package state import ( "fmt" "strings" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/consul/api" "github.com/hashicorp/consul/types" "github.com/hashicorp/go-memdb" uuid "github.com/hashicorp/go-uuid" ) const ( servicesTableName = "services" // serviceLastExtinctionIndexName keeps track of the last raft index when the last instance // of any service was unregistered. This is used by blocking queries on missing services. serviceLastExtinctionIndexName = "service_last_extinction" ) // nodesTableSchema returns a new table schema used for storing node // information. func nodesTableSchema() *memdb.TableSchema { return &memdb.TableSchema{ Name: "nodes", Indexes: map[string]*memdb.IndexSchema{ "id": &memdb.IndexSchema{ Name: "id", AllowMissing: false, Unique: true, Indexer: &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, }, "uuid": &memdb.IndexSchema{ Name: "uuid", AllowMissing: true, Unique: true, Indexer: &memdb.UUIDFieldIndex{ Field: "ID", }, }, "meta": &memdb.IndexSchema{ Name: "meta", AllowMissing: true, Unique: false, Indexer: &memdb.StringMapFieldIndex{ Field: "Meta", Lowercase: false, }, }, }, } } // servicesTableSchema returns a new table schema used to store information // about services. func servicesTableSchema() *memdb.TableSchema { return &memdb.TableSchema{ Name: "services", Indexes: map[string]*memdb.IndexSchema{ "id": &memdb.IndexSchema{ Name: "id", AllowMissing: false, Unique: true, Indexer: &memdb.CompoundIndex{ Indexes: []memdb.Indexer{ &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, &memdb.StringFieldIndex{ Field: "ServiceID", Lowercase: true, }, }, }, }, "node": &memdb.IndexSchema{ Name: "node", AllowMissing: false, Unique: false, Indexer: &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, }, "service": &memdb.IndexSchema{ Name: "service", AllowMissing: true, Unique: false, Indexer: &memdb.StringFieldIndex{ Field: "ServiceName", Lowercase: true, }, }, "connect": &memdb.IndexSchema{ Name: "connect", AllowMissing: true, Unique: false, Indexer: &IndexConnectService{}, }, "kind": &memdb.IndexSchema{ Name: "kind", AllowMissing: false, Unique: false, Indexer: &IndexServiceKind{}, }, }, } } // checksTableSchema returns a new table schema used for storing and indexing // health check information. Health checks have a number of different attributes // we want to filter by, so this table is a bit more complex. func checksTableSchema() *memdb.TableSchema { return &memdb.TableSchema{ Name: "checks", Indexes: map[string]*memdb.IndexSchema{ "id": &memdb.IndexSchema{ Name: "id", AllowMissing: false, Unique: true, Indexer: &memdb.CompoundIndex{ Indexes: []memdb.Indexer{ &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, &memdb.StringFieldIndex{ Field: "CheckID", Lowercase: true, }, }, }, }, "status": &memdb.IndexSchema{ Name: "status", AllowMissing: false, Unique: false, Indexer: &memdb.StringFieldIndex{ Field: "Status", Lowercase: false, }, }, "service": &memdb.IndexSchema{ Name: "service", AllowMissing: true, Unique: false, Indexer: &memdb.StringFieldIndex{ Field: "ServiceName", Lowercase: true, }, }, "node": &memdb.IndexSchema{ Name: "node", AllowMissing: true, Unique: false, Indexer: &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, }, "node_service_check": &memdb.IndexSchema{ Name: "node_service_check", AllowMissing: true, Unique: false, Indexer: &memdb.CompoundIndex{ Indexes: []memdb.Indexer{ &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, &memdb.FieldSetIndex{ Field: "ServiceID", }, }, }, }, "node_service": &memdb.IndexSchema{ Name: "node_service", AllowMissing: true, Unique: false, Indexer: &memdb.CompoundIndex{ Indexes: []memdb.Indexer{ &memdb.StringFieldIndex{ Field: "Node", Lowercase: true, }, &memdb.StringFieldIndex{ Field: "ServiceID", Lowercase: true, }, }, }, }, }, } } func init() { registerSchema(nodesTableSchema) registerSchema(servicesTableSchema) registerSchema(checksTableSchema) } const ( // minUUIDLookupLen is used as a minimum length of a node name required before // we test to see if the name is actually a UUID and perform an ID-based node // lookup. minUUIDLookupLen = 2 ) func resizeNodeLookupKey(s string) string { l := len(s) if l%2 != 0 { return s[0 : l-1] } return s } // Nodes is used to pull the full list of nodes for use during snapshots. func (s *Snapshot) Nodes() (memdb.ResultIterator, error) { iter, err := s.tx.Get("nodes", "id") if err != nil { return nil, err } return iter, nil } // Services is used to pull the full list of services for a given node for use // during snapshots. func (s *Snapshot) Services(node string) (memdb.ResultIterator, error) { iter, err := s.tx.Get("services", "node", node) if err != nil { return nil, err } return iter, nil } // Checks is used to pull the full list of checks for a given node for use // during snapshots. func (s *Snapshot) Checks(node string) (memdb.ResultIterator, error) { iter, err := s.tx.Get("checks", "node", node) if err != nil { return nil, err } return iter, nil } // Registration is used to make sure a node, service, and check registration is // performed within a single transaction to avoid race conditions on state // updates. func (s *Restore) Registration(idx uint64, req *structs.RegisterRequest) error { if err := s.store.ensureRegistrationTxn(s.tx, idx, req); err != nil { return err } return nil } // EnsureRegistration is used to make sure a node, service, and check // registration is performed within a single transaction to avoid race // conditions on state updates. func (s *Store) EnsureRegistration(idx uint64, req *structs.RegisterRequest) error { tx := s.db.Txn(true) defer tx.Abort() if err := s.ensureRegistrationTxn(tx, idx, req); err != nil { return err } tx.Commit() return nil } func (s *Store) ensureCheckIfNodeMatches(tx *memdb.Txn, idx uint64, node string, check *structs.HealthCheck) error { if check.Node != node { return fmt.Errorf("check node %q does not match node %q", check.Node, node) } if err := s.ensureCheckTxn(tx, idx, check); err != nil { return fmt.Errorf("failed inserting check: %s on node %q", err, check.Node) } return nil } // ensureRegistrationTxn is used to make sure a node, service, and check // registration is performed within a single transaction to avoid race // conditions on state updates. func (s *Store) ensureRegistrationTxn(tx *memdb.Txn, idx uint64, req *structs.RegisterRequest) error { // Create a node structure. node := &structs.Node{ ID: req.ID, Node: req.Node, Address: req.Address, Datacenter: req.Datacenter, TaggedAddresses: req.TaggedAddresses, Meta: req.NodeMeta, } // Since this gets called for all node operations (service and check // updates) and churn on the node itself is basically none after the // node updates itself the first time, it's worth seeing if we need to // modify the node at all so we prevent watch churn and useless writes // and modify index bumps on the node. { existing, err := tx.First("nodes", "id", node.Node) if err != nil { return fmt.Errorf("node lookup failed: %s", err) } if existing == nil || req.ChangesNode(existing.(*structs.Node)) { if err := s.ensureNodeTxn(tx, idx, node); err != nil { return fmt.Errorf("failed inserting node: %s", err) } } } // Add the service, if any. We perform a similar check as we do for the // node info above to make sure we actually need to update the service // definition in order to prevent useless churn if nothing has changed. if req.Service != nil { existing, err := tx.First("services", "id", req.Node, req.Service.ID) if err != nil { return fmt.Errorf("failed service lookup: %s", err) } if existing == nil || !(existing.(*structs.ServiceNode).ToNodeService()).IsSame(req.Service) { if err := s.ensureServiceTxn(tx, idx, req.Node, req.Service); err != nil { return fmt.Errorf("failed inserting service: %s", err) } } } // Add the checks, if any. if req.Check != nil { if err := s.ensureCheckIfNodeMatches(tx, idx, req.Node, req.Check); err != nil { return err } } for _, check := range req.Checks { if err := s.ensureCheckIfNodeMatches(tx, idx, req.Node, check); err != nil { return err } } return nil } // EnsureNode is used to upsert node registration or modification. func (s *Store) EnsureNode(idx uint64, node *structs.Node) error { tx := s.db.Txn(true) defer tx.Abort() // Call the node upsert if err := s.ensureNodeTxn(tx, idx, node); err != nil { return err } tx.Commit() return nil } // ensureNoNodeWithSimilarNameTxn checks that no other node has conflict in its name // If allowClashWithoutID then, getting a conflict on another node without ID will be allowed func (s *Store) ensureNoNodeWithSimilarNameTxn(tx *memdb.Txn, node *structs.Node, allowClashWithoutID bool) error { // Retrieve all of the nodes enodes, err := tx.Get("nodes", "id") if err != nil { return fmt.Errorf("Cannot lookup all nodes: %s", err) } for nodeIt := enodes.Next(); nodeIt != nil; nodeIt = enodes.Next() { enode := nodeIt.