package structs import ( "crypto/md5" "encoding/binary" "fmt" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/helper/ipaddr" ) const ( // ServiceRegistrationUpsertRPCMethod is the RPC method for upserting // service registrations into Nomad state. // // Args: ServiceRegistrationUpsertRequest // Reply: ServiceRegistrationUpsertResponse ServiceRegistrationUpsertRPCMethod = "ServiceRegistration.Upsert" // ServiceRegistrationDeleteByIDRPCMethod is the RPC method for deleting // a service registration by its ID. // // Args: ServiceRegistrationDeleteByIDRequest // Reply: ServiceRegistrationDeleteByIDResponse ServiceRegistrationDeleteByIDRPCMethod = "ServiceRegistration.DeleteByID" // ServiceRegistrationListRPCMethod is the RPC method for listing service // registrations within Nomad. // // Args: ServiceRegistrationListRequest // Reply: ServiceRegistrationListResponse ServiceRegistrationListRPCMethod = "ServiceRegistration.List" // ServiceRegistrationGetServiceRPCMethod is the RPC method for detailing a // service and its registrations according to its name. // // Args: ServiceRegistrationByNameRequest // Reply: ServiceRegistrationByNameResponse ServiceRegistrationGetServiceRPCMethod = "ServiceRegistration.GetService" ) // ServiceRegistration is the internal representation of a Nomad service // registration. type ServiceRegistration struct { // ID is the unique identifier for this registration. It currently follows // the Consul service registration format to provide consistency between // the two solutions. ID string // ServiceName is the human friendly identifier for this service // registration. This is not unique. ServiceName string // Namespace is Job.Namespace and therefore the namespace in which this // service registration resides. Namespace string // NodeID is Node.ID on which this service registration is currently // running. NodeID string // Datacenter is the DC identifier of the node as identified by // Node.Datacenter. It is denormalized here to allow filtering services by // datacenter without looking up every node. Datacenter string // JobID is Job.ID and represents the job which contained the service block // which resulted in this service registration. JobID string // AllocID is Allocation.ID and represents the allocation within which this // service is running. AllocID string // Tags are determined from either Service.Tags or Service.CanaryTags and // help identify this service. Tags can also be used to perform lookups of // services depending on their state and role. Tags []string // Address is the IP address of this service registration. This information // comes from the client and is not guaranteed to be routable; this depends // on cluster network topology. Address string // Port is the port number on which this service registration is bound. It // is determined by a combination of factors on the client. Port int CreateIndex uint64 ModifyIndex uint64 } // Copy creates a deep copy of the service registration. This copy can then be // safely modified. It handles nil objects. func (s *ServiceRegistration) Copy() *ServiceRegistration { if s == nil { return nil } ns := new(ServiceRegistration) *ns = *s ns.Tags = helper.CopySliceString(ns.Tags) return ns } // Equals performs an equality check on the two service registrations. It // handles nil objects. func (s *ServiceRegistration) Equals(o *ServiceRegistration) bool { if s == nil || o == nil { return s == o } if s.ID != o.ID { return false } if s.ServiceName != o.ServiceName { return false } if s.NodeID != o.NodeID { return false } if s.Datacenter != o.Datacenter { return false } if s.JobID != o.JobID { return false } if s.AllocID != o.AllocID { return false } if s.Namespace != o.Namespace { return false } if s.Address != o.Address { return false } if s.Port != o.Port { return false } if !helper.CompareSliceSetString(s.Tags, o.Tags) { return false } return true } // Validate ensures the upserted service registration contains valid // information and routing capabilities. Objects should never fail here as // Nomad controls the entire registration process; but it's possible // configuration problems could cause failures. func (s *ServiceRegistration) Validate() error { if ipaddr.IsAny(s.Address) { return fmt.Errorf("invalid service registration address") } return nil } // GetID is a helper for getting the ID when the object may be nil and is // required for pagination. func (s *ServiceRegistration) GetID() string { if s == nil { return "" } return s.ID } // GetNamespace is a helper for getting the namespace when the object may be // nil and is required for pagination. func (s *ServiceRegistration) GetNamespace() string { if s == nil { return "" } return s.Namespace } // HashWith generates a unique value representative of s based on the contents of s. func (s *ServiceRegistration) HashWith(key string) string { buf := make([]byte, 8) binary.BigEndian.PutUint64(buf, uint64(s.Port)) sum := md5.New() sum.Write(buf) sum.Write([]byte(s.AllocID)) sum.Write([]byte(s.ID)) sum.Write([]byte(s.Namespace)) sum.Write([]byte(s.Address)) sum.Write([]byte(s.ServiceName)) for _, tag := range s.Tags { sum.Write([]byte(tag)) } sum.Write([]byte(key)) return fmt.Sprintf("%x", sum.Sum(nil)) } // ServiceRegistrationUpsertRequest is the request object used to upsert one or // more service registrations. type ServiceRegistrationUpsertRequest struct { Services []*ServiceRegistration WriteRequest } // ServiceRegistrationUpsertResponse is the response object when one or more // service registrations have been successfully upserted into state. type ServiceRegistrationUpsertResponse struct { WriteMeta } // ServiceRegistrationDeleteByIDRequest is the request object to delete a // service registration as specified by the ID parameter. type ServiceRegistrationDeleteByIDRequest struct { ID string WriteRequest } // ServiceRegistrationDeleteByIDResponse is the response object when performing a // deletion of an individual service registration. type ServiceRegistrationDeleteByIDResponse struct { WriteMeta } // ServiceRegistrationDeleteByNodeIDRequest is the request object to delete all // service registrations assigned to a particular node. type ServiceRegistrationDeleteByNodeIDRequest struct { NodeID string WriteRequest } // ServiceRegistrationDeleteByNodeIDResponse is the response object when // performing a deletion of all service registrations assigned to a particular // node. type ServiceRegistrationDeleteByNodeIDResponse struct { WriteMeta } // ServiceRegistrationListRequest is the request object when performing service // registration listings. type ServiceRegistrationListRequest struct { QueryOptions } // ServiceRegistrationListResponse is the response object when performing a // list of services. This is specifically concise to reduce the serialisation // and network costs endpoint incur, particularly when performing blocking list // queries. type ServiceRegistrationListResponse struct { Services []*ServiceRegistrationListStub QueryMeta } // ServiceRegistrationListStub is the object which contains a list of namespace // service registrations and their tags. type ServiceRegistrationListStub struct { Namespace string Services []*ServiceRegistrationStub } // ServiceRegistrationStub is the stub object describing an individual // namespaced service. The object is built in a manner which would allow us to // add additional fields in the future, if we wanted. type ServiceRegistrationStub struct { ServiceName string Tags []string } // ServiceRegistrationByNameRequest is the request object to perform a lookup // of services matching a specific name. type ServiceRegistrationByNameRequest struct { ServiceName string Choose string // stable selection of n services QueryOptions } // ServiceRegistrationByNameResponse is the response object when performing a // lookup of services matching a specific name. type ServiceRegistrationByNameResponse struct { Services []*ServiceRegistration QueryMeta }