14 KiB
Deploying Provider
About Provider
Provider encrypts the URL and metadata during publishing and decrypts the URL when the dataset is downloaded or a compute job is started. It enables access to the data assets by streaming data (and never the URL). It performs checks on-chain for buyer permissions and payments. It also provides compute services (connects to a C2D environment).
Provider is a multichain component, meaning that it can handle these tasks on multiple chains with the proper configurations. The source code of Provider can be accessed from here.
As mentioned in the Setup a Server document, all Ocean components can be deployed in two types of configurations: simple, based on Docker Engine and Docker Compose, and complex, based on Kubernetes with Docker Engine. In this document, we will present how to deploy Provider in each of these configurations.
Deploying Provider using Docker Engine and Docker Compose
In this guide, we will deploy Provider for two chains: Goerli (Ethereum test network) and Mumbai (Polygon test network). Therefore, please note that in the following configuration files, "5" and "80001" are the chain IDs for Goerli and Mumbai respectively.
Prerequisites
- A server for hosting Ocean Marketplace. See this guide for how to create a server;
- Docker Compose and Docker Engine are installed and configured on the server. See this guide for how to install these products.
- The RPC URLs and API keys for each of the networks to which the Provider will be connected. See this guide for how to obtain the URL and the API key.
- The private key which will be used by Provider to encrypt/decrypt URLs.
Steps
The steps to deploy the Provider using Docker Engine and Docker Compose are:
- Create the /etc/docker/compose/provider/docker-compose.yml file
- Create the /etc/systemd/system/docker-compose@provider.service file
- Reload the systemd manager configuration
- Start the Provider service
- Check the service's status
- Confirm the Provider is accessible
- Check Provider service logs
1. Create the /etc/docker/compose/provider/docker-compose.yml file
From a terminal console, create /etc/docker/compose/provider/docker-compose.yml file, the copy and paste the following content to it. Check the comments in the file and replace the fields with the specific values of your implementation.
version: '3'
services:
provider:
image: oceanprotocol/provider-py:latest =>(check on https://hub.docker.com/r/oceanprotocol/provider-py for specific tag)
container_name: provider
restart: on-failure
ports:
- 8030:8030
networks:
backend:
environment:
ARTIFACTS_PATH: "/ocean-contracts/artifacts"
NETWORK_URL: '{"5":"https://goerli.infura.io/v3/<your INFURA project id>","80001":"https://polygon-mumbai.infura.io/v3/<your INFURA project id>"}'
PROVIDER_PRIVATE_KEY: '{"5":"<your private key>","80001":"<your private key"}'
LOG_LEVEL: DEBUG
OCEAN_PROVIDER_URL: 'http://0.0.0.0:8030'
OCEAN_PROVIDER_WORKERS: "1"
IPFS_GATEWAY: "< your IPFS gateway >"
OCEAN_PROVIDER_TIMEOUT: "9000"
OPERATOR_SERVICE_URL: "https://stagev4.c2d.oceanprotocol.com" => (use custom value for Operator Service URL)
AQUARIUS_URL: "http//localhost:5000" => (use custom value Aquarius URL)
REQUEST_TIMEOUT: "10"
networks:
backend:
driver: bridge
2. Create the /etc/systemd/system/docker-compose@provider.service file
Create the /etc/systemd/system/docker-compose@provider.service file then copy and paste the following content to it. This example file could be customized if needed.
[Unit]
Description=%i service with docker compose
Requires=docker.service
After=docker.service
[Service]
Type=oneshot
RemainAfterExit=true
Environment="PROJECT=ocean"
WorkingDirectory=/etc/docker/compose/%i
ExecStartPre=/usr/bin/env docker-compose -p $PROJECT pull
ExecStart=/usr/bin/env docker-compose -p $PROJECT up -d
ExecStop=/usr/bin/env docker-compose -p $PROJECT stop
[Install]
WantedBy=multi-user.target
3. Reload the systemd manager configuration
Run the following command to reload the systemd manager configuration
sudo systemctl daemon-reload
Optionally, you can enable the services to start at boot, using the following command:
sudo systemctl enable docker-compose@provider.service
4. Start the Provider service
sudo systemctl start docker-compose@provider.service
5. Check the service's status
Check the status of the service by running the following command. The output of the command should be similar to the one presented here.
$ sudo systemctl status docker-compose@provider.service
● docker-compose@provider.service - provider service with docker compose
Loaded: loaded (/etc/systemd/system/docker-compose@provider.service; disabled; vendor preset: enabled)
Active: active (exited) since Wed 2023-06-14 09:41:53 UTC; 20s ago
Process: 4118 ExecStartPre=/usr/bin/env docker-compose -p $PROJECT pull (code=exited, status=0/SUCCESS)
Process: 4126 ExecStart=/usr/bin/env docker-compose -p $PROJECT up -d (code=exited, status=0/SUCCESS)
Main PID: 4126 (code=exited, status=0/SUCCESS)
CPU: 93ms
Jun 14 09:41:52 testvm systemd[1]: Starting provider service with docker compose...