(*structs.Node) if strings.EqualFold(node.Node, enode.Node) && node.ID != enode.ID { // Look up the existing node's Serf health check to see if it's failed. // If it is, the node can be renamed. enodeCheck, err := tx.First("checks", "id", enode.Node, string(structs.SerfCheckID)) if err != nil { return fmt.Errorf("Cannot get status of node %s: %s", enode.Node, err) } // Get the node health. If there's no Serf health check, we consider it safe to rename // the node as it's likely an external node registration not managed by Consul. var nodeHealthy bool if enodeCheck != nil { enodeSerfCheck, ok := enodeCheck.(*structs.HealthCheck) if ok { nodeHealthy = enodeSerfCheck.Status != api.HealthCritical } } if !(enode.ID == "" && allowClashWithoutID) && nodeHealthy { return fmt.Errorf("Node name %s is reserved by node %s with name %s", node.Node, enode.ID, enode.Node) } } } return nil } // ensureNodeCASTxn updates a node only if the existing index matches the given index. // Returns a bool indicating if a write happened and any error. func (s *Store) ensureNodeCASTxn(tx *memdb.Txn, idx uint64, node *structs.Node) (bool, error) { // Retrieve the existing entry. existing, err := getNodeTxn(tx, node.Node) if err != nil { return false, err } // Check if the we should do the set. A ModifyIndex of 0 means that // we are doing a set-if-not-exists. if node.ModifyIndex == 0 && existing != nil { return false, nil } if node.ModifyIndex != 0 && existing == nil { return false, nil } if existing != nil && node.ModifyIndex != 0 && node.ModifyIndex != existing.ModifyIndex { return false, nil } // Perform the update. if err := s.ensureNodeTxn(tx, idx, node); err != nil { return false, err } return true, nil } // ensureNodeTxn is the inner function called to actually create a node // registration or modify an existing one in the state store. It allows // passing in a memdb transaction so it may be part of a larger txn. func (s *Store) ensureNodeTxn(tx *memdb.Txn, idx uint64, node *structs.Node) error { // See if there's an existing node with this UUID, and make sure the // name is the same. var n *structs.Node if node.ID != "" { existing, err := getNodeIDTxn(tx, node.ID) if err != nil { return fmt.Errorf("node lookup failed: %s", err) } if existing != nil { n = existing if n.Node != node.Node { // Lets first get all nodes and check whether name do match, we do not allow clash on nodes without ID dupNameError := s.ensureNoNodeWithSimilarNameTxn(tx, node, false) if dupNameError != nil { return fmt.Errorf("Error while renaming Node ID: %q: %s", node.ID, dupNameError) } // We are actually renaming a node, remove its reference first err := s.deleteNodeTxn(tx, idx, n.Node) if err != nil { return fmt.Errorf("Error while renaming Node ID: %q from %s to %s", node.ID, n.Node, node.Node) } } } else { // We allow to "steal" another node name that would have no ID // It basically means that we allow upgrading a node without ID and add the ID dupNameError := s.ensureNoNodeWithSimilarNameTxn(tx, node, true) if dupNameError != nil { return fmt.Errorf("Error while renaming Node ID: %q: %s", node.ID, dupNameError) } } } // TODO: else Node.ID == "" should be forbidden in future Consul releases // See https://github.com/hashicorp/consul/pull/3983 for context // Check for an existing node by name to support nodes with no IDs. if n == nil { existing, err := tx.First("nodes", "id", node.Node) if err != nil { return fmt.Errorf("node name lookup failed: %s", err) } if existing != nil { n = existing.(*structs.Node) } // WARNING, for compatibility reasons with tests, we do not check // for case insensitive matches, which may lead to DB corruption // See https://github.com/hashicorp/consul/pull/3983 for context } // Get the indexes. if n != nil { node.CreateIndex = n.CreateIndex node.ModifyIndex = n.ModifyIndex // We do not need to update anything if node.IsSame(n) { return nil } node.ModifyIndex = idx } else { node.CreateIndex = idx node.ModifyIndex = idx } // Insert the node and update the index. if err := tx.Insert("nodes", node); err != nil { return fmt.Errorf("failed inserting node: %s", err) } if err := tx.Insert("index", &IndexEntry{"nodes", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } // Update the node's service indexes as the node information is included // in health queries and we would otherwise miss node updates in some cases // for those queries. if err := s.updateAllServiceIndexesOfNode(tx, idx, node.Node); err != nil { return fmt.Errorf("failed updating index: %s", err) } return nil } // GetNode is used to retrieve a node registration by node name ID. func (s *Store) GetNode(id string) (uint64, *structs.Node, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes") // Retrieve the node from the state store node, err := getNodeTxn(tx, id) if err != nil { return 0, nil, fmt.Errorf("node lookup failed: %s", err) } return idx, node, nil } func getNodeTxn(tx *memdb.Txn, nodeName string) (*structs.Node, error) { node, err := tx.First("nodes", "id", nodeName) if err != nil { return nil, fmt.Errorf("node lookup failed: %s", err) } if node != nil { return node.(*structs.Node), nil } return nil, nil } func getNodeIDTxn(tx *memdb.Txn, id types.NodeID) (*structs.Node, error) { strnode := string(id) uuidValue, err := uuid.ParseUUID(strnode) if err != nil { return nil, fmt.Errorf("node lookup by ID failed, wrong UUID: %v for '%s'", err, strnode) } node, err := tx.First("nodes", "uuid", uuidValue) if err != nil { return nil, fmt.Errorf("node lookup by ID failed: %s", err) } if node != nil { return node.(*structs.Node), nil } return nil, nil } // GetNodeID is used to retrieve a node registration by node ID. func (s *Store) GetNodeID(id types.NodeID) (uint64, *structs.Node, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes") // Retrieve the node from the state store node, err := getNodeIDTxn(tx, id) return idx, node, err } // Nodes is used to return all of the known nodes. func (s *Store) Nodes(ws memdb.WatchSet) (uint64, structs.Nodes, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes") // Retrieve all of the nodes nodes, err := tx.Get("nodes", "id") if err != nil { return 0, nil, fmt.Errorf("failed nodes lookup: %s", err) } ws.Add(nodes.WatchCh()) // Create and return the nodes list. var results structs.Nodes for node := nodes.Next(); node != nil; node = nodes.Next() { results = append(results, node.(*structs.Node)) } return idx, results, nil } // NodesByMeta is used to return all nodes with the given metadata key/value pairs. func (s *Store) NodesByMeta(ws memdb.WatchSet, filters map[string]string) (uint64, structs.Nodes, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes") // Retrieve all of the nodes var args []interface{} for key, value := range filters { args = append(args, key, value) break } nodes, err := tx.Get("nodes", "meta", args...) if err != nil { return 0, nil, fmt.Errorf("failed nodes lookup: %s", err) } ws.Add(nodes.WatchCh()) // Create and return the nodes list. var results structs.Nodes for node := nodes.Next(); node != nil; node = nodes.Next() { n := node.