package main import ( "crypto/rand" "crypto/tls" "encoding/base64" "encoding/json" "flag" "fmt" "io/ioutil" "os" "os/signal" "syscall" ldap "bottin/ldapserver" consul "github.com/hashicorp/consul/api" message "github.com/lor00x/goldap/message" log "github.com/sirupsen/logrus" ) // System managed attributes (cannot be changed by user, see checkRestrictedAttr) const ATTR_MEMBEROF = "memberof" const ATTR_ENTRYUUID = "entryuuid" const ATTR_CREATORSNAME = "creatorsname" const ATTR_CREATETIMESTAMP = "createtimestamp" const ATTR_MODIFIERSNAME = "modifiersname" const ATTR_MODIFYTIMESTAMP = "modifytimestamp" // Attributes that we are interested in at various points const ATTR_OBJECTCLASS = "objectclass" const ATTR_MEMBER = "member" const ATTR_USERPASSWORD = "userpassword" type ConfigFile struct { Suffix string `json:"suffix"` Bind string `json:"bind"` BindSecure string `json:"bind_secure"` LogLevel string `json:"log_level"` ConsulHost string `json:"consul_host"` ConsulConsistent bool `json:"consul_force_consistency"` Acl []string `json:"acl"` TLSCertFile string `json:"tls_cert_file"` TLSKeyFile string `json:"tls_key_file"` TLSServerName string `json:"tls_server_name"` } type Config struct { Suffix string Bind string BindSecure string LogLevel log.Level ConsulHost string ConsulConsistent bool Acl ACL TLSConfig *tls.Config } type Server struct { logger *log.Logger config Config kv *consul.KV readOpts consul.QueryOptions } type State struct { login Login } var configFlag = flag.String("config", "./config.json", "Configuration file path") var resyncFlag = flag.Bool("resync", false, "Check and re-synchronize memberOf values before launch") func readConfig(logger *log.Logger) Config { config_file := ConfigFile{ Bind: "0.0.0.0:389", BindSecure: "0.0.0.0:636", } bytes, err := ioutil.ReadFile(*configFlag) if err != nil { logger.Fatal(err) } err = json.Unmarshal(bytes, &config_file) if err != nil { logger.Fatal(err) } acl, err := ParseACL(config_file.Acl) if err != nil { logger.Fatal(err) } log_level := log.InfoLevel if config_file.LogLevel != "" { log_level, err = log.ParseLevel(config_file.LogLevel) if err != nil { logger.Fatal(err) } } ret := Config{ Suffix: config_file.Suffix, Bind: config_file.Bind, BindSecure: config_file.BindSecure, LogLevel: log_level, ConsulHost: config_file.ConsulHost, ConsulConsistent: config_file.ConsulConsistent, Acl: acl, } if config_file.TLSCertFile != "" && config_file.TLSKeyFile != "" && config_file.TLSServerName != "" { cert_txt, err := ioutil.ReadFile(config_file.TLSCertFile) if err != nil { logger.Fatal(err) } key_txt, err := ioutil.ReadFile(config_file.TLSKeyFile) if err != nil { logger.Fatal(err) } cert, err := tls.X509KeyPair(cert_txt, key_txt) if err != nil { logger.Fatal(err) } ret.TLSConfig = &tls.Config{ MinVersion: tls.VersionTLS10, MaxVersion: tls.VersionTLS12, Certificates: []tls.Certificate{cert}, ServerName: config_file.TLSServerName, } } return ret } func main() { flag.Parse() logger := log.New() logger.SetOutput(os.Stdout) logger.SetFormatter(&log.TextFormatter{}) config := readConfig(logger) if log_level := os.Getenv("BOTTIN_LOG_LEVEL"); log_level != "" { level, err := log.ParseLevel(log_level) if err != nil { logger.Fatal(err) } logger.SetLevel(level) } else { logger.SetLevel(config.LogLevel) } ldap.Logger = logger // Connect to Consul consul_config := consul.DefaultConfig() if config.ConsulHost != "" { consul_config.Address = config.ConsulHost } consul_client, err := consul.NewClient(consul_config) if err != nil { logger.Fatal(err) } kv := consul_client.KV() readOpts := consul.QueryOptions{} if config.ConsulConsistent { logger.Info("Using consistent reads on Consul database, this may lead to performance degradation. Set \"consul_force_consistency\": false in your config file if you have performance issues.") readOpts.RequireConsistent = true } else { readOpts.AllowStale = true } // Create bottin server bottin := Server{ logger: logger, config: config, kv: kv, readOpts: readOpts, } err = bottin.init() if err != nil { logger.Fatal(err) } if *resyncFlag { err = bottin.memberOfResync() if err != nil { logger.Fatal(err) } } // Create routes routes := ldap.NewRouteMux() routes.Bind(bottin.handleBind) routes.Search(bottin.handleSearch) routes.Add(bottin.handleAdd) routes.Compare(bottin.handleCompare) routes.Delete(bottin.handleDelete) routes.Modify(bottin.handleModify) if config.TLSConfig != nil { routes.Extended(bottin.handleStartTLS). RequestName(ldap.NoticeOfStartTLS).Label("StartTLS") } // Create LDAP servers var ldapServer, ldapServerSecure *ldap.Server = nil, nil // Bind on standard LDAP port without TLS if config.Bind != "" { ldapServer = ldap.NewServer() ldapServer.Handle(routes) ldapServer.NewUserState = bottin.newUserState go func() { err := ldapServer.ListenAndServe(config.Bind) if err != nil { logger.Fatal(err) } }() } // Bind on LDAP secure port with TLS if config.BindSecure != "" { if config.TLSConfig != nil { ldapServerSecure := ldap.NewServer() ldapServerSecure.Handle(routes) ldapServerSecure.NewUserState = bottin.newUserState secureConn := func(s *ldap.Server) { s.Listener = tls.NewListener(s.Listener, config.TLSConfig) } go func() { err := ldapServerSecure.ListenAndServe(config.BindSecure, secureConn) if err != nil { logger.Fatal(err) } }() } else { logger.Warnf("Warning: no valid TLS configuration was provided, not binding on %s", config.BindSecure) } } if ldapServer == nil && ldapServerSecure == nil { logger.Fatal("Not doing anything.") } // When CTRL+C, SIGINT and SIGTERM signal occurs // Then stop server gracefully ch := make(chan os.Signal) signal.Notify(ch, syscall.SIGINT, syscall.SIGTERM) <-ch close(ch) if ldapServer != nil { ldapServer.Stop() } if ldapServerSecure != nil { ldapServerSecure.Stop() } } func (server *Server) newUserState() ldap.UserState { return &State{ login: Login{ user: "ANONYMOUS", groups: []string{}, }, } } func (server *Server) init() error { // Check that suffix is in canonical format in config file suffix_canonical, err := server.checkDN(server.config.Suffix, false) if err != nil { return err } if suffix_canonical != server.config.Suffix { return fmt.Errorf("Please write suffix in canonical format: %s", suffix_canonical) } // Check that root object exists. // If it does, we're done. Otherwise, we have some initialization to do. exists, err := server.objectExists(server.config.Suffix) if err != nil { return err } if exists { return nil } // We have to initialize the server. // Create a root object and an admin object. base_attributes := Entry{ ATTR_OBJECTCLASS: []string{"top", "dcObject", "organization"}, "structuralobjectclass": []string{"organization"}, ATTR_CREATORSNAME: []string{server.config.Suffix}, ATTR_CREATETIMESTAMP: []string{genTimestamp()}, ATTR_ENTRYUUID: []string{genUuid()}, } suffix_dn, err := parseDN(server.config.Suffix) if err != nil { return err } base_attributes[suffix_dn[0].Type] = []string{suffix_dn[0].Value} err = server.putAttributes(server.config.Suffix, base_attributes) if err != nil { return err } admin_pass := make([]byte, 8) _, err = rand.Read(admin_pass) if err != nil { return err } admin_pass_str := base64.RawURLEncoding.EncodeToString(admin_pass) admin_pass_hash := SSHAEncode([]byte(admin_pass_str)) admin_dn := "cn=admin," + server.config.Suffix admin_attributes := Entry{ ATTR_OBJECTCLASS: []string{"simpleSecurityObject", "organizationalRole"}, "displayname": []string{"LDAP administrator"}, "description": []string{"Administrator account automatically created by Bottin"}, "cn": []string{"admin"}, "structuralobjectclass": []string{"organizationalRole"}, ATTR_USERPASSWORD: []string{admin_pass_hash}, ATTR_CREATORSNAME: []string{server.config.Suffix}, ATTR_CREATETIMESTAMP: []string{genTimestamp()}, ATTR_ENTRYUUID: []string{genUuid()}, } err = server.putAttributes(admin_dn, admin_attributes) if err != nil { return err } server.logger.Printf( "It seems to be a new installation, we created a default user for you:\n\n dn: %s\n password: %s\n\nWe recommend replacing it as soon as possible.", admin_dn, admin_pass_str, ) return nil } func (server *Server) checkDN(dn string, allow_extend bool) (string, error) { // 1. Canonicalize: remove spaces between things and put all in lower case dn, err := canonicalDN(dn) if err != nil { return "", err } // 2. Check suffix (add it if allow_extend is set) suffix := server.config.Suffix if len(dn) < len(suffix) { if dn != suffix[len(suffix)-len(dn):] || !allow_extend { return suffix, fmt.Errorf( "Only handling stuff under DN %s", suffix) } return suffix, nil } else { if dn[len(dn)-len(suffix):] != suffix { return suffix, fmt.Errorf( "Only handling stuff under DN %s", suffix) } return dn, nil } } func (server *Server) handleStartTLS(s ldap.UserState, w ldap.ResponseWriter, m *ldap.Message) { tlsConn := tls.Server(m.Client.GetConn(), server.config.TLSConfig) res := ldap.NewExtendedResponse(ldap.LDAPResultSuccess) res.SetResponseName(ldap.NoticeOfStartTLS) w.Write(res) if err := tlsConn.Handshake(); err != nil { server.logger.Printf("StartTLS Handshake error %v", err) res.SetDiagnosticMessage(fmt.Sprintf("StartTLS Handshake error : \"%s\"", err.Error())) res.SetResultCode(ldap.LDAPResultOperationsError) w.Write(res) return } m.Client.SetConn(tlsConn) } func (server *Server) handleBind(s ldap.UserState, w ldap.ResponseWriter, m *ldap.Message) { state := s.(*State) r := m.GetBindRequest() result_code, err := server.handleBindInternal(state, &r) res := ldap.NewBindResponse(result_code) if err != nil { res.SetDiagnosticMessage(err.Error()) } if result_code == ldap.LDAPResultSuccess { server.logger.Printf("Successfully bound to %s", string(r.Name())) } else { server.logger.Printf("Failed to bind to %s (%s)", string(r.Name()), err) } w.Write(res) } func (server *Server) handleBindInternal(state *State, r *message.BindRequest) (int, error) { // Check permissions if !server.config.Acl.Check(&state.login, "bind", string(r.Name()), []string{}) { return ldap.LDAPResultInsufficientAccessRights, fmt.Errorf("Insufficient access rights for %#v", state.login) } // Try to retrieve password and check for match passwd, err := server.getAttribute(string(r.Name()), ATTR_USERPASSWORD) if err != nil { return ldap.LDAPResultOperationsError, err } for _, hash := range passwd { valid := SSHAMatches(hash, []byte(r.AuthenticationSimple())) if valid { groups, err := server.getAttribute(string(r.Name()), ATTR_MEMBEROF) if err != nil { return ldap.LDAPResultOperationsError, err } state.login = Login{ user: string(r.Name()), groups: groups, } return ldap.LDAPResultSuccess, nil } } return ldap.LDAPResultInvalidCredentials, fmt.Errorf("No password match") }