package vault import ( "encoding/json" "errors" "fmt" "strings" "github.com/hashicorp/uuid" "github.com/hashicorp/vault/logical" ) const ( // coreAuthConfigPath is used to store the auth configuration. // Auth configuration is protected within the Vault itself, which means it // can only be viewed or modified after an unseal. coreAuthConfigPath = "core/auth" // credentialBarrierPrefix is the prefix to the UUID used in the // barrier view for the credential backends. credentialBarrierPrefix = "auth/" // credentialRoutePrefix is the mount prefix used for the router credentialRoutePrefix = "auth/" ) var ( // errLoadAuthFailed if loadCredentials encounters an error errLoadAuthFailed = errors.New("failed to setup auth table") ) // enableCredential is used to enable a new credential backend func (c *Core) enableCredential(entry *MountEntry) error { // Ensure we end the path in a slash if !strings.HasSuffix(entry.Path, "/") { entry.Path += "/" } // Ensure there is a name if entry.Path == "/" { return fmt.Errorf("backend path must be specified") } c.authLock.Lock() defer c.authLock.Unlock() // Look for matching name for _, ent := range c.auth.Entries { switch { // Existing is oauth/github/ new is oauth/ or // existing is oauth/ and new is oauth/github/ case strings.HasPrefix(ent.Path, entry.Path): fallthrough case strings.HasPrefix(entry.Path, ent.Path): return logical.CodedError(409, "path is already in use") } } // Ensure the token backend is a singleton if entry.Type == "token" { return fmt.Errorf("token credential backend cannot be instantiated") } // Generate a new UUID and view entry.UUID = uuid.GenerateUUID() view := NewBarrierView(c.barrier, credentialBarrierPrefix+entry.UUID+"/") // Create the new backend backend, err := c.newCredentialBackend(entry.Type, c.mountEntrySysView(entry), view, nil) if err != nil { return err } // Update the auth table newTable := c.auth.ShallowClone() newTable.Entries = append(newTable.Entries, entry) if err := c.persistAuth(newTable); err != nil { return errors.New("failed to update auth table") } c.auth = newTable // Mount the backend path := credentialRoutePrefix + entry.Path if err := c.router.Mount(backend, path, entry, view); err != nil { return err } c.logger.Printf("[INFO] core: enabled credential backend '%s' type: %s", entry.Path, entry.Type) return nil } // disableCredential is used to disable an existing credential backend func (c *Core) disableCredential(path string) error { // Ensure we end the path in a slash if !strings.HasSuffix(path, "/") { path += "/" } // Ensure the token backend is not affected if path == "token/" { return fmt.Errorf("token credential backend cannot be disabled") } // Store the view for this backend fullPath := credentialRoutePrefix + path view := c.router.MatchingStorageView(fullPath) if view == nil { return fmt.Errorf("no matching backend") } c.authLock.Lock() defer c.authLock.Unlock() // Mark the entry as tainted if err := c.taintCredEntry(path); err != nil { return err } // Taint the router path to prevent routing if err := c.router.Taint(fullPath); err != nil { return err } // Revoke credentials from this path if err := c.expiration.RevokePrefix(fullPath); err != nil { return err } // Unmount the backend if err := c.router.Unmount(fullPath); err != nil { return err } // Clear the data in the view if view != nil { if err := ClearView(view); err != nil { return err } } // Remove the mount table entry if err := c.removeCredEntry(path); err != nil { return err } c.logger.Printf("[INFO] core: disabled credential backend '%s'", path) return nil } // removeCredEntry is used to remove an entry in the auth table func (c *Core) removeCredEntry(path string) error { // Taint the entry from the auth table newTable := c.auth.ShallowClone() newTable.Remove(path) // Update the auth table if err := c.persistAuth(newTable); err != nil { return errors.New("failed to update auth table") } c.auth = newTable return nil } // taintCredEntry is used to mark an entry in the auth table as tainted func (c *Core) taintCredEntry(path string) error { // Taint the entry from the auth table // We do this on the original since setting