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kratos/contrib/polaris/registry.go

381 lines
10 KiB

package polaris
import (
"context"
"fmt"
"net"
"net/url"
"strconv"
"time"
"github.com/google/uuid"
"github.com/polarismesh/polaris-go"
"github.com/polarismesh/polaris-go/pkg/model"
"github.com/go-kratos/kratos/v2/registry"
)
var (
_ registry.Registrar = (*Registry)(nil)
_ registry.Discovery = (*Registry)(nil)
)
type registryOptions struct {
// required, testNamespace in polaris
Namespace string
// required, service access token
ServiceToken string
// service weight in polaris. Default value is 100, 0 <= weight <= 10000
Weight int
// service priority. Default value is 0. The smaller the value, the lower the priority
Priority int
// To show service is healthy or not. Default value is True .
Healthy bool
// To show service is isolate or not. Default value is False .
Isolate bool
// TTL timeout. if node needs to use heartbeat to report,required. If not set,server will throw ErrorCode-400141
TTL int
// optional, Timeout for single query. Default value is global config
// Total is (1+RetryCount) * Timeout
Timeout time.Duration
// optional, retry count. Default value is global config
RetryCount int
}
// RegistryOption is polaris option.
type RegistryOption func(o *registryOptions)
// Registry is polaris registry.
type Registry struct {
opt registryOptions
provider polaris.ProviderAPI
consumer polaris.ConsumerAPI
}
// WithRegistryServiceToken with ServiceToken option.
func WithRegistryServiceToken(serviceToken string) RegistryOption {
return func(o *registryOptions) { o.ServiceToken = serviceToken }
}
// WithRegistryWeight with Weight option.
func WithRegistryWeight(weight int) RegistryOption {
return func(o *registryOptions) { o.Weight = weight }
}
// WithRegistryHealthy with Healthy option.
func WithRegistryHealthy(healthy bool) RegistryOption {
return func(o *registryOptions) { o.Healthy = healthy }
}
// WithRegistryIsolate with Isolate option.
func WithRegistryIsolate(isolate bool) RegistryOption {
return func(o *registryOptions) { o.Isolate = isolate }
}
// WithRegistryTTL with TTL option.
func WithRegistryTTL(TTL int) RegistryOption {
return func(o *registryOptions) { o.TTL = TTL }
}
// WithRegistryTimeout with Timeout option.
func WithRegistryTimeout(timeout time.Duration) RegistryOption {
return func(o *registryOptions) { o.Timeout = timeout }
}
// WithRegistryRetryCount with RetryCount option.
func WithRegistryRetryCount(retryCount int) RegistryOption {
return func(o *registryOptions) { o.RetryCount = retryCount }
}
// Register the registration.
func (r *Registry) Register(_ context.Context, instance *registry.ServiceInstance) error {
id := uuid.NewString()
for _, endpoint := range instance.Endpoints {
u, err := url.Parse(endpoint)
if err != nil {
return err
}
host, port, err := net.SplitHostPort(u.Host)
if err != nil {
return err
}
portNum, err := strconv.Atoi(port)
if err != nil {
return err
}
// metadata
if instance.Metadata == nil {
instance.Metadata = make(map[string]string)
}
instance.Metadata["merge"] = id
if _, ok := instance.Metadata["weight"]; !ok {
instance.Metadata["weight"] = strconv.Itoa(r.opt.Weight)
}
weight, _ := strconv.Atoi(instance.Metadata["weight"])
_, err = r.provider.RegisterInstance(
&polaris.InstanceRegisterRequest{
InstanceRegisterRequest: model.InstanceRegisterRequest{
Service: instance.Name,
ServiceToken: r.opt.ServiceToken,
Namespace: r.opt.Namespace,
Host: host,
Port: portNum,
Protocol: &u.Scheme,
Weight: &weight,
Priority: &r.opt.Priority,
Version: &instance.Version,
Metadata: instance.Metadata,
Healthy: &r.opt.Healthy,
Isolate: &r.opt.Isolate,
TTL: &r.opt.TTL,
Timeout: &r.opt.Timeout,
RetryCount: &r.opt.RetryCount,
},
},
)
if err != nil {
return err
}
}
return nil
}
// Deregister the registration.
func (r *Registry) Deregister(_ context.Context, serviceInstance *registry.ServiceInstance) error {
for _, endpoint := range serviceInstance.Endpoints {
// get url
u, err := url.Parse(endpoint)
if err != nil {
return err
}
// get host and port
host, port, err := net.SplitHostPort(u.Host)
if err != nil {
return err
}
// port to int
portNum, err := strconv.Atoi(port)
if err != nil {
return err
}
// Deregister
err = r.provider.Deregister(
&polaris.InstanceDeRegisterRequest{
InstanceDeRegisterRequest: model.InstanceDeRegisterRequest{
Service: serviceInstance.Name,
ServiceToken: r.opt.ServiceToken,
Namespace: r.opt.Namespace,
Host: host,
Port: portNum,
Timeout: &r.opt.Timeout,
RetryCount: &r.opt.RetryCount,
},
},
)
if err != nil {
return err
}
}
return nil
}
// GetService return the service instances in memory according to the service name.
