package vault import ( "context" "errors" "fmt" "strings" "github.com/golang/protobuf/ptypes" "github.com/hashicorp/errwrap" memdb "github.com/hashicorp/go-memdb" "github.com/hashicorp/vault/helper/identity" "github.com/hashicorp/vault/helper/storagepacker" "github.com/hashicorp/vault/helper/strutil" "github.com/hashicorp/vault/logical" "github.com/hashicorp/vault/logical/framework" ) // entityPaths returns the API endpoints supported to operate on entities. // Following are the paths supported: // entity - To register a new entity // entity/id - To lookup, modify, delete and list entities based on ID // entity/merge - To merge entities based on ID func entityPaths(i *IdentityStore) []*framework.Path { return []*framework.Path{ { Pattern: "entity$", Fields: map[string]*framework.FieldSchema{ "id": { Type: framework.TypeString, Description: "ID of the entity. If set, updates the corresponding existing entity.", }, "name": { Type: framework.TypeString, Description: "Name of the entity", }, "metadata": { Type: framework.TypeKVPairs, Description: `Metadata to be associated with the entity. In CLI, this parameter can be repeated multiple times, and it all gets merged together. For example: vault metadata=key1=value1 metadata=key2=value2 `, }, "policies": { Type: framework.TypeCommaStringSlice, Description: "Policies to be tied to the entity.", }, "disabled": { Type: framework.TypeBool, Description: "If set true, tokens tied to this identity will not be able to be used (but will not be revoked).", }, }, Callbacks: map[logical.Operation]framework.OperationFunc{ logical.UpdateOperation: i.handleEntityUpdateCommon(), }, HelpSynopsis: strings.TrimSpace(entityHelp["entity"][0]), HelpDescription: strings.TrimSpace(entityHelp["entity"][1]), }, { Pattern: "entity/id/" + framework.GenericNameRegex("id"), Fields: map[string]*framework.FieldSchema{ "id": { Type: framework.TypeString, Description: "ID of the entity.", }, "name": { Type: framework.TypeString, Description: "Name of the entity.", }, "metadata": { Type: framework.TypeKVPairs, Description: `Metadata to be associated with the entity. In CLI, this parameter can be repeated multiple times, and it all gets merged together. For example: vault metadata=key1=value1 metadata=key2=value2 `, }, "policies": { Type: framework.TypeCommaStringSlice, Description: "Policies to be tied to the entity.", }, "disabled": { Type: framework.TypeBool, Description: "If set true, tokens tied to this identity will not be able to be used (but will not be revoked).", }, }, Callbacks: map[logical.Operation]framework.OperationFunc{ logical.UpdateOperation: i.handleEntityUpdateCommon(), logical.ReadOperation: i.pathEntityIDRead(), logical.DeleteOperation: i.pathEntityIDDelete(), }, HelpSynopsis: strings.TrimSpace(entityHelp["entity-id"][0]), HelpDescription: strings.TrimSpace(entityHelp["entity-id"][1]), }, { Pattern: "entity/id/?$", Callbacks: map[logical.Operation]framework.OperationFunc{ logical.ListOperation: i.pathEntityIDList(), }, HelpSynopsis: strings.TrimSpace(entityHelp["entity-id-list"][0]), HelpDescription: strings.TrimSpace(entityHelp["entity-id-list"][1]), }, { Pattern: "entity/merge/?$", Fields: map[string]*framework.FieldSchema{ "from_entity_ids": { Type: framework.TypeCommaStringSlice, Description: "Entity IDs which needs to get merged", }, "to_entity_id": { Type: framework.TypeString, Description: "Entity ID into which all the other entities need to get merged", }, "force": { Type: framework.TypeBool, Description: "Setting this will follow the 'mine' strategy for merging MFA secrets. If there are secrets of the same type both in entities that are merged from and in entity into which all others are getting merged, secrets in the destination will be unaltered. If not set, this API will throw an error containing all the conflicts.", }, }, Callbacks: map[logical.Operation]framework.OperationFunc{ logical.UpdateOperation: i.pathEntityMergeID(), }, HelpSynopsis: strings.TrimSpace(entityHelp["entity-merge-id"][0]), HelpDescription: strings.TrimSpace(entityHelp["entity-merge-id"][1]), }, } } // pathEntityMergeID merges two or more entities into a single entity func (i *IdentityStore) pathEntityMergeID() framework.OperationFunc { return func(ctx context.Context, req *logical.Request, d *framework.FieldData) (*logical.Response, error) { toEntityID := d.Get("to_entity_id").