In this chapter, we will quickly create a set of Dubbo-go Server and Client applications using the application template and deploy them in an Istio cluster; observe, debug, and verify service discovery and successful calls.
$ mkdir mesh-app-server
$ cd mesh-app-server
$ dubbogo-cli newApp .
$ tree .
.
├── Makefile
├── api
│ └── api.proto
├── build
│ └── Dockerfile
├── chart
│ ├── app
│ │ ├── Chart.yaml
│ │ ├── templates
│ │ │ ├── _helpers.tpl
│ │ │ ├── deployment.yaml
│ │ │ ├── service.yaml
│ │ │ └── serviceaccount.yaml
│ │ └── values.yaml
│ └── nacos_env
│ ├── Chart.yaml
│ ├── templates
│ │ ├── _helpers.tpl
│ │ ├── deployment.yaml
│ │ └── service.yaml
│ └── values.yaml
├── cmd
│ └── app.go
├── conf
│ └── dubbogo.yaml
├── go.mod
├── go.sum
└── pkg
└── service
└── service.go
The generated project includes several directories:
api: stores interface files: proto files and generated pb.go files
build: stores build-related files
chart: stores chart repository for release and base environment chart repository: nacos, mesh (in development)
cmd: program entry point
conf: framework configuration
pkg/service: RPC service implementation
Makefile:
IMAGE = $(your_repo)/$(namespace)/$(image_name)
TAG = 1.0.0
HELM_INSTALL_NAME = dubbo-go-app
Compile the interface
Developers need to modify the proto file, in this task, we can use the default interface directly.
$ make proto-gen
protoc --go_out=./api --go-triple_out=./api ./api/api.proto
Pull dependencies
$ go get dubbo.apache.org/dubbo-go/v3@3.0
$ make tidy
go mod tidy
Write business logic
Modify pkg/service/service.go implementation function, return version “v1.0.0” in the string.
func (s *GreeterServerImpl) SayHello(ctx context.Context, in *api.HelloRequest) (*api.User, error) {
return &api.User{Name: "Hello " + in.Name, Id: "v1.0.0"}, nil
}
Modify the configuration as follows to use xds protocol as the registry
conf/dubbogo.yaml
dubbo:
registries:
xds:
protocol: xds
address: istiod.istio-system.svc.cluster.local:15010
protocols:
triple:
name: tri
port: 20000
provider:
services:
GreeterServerImpl:
interface: "" # read from stub
Thus, the application development is complete.
Specify the image to be built:
Modify the Makefile as follows to specify the image address and version to be built.
Specify the name for installation via helm.
IMAGE = xxx/dubbo-go-server
TAG = 1.0.0
HELM_INSTALL_NAME = dubbo-go-server-v1
Specify the application and image to be deployed:
Modify chart/app/Chart.yaml as follows to specify the current application name as dubbo-go-server
, during deployment a service named dubbo-go-server will be created, associating all versions of the current application.
apiVersion: v1
name: dubbo-go-server
description: dubbo-go-server
Modify chart/app/values.yaml as follows to specify the image to be deployed and the current application version dubbogoAppVersion as v1.
The deployed image must match the built image above. The current application version is used for mesh traffic rule control.
image:
repository: xxx/dubbo-go-server
pullPolicy: Always
tag: "1.0.0"
# Dubbo-go-mesh version control labels
version:
labels:
dubbogoAppVersion: v1
Thus, the build and release parameters are ready for building and deploying.
Build and Push the Image
$ make build
(Local is amd64 machine)
or
$ make buildx-publish
(Local is arm64 machine, relies on docker buildx command)
Deploy the Dubbo-go Application to the Cluster
$ make deploy
helm install dubbo-go-server-v1 ./chart/app
NAME: dubbo-go-server-v1
LAST DEPLOYED: Thu Apr 7 11:19:42 2022
NAMESPACE: default
STATUS: deployed
REVISION: 1
TEST SUITE: None
$ helm list
NAME NAMESPACE REVISION UPDATED STATUS CHART APP VERSION
dubbo-go-server-v1 default 1 2022-04-07 11:19:42.350553 +0800 CST deployed dubbo-go-server-0.0.1 1.16.0
The deployment via helm was successful.
Check the deployed deployment with version v1.
$ kubectl get deployment
NAME READY UP-TO-DATE AVAILABLE AGE
dubbo-go-server-v1 1/1 1 1 26s
Check the deployed service.