(*structs.Node) if len(filters) <= 1 || structs.SatisfiesMetaFilters(n.Meta, filters) { results = append(results, n) } } return idx, results, nil } // DeleteNode is used to delete a given node by its ID. func (s *Store) DeleteNode(idx uint64, nodeName string) error { tx := s.db.Txn(true) defer tx.Abort() // Call the node deletion. if err := s.deleteNodeTxn(tx, idx, nodeName); err != nil { return err } tx.Commit() return nil } // deleteNodeCASTxn is used to try doing a node delete operation with a given // raft index. If the CAS index specified is not equal to the last observed index for // the given check, then the call is a noop, otherwise a normal check delete is invoked. func (s *Store) deleteNodeCASTxn(tx *memdb.Txn, idx, cidx uint64, nodeName string) (bool, error) { // Look up the node. node, err := getNodeTxn(tx, nodeName) if err != nil { return false, err } if node == nil { return false, nil } // If the existing index does not match the provided CAS // index arg, then we shouldn't update anything and can safely // return early here. if node.ModifyIndex != cidx { return false, nil } // Call the actual deletion if the above passed. if err := s.deleteNodeTxn(tx, idx, nodeName); err != nil { return false, err } return true, nil } // deleteNodeTxn is the inner method used for removing a node from // the store within a given transaction. func (s *Store) deleteNodeTxn(tx *memdb.Txn, idx uint64, nodeName string) error { // Look up the node. node, err := tx.First("nodes", "id", nodeName) if err != nil { return fmt.Errorf("node lookup failed: %s", err) } if node == nil { return nil } // Delete all services associated with the node and update the service index. services, err := tx.Get("services", "node", nodeName) if err != nil { return fmt.Errorf("failed service lookup: %s", err) } var sids []string for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode) sids = append(sids, svc.ServiceID) if err := tx.Insert("index", &IndexEntry{serviceIndexName(svc.ServiceName), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } if err := tx.Insert("index", &IndexEntry{serviceKindIndexName(svc.ServiceKind), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } // Do the delete in a separate loop so we don't trash the iterator. for _, sid := range sids { if err := s.deleteServiceTxn(tx, idx, nodeName, sid); err != nil { return err } } // Delete all checks associated with the node. This will invalidate // sessions as necessary. checks, err := tx.Get("checks", "node", nodeName) if err != nil { return fmt.Errorf("failed check lookup: %s", err) } var cids []types.CheckID for check := checks.Next(); check != nil; check = checks.Next() { cids = append(cids, check.(*structs.HealthCheck).CheckID) } // Do the delete in a separate loop so we don't trash the iterator. for _, cid := range cids { if err := s.deleteCheckTxn(tx, idx, nodeName, cid); err != nil { return err } } // Delete any coordinates associated with this node. coords, err := tx.Get("coordinates", "node", nodeName) if err != nil { return fmt.Errorf("failed coordinate lookup: %s", err) } for coord := coords.Next(); coord != nil; coord = coords.Next() { if err := tx.Delete("coordinates", coord); err != nil { return fmt.Errorf("failed deleting coordinate: %s", err) } if err := tx.Insert("index", &IndexEntry{"coordinates", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } // Delete the node and update the index. if err := tx.Delete("nodes", node); err != nil { return fmt.Errorf("failed deleting node: %s", err) } if err := tx.Insert("index", &IndexEntry{"nodes", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } // Invalidate any sessions for this node. sessions, err := tx.Get("sessions", "node", nodeName) if err != nil { return fmt.Errorf("failed session lookup: %s", err) } var ids []string for sess := sessions.Next(); sess != nil; sess = sessions.Next() { ids = append(ids, sess.(*structs.Session).ID) } // Do the delete in a separate loop so we don't trash the iterator. for _, id := range ids { if err := s.deleteSessionTxn(tx, idx, id); err != nil { return fmt.Errorf("failed session delete: %s", err) } } return nil } // EnsureService is called to upsert creation of a given NodeService. func (s *Store) EnsureService(idx uint64, node string, svc *structs.NodeService) error { tx := s.db.Txn(true) defer tx.Abort() // Call the service registration upsert if err := s.ensureServiceTxn(tx, idx, node, svc); err != nil { return err } tx.Commit() return nil } // ensureServiceCASTxn updates a service only if the existing index matches the given index. // Returns a bool indicating if a write happened and any error. func (s *Store) ensureServiceCASTxn(tx *memdb.Txn, idx uint64, node string, svc *structs.NodeService) (bool, error) { // Retrieve the existing service. existing, err := tx.First("services", "id", node, svc.ID) if err != nil { return false, fmt.Errorf("failed service lookup: %s", err) } // Check if the we should do the set. A ModifyIndex of 0 means that // we are doing a set-if-not-exists. if svc.ModifyIndex == 0 && existing != nil { return false, nil } if svc.ModifyIndex != 0 && existing == nil { return false, nil } e, ok := existing.(*structs.ServiceNode) if ok && svc.ModifyIndex != 0 && svc.ModifyIndex != e.ModifyIndex { return false, nil } // Perform the update. if err := s.ensureServiceTxn(tx, idx, node, svc); err != nil { return false, err } return true, nil } // ensureServiceTxn is used to upsert a service registration within an // existing memdb transaction. func (s *Store) ensureServiceTxn(tx *memdb.Txn, idx uint64, node string, svc *structs.NodeService) error { // Check for existing service existing, err := tx.First("services", "id", node, svc.ID) if err != nil { return fmt.Errorf("failed service lookup: %s", err) } if err = structs.ValidateMetadata(svc.Meta, false); err != nil { return fmt.Errorf("Invalid Service Meta for node %s and serviceID %s: %v", node, svc.ID, err) } // Create the service node entry and populate the indexes. Note that // conversion doesn't populate any of the node-specific information. // That's always populated when we read from the state store. entry := svc.ToServiceNode(node) // Get the node n, err := tx.First("nodes", "id", node) if err != nil { return fmt.Errorf("failed node lookup: %s", err) } if n == nil { return ErrMissingNode } if existing != nil { serviceNode := existing.(*structs.ServiceNode) entry.CreateIndex = serviceNode.CreateIndex entry.ModifyIndex = serviceNode.ModifyIndex // We cannot return here because: we want to keep existing behavior (ex: failed node lookup -> ErrMissingNode) // It might be modified in future, but it requires changing many unit tests // Enforcing saving the entry also ensures that if we add default values in .ToServiceNode() // those values will be saved even if node is not really modified for a while. if entry.IsSameService(serviceNode) { return nil } } else { entry.CreateIndex = idx } entry.ModifyIndex = idx // Insert the service and update the index if err := tx.Insert("services", entry); err != nil { return fmt.Errorf("failed inserting service: %s", err) } if err := tx.Insert("index", &IndexEntry{"services", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } if err := tx.Insert("index", &IndexEntry{serviceIndexName(svc.Service), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } if err := tx.Insert("index", &IndexEntry{serviceKindIndexName(svc.Kind), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } return nil } // Services returns all services along with a list of associated tags. func (s *Store) Services(ws memdb.WatchSet) (uint64, structs.Services, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "services") // List all the services. services, err := tx.Get("services", "id") if err != nil { return 0, nil, fmt.Errorf("failed querying services: %s", err) } ws.Add(services.WatchCh()) // Rip through the services and enumerate them and their unique set of // tags. unique := make(map[string]map[string]struct{}) for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode) tags, ok := unique[svc.ServiceName] if !ok { unique[svc.ServiceName] = make(map[string]struct{}) tags = unique[svc.ServiceName] } for _, tag := range svc.ServiceTags { tags[tag] = struct{}{} } } // Generate the output structure. var results = make(structs.Services) for service, tags := range unique { results[service] = make([]string, 0) for tag := range tags { results[service] = append(results[service], tag) } } return idx, results, nil } // ServicesByNodeMeta returns all services, filtered by the given node metadata. func (s *Store) ServicesByNodeMeta(ws memdb.WatchSet, filters map[string]string) (uint64, structs.Services, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "services", "nodes") // Retrieve all of the nodes with the meta k/v pair var args []interface{} for key, value := range filters { args = append(args, key, value) break } nodes, err := tx.Get("nodes", "meta", args...) if err != nil { return 0, nil, fmt.Errorf("failed nodes lookup: %s", err) } ws.Add(nodes.WatchCh()) // We don't want to track an unlimited number of services, so we pull a // top-level watch to use as a fallback. allServices, err := tx.Get("services", "id") if err != nil { return 0, nil, fmt.Errorf("failed services lookup: %s", err) } allServicesCh := allServices.WatchCh() // Populate the services map unique := make(map[string]map[string]struct{}) for node := nodes.Next(); node != nil; node = nodes.Next() { n := node.