(string) if toEntityID == "" { return logical.ErrorResponse("missing entity id to merge to"), nil } fromEntityIDs := d.Get("from_entity_ids").([]string) if len(fromEntityIDs) == 0 { return logical.ErrorResponse("missing entity ids to merge from"), nil } force := d.Get("force").(bool) // Create a MemDB transaction to merge entities txn := i.db.Txn(true) defer txn.Abort() toEntity, err := i.MemDBEntityByID(toEntityID, true) if err != nil { return nil, err } userErr, intErr := i.mergeEntity(txn, toEntity, fromEntityIDs, force, true, false) if userErr != nil { return logical.ErrorResponse(userErr.Error()), nil } if intErr != nil { return nil, intErr } // Committing the transaction *after* successfully performing storage // persistence txn.Commit() return nil, nil } } // handleEntityUpdateCommon is used to update an entity func (i *IdentityStore) handleEntityUpdateCommon() framework.OperationFunc { return func(ctx context.Context, req *logical.Request, d *framework.FieldData) (*logical.Response, error) { i.lock.Lock() defer i.lock.Unlock() var entity *identity.Entity var err error entityID := d.Get("id").(string) if entityID != "" { entity, err = i.MemDBEntityByID(entityID, true) if err != nil { return nil, err } if entity == nil { return logical.ErrorResponse("entity not found from id"), nil } } // Get the name entityName := d.Get("name").(string) if entityName != "" { entityByName, err := i.MemDBEntityByName(entityName, false) if err != nil { return nil, err } switch { case entityByName == nil: // Not found, safe to use this name with an existing or new entity case entity == nil: // We found an entity by name, but we don't currently allow // updating based on name, only ID, so return an error return logical.ErrorResponse("entity name is already in use"), nil case entity.ID == entityByName.ID: // Same exact entity, carry on (this is basically a noop then) default: return logical.ErrorResponse("entity name is already in use"), nil } } // Entity will be nil when a new entity is being registered; create a new // struct in that case. if entity == nil { entity = &identity.Entity{} } if entityName != "" { entity.Name = entityName } // Update the policies if supplied entityPoliciesRaw, ok := d.GetOk("policies") if ok { entity.Policies = entityPoliciesRaw.([]string) } if strutil.StrListContains(entity.Policies, "root") { return logical.ErrorResponse("policies cannot contain root"), nil } disabledRaw, ok := d.GetOk("disabled") if ok { entity.Disabled = disabledRaw.(bool) } // Get entity metadata metadata, ok, err := d.GetOkErr("metadata") if err != nil { return logical.ErrorResponse(fmt.Sprintf("failed to parse metadata: %v", err)), nil } if ok { entity.Metadata = metadata.(map[string]string) } // ID creation and some validations err = i.sanitizeEntity(entity) if err != nil { return nil, err } // Prepare the response respData := map[string]interface{}{ "id": entity.ID, } var aliasIDs []string for _, alias := range entity.Aliases { aliasIDs = append(aliasIDs, alias.ID) } respData["aliases"] = aliasIDs // Update MemDB and persist entity object. New entities have not been // looked up yet so we need to take the lock on the entity on upsert if err := i.upsertEntity(entity, nil, true); err != nil { return nil, err } // Return ID of the entity that was either created or updated along with // its aliases return &logical.Response{ Data: respData, }, nil } } // pathEntityIDRead returns the properties of an entity for a given entity ID func (i *IdentityStore) pathEntityIDRead() framework.OperationFunc { return func(ctx context.Context, req *logical.Request, d *framework.FieldData) (*logical.Response, error) { entityID := d.Get("id").