package vault import ( "crypto/sha1" "encoding/json" "errors" "fmt" "strings" "sync" "github.com/hashicorp/vault/helper/uuid" "github.com/hashicorp/vault/logical" ) const ( // coreMountConfigPath is used to store the mount configuration. // Mounts are protected within the Vault itself, which means they // can only be viewed or modified after an unseal. coreMountConfigPath = "core/mounts" // backendBarrierPrefix is the prefix to the UUID used in the // barrier view for the backends. backendBarrierPrefix = "logical/" // systemBarrierPrefix is the prefix used for the // system logical backend. systemBarrierPrefix = "sys/" ) var ( // loadMountsFailed if loadMounts encounters an error loadMountsFailed = errors.New("failed to setup mount table") // protectedMounts cannot be remounted protectedMounts = []string{ "audit/", "auth/", "sys/", } ) // MountTable is used to represent the internal mount table type MountTable struct { // This lock should be held whenever modifying the Entries field. sync.RWMutex Entries []*MountEntry `json:"entries"` } // Returns a deep copy of the mount table func (t *MountTable) Clone() *MountTable { mt := &MountTable{ Entries: make([]*MountEntry, len(t.Entries)), } for i, e := range t.Entries { mt.Entries[i] = e.Clone() } return mt } // Hash is used to generate a hash value for the mount table func (t *MountTable) Hash() ([]byte, error) { buf, err := json.Marshal(t) if err != nil { return nil, err } hash := sha1.Sum(buf) return hash[:], nil } // Find is used to lookup an entry func (t *MountTable) Find(path string) *MountEntry { n := len(t.Entries) for i := 0; i < n; i++ { if t.Entries[i].Path == path { return t.Entries[i] } } return nil } // SetTaint is used to set the taint on given entry func (t *MountTable) SetTaint(path string, value bool) bool { n := len(t.Entries) for i := 0; i < n; i++ { if t.Entries[i].Path == path { t.Entries[i].Tainted = value return true } } return false } // Remove is used to remove a given path entry func (t *MountTable) Remove(path string) bool { n := len(t.Entries) for i := 0; i < n; i++ { if t.Entries[i].Path == path { t.Entries[i], t.Entries[n-1] = t.Entries[n-1], nil t.Entries = t.Entries[:n-1] return true } } return false } // MountEntry is used to represent a mount table entry type MountEntry struct { Path string `json:"path"` // Mount Path Type string `json:"type"` // Logical backend Type Description string `json:"description"` // User-provided description UUID string `json:"uuid"` // Barrier view UUID Options map[string]string `json:"options"` // Backend configuration Tainted bool `json:"tainted,omitempty"` // Set as a Write-Ahead flag for unmount/remount } // Returns a deep copy of the mount entry func (e *MountEntry) Clone() *MountEntry { optClone := make(map[string]string) for k, v := range e.Options { optClone[k] = v } return &MountEntry{ Path: e.Path, Type: e.Type, Description: e.Description, UUID: e.UUID, Options: optClone, } } // Mount is used to mount a new backend to the mount table. func (c *Core) mount(me *MountEntry) error { c.mounts.Lock() defer c.mounts.Unlock() // Ensure we end the path in a slash if !strings.HasSuffix(me.Path, "/") { me.Path += "/" } // Prevent protected paths from being mounted for _, p := range protectedMounts { if strings.HasPrefix(me.Path, p) { return logical.CodedError(403, fmt.Sprintf("cannot mount '%s'", me.Path)) } } // Verify there is no conflicting mount if match := c.router.MatchingMount(me.Path); match != "" { return logical.CodedError(409, fmt.Sprintf("existing mount at %s", match)) } // Generate a new UUID and view me.UUID = uuid.GenerateUUID() view := NewBarrierView(c.barrier, backendBarrierPrefix+me.UUID+"/") // Create the new backend backend, err := c.newLogicalBackend(me.Type, view, nil) if err != nil { return err } // Update the mount table newTable := c.mounts.Clone() newTable.Entries = append(newTable.Entries, me) if err := c.persistMounts(newTable); err != nil { return errors.New("failed to update mount table") } c.mounts = newTable // Mount the backend if err := c.router.Mount(backend, me.Path, me.UUID, view); err != nil { return err } c.logger.Printf("[INFO] core: mounted '%s' type: %s", me.Path, me.Type) return nil } // Unmount is used to unmount a path. func (c *Core) unmount(path string) error { c.mounts.Lock() defer c.mounts.Unlock() // Ensure we end the path in a slash if !strings.HasSuffix(path, "/") { path += "/" } // Prevent protected paths from being unmounted for _, p := range protectedMounts { if strings.HasPrefix(path, p) { return fmt.Errorf("cannot unmount '%s'", path) } } // Verify exact match of the route match := c.router.MatchingMount(path) if match == "" || path != match { return fmt.Errorf("no matching mount") } // Store the view for this backend view := c.router.MatchingView(path) // Mark the entry as tainted if err := c.taintMountEntry(path); err != nil { return err } // Taint the router path to prevent routing if err := c.router.Taint(path); err != nil { return err } // Invoke the rollback manager a final time if err := c.rollback.Rollback(path); err != nil { return err } // Revoke all the dynamic keys if err := c.expiration.RevokePrefix(path); err != nil { return err } // Unmount the backend entirely if err := c.router.Unmount(path); err != nil { return err } // Clear the data in the view if err := ClearView(view); err != nil { return err } // Remove the mount table entry if err := c.removeMountEntry(path); err != nil { return err } c.logger.Printf("[INFO] core: unmounted '%s'", path) return nil } // removeMountEntry is used to remove an entry from the mount table func (c *Core) removeMountEntry(path string) error { // Remove the entry from the mount table newTable := c.mounts.Clone() newTable.Remove(path) // Update the mount table if err := c.persistMounts(newTable); err != nil { return errors.New("failed to update mount table") } c.mounts = newTable return nil } // taintMountEntry is used to mark an entry in the mount table as tainted func (c *Core) taintMountEntry(path string) error { // Remove the entry from the mount table newTable := c.mounts.Clone() newTable.SetTaint(path, true) // Update the mount table if err := c.persistMounts(newTable); err != nil { return errors.New("failed to update mount table") } c.mounts = newTable return nil } // Remount is used to remount a path at a new mount point. func (c *Core) remount(src, dst string) error { c.mounts.Lock() defer c.mounts.Unlock() // Ensure we end the path in a slash if !strings.HasSuffix(src, "/") { src += "/" } if !strings.HasSuffix(dst, "/") { dst += "/" } // Prevent protected paths from being remounted for _, p := range protectedMounts { if strings.HasPrefix(src, p) { return fmt.Errorf("cannot remount '%s'", src) } } // Verify exact match of the route match := c.router.MatchingMount(src) if match == "" || src != match { return fmt.Errorf("no matching mount at '%s'", src) } // Verify there is no conflicting mount if match := c.router.MatchingMount(dst); match != "" { return fmt.Errorf("existing mount at '%s'", match) } // Mark the entry as tainted if err := c.taintMountEntry(src); err != nil { return err } // Taint the router path to prevent routing if err := c.router.Taint(src); err != nil { return err } // Invoke the rollback manager a final time if err := c.rollback.Rollback(src); err != nil { return err } // Revoke all the dynamic keys if err := c.expiration.RevokePrefix(src); err != nil { return err } // Update the entry in the mount table newTable := c.mounts.Clone() for _, ent := range newTable.Entries { if ent.Path == src { ent.Path = dst ent.Tainted = false break } } // Update the mount table if err := c.persistMounts(newTable); err != nil { return errors.New("failed to update mount table") } c.mounts = newTable // Remount the backend if err := c.router.Remount(src, dst); err != nil { return err } // Un-taint the path if err := c.router.Untaint(dst); err != nil { return err } c.logger.Printf("[INFO] core: remounted '%s' to '%s'", src, dst) return nil } // loadMounts is invoked as part of postUnseal to load the mount table func (c *Core) loadMounts() error { // Load the existing mount table raw, err := c.barrier.Get(coreMountConfigPath) if err != nil { c.logger.Printf("[ERR] core: failed to read mount table: %v", err) return loadMountsFailed } if raw != nil { c.mounts = &MountTable{} if err := json.Unmarshal(raw.Value, c.mounts); err != nil { c.logger.Printf("[ERR] core: failed to decode mount table: %v", err) return loadMountsFailed } } // Done if we have restored the mount table if c.mounts != nil { return nil } // Create and persist the default mount table c.mounts = defaultMountTable() if err := c.persistMounts(c.mounts); err != nil { return loadMountsFailed } return nil } // persistMounts is used to persist the mount table after modification func (c *Core) persistMounts(table *MountTable) error { // Marshal the table raw, err := json.Marshal(table) if err != nil { c.logger.Printf("[ERR] core: failed to encode mount table: %v", err) return err } // Create an entry entry := &Entry{ Key: coreMountConfigPath, Value: raw, } // Write to the physical backend if err := c.barrier.Put(entry); err != nil { c.logger.Printf("[ERR] core: failed to persist mount table: %v", err) return err } return nil } // setupMounts is invoked after we've loaded the mount table to // initialize the logical backends and setup the router func (c *Core) setupMounts() error { var backend logical.Backend var view *BarrierView var err error for _, entry := range c.mounts.Entries { // Initialize the backend, special casing for system barrierPath := backendBarrierPrefix + entry.UUID + "/" if entry.Type == "system" { barrierPath = systemBarrierPrefix } // Create a barrier view using the UUID view = NewBarrierView(c.barrier, barrierPath) // Initialize the backend backend, err = c.newLogicalBackend(entry.Type, view, nil) if err != nil { c.logger.Printf( "[ERR] core: failed to create mount entry %#v: %v", entry, err) return loadMountsFailed } if entry.Type == "system" { c.systemView = view } // Mount the backend err = c.router.Mount(backend, entry.Path, entry.UUID, view) if err != nil { c.logger.Printf("[ERR] core: failed to mount entry %#v: %v", entry, err) return loadMountsFailed } // Ensure the path is tainted if set in the mount table if entry.Tainted { c.router.Taint(entry.Path) } } return nil } // unloadMounts is used before we seal the vault to reset the mounts to // their unloaded state. This is reversed by load and setup mounts. func (c *Core) unloadMounts() error { c.mounts = nil c.router = NewRouter() c.systemView = nil return nil } // newLogicalBackend is used to create and configure a new logical backend by name func (c *Core) newLogicalBackend(t string, view logical.Storage, conf map[string]string) (logical.Backend, error) { f, ok := c.logicalBackends[t] if !ok { return nil, fmt.Errorf("unknown backend type: %s", t) } config := &logical.BackendConfig{ View: view, Logger: c.logger, Config: conf, } b, err := f(config) if err != nil { return nil, err } return b, nil } // defaultMountTable creates a default mount table func defaultMountTable() *MountTable { table := &MountTable{} genericMount := &MountEntry{ Path: "secret/", Type: "generic", Description: "generic secret storage", UUID: uuid.GenerateUUID(), } sysMount := &MountEntry{ Path: "sys/", Type: "system", Description: "system endpoints used for control, policy and debugging", UUID: uuid.GenerateUUID(), } table.Entries = append(table.Entries, genericMount) table.Entries = append(table.Entries, sysMount) return table }