(*structs.Node) if len(filters) > 1 && !structs.SatisfiesMetaFilters(n.Meta, filters) { continue } // List all the services on the node services, err := tx.Get("services", "node", n.Node) if err != nil { return 0, nil, fmt.Errorf("failed querying services: %s", err) } ws.AddWithLimit(watchLimit, services.WatchCh(), allServicesCh) // Rip through the services and enumerate them and their unique set of // tags. for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode) tags, ok := unique[svc.ServiceName] if !ok { unique[svc.ServiceName] = make(map[string]struct{}) tags = unique[svc.ServiceName] } for _, tag := range svc.ServiceTags { tags[tag] = struct{}{} } } } // Generate the output structure. var results = make(structs.Services) for service, tags := range unique { results[service] = make([]string, 0) for tag := range tags { results[service] = append(results[service], tag) } } return idx, results, nil } // maxIndexForService return the maximum Raft Index for a service // If the index is not set for the service, it will return the missing // service index. // The service_last_extinction is set to the last raft index when a service // was unregistered (or 0 if no services were ever unregistered). This // allows blocking queries to // * return when the last instance of a service is removed // * block until an instance for this service is available, or another // service is unregistered. func maxIndexForService(tx *memdb.Txn, serviceName string, serviceExists, checks bool) uint64 { idx, _ := maxIndexAndWatchChForService(tx, serviceName, serviceExists, checks) return idx } // maxIndexAndWatchChForService return the maximum Raft Index for a service. If // the index is not set for the service, it will return the missing service // index. The service_last_extinction is set to the last raft index when a // service was unregistered (or 0 if no services were ever unregistered). This // allows blocking queries to // * return when the last instance of a service is removed // * block until an instance for this service is available, or another // service is unregistered. // // It also _may_ return a watch chan to add to a WatchSet. It will only return // one if the service exists, and has a service index. If it doesn't then nil is // returned for the chan. This allows for blocking watchers to _only_ watch this // one chan in the common case, falling back to watching all touched MemDB // indexes in more complicated cases. func maxIndexAndWatchChForService(tx *memdb.Txn, serviceName string, serviceExists, checks bool) (uint64, <-chan struct{}) { if !serviceExists { res, err := tx.First("index", "id", serviceLastExtinctionIndexName) if missingIdx, ok := res.(*IndexEntry); ok && err == nil { // Not safe to only watch the extinction index as it's not updated when // new instances come along so return nil watchCh. return missingIdx.Value, nil } } ch, res, err := tx.FirstWatch("index", "id", serviceIndexName(serviceName)) if idx, ok := res.(*IndexEntry); ok && err == nil { return idx.Value, ch } if checks { return maxIndexTxn(tx, "nodes", "services", "checks"), nil } return maxIndexTxn(tx, "nodes", "services"), nil } // ConnectServiceNodes returns the nodes associated with a Connect // compatible destination for the given service name. This will include // both proxies and native integrations. func (s *Store) ConnectServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.ServiceNodes, error) { return s.serviceNodes(ws, serviceName, true) } // ServiceNodes returns the nodes associated with a given service name. func (s *Store) ServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.ServiceNodes, error) { return s.serviceNodes(ws, serviceName, false) } func (s *Store) serviceNodes(ws memdb.WatchSet, serviceName string, connect bool) (uint64, structs.ServiceNodes, error) { tx := s.db.Txn(false) defer tx.Abort() // Function for lookup var f func() (memdb.ResultIterator, error) if !connect { f = func() (memdb.ResultIterator, error) { return tx.Get("services", "service", serviceName) } } else { f = func() (memdb.ResultIterator, error) { return tx.Get("services", "connect", serviceName) } } // List all the services. services, err := f() if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } ws.Add(services.WatchCh()) var results structs.ServiceNodes for service := services.Next(); service != nil; service = services.Next() { results = append(results, service.(*structs.ServiceNode)) } // Fill in the node details. results, err = s.parseServiceNodes(tx, ws, results) if err != nil { return 0, nil, fmt.Errorf("failed parsing service nodes: %s", err) } // Get the table index. idx := maxIndexForService(tx, serviceName, len(results) > 0, false) return idx, results, nil } // ServiceTagNodes returns the nodes associated with a given service, filtering // out services that don't contain the given tags. func (s *Store) ServiceTagNodes(ws memdb.WatchSet, service string, tags []string) (uint64, structs.ServiceNodes, error) { tx := s.db.Txn(false) defer tx.Abort() // List all the services. services, err := tx.Get("services", "service", service) if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } ws.Add(services.WatchCh()) // Gather all the services and apply the tag filter. serviceExists := false var results structs.ServiceNodes for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode) serviceExists = true if !serviceTagsFilter(svc, tags) { results = append(results, svc) } } // Fill in the node details. results, err = s.parseServiceNodes(tx, ws, results) if err != nil { return 0, nil, fmt.Errorf("failed parsing service nodes: %s", err) } // Get the table index. idx := maxIndexForService(tx, service, serviceExists, false) return idx, results, nil } // serviceTagFilter returns true (should filter) if the given service node // doesn't contain the given tag. func serviceTagFilter(sn *structs.ServiceNode, tag string) bool { tag = strings.ToLower(tag) // Look for the lower cased version of the tag. for _, t := range sn.ServiceTags { if strings.ToLower(t) == tag { return false } } // If we didn't hit the tag above then we should filter. return true } // serviceTagsFilter returns true (should filter) if the given service node // doesn't contain the given set of tags. func serviceTagsFilter(sn *structs.ServiceNode, tags []string) bool { for _, tag := range tags { if serviceTagFilter(sn, tag) { // If any one of the expected tags was not found, filter the service return true } } // If all tags were found, don't filter the service return false } // ServiceAddressNodes returns the nodes associated with a given service, filtering // out services that don't match the given serviceAddress func (s *Store) ServiceAddressNodes(ws memdb.WatchSet, address string) (uint64, structs.ServiceNodes, error) { tx := s.db.Txn(false) defer tx.Abort() // List all the services. services, err := tx.Get("services", "id") if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } ws.Add(services.WatchCh()) // Gather all the services and apply the tag filter. var results structs.ServiceNodes for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode) if svc.ServiceAddress == address { results = append(results, svc) } else { for _, addr := range svc.ServiceTaggedAddresses { if addr.Address == address { results = append(results, svc) break } } } } // Fill in the node details. results, err = s.parseServiceNodes(tx, ws, results) if err != nil { return 0, nil, fmt.Errorf("failed parsing service nodes: %s", err) } return 0, results, nil } // parseServiceNodes iterates over a services query and fills in the node details, // returning a ServiceNodes slice. func (s *Store) parseServiceNodes(tx *memdb.Txn, ws memdb.WatchSet, services structs.ServiceNodes) (structs.ServiceNodes, error) { // We don't want to track an unlimited number of nodes, so we pull a // top-level watch to use as a fallback. allNodes, err := tx.Get("nodes", "id") if err != nil { return nil, fmt.Errorf("failed nodes lookup: %s", err) } allNodesCh := allNodes.WatchCh() // Fill in the node data for each service instance. var results structs.ServiceNodes for _, sn := range services { // Note that we have to clone here because we don't want to // modify the node-related fields on the object in the database, // which is what we are referencing. s := sn.PartialClone() // Grab the corresponding node record. watchCh, n, err := tx.FirstWatch("nodes", "id", sn.Node) if err != nil { return nil, fmt.Errorf("failed node lookup: %s", err) } ws.AddWithLimit(watchLimit, watchCh, allNodesCh) // Populate the node-related fields. The tagged addresses may be // used by agents to perform address translation if they are // configured to do that. node := n.