(string) if entityID == "" { return logical.ErrorResponse("missing entity id"), nil } entity, err := i.MemDBEntityByID(entityID, false) if err != nil { return nil, err } if entity == nil { return nil, nil } return i.handleEntityReadCommon(entity) } } func (i *IdentityStore) handleEntityReadCommon(entity *identity.Entity) (*logical.Response, error) { respData := map[string]interface{}{} respData["id"] = entity.ID respData["name"] = entity.Name respData["metadata"] = entity.Metadata respData["merged_entity_ids"] = entity.MergedEntityIDs respData["policies"] = entity.Policies respData["disabled"] = entity.Disabled // Convert protobuf timestamp into RFC3339 format respData["creation_time"] = ptypes.TimestampString(entity.CreationTime) respData["last_update_time"] = ptypes.TimestampString(entity.LastUpdateTime) // Convert each alias into a map and replace the time format in each aliasesToReturn := make([]interface{}, len(entity.Aliases)) for aliasIdx, alias := range entity.Aliases { aliasMap := map[string]interface{}{} aliasMap["id"] = alias.ID aliasMap["canonical_id"] = alias.CanonicalID aliasMap["mount_accessor"] = alias.MountAccessor aliasMap["metadata"] = alias.Metadata aliasMap["name"] = alias.Name aliasMap["merged_from_canonical_ids"] = alias.MergedFromCanonicalIDs aliasMap["creation_time"] = ptypes.TimestampString(alias.CreationTime) aliasMap["last_update_time"] = ptypes.TimestampString(alias.LastUpdateTime) if mountValidationResp := i.core.router.validateMountByAccessor(alias.MountAccessor); mountValidationResp != nil { aliasMap["mount_type"] = mountValidationResp.MountType aliasMap["mount_path"] = mountValidationResp.MountPath } aliasesToReturn[aliasIdx] = aliasMap } // Add the aliases information to the response which has the correct time // formats respData["aliases"] = aliasesToReturn // Fetch the groups this entity belongs to and return their identifiers groups, inheritedGroups, err := i.groupsByEntityID(entity.ID) if err != nil { return nil, err } groupIDs := make([]string, len(groups)) for i, group := range groups { groupIDs[i] = group.ID } respData["direct_group_ids"] = groupIDs inheritedGroupIDs := make([]string, len(inheritedGroups)) for i, group := range inheritedGroups { inheritedGroupIDs[i] = group.ID } respData["inherited_group_ids"] = inheritedGroupIDs respData["group_ids"] = append(groupIDs, inheritedGroupIDs...) return &logical.Response{ Data: respData, }, nil } // pathEntityIDDelete deletes the entity for a given entity ID func (i *IdentityStore) pathEntityIDDelete() framework.OperationFunc { return func(ctx context.Context, req *logical.Request, d *framework.FieldData) (*logical.Response, error) { entityID := d.Get("id").(string) if entityID == "" { return logical.ErrorResponse("missing entity id"), nil } i.lock.Lock() defer i.lock.Unlock() // Create a MemDB transaction to delete entity txn := i.db.Txn(true) defer txn.Abort() // Fetch the entity using its ID entity, err := i.MemDBEntityByIDInTxn(txn, entityID, true) if err != nil { return nil, err } // If there is no entity for the ID, do nothing if entity == nil { return nil, nil } // Delete all the aliases in the entity. This function will also remove // the corresponding alias indexes too. err = i.deleteAliasesInEntityInTxn(txn, entity, entity.Aliases) if err != nil { return nil, err } // Delete the entity using the same transaction err = i.MemDBDeleteEntityByIDInTxn(txn, entity.ID) if err != nil { return nil, err } // Delete the entity from storage err = i.entityPacker.DeleteItem(entity.ID) if err != nil { return nil, err } // Committing the transaction *after* successfully deleting entity txn.Commit() return nil, nil } } // pathEntityIDList lists the IDs of all the valid entities in the identity // store func (i *IdentityStore) pathEntityIDList() framework.OperationFunc { return func(ctx context.Context, req *logical.Request, d *framework.FieldData) (*logical.Response, error) { ws := memdb.NewWatchSet() txn := i.db.Txn(false) iter, err := txn.Get(entitiesTable, "id") if err != nil { return nil, errwrap.Wrapf("failed to fetch iterator for entities in memdb: {{err}}", err) } ws.Add(iter.WatchCh()) var entityIDs []string entityInfo := map[string]interface{}{} type mountInfo struct { MountType string MountPath string } mountAccessorMap := map[string]mountInfo{} for { raw := iter.Next() if raw == nil { break } entity := raw.