package ldap import ( "crypto/md5" "crypto/tls" "fmt" "sort" "strings" "sync" "time" "github.com/go-ldap/ldap/v3" log "github.com/sirupsen/logrus" ) var Fields = []string{"givenName", "sn", "mail", "department", "memberOf", "sAMAccountName", "telephoneNumber", "mobile", "displayName", "cn", "title", "company", "manager", "streetAddress", "employeeID", "memberOf", "l", "st", "postalCode", "co", "facsimileTelephoneNumber", "pager", "thumbnailPhoto", "otherMobile", "extensionAttribute2", "distinguishedName", "userAccountControl"} // -------------------------------------------------------------------------------------------------------------------- // Cache Data Store // -------------------------------------------------------------------------------------------------------------------- type UserCacheHolder interface { Clear() SetAllUsers(users []RawLdapData) GetUser(dn string) *RawLdapData GetUsers() []*RawLdapData } type RawLdapData struct { DN string Attributes map[string]string RawAttributes map[string][][]byte } // -------------------------------------------------------------------------------------------------------------------- // Sample Cache Data store // -------------------------------------------------------------------------------------------------------------------- type UserCacheHolderEntry struct { RawLdapData Username string Mail string Firstname string Lastname string Groups []string } func (e *UserCacheHolderEntry) CalcFieldsFromAttributes() { e.Username = strings.ToLower(e.Attributes["sAMAccountName"]) e.Mail = e.Attributes["mail"] e.Firstname = e.Attributes["givenName"] e.Lastname = e.Attributes["sn"] e.Groups = make([]string, len(e.RawAttributes["memberOf"])) for i, group := range e.RawAttributes["memberOf"] { e.Groups[i] = string(group) } } func (e *UserCacheHolderEntry) GetUID() string { return fmt.Sprintf("u%x", md5.Sum([]byte(e.Attributes["distinguishedName"]))) } type SynchronizedUserCacheHolder struct { users map[string]*UserCacheHolderEntry mux sync.RWMutex } func (h *SynchronizedUserCacheHolder) Init() { h.users = make(map[string]*UserCacheHolderEntry) } func (h *SynchronizedUserCacheHolder) Clear() { h.mux.Lock() defer h.mux.Unlock() h.users = make(map[string]*UserCacheHolderEntry) } func (h *SynchronizedUserCacheHolder) SetAllUsers(users []RawLdapData) { h.mux.Lock() defer h.mux.Unlock() h.users = make(map[string]*UserCacheHolderEntry) for i := range users { h.users[users[i].DN] = &UserCacheHolderEntry{RawLdapData: users[i]} h.users[users[i].DN].CalcFieldsFromAttributes() } } func (h *SynchronizedUserCacheHolder) GetUser(dn string) *RawLdapData { h.mux.RLock() defer h.mux.RUnlock() return &h.users[dn].RawLdapData } func (h *SynchronizedUserCacheHolder) GetUserData(dn string) *UserCacheHolderEntry { h.mux.RLock() defer h.mux.RUnlock() return h.users[dn] } func (h *SynchronizedUserCacheHolder) GetUsers() []*RawLdapData { h.mux.RLock() defer h.mux.RUnlock() users := make([]*RawLdapData, 0, len(h.users)) for _, user := range h.users { users = append(users, &user.RawLdapData) } return users } func (h *SynchronizedUserCacheHolder) GetSortedUsers(sortKey string, sortDirection string) []*UserCacheHolderEntry { h.mux.RLock() defer h.mux.RUnlock() sortedUsers := make([]*UserCacheHolderEntry, 0, len(h.users)) for _, user := range h.users { sortedUsers = append(sortedUsers, user) } sort.Slice(sortedUsers, func(i, j int) bool { if sortDirection == "asc" { return sortedUsers[i].Attributes[sortKey] < sortedUsers[j].Attributes[sortKey] } else { return sortedUsers[i].Attributes[sortKey] > sortedUsers[j].Attributes[sortKey] } }) return sortedUsers } func (h *SynchronizedUserCacheHolder) IsInGroup(username, gid string) bool { userDN := h.GetUserDN(username) if userDN == "" { return false // user not found -> not in group } user := h.GetUserData(userDN) if user == nil { return false } for _, group := range user.Groups { if group == gid { return true } } return false } func (h *SynchronizedUserCacheHolder) UserExists(username string) bool { userDN := h.GetUserDN(username) if userDN == "" { return false // user not found } return true } func (h *SynchronizedUserCacheHolder) GetUserDN(username string) string { userDN := "" for dn, user := range h.users { accName := strings.ToLower(user.Attributes["sAMAccountName"]) if accName == username { userDN = dn break } } return userDN } func (h *SynchronizedUserCacheHolder) GetUserDNByMail(mail string) string { userDN := "" for dn, user := range h.users { accMail := strings.ToLower(user.Attributes["mail"]) if accMail == mail { userDN = dn break } } return userDN } // -------------------------------------------------------------------------------------------------------------------- // Cache Handler, LDAP interaction // -------------------------------------------------------------------------------------------------------------------- type UserCache struct { Cfg *Config LastError error UpdatedAt time.Time userData UserCacheHolder } func NewUserCache(config Config, store UserCacheHolder) *UserCache { uc := &UserCache{ Cfg: &config, UpdatedAt: time.Now(), userData: store, } log.Infof("Filling user cache...") err := uc.Update(true) log.Infof("User cache filled!") uc.LastError = err return uc } func (u UserCache) open() (*ldap.Conn, error) { conn, err := ldap.DialURL(u.Cfg.URL) if err != nil { return nil, err } if u.Cfg.StartTLS { // Reconnect with TLS err = conn.StartTLS(&tls.Config{InsecureSkipVerify: true}) if err != nil { return nil, err } } err = conn.Bind(u.Cfg.BindUser, u.Cfg.BindPass) if err != nil { return nil, err } return conn, nil } func (u UserCache) close(conn *ldap.Conn) { if conn != nil { conn.Close() } } // Update updates the user cache in background, minimal locking will happen func (u *UserCache) Update(filter bool) error { log.Debugf("Updating ldap cache...") client, err := u.open() if err != nil { u.LastError = err return err } defer u.close(client) // Search for the given username searchRequest := ldap.NewSearchRequest( u.Cfg.BaseDN, ldap.ScopeWholeSubtree, ldap.NeverDerefAliases, 0, 0, false, "(objectClass=organizationalPerson)", Fields, nil, ) sr, err := client.Search(searchRequest) if err != nil { u.LastError = err return err } tmpData := make([]RawLdapData, 0, len(sr.Entries)) for _, entry := range sr.Entries { if filter { usernameAttr := strings.ToLower(entry.GetAttributeValue("sAMAccountName")) firstNameAttr := entry.GetAttributeValue("givenName") lastNameAttr := entry.GetAttributeValue("sn") mailAttr := entry.GetAttributeValue("mail") userAccountControl := entry.GetAttributeValue("userAccountControl") employeeID := entry.GetAttributeValue("employeeID") dn := entry.GetAttributeValue("distinguishedName") if usernameAttr == "" || firstNameAttr == "" || lastNameAttr == "" || mailAttr == "" || employeeID == "" { continue // prefilter... } if userAccountControl == "" || userAccountControl == "514" { continue // 514 means account is disabled } if entry.DN != dn { log.Errorf("LDAP inconsistent: '%s' != '%s'", entry.DN, dn) continue } } tmp := RawLdapData{ DN: entry.DN, Attributes: make(map[string]string, len(Fields)), RawAttributes: make(map[string][][]byte, len(Fields)), } for _, field := range Fields { tmp.Attributes[field] = entry.GetAttributeValue(field) tmp.RawAttributes[field] = entry.GetRawAttributeValues(field) } tmpData = append(tmpData, tmp) } // Copy to userdata u.userData.SetAllUsers(tmpData) u.UpdatedAt = time.Now() u.LastError = nil log.Debug("Ldap cache updated...") return nil }