open-nomad/nomad/structs/service_registration.go

279 lines
8.0 KiB
Go

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
}