(*identity.Entity) entityIDs = append(entityIDs, entity.ID) entityInfoEntry := map[string]interface{}{ "name": entity.Name, } if len(entity.Aliases) > 0 { aliasList := make([]interface{}, 0, len(entity.Aliases)) for _, alias := range entity.Aliases { entry := map[string]interface{}{ "id": alias.ID, "name": alias.Name, "mount_accessor": alias.MountAccessor, } mi, ok := mountAccessorMap[alias.MountAccessor] if ok { entry["mount_type"] = mi.MountType entry["mount_path"] = mi.MountPath } else { mi = mountInfo{} if mountValidationResp := i.core.router.validateMountByAccessor(alias.MountAccessor); mountValidationResp != nil { mi.MountType = mountValidationResp.MountType mi.MountPath = mountValidationResp.MountPath entry["mount_type"] = mi.MountType entry["mount_path"] = mi.MountPath } mountAccessorMap[alias.MountAccessor] = mi } aliasList = append(aliasList, entry) } entityInfoEntry["aliases"] = aliasList } entityInfo[entity.ID] = entityInfoEntry } return logical.ListResponseWithInfo(entityIDs, entityInfo), nil } } func (i *IdentityStore) mergeEntity(txn *memdb.Txn, toEntity *identity.Entity, fromEntityIDs []string, force, grabLock, mergePolicies bool) (error, error) { if grabLock { i.lock.Lock() defer i.lock.Unlock() } if toEntity == nil { return errors.New("entity id to merge to is invalid"), nil } for _, fromEntityID := range fromEntityIDs { if fromEntityID == toEntity.ID { return errors.New("to_entity_id should not be present in from_entity_ids"), nil } fromEntity, err := i.MemDBEntityByID(fromEntityID, false) if err != nil { return nil, err } if fromEntity == nil { return errors.New("entity id to merge from is invalid"), nil } for _, alias := range fromEntity.Aliases { // Set the desired canonical ID alias.CanonicalID = toEntity.ID alias.MergedFromCanonicalIDs = append(alias.MergedFromCanonicalIDs, fromEntity.ID) err = i.MemDBUpsertAliasInTxn(txn, alias, false) if err != nil { return nil, errwrap.Wrapf("failed to update alias during merge: {{err}}", err) } // Add the alias to the desired entity toEntity.Aliases = append(toEntity.Aliases, alias) } // If told to, merge policies if mergePolicies { toEntity.Policies = strutil.MergeSlices(toEntity.Policies, fromEntity.Policies) } // If the entity from which we are merging from was already a merged // entity, transfer over the Merged set to the entity we are // merging into. toEntity.MergedEntityIDs = append(toEntity.MergedEntityIDs, fromEntity.MergedEntityIDs...) // Add the entity from which we are merging from to the list of entities // the entity we are merging into is composed of. toEntity.MergedEntityIDs = append(toEntity.MergedEntityIDs, fromEntity.ID) // Delete the entity which we are merging from in MemDB using the same transaction err = i.MemDBDeleteEntityByIDInTxn(txn, fromEntity.ID) if err != nil { return nil, err } // Delete the entity which we are merging from in storage err = i.entityPacker.DeleteItem(fromEntity.ID) if err != nil { return nil, err } } // Update MemDB with changes to the entity we are merging to err := i.MemDBUpsertEntityInTxn(txn, toEntity) if err != nil { return nil, err } // Persist the entity which we are merging to toEntityAsAny, err := ptypes.MarshalAny(toEntity) if err != nil { return nil, err } item := &storagepacker.Item{ ID: toEntity.ID, Message: toEntityAsAny, } err = i.entityPacker.PutItem(item) if err != nil { return nil, err } return nil, nil } var entityHelp = map[string][2]string{ "entity": { "Create a new entity", "", }, "entity-id": { "Update, read or delete an entity using entity ID", "", }, "entity-id-list": { "List all the entity IDs", "", }, "entity-merge-id": { "Merge two or more entities together", "", }, }