package user import ( "bufio" "bytes" "errors" "fmt" "io" "os" "strconv" "strings" ) const ( minID = 0 maxID = 1<<31 - 1 // for 32-bit systems compatibility ) var ( // ErrNoPasswdEntries is returned if no matching entries were found in /etc/group. ErrNoPasswdEntries = errors.New("no matching entries in passwd file") // ErrNoGroupEntries is returned if no matching entries were found in /etc/passwd. ErrNoGroupEntries = errors.New("no matching entries in group file") // ErrRange is returned if a UID or GID is outside of the valid range. ErrRange = fmt.Errorf("uids and gids must be in range %d-%d", minID, maxID) ) type User struct { Name string Pass string Uid int Gid int Gecos string Home string Shell string } type Group struct { Name string Pass string Gid int List []string } // SubID represents an entry in /etc/sub{u,g}id type SubID struct { Name string SubID int64 Count int64 } // IDMap represents an entry in /proc/PID/{u,g}id_map type IDMap struct { ID int64 ParentID int64 Count int64 } func parseLine(line []byte, v ...interface{}) { parseParts(bytes.Split(line, []byte(":")), v...) } func parseParts(parts [][]byte, v ...interface{}) { if len(parts) == 0 { return } for i, p := range parts { // Ignore cases where we don't have enough fields to populate the arguments. // Some configuration files like to misbehave. if len(v) <= i { break } // Use the type of the argument to figure out how to parse it, scanf() style. // This is legit. switch e := v[i].(type) { case *string: *e = string(p) case *int: // "numbers", with conversion errors ignored because of some misbehaving configuration files. *e, _ = strconv.Atoi(string(p)) case *int64: *e, _ = strconv.ParseInt(string(p), 10, 64) case *[]string: // Comma-separated lists. if len(p) != 0 { *e = strings.Split(string(p), ",") } else { *e = []string{} } default: // Someone goof'd when writing code using this function. Scream so they can hear us. panic(fmt.Sprintf("parseLine only accepts {*string, *int, *int64, *[]string} as arguments! %#v is not a pointer!", e)) } } } func ParsePasswdFile(path string) ([]User, error) { passwd, err := os.Open(path) if err != nil { return nil, err } defer passwd.Close() return ParsePasswd(passwd) } func ParsePasswd(passwd io.Reader) ([]User, error) { return ParsePasswdFilter(passwd, nil) } func ParsePasswdFileFilter(path string, filter func(User) bool) ([]User, error) { passwd, err := os.Open(path) if err != nil { return nil, err } defer passwd.Close() return ParsePasswdFilter(passwd, filter) } func ParsePasswdFilter(r io.Reader, filter func(User) bool) ([]User, error) { if r == nil { return nil, errors.New("nil source for passwd-formatted data") } var ( s = bufio.NewScanner(r) out = []User{} ) for s.Scan() { line := bytes.TrimSpace(s.Bytes()) if len(line) == 0 { continue } // see: man 5 passwd // name:password:UID:GID:GECOS:directory:shell // Name:Pass:Uid:Gid:Gecos:Home:Shell // root:x:0:0:root:/root:/bin/bash // adm:x:3:4:adm:/var/adm:/bin/false p := User{} parseLine(line, &p.Name, &p.Pass, &p.Uid, &p.Gid, &p.Gecos, &p.Home, &p.Shell) if filter == nil || filter(p) { out = append(out, p) } } if err := s.Err(); err != nil { return nil, err } return out, nil } func ParseGroupFile(path string) ([]Group, error) { group, err := os.Open(path) if err != nil { return nil, err } defer group.Close() return ParseGroup(group) } func ParseGroup(group io.Reader) ([]Group, error) { return ParseGroupFilter(group, nil) } func ParseGroupFileFilter(path string, filter func(Group) bool) ([]Group, error) { group, err := os.Open(path) if err != nil { return nil, err } defer group.Close() return ParseGroupFilter(group, filter) } func ParseGroupFilter(r io.Reader, filter func(Group) bool) ([]Group, error) { if r == nil { return nil, errors.New("nil source for group-formatted data") } rd := bufio.NewReader(r) out := []Group{} // Read the file line-by-line. for { var ( isPrefix bool wholeLine []byte err error ) // Read the next line. We do so in chunks (as much as reader's // buffer is able to keep), check if we read enough columns // already on each step and store final result in wholeLine. for { var line []byte line, isPrefix, err = rd.ReadLine() if err != nil { // We should return no error if EOF is reached // without a match. if err == io.EOF { //nolint:errorlint // comparison with io.EOF is legit, https://github.com/polyfloyd/go-errorlint/pull/12 err = nil } return out, err } // Simple common case: line is short enough to fit in a // single reader's buffer. if !isPrefix && len(wholeLine) == 0 { wholeLine = line break } wholeLine = append(wholeLine, line...) // Check if we read the whole line already. if !isPrefix { break } } // There's