func (r *Registry) GetService(_ context.Context, serviceName string) ([]*registry.ServiceInstance, error) {
// get all instances
instancesResponse, err := r.consumer.GetInstances(&polaris.GetInstancesRequest{
GetInstancesRequest: model.GetInstancesRequest{
Service: serviceName,
Namespace: r.opt.Namespace,
Timeout: &r.opt.Timeout,
RetryCount: &r.opt.RetryCount,
SkipRouteFilter: true,
},
})
if err != nil {
return nil, err
}
serviceInstances := instancesToServiceInstances(merge(instancesResponse.GetInstances()))
return serviceInstances, nil
}
func merge(instances []model.Instance) map[string][]model.Instance {
m := make(map[string][]model.Instance)
for _, instance := range instances {
if v, ok := m[instance.GetMetadata()["merge"]]; ok {
m[instance.GetMetadata()["merge"]] = append(v, instance)
} else {
m[instance.GetMetadata()["merge"]] = []model.Instance{instance}
}
}
return m
}
// Watch creates a watcher according to the service name.
func (r *Registry) Watch(ctx context.Context, serviceName string) (registry.Watcher, error) {
return newWatcher(ctx, r.opt.Namespace, serviceName, r.consumer)
}
type Watcher struct {
ServiceName string
Namespace string
Ctx context.Context
Cancel context.CancelFunc
Channel <-chan model.SubScribeEvent
service *model.InstancesResponse
ServiceInstances map[string][]model.Instance
first bool
}
func newWatcher(ctx context.Context, namespace string, serviceName string, consumer polaris.ConsumerAPI) (*Watcher, error) {
watchServiceResponse, err := consumer.WatchService(&polaris.WatchServiceRequest{
WatchServiceRequest: model.WatchServiceRequest{
Key: model.ServiceKey{
Namespace: namespace,
Service: serviceName,
},
},
})
if err != nil {
return nil, err
}
w := &Watcher{
Namespace: namespace,
ServiceName: serviceName,
Channel: watchServiceResponse.EventChannel,
service: watchServiceResponse.GetAllInstancesResp,
ServiceInstances: merge(watchServiceResponse.GetAllInstancesResp.GetInstances()),
}
w.Ctx, w.Cancel = context.WithCancel(ctx)
return w, nil
}
// Next returns services in the following two cases:
// 1.the first time to watch and the service instance list is not empty.
// 2.any service instance changes found.
// if the above two conditions are not met, it will block until context deadline exceeded or canceled
func (w *Watcher) Next() ([]*registry.ServiceInstance, error) {
if !w.first {
w.first = true
if len(w.ServiceInstances) > 0 {
return instancesToServiceInstances(w.ServiceInstances), nil
}
}
select {
case <-w.Ctx.Done():
return nil, w.Ctx.Err()
case event := <-w.Channel:
if event.GetSubScribeEventType() == model.EventInstance {
// this always true, but we need to check it to make sure EventType not change
if instanceEvent, ok := event.(*model.InstanceEvent); ok {
// handle DeleteEvent
if instanceEvent.DeleteEvent != nil {
for _, instance := range instanceEvent.DeleteEvent.Instances {
delete(w.ServiceInstances, instance.GetMetadata()["merge"])
}
}
// handle UpdateEvent
if instanceEvent.UpdateEvent != nil {
for _, update := range instanceEvent.UpdateEvent.UpdateList {
if v, ok := w.ServiceInstances[update.After.GetMetadata()["merge"]]; ok {
var nv []model.Instance
m := map[string]model.Instance{}
for _, ins := range v {
m[ins.GetId()] = ins
}
m[update.After.GetId()] = update.After
for _, ins := range m {
if ins.IsHealthy() {
nv = append(nv, ins)
}
}
w.ServiceInstances[update.After.GetMetadata()["merge"]] = nv
if len(nv) == 0 {
delete(w.ServiceInstances, update.After.GetMetadata()["merge"])
}
} else {
if update.After.IsHealthy() {
w.ServiceInstances[update.After.GetMetadata()["merge"]] = []model.Instance{update.After}
}
}
}
}
// handle AddEvent
if instanceEvent.AddEvent != nil {
for _, instance := range instanceEvent.AddEvent.Instances {
if v, ok := w.ServiceInstances[instance.GetMetadata()["merge"]]; ok {
var nv []model.Instance
m := map[string]model.Instance{}
for _, ins := range v {
m[ins.GetId()] = ins
}
m[instance.GetId()] = instance
for _, ins := range m {
if ins.IsHealthy() {
nv = append(nv, ins)
}
}
if len(nv) != 0 {
w.ServiceInstances[instance.GetMetadata()["merge"]] = nv
}
} else {
if instance.IsHealthy() {
w.ServiceInstances[instance.GetMetadata()["merge"]] = []model.Instance{instance}
}
}
}
}
}
return instancesToServiceInstances(w.ServiceInstances), nil
}
}
return instancesToServiceInstances(w.ServiceInstances), nil
}
// Stop close the watcher.
func (w *Watcher) Stop() error {
w.Cancel()
return nil
}
func instancesToServiceInstances(instances map[string][]model.Instance) []*registry.ServiceInstance {
serviceInstances := make([]*registry.ServiceInstance, 0, len(instances))
for _, inss := range instances {
if len(inss) == 0 {
continue
}
ins := &registry.ServiceInstance{
ID: inss[0].GetId(),
Name: inss[0].GetService(),
Version: inss[0].GetVersion(),
Metadata: inss[0].GetMetadata(),
}
for _, item := range inss {
if item.IsHealthy() {
ins.Endpoints = append(ins.Endpoints, fmt.Sprintf("%s://%s:%d", item.GetProtocol(), item.GetHost(), item.GetPort()))
}
}
if len(ins.Endpoints) != 0 {
serviceInstances = append(serviceInstances, ins)
}
}
return serviceInstances
}