package consul import ( "fmt" "github.com/armon/go-metrics" "github.com/hashicorp/consul/agent/consul/state" "github.com/hashicorp/consul/agent/structs" "github.com/hashicorp/go-memdb" ) // Health endpoint is used to query the health information type Health struct { srv *Server } // ChecksInState is used to get all the checks in a given state func (h *Health) ChecksInState(args *structs.ChecksInStateRequest, reply *structs.IndexedHealthChecks) error { if done, err := h.srv.forward("Health.ChecksInState", args, args, reply); done { return err } return h.srv.blockingQuery( &args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { var index uint64 var checks structs.HealthChecks var err error if len(args.NodeMetaFilters) > 0 { index, checks, err = state.ChecksInStateByNodeMeta(ws, args.State, args.NodeMetaFilters) } else { index, checks, err = state.ChecksInState(ws, args.State) } if err != nil { return err } reply.Index, reply.HealthChecks = index, checks if err := h.srv.filterACL(args.Token, reply); err != nil { return err } return h.srv.sortNodesByDistanceFrom(args.Source, reply.HealthChecks) }) } // NodeChecks is used to get all the checks for a node func (h *Health) NodeChecks(args *structs.NodeSpecificRequest, reply *structs.IndexedHealthChecks) error { if done, err := h.srv.forward("Health.NodeChecks", args, args, reply); done { return err } return h.srv.blockingQuery( &args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, checks, err := state.NodeChecks(ws, args.Node) if err != nil { return err } reply.Index, reply.HealthChecks = index, checks return h.srv.filterACL(args.Token, reply) }) } // ServiceChecks is used to get all the checks for a service func (h *Health) ServiceChecks(args *structs.ServiceSpecificRequest, reply *structs.IndexedHealthChecks) error { // Reject if tag filtering is on if args.TagFilter { return fmt.Errorf("Tag filtering is not supported") } // Potentially forward if done, err := h.srv.forward("Health.ServiceChecks", args, args, reply); done { return err } return h.srv.blockingQuery( &args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { var index uint64 var checks structs.HealthChecks var err error if len(args.NodeMetaFilters) > 0 { index, checks, err = state.ServiceChecksByNodeMeta(ws, args.ServiceName, args.NodeMetaFilters) } else { index, checks, err = state.ServiceChecks(ws, args.ServiceName) } if err != nil { return err } reply.Index, reply.HealthChecks = index, checks if err := h.srv.filterACL(args.Token, reply); err != nil { return err } return h.srv.sortNodesByDistanceFrom(args.Source, reply.HealthChecks) }) } // ServiceNodes returns all the nodes registered as part of a service including health info func (h *Health) ServiceNodes(args *structs.ServiceSpecificRequest, reply *structs.IndexedCheckServiceNodes) error { if done, err := h.srv.forward("Health.ServiceNodes", args, args, reply); done { return err } // Verify the arguments if args.ServiceName == "" { return fmt.Errorf("Must provide service name") } // Determine the function we'll call var f func(memdb.WatchSet, *state.Store, *structs.ServiceSpecificRequest) (uint64, structs.CheckServiceNodes, error) switch { case args.Connect: f = h.serviceNodesConnect case args.TagFilter: f = h.serviceNodesTagFilter default: f = h.serviceNodesDefault } // If we're doing a connect query, we need read access to the service // we're trying to find proxies for, so check that. if args.Connect { // Fetch the ACL token, if any. rule, err := h.srv.resolveToken(args.Token) if err != nil { return err } if rule != nil && !rule.ServiceRead(args.ServiceName) { // Just return nil, which will return an empty response (tested) return nil } } err := h.srv.blockingQuery( &args.QueryOptions, &reply.QueryMeta, func(ws memdb.WatchSet, state *state.Store) error { index, nodes, err := f(ws, state, args) if err != nil { return err } reply.Index, reply.Nodes = index, nodes if len(args.NodeMetaFilters) > 0 { reply.Nodes = nodeMetaFilter(args.NodeMetaFilters, reply.Nodes) } if err := h.srv.filterACL(args.Token, reply); err != nil { return err } return h.srv.sortNodesByDistanceFrom(args.Source, reply.Nodes) }) // Provide some metrics if err == nil { // For metrics, we separate Connect-based lookups from non-Connect key := "service" if args.Connect { key = "connect" } metrics.IncrCounterWithLabels([]string{"health", key, "query"}, 1, []metrics.Label{{Name: "service", Value: args.ServiceName}}) if args.ServiceTag != "" { metrics.IncrCounterWithLabels([]string{"health", key, "query-tag"}, 1, []metrics.Label{{Name: "service", Value: args.ServiceName}, {Name: "tag", Value: args.ServiceTag}}) } if len(reply.Nodes) == 0 { metrics.IncrCounterWithLabels([]string{"health", key, "not-found"}, 1, []metrics.Label{{Name: "service", Value: args.ServiceName}}) } } return err } // The serviceNodes* functions below are the various lookup methods that // can be used by the ServiceNodes endpoint. func (h *Health) serviceNodesConnect(ws memdb.WatchSet, s *state.Store, args *structs.ServiceSpecificRequest) (uint64, structs.CheckServiceNodes, error) { return s.CheckConnectServiceNodes(ws, args.ServiceName) } func (h *Health) serviceNodesTagFilter(ws memdb.WatchSet, s *state.Store, args *structs.ServiceSpecificRequest) (uint64, structs.CheckServiceNodes, error) { return s.CheckServiceTagNodes(ws, args.ServiceName, args.ServiceTag) } func (h *Health) serviceNodesDefault(ws memdb.WatchSet, s *state.Store, args *structs.ServiceSpecificRequest) (uint64, structs.CheckServiceNodes, error) { return s.CheckServiceNodes(ws, args.ServiceName) }