no spec for /etc/passwd or /etc/group, but we try to follow // the same rules as the glibc parser, which allows comments and blank // space at the beginning of a line. wholeLine = bytes.TrimSpace(wholeLine) if len(wholeLine) == 0 || wholeLine[0] == '#' { continue } // see: man 5 group // group_name:password:GID:user_list // Name:Pass:Gid:List // root:x:0:root // adm:x:4:root,adm,daemon p := Group{} parseLine(wholeLine, &p.Name, &p.Pass, &p.Gid, &p.List) if filter == nil || filter(p) { out = append(out, p) } } } type ExecUser struct { Uid int Gid int Sgids []int Home string } // GetExecUserPath is a wrapper for GetExecUser. It reads data from each of the // given file paths and uses that data as the arguments to GetExecUser. If the // files cannot be opened for any reason, the error is ignored and a nil // io.Reader is passed instead. func GetExecUserPath(userSpec string, defaults *ExecUser, passwdPath, groupPath string) (*ExecUser, error) { var passwd, group io.Reader if passwdFile, err := os.Open(passwdPath); err == nil { passwd = passwdFile defer passwdFile.Close() } if groupFile, err := os.Open(groupPath); err == nil { group = groupFile defer groupFile.Close() } return GetExecUser(userSpec, defaults, passwd, group) } // GetExecUser parses a user specification string (using the passwd and group // readers as sources for /etc/passwd and /etc/group data, respectively). In // the case of blank fields or missing data from the sources, the values in // defaults is used. // // GetExecUser will return an error if a user or group literal could not be // found in any entry in passwd and group respectively. // // Examples of valid user specifications are: // * "" // * "user" // * "uid" // * "user:group" // * "uid:gid // * "user:gid" // * "uid:group" // // It should be noted that if you specify a numeric user or group id, they will // not be evaluated as usernames (only the metadata will be filled). So attempting // to parse a user with user.Name = "1337" will produce the user with a UID of // 1337. func GetExecUser(userSpec string, defaults *ExecUser, passwd, group io.Reader) (*ExecUser, error) { if defaults == nil { defaults = new(ExecUser) } // Copy over defaults. user := &ExecUser{ Uid: defaults.Uid, Gid: defaults.Gid, Sgids: defaults.Sgids, Home: defaults.Home, } // Sgids slice *cannot* be nil. if user.Sgids == nil { user.Sgids = []int{} } // Allow for userArg to have either "user" syntax, or optionally "user:group" syntax var userArg, groupArg string parseLine([]byte(userSpec), &userArg, &groupArg) // Convert userArg and groupArg to be numeric, so we don't have to execute // Atoi *twice* for each iteration over lines. uidArg, uidErr := strconv.Atoi(userArg) gidArg, gidErr := strconv.Atoi(groupArg) // Find the matching user. users, err := ParsePasswdFilter(passwd, func(u User) bool { if userArg == "" { // Default to current state of the user. return u.Uid == user.Uid } if uidErr == nil { // If the userArg is numeric, always treat it as a UID. return uidArg == u.Uid } return u.Name == userArg }) // If we can't find the user, we have to bail. if err != nil && passwd != nil { if userArg == "" { userArg = strconv.Itoa(user.Uid) } return nil, fmt.Errorf("unable to find user %s: %w", userArg, err) } var matchedUserName string if len(users) > 0 { // First match wins, even if there's more than one matching entry. matchedUserName = users[0].Name user.Uid = users[0].Uid user.Gid = users[0].Gid user.Home = users[0].Home } else if userArg != "" { // If we can't find a user with the given username, the only other valid // option is if it's a numeric username with no associated entry in passwd. if uidErr != nil { // Not numeric. return nil, fmt.Errorf("unable to find user %s: %w", userArg, ErrNoPasswdEntries) } user.Uid = uidArg // Must be inside valid uid range. if user.Uid < minID || user.Uid > maxID { return nil, ErrRange } // Okay, so it's numeric. We can just roll with this. } // On to the groups. If we matched a username, we need to do this because of // the supplementary group IDs. if groupArg != "" || matchedUserName != "" { groups, err := ParseGroupFilter(group, func(g Group) bool { // If the group argument isn't explicit, we'll just search for it. if groupArg == "" { // Check if user is a member of this group. for _, u := range g.List { if u == matchedUserName { return true } } return false } if gidErr == nil { // If the groupArg is numeric, always treat it as a GID. return gidArg == g.Gid } return g.Name == groupArg }) if err != nil && group != nil { return nil, fmt.Errorf("unable to find groups for spec %v: %w", matchedUserName, err) } // Only start modifying user.Gid if it is in