(*structs.Node) s.ID = node.ID s.Address = node.Address s.Datacenter = node.Datacenter s.TaggedAddresses = node.TaggedAddresses s.NodeMeta = node.Meta results = append(results, s) } return results, nil } // NodeService is used to retrieve a specific service associated with the given // node. func (s *Store) NodeService(nodeName string, serviceID string) (uint64, *structs.NodeService, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "services") // Query the service service, err := s.getNodeServiceTxn(tx, nodeName, serviceID) if err != nil { return 0, nil, fmt.Errorf("failed querying service for node %q: %s", nodeName, err) } return idx, service, nil } func (s *Store) getNodeServiceTxn(tx *memdb.Txn, nodeName, serviceID string) (*structs.NodeService, error) { // Query the service service, err := tx.First("services", "id", nodeName, serviceID) if err != nil { return nil, fmt.Errorf("failed querying service for node %q: %s", nodeName, err) } if service != nil { return service.(*structs.ServiceNode).ToNodeService(), nil } return nil, nil } // NodeServices is used to query service registrations by node name or UUID. func (s *Store) NodeServices(ws memdb.WatchSet, nodeNameOrID string) (uint64, *structs.NodeServices, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes", "services") // Query the node by node name watchCh, n, err := tx.FirstWatch("nodes", "id", nodeNameOrID) if err != nil { return 0, nil, fmt.Errorf("node lookup failed: %s", err) } if n != nil { ws.Add(watchCh) } else { if len(nodeNameOrID) < minUUIDLookupLen { ws.Add(watchCh) return 0, nil, nil } // Attempt to lookup the node by its node ID iter, err := tx.Get("nodes", "uuid_prefix", resizeNodeLookupKey(nodeNameOrID)) if err != nil { ws.Add(watchCh) // TODO(sean@): We could/should log an error re: the uuid_prefix lookup // failing once a logger has been introduced to the catalog. return 0, nil, nil } n = iter.Next() if n == nil { // No nodes matched, even with the Node ID: add a watch on the node name. ws.Add(watchCh) return 0, nil, nil } idWatchCh := iter.WatchCh() if iter.Next() != nil { // More than one match present: Watch on the node name channel and return // an empty result (node lookups can not be ambiguous). ws.Add(watchCh) return 0, nil, nil } ws.Add(idWatchCh) } node := n.(*structs.Node) nodeName := node.Node // Read all of the services services, err := tx.Get("services", "node", nodeName) if err != nil { return 0, nil, fmt.Errorf("failed querying services for node %q: %s", nodeName, err) } ws.Add(services.WatchCh()) // Initialize the node services struct ns := &structs.NodeServices{ Node: node, Services: make(map[string]*structs.NodeService), } // Add all of the services to the map. for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode).ToNodeService() ns.Services[svc.ID] = svc } return idx, ns, nil } // DeleteService is used to delete a given service associated with a node. func (s *Store) DeleteService(idx uint64, nodeName, serviceID string) error { tx := s.db.Txn(true) defer tx.Abort() // Call the service deletion if err := s.deleteServiceTxn(tx, idx, nodeName, serviceID); err != nil { return err } tx.Commit() return nil } func serviceIndexName(name string) string { return fmt.Sprintf("service.%s", name) } func serviceKindIndexName(kind structs.ServiceKind) string { switch kind { case structs.ServiceKindTypical: // needs a special case here return "service_kind.typical" default: return "service_kind." + string(kind) } } // deleteServiceCASTxn is used to try doing a service delete operation with a given // raft index. If the CAS index specified is not equal to the last observed index for // the given service, then the call is a noop, otherwise a normal delete is invoked. func (s *Store) deleteServiceCASTxn(tx *memdb.Txn, idx, cidx uint64, nodeName, serviceID string) (bool, error) { // Look up the service. service, err := s.getNodeServiceTxn(tx, nodeName, serviceID) if err != nil { return false, fmt.Errorf("service lookup failed: %s", err) } if service == nil { return false, nil } // If the existing index does not match the provided CAS // index arg, then we shouldn't update anything and can safely // return early here. if service.ModifyIndex != cidx { return false, nil } // Call the actual deletion if the above passed. if err := s.deleteServiceTxn(tx, idx, nodeName, serviceID); err != nil { return false, err } return true, nil } // deleteServiceTxn is the inner method called to remove a service // registration within an existing transaction. func (s *Store) deleteServiceTxn(tx *memdb.Txn, idx uint64, nodeName, serviceID string) error { // Look up the service. service, err := tx.First("services", "id", nodeName, serviceID) if err != nil { return fmt.Errorf("failed service lookup: %s", err) } if service == nil { return nil } // Delete any checks associated with the service. This will invalidate // sessions as necessary. checks, err := tx.Get("checks", "node_service", nodeName, serviceID) if err != nil { return fmt.Errorf("failed service check lookup: %s", err) } var cids []types.CheckID for check := checks.Next(); check != nil; check = checks.Next() { cids = append(cids, check.(*structs.HealthCheck).CheckID) } // Do the delete in a separate loop so we don't trash the iterator. for _, cid := range cids { if err := s.deleteCheckTxn(tx, idx, nodeName, cid); err != nil { return err } } // Update the index. if err := tx.Insert("index", &IndexEntry{"checks", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } // Delete the service and update the index if err := tx.Delete("services", service); err != nil { return fmt.Errorf("failed deleting service: %s", err) } if err := tx.Insert("index", &IndexEntry{"services", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } svc := service.(*structs.ServiceNode) if err := tx.Insert("index", &IndexEntry{serviceKindIndexName(svc.ServiceKind), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } if remainingService, err := tx.First("services", "service", svc.ServiceName); err == nil { if remainingService != nil { // We have at least one remaining service, update the index if err := tx.Insert("index", &IndexEntry{serviceIndexName(svc.ServiceName), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } else { // There are no more service instances, cleanup the service. index serviceIndex, err := tx.First("index", "id", serviceIndexName(svc.ServiceName)) if err == nil && serviceIndex != nil { // we found service. index, garbage collect it if errW := tx.Delete("index", serviceIndex); errW != nil { return fmt.Errorf("[FAILED] deleting serviceIndex %s: %s", svc.ServiceName, err) } } if err := tx.Insert("index", &IndexEntry{serviceLastExtinctionIndexName, idx}); err != nil { return fmt.Errorf("failed updating missing service index: %s", err) } } } else { return fmt.Errorf("Could not find any service %s: %s", svc.ServiceName, err) } return nil } // EnsureCheck is used to store a check registration in the db. func (s *Store) EnsureCheck(idx uint64, hc *structs.HealthCheck) error { tx := s.db.Txn(true) defer tx.Abort() // Call the check registration if err := s.ensureCheckTxn(tx, idx, hc); err != nil { return err } tx.Commit() return nil } // updateAllServiceIndexesOfNode updates the Raft index of all the services associated with this node func (s *Store) updateAllServiceIndexesOfNode(tx *memdb.Txn, idx uint64, nodeID string) error { services, err := tx.Get("services", "node", nodeID) if err != nil { return fmt.Errorf("failed updating services for node %s: %s", nodeID, err) } for service := services.Next(); service != nil; service = services.Next() { svc := service.(*structs.ServiceNode).ToNodeService() if err := tx.Insert("index", &IndexEntry{serviceIndexName(svc.Service), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } if err := tx.Insert("index", &IndexEntry{serviceKindIndexName(svc.Kind), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } return nil } // ensureCheckCASTxn updates a check only if the existing index matches the given index. // Returns a bool indicating if a write happened and any error. func (s *Store) ensureCheckCASTxn(tx *memdb.Txn, idx uint64, hc *structs.HealthCheck) (bool, error) { // Retrieve the existing entry. _, existing, err := s.getNodeCheckTxn(tx, hc.Node, hc.CheckID) if err != nil { return false, fmt.Errorf("failed health check lookup: %s", err) } // Check if the we should do the set. A ModifyIndex of 0 means that // we are doing a set-if-not-exists. if hc.ModifyIndex == 0 && existing != nil { return false, nil } if hc.ModifyIndex != 0 && existing == nil { return false, nil } if existing != nil && hc.ModifyIndex != 0 && hc.ModifyIndex != existing.ModifyIndex { return false, nil } // Perform the update. if err := s.ensureCheckTxn(tx, idx, hc); err != nil { return false, err } return true, nil } // ensureCheckTransaction is used as the inner method to handle inserting // a health check into the state store. It ensures safety against inserting // checks with no matching node or service. func (s *Store) ensureCheckTxn(tx *memdb.Txn, idx uint64, hc *structs.HealthCheck) error { // Check if we have an existing health check existing, err := tx.First("checks", "id", hc.Node, string(hc.CheckID)) if err != nil { return fmt.Errorf("failed health check lookup: %s", err) } // Set the indexes if existing != nil { existingCheck := existing.