package ldap import ( "context" "fmt" "strings" "github.com/hashicorp/vault/helper/mfa" "github.com/hashicorp/vault/sdk/framework" "github.com/hashicorp/vault/sdk/helper/ldaputil" "github.com/hashicorp/vault/sdk/helper/strutil" "github.com/hashicorp/vault/sdk/logical" ) const errUserBindFailed = `ldap operation failed: failed to bind as user` func Factory(ctx context.Context, conf *logical.BackendConfig) (logical.Backend, error) { b := Backend() if err := b.Setup(ctx, conf); err != nil { return nil, err } return b, nil } func Backend() *backend { var b backend b.Backend = &framework.Backend{ Help: backendHelp, PathsSpecial: &logical.Paths{ Root: mfa.MFARootPaths(), Unauthenticated: []string{ "login/*", }, SealWrapStorage: []string{ "config", }, }, Paths: append([]*framework.Path{ pathConfig(&b), pathGroups(&b), pathGroupsList(&b), pathUsers(&b), pathUsersList(&b), }, mfa.MFAPaths(b.Backend, pathLogin(&b))..., ), AuthRenew: b.pathLoginRenew, BackendType: logical.TypeCredential, } return &b } type backend struct { *framework.Backend } func (b *backend) Login(ctx context.Context, req *logical.Request, username string, password string) ([]string, *logical.Response, []string, error) { cfg, err := b.Config(ctx, req) if err != nil { return nil, nil, nil, err } if cfg == nil { return nil, logical.ErrorResponse("ldap backend not configured"), nil, nil } if cfg.DenyNullBind && len(password) == 0 { return nil, logical.ErrorResponse("password cannot be of zero length when passwordless binds are being denied"), nil, nil } ldapClient := ldaputil.Client{ Logger: b.Logger(), LDAP: ldaputil.NewLDAP(), } c, err := ldapClient.DialLDAP(cfg.ConfigEntry) if err != nil { return nil, logical.ErrorResponse(err.Error()), nil, nil } if c == nil { return nil, logical.ErrorResponse("invalid connection returned from LDAP dial"), nil, nil } // Clean connection defer c.Close() userBindDN, err := ldapClient.GetUserBindDN(cfg.ConfigEntry, c, username) if err != nil { if b.Logger().IsDebug() { b.Logger().Debug("error getting user bind DN", "error", err) } return nil, logical.ErrorResponse(errUserBindFailed), nil, nil } if b.Logger().IsDebug() { b.Logger().Debug("user binddn fetched", "username", username, "binddn", userBindDN) } // Try to bind as the login user. This is where the actual authentication takes place. if len(password) > 0 { err = c.Bind(userBindDN, password) } else { err = c.UnauthenticatedBind(userBindDN) } if err != nil { if b.Logger().IsDebug() { b.Logger().Debug("ldap bind failed", "error", err) } return nil, logical.ErrorResponse(errUserBindFailed), nil, nil } // We re-bind to the BindDN if it's defined because we assume // the BindDN should be the one to search, not the user logging in. if cfg.BindDN != "" && cfg.BindPassword != "" { if err := c.Bind(cfg.BindDN, cfg.BindPassword); err != nil { if b.Logger().IsDebug() { b.Logger().Debug("error while attempting to re-bind with the BindDN User", "error", err) } return nil, logical.ErrorResponse("ldap operation failed: failed to re-bind with the BindDN user"), nil, nil } if b.Logger().IsDebug() { b.Logger().Debug("re-bound to original binddn") } } userDN, err := ldapClient.GetUserDN(cfg.ConfigEntry, c, userBindDN, username) if err != nil { return nil, logical.ErrorResponse(err.Error()), nil, nil } if cfg.AnonymousGroupSearch { c, err = ldapClient.DialLDAP(cfg.ConfigEntry) if err != nil { return nil, logical.ErrorResponse("ldap operation failed: failed to connect to LDAP server"), nil, nil } defer c.Close() // Defer closing of this connection as the deferal above closes the other defined connection } ldapGroups, err := ldapClient.GetLdapGroups(cfg.ConfigEntry, c, userDN, username) if err != nil { return nil, logical.ErrorResponse(err.Error()), nil, nil } if b.Logger().IsDebug() { b.Logger().Debug("groups fetched from server", "num_server_groups", len(ldapGroups), "server_groups", ldapGroups) } ldapResponse := &logical.Response{ Data: map[string]interface{}{}, } if len(ldapGroups) == 0 { errString := fmt.Sprintf( "no LDAP groups found in groupDN '%s'; only policies from locally-defined groups available", cfg.GroupDN) ldapResponse.AddWarning(errString) } var allGroups []string canonicalUsername := username cs := *cfg.CaseSensitiveNames if !cs { canonicalUsername = strings.ToLower(username) } // Import the custom added groups from ldap backend user, err := b.User(ctx, req.Storage, canonicalUsername) if err == nil && user != nil && user.Groups != nil { if b.Logger().IsDebug() { b.Logger().Debug("adding local groups", "num_local_groups", len(user.Groups), "local_groups", user.Groups) } allGroups = append(allGroups, user.Groups...) } // Merge local and LDAP groups allGroups = append(allGroups, ldapGroups...) canonicalGroups := allGroups // If not case sensitive, lowercase all if !cs { canonicalGroups = make([]string, len(allGroups)) for i, v := range allGroups { canonicalGroups[i] = strings.ToLower(v) } } // Retrieve policies var policies []string for _, groupName := range canonicalGroups { group, err := b.Group(ctx, req.Storage, groupName) if err == nil && group != nil { policies = append(policies, group.Policies...) } } if user != nil && user.Policies != nil { policies = append(policies, user.Policies...) } // Policies from each group may overlap policies = strutil.RemoveDuplicates(policies, true) return policies, ldapResponse, allGroups, nil } const backendHelp = ` The "ldap" credential provider allows authentication querying a LDAP server, checking username and password, and associating groups to set of policies. Configuration of the server is done through the "config" and "groups" endpoints by a user with root access. Authentication is then done by supplying the two fields for "login". `