explicit form. if groupArg != "" { if len(groups) > 0 { // First match wins, even if there's more than one matching entry. user.Gid = groups[0].Gid } else { // If we can't find a group with the given name, the only other valid // option is if it's a numeric group name with no associated entry in group. if gidErr != nil { // Not numeric. return nil, fmt.Errorf("unable to find group %s: %w", groupArg, ErrNoGroupEntries) } user.Gid = gidArg // Must be inside valid gid range. if user.Gid < minID || user.Gid > maxID { return nil, ErrRange } // Okay, so it's numeric. We can just roll with this. } } else if len(groups) > 0 { // Supplementary group ids only make sense if in the implicit form. user.Sgids = make([]int, len(groups)) for i, group := range groups { user.Sgids[i] = group.Gid } } } return user, nil } // GetAdditionalGroups looks up a list of groups by name or group id // against the given /etc/group formatted data. If a group name cannot // be found, an error will be returned. If a group id cannot be found, // or the given group data is nil, the id will be returned as-is // provided it is in the legal range. func GetAdditionalGroups(additionalGroups []string, group io.Reader) ([]int, error) { groups := []Group{} if group != nil { var err error groups, err = ParseGroupFilter(group, func(g Group) bool { for _, ag := range additionalGroups { if g.Name == ag || strconv.Itoa(g.Gid) == ag { return true } } return false }) if err != nil { return nil, fmt.Errorf("Unable to find additional groups %v: %w", additionalGroups, err) } } gidMap := make(map[int]struct{}) for _, ag := range additionalGroups { var found bool for _, g := range groups { // if we found a matched group either by name or gid, take the // first matched as correct if g.Name == ag || strconv.Itoa(g.Gid) == ag { if _, ok := gidMap[g.Gid]; !ok { gidMap[g.Gid] = struct{}{} found = true break } } } // we asked for a group but didn't find it. let's check to see // if we wanted a numeric group if !found { gid, err := strconv.ParseInt(ag, 10, 64) if err != nil { // Not a numeric ID either. return nil, fmt.Errorf("Unable to find group %s: %w", ag, ErrNoGroupEntries) } // Ensure gid is inside gid range. if gid < minID || gid > maxID { return nil, ErrRange } gidMap[int(gid)] = struct{}{} } } gids := []int{} for gid := range gidMap { gids = append(gids, gid) } return gids, nil } // GetAdditionalGroupsPath is a wrapper around GetAdditionalGroups // that opens the groupPath given and gives it as an argument to // GetAdditionalGroups. func GetAdditionalGroupsPath(additionalGroups []string, groupPath string) ([]int, error) { var group io.Reader if groupFile, err := os.Open(groupPath); err == nil { group = groupFile defer groupFile.Close() } return GetAdditionalGroups(additionalGroups, group) } func ParseSubIDFile(path string) ([]SubID, error) { subid, err := os.Open(path) if err != nil { return nil, err } defer subid.Close() return ParseSubID(subid) } func ParseSubID(subid io.Reader) ([]SubID, error) { return ParseSubIDFilter(subid, nil) } func ParseSubIDFileFilter(path string, filter func(SubID) bool) ([]SubID, error) { subid, err := os.Open(path) if err != nil { return nil, err } defer subid.Close() return ParseSubIDFilter(subid, filter) } func ParseSubIDFilter(r io.Reader, filter func(SubID) bool) ([]SubID, error) { if r == nil { return nil, errors.New("nil source for subid-formatted data") } var ( s = bufio.NewScanner(r) out = []SubID{} ) for s.Scan() { line := bytes.TrimSpace(s.Bytes()) if len(line) == 0 { continue } // see: man 5 subuid p := SubID{} parseLine(line, &p.Name, &p.SubID, &p.Count) if filter == nil || filter(p) { out = append(out, p) } } if err := s.Err(); err != nil { return nil, err } return out, nil } func ParseIDMapFile(path string) ([]IDMap, error) { r, err := os.Open(path) if err != nil { return nil, err } defer r.Close() return ParseIDMap(r) } func ParseIDMap(r io.Reader) ([]IDMap, error) { return ParseIDMapFilter(r, nil) } func ParseIDMapFileFilter(path string, filter func(IDMap) bool) ([]IDMap, error) { r, err := os.Open(path) if err != nil { return nil, err } defer r.Close() return ParseIDMapFilter(r, filter) } func ParseIDMapFilter(r io.Reader, filter func(IDMap) bool) ([]IDMap, error) { if r == nil { return nil, errors.New("nil source for idmap-formatted data") } var ( s = bufio.NewScanner(r) out = []IDMap{} ) for s.Scan() { line := bytes.TrimSpace(s.Bytes()) if len(line) == 0 { continue } // see: man 7 user_namespaces p := IDMap{} parseParts(bytes.Fields(line), &p.ID, &p.ParentID, &p.Count) if filter == nil || filter(p) { out = append(out, p) } } if err := s.Err(); err != nil { return nil, err } return out, nil }