(*structs.HealthCheck) hc.CreateIndex = existingCheck.CreateIndex hc.ModifyIndex = existingCheck.ModifyIndex } else { hc.CreateIndex = idx hc.ModifyIndex = idx } // Use the default check status if none was provided if hc.Status == "" { hc.Status = api.HealthCritical } // Get the node node, err := tx.First("nodes", "id", hc.Node) if err != nil { return fmt.Errorf("failed node lookup: %s", err) } if node == nil { return ErrMissingNode } modified := true // If the check is associated with a service, check that we have // a registration for the service. if hc.ServiceID != "" { service, err := tx.First("services", "id", hc.Node, hc.ServiceID) if err != nil { return fmt.Errorf("failed service lookup: %s", err) } if service == nil { return ErrMissingService } // Copy in the service name and tags svc := service.(*structs.ServiceNode) hc.ServiceName = svc.ServiceName hc.ServiceTags = svc.ServiceTags if existing != nil && existing.(*structs.HealthCheck).IsSame(hc) { modified = false } else { // Check has been modified, we trigger a index service change if err = tx.Insert("index", &IndexEntry{serviceIndexName(svc.ServiceName), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } if err = tx.Insert("index", &IndexEntry{serviceKindIndexName(svc.ServiceKind), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } } else { if existing != nil && existing.(*structs.HealthCheck).IsSame(hc) { modified = false } else { // Since the check has been modified, it impacts all services of node // Update the status for all the services associated with this node err = s.updateAllServiceIndexesOfNode(tx, idx, hc.Node) if err != nil { return err } } } // Delete any sessions for this check if the health is critical. if hc.Status == api.HealthCritical { mappings, err := tx.Get("session_checks", "node_check", hc.Node, string(hc.CheckID)) if err != nil { return fmt.Errorf("failed session checks lookup: %s", err) } var ids []string for mapping := mappings.Next(); mapping != nil; mapping = mappings.Next() { ids = append(ids, mapping.(*sessionCheck).Session) } // Delete the session in a separate loop so we don't trash the // iterator. for _, id := range ids { if err := s.deleteSessionTxn(tx, idx, id); err != nil { return fmt.Errorf("failed deleting session: %s", err) } } } if modified { // We update the modify index, ONLY if something has changed, thus // With constant output, no change is seen when watching a service // With huge number of nodes where anti-entropy updates continuously // the checks, but not the values within the check hc.ModifyIndex = idx } // Persist the check registration in the db. if err := tx.Insert("checks", hc); err != nil { return fmt.Errorf("failed inserting check: %s", err) } if err := tx.Insert("index", &IndexEntry{"checks", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } return nil } // NodeCheck is used to retrieve a specific check associated with the given // node. func (s *Store) NodeCheck(nodeName string, checkID types.CheckID) (uint64, *structs.HealthCheck, error) { tx := s.db.Txn(false) defer tx.Abort() return s.getNodeCheckTxn(tx, nodeName, checkID) } // nodeCheckTxn is used as the inner method to handle reading a health check // from the state store. func (s *Store) getNodeCheckTxn(tx *memdb.Txn, nodeName string, checkID types.CheckID) (uint64, *structs.HealthCheck, error) { // Get the table index. idx := maxIndexTxn(tx, "checks") // Return the check. check, err := tx.First("checks", "id", nodeName, string(checkID)) if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } if check != nil { return idx, check.(*structs.HealthCheck), nil } return idx, nil, nil } // NodeChecks is used to retrieve checks associated with the // given node from the state store. func (s *Store) NodeChecks(ws memdb.WatchSet, nodeName string) (uint64, structs.HealthChecks, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "checks") // Return the checks. iter, err := tx.Get("checks", "node", nodeName) if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } ws.Add(iter.WatchCh()) var results structs.HealthChecks for check := iter.Next(); check != nil; check = iter.Next() { results = append(results, check.(*structs.HealthCheck)) } return idx, results, nil } // ServiceChecks is used to get all checks associated with a // given service ID. The query is performed against a service // _name_ instead of a service ID. func (s *Store) ServiceChecks(ws memdb.WatchSet, serviceName string) (uint64, structs.HealthChecks, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "checks") // Return the checks. iter, err := tx.Get("checks", "service", serviceName) if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } ws.Add(iter.WatchCh()) var results structs.HealthChecks for check := iter.Next(); check != nil; check = iter.Next() { results = append(results, check.(*structs.HealthCheck)) } return idx, results, nil } // ServiceChecksByNodeMeta is used to get all checks associated with a // given service ID, filtered by the given node metadata values. The query // is performed against a service _name_ instead of a service ID. func (s *Store) ServiceChecksByNodeMeta(ws memdb.WatchSet, serviceName string, filters map[string]string) (uint64, structs.HealthChecks, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexForService(tx, serviceName, true, true) // Return the checks. iter, err := tx.Get("checks", "service", serviceName) if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } ws.Add(iter.WatchCh()) return s.parseChecksByNodeMeta(tx, ws, idx, iter, filters) } // ChecksInState is used to query the state store for all checks // which are in the provided state. func (s *Store) ChecksInState(ws memdb.WatchSet, state string) (uint64, structs.HealthChecks, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "checks") // Query all checks if HealthAny is passed, otherwise use the index. var iter memdb.ResultIterator var err error if state == api.HealthAny { iter, err = tx.Get("checks", "status") } else { iter, err = tx.Get("checks", "status", state) } if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } ws.Add(iter.WatchCh()) var results structs.HealthChecks for check := iter.Next(); check != nil; check = iter.Next() { results = append(results, check.(*structs.HealthCheck)) } return idx, results, nil } // ChecksInStateByNodeMeta is used to query the state store for all checks // which are in the provided state, filtered by the given node metadata values. func (s *Store) ChecksInStateByNodeMeta(ws memdb.WatchSet, state string, filters map[string]string) (uint64, structs.HealthChecks, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes", "checks") // Query all checks if HealthAny is passed, otherwise use the index. var iter memdb.ResultIterator var err error if state == api.HealthAny { iter, err = tx.Get("checks", "status") if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } } else { iter, err = tx.Get("checks", "status", state) if err != nil { return 0, nil, fmt.Errorf("failed check lookup: %s", err) } } ws.Add(iter.WatchCh()) return s.parseChecksByNodeMeta(tx, ws, idx, iter, filters) } // parseChecksByNodeMeta is a helper function used to deduplicate some // repetitive code for returning health checks filtered by node metadata fields. func (s *Store) parseChecksByNodeMeta(tx *memdb.Txn, ws memdb.WatchSet, idx uint64, iter memdb.ResultIterator, filters map[string]string) (uint64, structs.HealthChecks, error) { // We don't want to track an unlimited number of nodes, so we pull a // top-level watch to use as a fallback. allNodes, err := tx.Get("nodes", "id") if err != nil { return 0, nil, fmt.Errorf("failed nodes lookup: %s", err) } allNodesCh := allNodes.WatchCh() // Only take results for nodes that satisfy the node metadata filters. var results structs.HealthChecks for check := iter.Next(); check != nil; check = iter.Next() { healthCheck := check.