$ kubectl get svc
NAME TYPE CLUSTER-IP EXTERNAL-IP PORT(S) AGE
dubbo-go-server ClusterIP 192.168.216.253 <none> 20000/TCP 70s
Use kubectl port-forward to forward Dubbo-go application to local
$ kubectl port-forward svc/dubbo-go-server 20000
Forwarding from 127.0.0.1:20000 -> 20000
Forwarding from [::1]:20000 -> 20000
Use grpc_cli to debug applications inside the cluster, refer to the task Debugging Dubbo-go Application using grpc_cli
$ grpc_cli ls localhost:20000 -l
filename: api/api.proto
package: api;
service Greeter {
rpc SayHello(api.HelloRequest) returns (api.User) {}
rpc SayHelloStream(stream api.HelloRequest) returns (stream api.User) {}
}
Use grpc_cli to initiate a call and test the interface
$ grpc_cli call localhost:20000 SayHello "name: 'laurence'"
connecting to localhost:20000
name: "Hello laurence"
id: "v1.0.0"
Received trailing metadata from server:
accept-encoding : identity,gzip
grpc-accept-encoding : identity,deflate,gzip
Rpc succeeded with OK status
Thus, we have successfully developed an application and deployed it in the Istio cluster.
$ dubbogo-cli newApp .
func main() {
client := &api.GreeterClientImpl{}
config.SetConsumerService(client)
if err := config.Load(); err != nil {
panic(err)
}
request := &api.HelloRequest{
Name: "laurence",
}
for{
if rsp, err := client.SayHello(context.Background(), request); err != nil{
logger.Errorf("call server error = %s", err)
}else{
logger.Infof("call server response = %+v", rsp)
}
time.Sleep(time.Second)
}
}
Modify the configuration file to use xds protocol as the registry, loading client service named GreeterClientImpl.
conf/dubbogo.yaml
dubbo:
registries:
xds:
protocol: xds
address: istiod.istio-system.svc.cluster.local:15010
consumer:
references:
GreeterClientImpl:
protocol: tri
interface: "" # read from stub
Thus, the application development is complete.
Specify the image to be built:
Modify the Makefile as follows to specify the image address and version to be built.
Specify the name for installation via helm.
IMAGE = xxx/dubbo-go-client
TAG = 1.0.0
HELM_INSTALL_NAME = dubbo-go-client
Specify the application and image to be deployed:
Modify chart/app/Chart.yaml as follows to specify the current application name as dubbo-go-client
, during deployment a service named dubbo-go-client will be created, associating all versions of the current application. For an application that is only a client, a service can be omitted, it can be modified by developers in the template; we will create it by default in this tutorial.
apiVersion: v1
name: dubbo-go-client
description: dubbo-go-client
Modify chart/app/values.yaml as follows to specify the image to be deployed and the current application version dubbogoAppVersion as v1.
The deployed image must match the built image above. The current application version is used for mesh traffic rule control.
image:
repository: xxx/dubbo-go-client
pullPolicy: Always
tag: "1.0.0"
# Dubbo-go-mesh version control labels
version:
labels:
dubbogoAppVersion: v1
Thus, the build and release parameters are ready for building and deploying.
Build and Push the Image
$ make build
(Local is amd64 machine)
or
$ make buildx-publish
(Local is arm64 machine, relies on docker buildx command)
Deploy the Dubbo-go Client Application to the Cluster
$ make deploy
helm install dubbo-go-client ./chart/app
NAME: dubbo-go-client
LAST DEPLOYED: Thu Apr 7 11:49:55 2022
NAMESPACE: default
STATUS: deployed
REVISION: 1
TEST SUITE: None
$ helm list
NAME NAMESPACE REVISION UPDATED STATUS CHART APP VERSION
dubbo-go-client default 1 2022-04-07 11:49:55.517898 +0800 CST deployed dubbo-go-client-0.0.1 1.16.0
dubbo-go-server-v1 default 1 2022-04-07 11:23:18.397658 +0800 CST deployed dubbo-go-server-0.0.1 1.16.0
It can be seen that the deployment via helm was successful, and both Client and Server applications now exist in the cluster.
Check the deployed client and server deployments.
$ kubectl get deployment
NAME READY UP-TO-DATE AVAILABLE AGE
dubbo-go-client-v1 1/1 1 1 22m
dubbo-go-server-v1 1/1 1 1 49m
Check client call logs
$ kubectl get pods | grep client | awk '{print $1}' | xargs kubectl logs
...
2022-04-07T04:13:55.777Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
2022-04-07T04:13:56.778Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
2022-04-07T04:13:57.779Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
2022-04-07T04:13:58.781Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
2022-04-07T04:13:59.782Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
2022-04-07T04:14:00.784Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
2022-04-07T04:14:01.785Z INFO cmd/app.go:29 call server response = name:"Hello laurence" id:"v1.0.0"
Verify the call was successful.
The application templates provided by dubbogo-cli conveniently support developers in image building, pushing, and deployment.
In the Istio environment, server applications register their service information on Istio, while clients listen to xds resources, querying the Istio debug port for interface-level service discovery. Developers do not need to worry about concepts like service names, hostnames, and cluster names; they only need to import interfaces and initiate calls.