package vault import ( "errors" "strings" "github.com/hashicorp/vault/logical" ) // BarrierView wraps a SecurityBarrier and ensures all access is automatically // prefixed. This is used to prevent anyone with access to the view to access // any data in the durable storage outside of their prefix. Conceptually this // is like a "chroot" into the barrier. // // BarrierView implements logical.Storage so it can be passed in as the // durable storage mechanism for logical views. type BarrierView struct { barrier BarrierStorage prefix string readonly bool } var ( ErrRelativePath = errors.New("relative paths not supported") ) // NewBarrierView takes an underlying security barrier and returns // a view of it that can only operate with the given prefix. func NewBarrierView(barrier BarrierStorage, prefix string) *BarrierView { return &BarrierView{ barrier: barrier, prefix: prefix, } } // sanityCheck is used to perform a sanity check on a key func (v *BarrierView) sanityCheck(key string) error { if strings.Contains(key, "..") { return ErrRelativePath } return nil } // logical.Storage impl. func (v *BarrierView) List(prefix string) ([]string, error) { if err := v.sanityCheck(prefix); err != nil { return nil, err } return v.barrier.List(v.expandKey(prefix)) } // logical.Storage impl. func (v *BarrierView) Get(key string) (*logical.StorageEntry, error) { if err := v.sanityCheck(key); err != nil { return nil, err } entry, err := v.barrier.Get(v.expandKey(key)) if err != nil { return nil, err } if entry == nil { return nil, nil } if entry != nil { entry.Key = v.truncateKey(entry.Key) } return &logical.StorageEntry{ Key: entry.Key, Value: entry.Value, }, nil } // logical.Storage impl. func (v *BarrierView) Put(entry *logical.StorageEntry) error { if err := v.sanityCheck(entry.Key); err != nil { return err } expandedKey := v.expandKey(entry.Key) if v.readonly { return logical.ErrReadOnly } nested := &Entry{ Key: expandedKey, Value: entry.Value, } return v.barrier.Put(nested) } // logical.Storage impl. func (v *BarrierView) Delete(key string) error { if err := v.sanityCheck(key); err != nil { return err } expandedKey := v.expandKey(key) if v.readonly { return logical.ErrReadOnly } return v.barrier.Delete(expandedKey) } // SubView constructs a nested sub-view using the given prefix func (v *BarrierView) SubView(prefix string) *BarrierView { sub := v.expandKey(prefix) return &BarrierView{barrier: v.barrier, prefix: sub, readonly: v.readonly} } // expandKey is used to expand to the full key path with the prefix func (v *BarrierView) expandKey(suffix string) string { return v.prefix + suffix } // truncateKey is used to remove the prefix of the key func (v *BarrierView) truncateKey(full string) string { return strings.TrimPrefix(full, v.prefix) }