the taint operates // on the entries which a shallow clone shares anyways found := c.auth.SetTaint(path, true) // Ensure there was a match if !found { return fmt.Errorf("no matching backend") } // Update the auth table if err := c.persistAuth(c.auth); err != nil { return errors.New("failed to update auth table") } return nil } // loadCredentials is invoked as part of postUnseal to load the auth table func (c *Core) loadCredentials() error { authTable := &MountTable{} // Load the existing mount table raw, err := c.barrier.Get(coreAuthConfigPath) if err != nil { c.logger.Printf("[ERR] core: failed to read auth table: %v", err) return errLoadAuthFailed } c.authLock.Lock() defer c.authLock.Unlock() if raw != nil { if err := json.Unmarshal(raw.Value, authTable); err != nil { c.logger.Printf("[ERR] core: failed to decode auth table: %v", err) return errLoadAuthFailed } c.auth = authTable } // Done if we have restored the auth table if c.auth != nil { return nil } // Create and persist the default auth table c.auth = defaultAuthTable() if err := c.persistAuth(c.auth); err != nil { c.logger.Printf("[ERR] core: failed to persist auth table: %v", err) return errLoadAuthFailed } return nil } // persistAuth is used to persist the auth table after modification func (c *Core) persistAuth(table *MountTable) error { // Marshal the table raw, err := json.Marshal(table) if err != nil { c.logger.Printf("[ERR] core: failed to encode auth table: %v", err) return err } // Create an entry entry := &Entry{ Key: coreAuthConfigPath, Value: raw, } // Write to the physical backend if err := c.barrier.Put(entry); err != nil { c.logger.Printf("[ERR] core: failed to persist auth table: %v", err) return err } return nil } // setupCredentials is invoked after we've loaded the auth table to // initialize the credential backends and setup the router func (c *Core) setupCredentials() error { var backend logical.Backend var view *BarrierView var err error c.authLock.Lock() defer c.authLock.Unlock() for _, entry := range c.auth.Entries { // Create a barrier view using the UUID view = NewBarrierView(c.barrier, credentialBarrierPrefix+entry.UUID+"/") // Initialize the backend backend, err = c.newCredentialBackend(entry.Type, c.mountEntrySysView(entry), view, nil) if err != nil { c.logger.Printf( "[ERR] core: failed to create credential entry %s: %v", entry.Path, err) return errLoadAuthFailed } // Mount the backend path := credentialRoutePrefix + entry.Path err = c.router.Mount(backend, path, entry, view) if err != nil { c.logger.Printf("[ERR] core: failed to mount auth entry %s: %v", entry.Path, err) return errLoadAuthFailed } // Ensure the path is tainted if set in the mount table if entry.Tainted { c.router.Taint(path) } // Check if this is the token store if entry.Type == "token" { c.tokenStore = backend.(*TokenStore) // this is loaded *after* the normal mounts, including cubbyhole c.router.tokenStoreSalt = c.tokenStore.salt c.tokenStore.cubbyholeBackend = c.router.MatchingBackend("cubbyhole/").(*CubbyholeBackend) } } return nil } // teardownCredentials is used before we seal the vault to reset the credential // backends to their unloaded state. This is reversed by loadCredentials. func (c *Core) teardownCredentials() error { c.authLock.Lock() defer c.authLock.Unlock() c.auth = nil c.tokenStore = nil return nil } // newCredentialBackend is used to create and configure a new credential backend by name func (c *Core) newCredentialBackend( t string, sysView logical.SystemView, view logical.Storage, conf map[string]string) (logical.Backend, error) { f, ok := c.credentialBackends[t] if !ok { return nil, fmt.Errorf("unknown backend type: %s", t) } config := &logical.BackendConfig{ StorageView: view, Logger: c.logger, Config: conf, System: sysView, } b, err := f(config) if err != nil { return nil, err } return b, nil } // defaultAuthTable creates a default auth table func defaultAuthTable() *MountTable { table := &MountTable{} tokenAuth := &MountEntry{ Path: "token/", Type: "token", Description: "token based credentials", UUID: uuid.GenerateUUID(), } table.Entries = append(table.Entries, tokenAuth) return table }