(*structs.HealthCheck) watchCh, node, err := tx.FirstWatch("nodes", "id", healthCheck.Node) if err != nil { return 0, nil, fmt.Errorf("failed node lookup: %s", err) } if node == nil { return 0, nil, ErrMissingNode } // Add even the filtered nodes so we wake up if the node metadata // changes. ws.AddWithLimit(watchLimit, watchCh, allNodesCh) if structs.SatisfiesMetaFilters(node.(*structs.Node).Meta, filters) { results = append(results, healthCheck) } } return idx, results, nil } // DeleteCheck is used to delete a health check registration. func (s *Store) DeleteCheck(idx uint64, node string, checkID types.CheckID) error { tx := s.db.Txn(true) defer tx.Abort() // Call the check deletion if err := s.deleteCheckTxn(tx, idx, node, checkID); err != nil { return err } tx.Commit() return nil } // deleteCheckCASTxn is used to try doing a check delete operation with a given // raft index. If the CAS index specified is not equal to the last observed index for // the given check, then the call is a noop, otherwise a normal check delete is invoked. func (s *Store) deleteCheckCASTxn(tx *memdb.Txn, idx, cidx uint64, node string, checkID types.CheckID) (bool, error) { // Try to retrieve the existing health check. _, hc, err := s.getNodeCheckTxn(tx, node, checkID) if err != nil { return false, fmt.Errorf("check lookup failed: %s", err) } if hc == nil { return false, nil } // If the existing index does not match the provided CAS // index arg, then we shouldn't update anything and can safely // return early here. if hc.ModifyIndex != cidx { return false, nil } // Call the actual deletion if the above passed. if err := s.deleteCheckTxn(tx, idx, node, checkID); err != nil { return false, err } return true, nil } // deleteCheckTxn is the inner method used to call a health // check deletion within an existing transaction. func (s *Store) deleteCheckTxn(tx *memdb.Txn, idx uint64, node string, checkID types.CheckID) error { // Try to retrieve the existing health check. hc, err := tx.First("checks", "id", node, string(checkID)) if err != nil { return fmt.Errorf("check lookup failed: %s", err) } if hc == nil { return nil } existing := hc.(*structs.HealthCheck) if existing != nil { // When no service is linked to this service, update all services of node if existing.ServiceID != "" { if err = tx.Insert("index", &IndexEntry{serviceIndexName(existing.ServiceName), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } svcRaw, err := tx.First("services", "id", existing.Node, existing.ServiceID) if err != nil { return fmt.Errorf("failed retrieving service from state store: %v", err) } svc := svcRaw.(*structs.ServiceNode) if err := tx.Insert("index", &IndexEntry{serviceKindIndexName(svc.ServiceKind), idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } else { err = s.updateAllServiceIndexesOfNode(tx, idx, existing.Node) if err != nil { return fmt.Errorf("Failed to update services linked to deleted healthcheck: %s", err) } if err := tx.Insert("index", &IndexEntry{"services", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } } } // Delete the check from the DB and update the index. if err := tx.Delete("checks", hc); err != nil { return fmt.Errorf("failed removing check: %s", err) } if err := tx.Insert("index", &IndexEntry{"checks", idx}); err != nil { return fmt.Errorf("failed updating index: %s", err) } // Delete any sessions for this check. mappings, err := tx.Get("session_checks", "node_check", node, string(checkID)) if err != nil { return fmt.Errorf("failed session checks lookup: %s", err) } var ids []string for mapping := mappings.Next(); mapping != nil; mapping = mappings.Next() { ids = append(ids, mapping.(*sessionCheck).Session) } // Do the delete in a separate loop so we don't trash the iterator. for _, id := range ids { if err := s.deleteSessionTxn(tx, idx, id); err != nil { return fmt.Errorf("failed deleting session: %s", err) } } return nil } // CheckServiceNodes is used to query all nodes and checks for a given service. func (s *Store) CheckServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.CheckServiceNodes, error) { return s.checkServiceNodes(ws, serviceName, false) } // CheckConnectServiceNodes is used to query all nodes and checks for Connect // compatible endpoints for a given service. func (s *Store) CheckConnectServiceNodes(ws memdb.WatchSet, serviceName string) (uint64, structs.CheckServiceNodes, error) { return s.checkServiceNodes(ws, serviceName, true) } func (s *Store) checkServiceNodes(ws memdb.WatchSet, serviceName string, connect bool) (uint64, structs.CheckServiceNodes, error) { tx := s.db.Txn(false) defer tx.Abort() // Function for lookup var f func() (memdb.ResultIterator, error) if !connect { f = func() (memdb.ResultIterator, error) { return tx.Get("services", "service", serviceName) } } else { f = func() (memdb.ResultIterator, error) { return tx.Get("services", "connect", serviceName) } } // Query the state store for the service. iter, err := f() if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } // Note we decide if we want to watch this iterator or not down below. We need // to see if it returned anything first. // Return the results. var results structs.ServiceNodes // For connect queries we need a list of any proxy service names in the result // set. Rather than have different code path for connect and non-connect, we // use the same one in both cases. For non-empty non-connect results, // serviceNames will always have exactly one element which is the same as // serviceName. For Connect there might be multiple different service names - // one for each service name a proxy is registered under, and the target // service name IFF there is at least one Connect-native instance of that // service. Either way there is usually only one distinct name if proxies are // named consistently but could be multiple. serviceNames := make(map[string]struct{}, 2) for service := iter.Next(); service != nil; service = iter.Next() { sn := service.(*structs.ServiceNode) results = append(results, sn) serviceNames[sn.ServiceName] = struct{}{} } // watchOptimized tracks if we meet the necessary condition to optimize // WatchSet size. That is that every service name represented in the result // set must have a service-specific index we can watch instead of many radix // nodes for all the actual nodes touched. This saves us watching potentially // thousands of watch chans for large services which may need many goroutines. // It also avoids the performance cliff that is hit when watchLimit is hit // (~682 service instances). See // https://github.com/hashicorp/consul/issues/4984 watchOptimized := false idx := uint64(0) if len(serviceNames) > 0 { // Assume optimization will work since it really should at this point. For // safety we'll sanity check this below for each service name. watchOptimized = true // Fetch indexes for all names services in result set. for svcName := range serviceNames { // We know service values should exist since the serviceNames map is only // populated if there is at least one result above. so serviceExists arg // below is always true. svcIdx, svcCh := maxIndexAndWatchChForService(tx, svcName, true, true) // Take the max index represented if idx < svcIdx { idx = svcIdx } if svcCh != nil { // Watch the service-specific index for changes in liu of all iradix nodes // for checks etc. ws.Add(svcCh) } else { // Nil svcCh shouldn't really happen since all existent services should // have a service-specific index but just in case it does due to a bug, // fall back to the more expensive old way of watching every radix node // we touch. watchOptimized = false } } } else { // If we have no results, we should use the index of the last service // extinction event so we don't go backwards when services de-register. We // use target serviceName here but it actually doesn't matter. No chan will // be returned as we can't use the optimization in this case (and don't need // to as there is only one chan to watch anyway). idx, _ = maxIndexAndWatchChForService(tx, serviceName, false, true) } // Create a nil watchset to pass below, we'll only pass the real one if we // need to. Nil watchers are safe/allowed and saves some allocation too. var fallbackWS memdb.WatchSet if !watchOptimized { // We weren't able to use the optimization of watching only service indexes // for some reason. That means we need to fallback to watching everything we // touch in the DB as normal. We plumb the caller's watchset through (note // it's a map so this is a by-reference assignment.) fallbackWS = ws // We also need to watch the iterator from earlier too. fallbackWS.Add(iter.WatchCh()) } else if connect { // If this is a connect query then there is a subtlety to watch out for. // In addition to watching the proxy service indexes for changes above, we // need to still keep an eye on the connect service index in case a new // proxy with a new name registers - we are only watching proxy service // names we know about above so we'd miss that otherwise. Thankfully this // is only ever one extra chan to watch and will catch any changes to // proxy registrations for this target service. ws.Add(iter.WatchCh()) } return s.parseCheckServiceNodes(tx, fallbackWS, idx, serviceName, results, err) } // CheckServiceTagNodes is used to query all nodes and checks for a given // service, filtering out services that don't contain the given tag. func (s *Store) CheckServiceTagNodes(ws memdb.WatchSet, serviceName string, tags []string) (uint64, structs.CheckServiceNodes, error) { tx := s.db.Txn(false) defer tx.Abort() // Query the state store for the service. iter, err := tx.Get("services", "service", serviceName) if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } ws.Add(iter.WatchCh()) // Return the results, filtering by tag. serviceExists := false var results structs.ServiceNodes for service := iter.Next(); service != nil; service = iter.Next() { svc := service.