %d cannot be mapped to a host ID", contID) } // Identity is either a UID and GID pair or a SID (but not both) type Identity struct { UID int GID int SID string } // IdentityMapping contains a mappings of UIDs and GIDs type IdentityMapping struct { uids []IDMap gids []IDMap } // NewIdentityMapping takes a requested user and group name and // using the data from /etc/sub{uid,gid} ranges, creates the // proper uid and gid remapping ranges for that user/group pair func NewIdentityMapping(username, groupname string) (*IdentityMapping, error) { subuidRanges, err := parseSubuid(username) if err != nil { return nil, err } subgidRanges, err := parseSubgid(groupname) if err != nil { return nil, err } if len(subuidRanges) == 0 { return nil, fmt.Errorf("No subuid ranges found for user %q", username) } if len(subgidRanges) == 0 { return nil, fmt.Errorf("No subgid ranges found for group %q", groupname) } return &IdentityMapping{ uids: createIDMap(subuidRanges), gids: createIDMap(subgidRanges), }, nil } // NewIDMappingsFromMaps creates a new mapping from two slices // Deprecated: this is a temporary shim while transitioning to IDMapping func NewIDMappingsFromMaps(uids []IDMap, gids []IDMap) *IdentityMapping { return &IdentityMapping{uids: uids, gids: gids} } // RootPair returns a uid and gid pair for the root user. The error is ignored // because a root user always exists, and the defaults are correct when the uid // and gid maps are empty. func (i *IdentityMapping) RootPair() Identity { uid, gid, _ := GetRootUIDGID(i.uids, i.gids) return Identity{UID: uid, GID: gid} } // ToHost returns the host UID and GID for the container uid, gid. // Remapping is only performed if the ids aren't already the remapped root ids func (i *IdentityMapping) ToHost(pair Identity) (Identity, error) { var err error target := i.RootPair() if pair.UID != target.UID { target.UID, err = toHost(pair.UID, i.uids) if err != nil { return target, err } } if pair.GID != target.GID { target.GID, err = toHost(pair.GID, i.gids) } return target, err } // ToContainer returns the container UID and GID for the host uid and gid func (i *IdentityMapping) ToContainer(pair Identity) (int, int, error) { uid, err := toContainer(pair.UID, i.uids) if err != nil { return -1, -1, err } gid, err := toContainer(pair.GID, i.gids) return uid, gid, err } // Empty returns true if there are no id mappings func (i *IdentityMapping) Empty() bool { return len(i.uids) == 0 && len(i.gids) == 0 } // UIDs return the UID mapping // TODO: remove this once everything has been refactored to use pairs func (i *IdentityMapping) UIDs() []IDMap { return i.uids } // GIDs return the UID mapping // TODO: remove this once everything has been refactored to use pairs func (i *IdentityMapping) GIDs() []IDMap { return i.gids } func createIDMap(subidRanges ranges) []IDMap { idMap := []IDMap{} // sort the ranges by lowest ID first sort.Sort(subidRanges) containerID := 0 for _, idrange := range subidRanges { idMap = append(idMap, IDMap{ ContainerID: containerID, HostID: idrange.Start, Size: idrange.Length, }) containerID = containerID + idrange.Length } return idMap } func parseSubuid(username string) (ranges, error) { return parseSubidFile(subuidFileName, username) } func parseSubgid(username string) (ranges, error) { return parseSubidFile(subgidFileName, username) } // parseSubidFile will read the appropriate file (/etc/subuid or /etc/subgid) // and return all found ranges for a specified username. If the special value // "ALL" is supplied for username, then all ranges in the file will be returned func parseSubidFile(path, username string) (ranges, error) { var rangeList ranges subidFile, err := os.Open(path) if err != nil { return rangeList, err } defer subidFile.Close() s := bufio.NewScanner(subidFile) for s.Scan() { if err := s.Err(); err != nil { return rangeList, err } text := strings.TrimSpace(s.Text()) if text == "" || strings.HasPrefix(text, "#") { continue } parts := strings.Split(text, ":") if len(parts) != 3 { return rangeList, fmt.Errorf("Cannot parse subuid/gid information: Format not correct for %s file", path) } if parts[0] == username || username == "ALL" { startid, err := strconv.Atoi(parts[1]) if err != nil { return rangeList, fmt.Errorf("String to int conversion failed during subuid/gid parsing of %s: %v", path, err) } length, err := strconv.Atoi(parts[2]) if err != nil { return rangeList, fmt.Errorf("String to int conversion failed during subuid/gid parsing of %s: %v", path, err) } rangeList = append(rangeList, subIDRange{startid, length}) } } return rangeList, nil }