(*structs.ServiceNode) serviceExists = true if !serviceTagsFilter(svc, tags) { results = append(results, svc) } } // Get the table index. idx := maxIndexForService(tx, serviceName, serviceExists, true) return s.parseCheckServiceNodes(tx, ws, idx, serviceName, results, err) } // parseCheckServiceNodes is used to parse through a given set of services, // and query for an associated node and a set of checks. This is the inner // method used to return a rich set of results from a more simple query. func (s *Store) parseCheckServiceNodes( tx *memdb.Txn, ws memdb.WatchSet, idx uint64, serviceName string, services structs.ServiceNodes, err error) (uint64, structs.CheckServiceNodes, error) { if err != nil { return 0, nil, err } // Special-case the zero return value to nil, since this ends up in // external APIs. if len(services) == 0 { return idx, nil, nil } // We don't want to track an unlimited number of nodes, so we pull a // top-level watch to use as a fallback. allNodes, err := tx.Get("nodes", "id") if err != nil { return 0, nil, fmt.Errorf("failed nodes lookup: %s", err) } allNodesCh := allNodes.WatchCh() // We need a similar fallback for checks. Since services need the // status of node + service-specific checks, we pull in a top-level // watch over all checks. allChecks, err := tx.Get("checks", "id") if err != nil { return 0, nil, fmt.Errorf("failed checks lookup: %s", err) } allChecksCh := allChecks.WatchCh() results := make(structs.CheckServiceNodes, 0, len(services)) for _, sn := range services { // Retrieve the node. watchCh, n, err := tx.FirstWatch("nodes", "id", sn.Node) if err != nil { return 0, nil, fmt.Errorf("failed node lookup: %s", err) } ws.AddWithLimit(watchLimit, watchCh, allNodesCh) if n == nil { return 0, nil, ErrMissingNode } node := n.(*structs.Node) // First add the node-level checks. These always apply to any // service on the node. var checks structs.HealthChecks iter, err := tx.Get("checks", "node_service_check", sn.Node, false) if err != nil { return 0, nil, err } ws.AddWithLimit(watchLimit, iter.WatchCh(), allChecksCh) for check := iter.Next(); check != nil; check = iter.Next() { checks = append(checks, check.(*structs.HealthCheck)) } // Now add the service-specific checks. iter, err = tx.Get("checks", "node_service", sn.Node, sn.ServiceID) if err != nil { return 0, nil, err } ws.AddWithLimit(watchLimit, iter.WatchCh(), allChecksCh) for check := iter.Next(); check != nil; check = iter.Next() { checks = append(checks, check.(*structs.HealthCheck)) } // Append to the results. results = append(results, structs.CheckServiceNode{ Node: node, Service: sn.ToNodeService(), Checks: checks, }) } return idx, results, nil } // NodeInfo is used to generate a dump of a single node. The dump includes // all services and checks which are registered against the node. func (s *Store) NodeInfo(ws memdb.WatchSet, node string) (uint64, structs.NodeDump, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes", "services", "checks") // Query the node by the passed node nodes, err := tx.Get("nodes", "id", node) if err != nil { return 0, nil, fmt.Errorf("failed node lookup: %s", err) } ws.Add(nodes.WatchCh()) return s.parseNodes(tx, ws, idx, nodes) } // NodeDump is used to generate a dump of all nodes. This call is expensive // as it has to query every node, service, and check. The response can also // be quite large since there is currently no filtering applied. func (s *Store) NodeDump(ws memdb.WatchSet) (uint64, structs.NodeDump, error) { tx := s.db.Txn(false) defer tx.Abort() // Get the table index. idx := maxIndexTxn(tx, "nodes", "services", "checks") // Fetch all of the registered nodes nodes, err := tx.Get("nodes", "id") if err != nil { return 0, nil, fmt.Errorf("failed node lookup: %s", err) } ws.Add(nodes.WatchCh()) return s.parseNodes(tx, ws, idx, nodes) } func (s *Store) ServiceDump(ws memdb.WatchSet, kind structs.ServiceKind, useKind bool) (uint64, structs.CheckServiceNodes, error) { tx := s.db.Txn(false) defer tx.Abort() if useKind { return s.serviceDumpKindTxn(tx, ws, kind) } else { return s.serviceDumpAllTxn(tx, ws) } } func (s *Store) serviceDumpAllTxn(tx *memdb.Txn, ws memdb.WatchSet) (uint64, structs.CheckServiceNodes, error) { // Get the table index idx := maxIndexWatchTxn(tx, ws, "nodes", "services", "checks") services, err := tx.Get("services", "id") if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } var results structs.ServiceNodes for service := services.Next(); service != nil; service = services.Next() { sn := service.(*structs.ServiceNode) results = append(results, sn) } return s.parseCheckServiceNodes(tx, nil, idx, "", results, err) } func (s *Store) serviceDumpKindTxn(tx *memdb.Txn, ws memdb.WatchSet, kind structs.ServiceKind) (uint64, structs.CheckServiceNodes, error) { // unlike when we are dumping all services here we only need to watch the kind specific index entry for changing (or nodes, checks) // updating any services, nodes or checks will bump the appropriate service kind index so there is no need to watch any of the individual // entries idx := maxIndexWatchTxn(tx, ws, serviceKindIndexName(kind)) // Query the state store for the service. services, err := tx.Get("services", "kind", string(kind)) if err != nil { return 0, nil, fmt.Errorf("failed service lookup: %s", err) } var results structs.ServiceNodes for service := services.Next(); service != nil; service = services.Next() { sn := service.(*structs.ServiceNode) results = append(results, sn) } return s.parseCheckServiceNodes(tx, nil, idx, "", results, err) } // parseNodes takes an iterator over a set of nodes and returns a struct // containing the nodes along with all of their associated services // and/or health checks. func (s *Store) parseNodes(tx *memdb.Txn, ws memdb.WatchSet, idx uint64, iter memdb.ResultIterator) (uint64, structs.NodeDump, error) { // We don't want to track an unlimited number of services, so we pull a // top-level watch to use as a fallback. allServices, err := tx.Get("services", "id") if err != nil { return 0, nil, fmt.Errorf("failed services lookup: %s", err) } allServicesCh := allServices.WatchCh() // We need a similar fallback for checks. allChecks, err := tx.Get("checks", "id") if err != nil { return 0, nil, fmt.Errorf("failed checks lookup: %s", err) } allChecksCh := allChecks.WatchCh() var results structs.NodeDump for n := iter.Next(); n != nil; n = iter.Next() { node := n.(*structs.Node) // Create the wrapped node dump := &structs.NodeInfo{ ID: node.ID, Node: node.Node, Address: node.Address, TaggedAddresses: node.TaggedAddresses, Meta: node.Meta, } // Query the node services services, err := tx.Get("services", "node", node.Node) if err != nil { return 0, nil, fmt.Errorf("failed services lookup: %s", err) } ws.AddWithLimit(watchLimit, services.WatchCh(), allServicesCh) for service := services.Next(); service != nil; service = services.Next() { ns := service.(*structs.ServiceNode).ToNodeService() dump.Services = append(dump.Services, ns) } // Query the node checks checks, err := tx.Get("checks", "node", node.Node) if err != nil { return 0, nil, fmt.Errorf("failed node lookup: %s", err) } ws.AddWithLimit(watchLimit, checks.WatchCh(), allChecksCh) for check := checks.Next(); check != nil; check = checks.Next() { hc := check.(*structs.HealthCheck) dump.Checks = append(dump.Checks, hc) } // Add the result to the slice results = append(results, dump) } return idx, results, nil }