Jun 14 09:41:52 testvm env[4118]: provider Pulling
Jun 14 09:41:53 testvm env[4118]: provider Pulled
Jun 14 09:41:53 testvm env[4126]: Container provider Created
Jun 14 09:41:53 testvm env[4126]: Container provider Starting
Jun 14 09:41:53 testvm env[4126]: Container provider Started
Jun 14 09:41:53 testvm systemd[1]: Finished provider service with docker compose.
6. Confirm the Provider is accessible
Once started, the Provider service is accessible on localhost port 8030/tcp. Run the following command to access the Provider. The output should be similar to the one displayed here.
$ curl localhost:8030
{"chainIds":[5,80001],"providerAddresses":{"5":"0x00c6A0BC5cD0078d6Cd0b659E8061B404cfa5704","80001":"0x4256Df50c94D9a7e04610976cde01aED91eB531E"},"serviceEndpoints":{"computeDelete":["DELETE","/api/services/compute"],"computeEnvironments":["GET","/api/services/computeEnvironments"],"computeResult":["GET","/api/services/computeResult"],"computeStart":["POST","/api/services/compute"],"computeStatus":["GET","/api/services/compute"],"computeStop":["PUT","/api/services/compute"],"create_auth_token":["GET","/api/services/createAuthToken"],"decrypt":["POST","/api/services/decrypt"],"delete_auth_token":["DELETE","/api/services/deleteAuthToken"],"download":["GET","/api/services/download"],"encrypt":["POST","/api/services/encrypt"],"fileinfo":["POST","/api/services/fileinfo"],"initialize":["GET","/api/services/initialize"],"initializeCompute":["POST","/api/services/initializeCompute"],"nonce":["GET","/api/services/nonce"],"validateContainer":["POST","/api/services/validateContainer"]},"software":"Provider","version":"2.0.2"}
7. Check Provider service logs
If needed, use docker CLI to check provider service logs.
First, identify the container id:
$ docker ps
CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
594415b13f8c oceanprotocol/provider-py:v2.0.2 "/ocean-provider/doc…" 12 minutes ago Up About a minute 0.0.0.0:8030->8030/tcp, :::8030->8030/tcp provider
Then, check the logs from the Provider's docker container
$ docker logs --follow provider
[2023-06-14 09:31:02 +0000] [8] [INFO] Starting gunicorn 20.0.4
[2023-06-14 09:31:02 +0000] [8] [INFO] Listening at: http://0.0.0.0:8030 (8)
[2023-06-14 09:31:02 +0000] [8] [INFO] Using worker: sync
[2023-06-14 09:31:02 +0000] [10] [INFO] Booting worker with pid: 10
2023-06-14 09:31:02 594415b13f8c rlp.codec[10] DEBUG Consider installing rusty-rlp to improve pyrlp performance with a rust based backend
2023-06-14 09:31:12 594415b13f8c ocean_provider.run[10] INFO incoming request = http, GET, 172.18.0.1, /?
2023-06-14 09:31:12 594415b13f8c ocean_provider.run[10] INFO root endpoint called
2023-06-14 09:31:12 594415b13f8c ocean_provider.run[10] INFO root endpoint response = <Response 1031 bytes [200 OK]>
[2023-06-14 09:41:53 +0000] [8] [INFO] Starting gunicorn 20.0.4
[2023-06-14 09:41:53 +0000] [8] [INFO] Listening at: http://0.0.0.0:8030 (8)
[2023-06-14 09:41:53 +0000] [8] [INFO] Using worker: sync
[2023-06-14 09:41:53 +0000] [10] [INFO] Booting worker with pid: 10
2023-06-14 09:41:54 594415b13f8c rlp.codec[10] DEBUG Consider installing rusty-rlp to improve pyrlp performance with a rust based backend
2023-06-14 09:42:40 594415b13f8c ocean_provider.run[10] INFO incoming request = http, GET, 172.18.0.1, /?
2023-06-14 09:42:40 594415b13f8c ocean_provider.run[10] INFO root endpoint called
2023-06-14 09:42:40 594415b13f8c ocean_provider.run[10] INFO root endpoint response = <Response 1031 bytes [200 OK]>
Deploying Provider using Kubernetes with Docker Engine
In this example, we will run Provider as a Kubernetes deployment resource. We will deploy Provider for two chains: Goerli (Ethereum test network) and Mumbai (Polygon test network). Therefore, please note that in the following configuration files, "5" and "80001" are the chain IDs for Goerli and Mumbai respectively.
Prerequisites
- A server for hosting Ocean Marketplace. See this guide for how to create a server;
- Kubernetes with Docker Engine is installed and configured on the server. See this chapter for information on installing Kubernetes.
- The RPC URLs and API keys for each of the networks to which the Provider will be connected. See this guide for how to obtain the URL and the API key.
- The private key which will be used by Provider to encrypt/decrypt URLs.
- Aquarius is up and running
Steps
The steps to deploy the Provider in Kubernetes are:
1.
2.
- Create an YAML file for Provider configuration.
From a terminal window, create a YAML file (in our example the file is named provider-deploy.yaml) then copy and paste the following content. Check the comments in the file and replace the fields with the specific values of your implementation (RPC URLs, the private key etc.).
apiVersion: apps/v1
kind: Deployment
metadata:
labels:
app: provider
name: provider
spec:
progressDeadlineSeconds: 2147483647
replicas: 1
revisionHistoryLimit: 2147483647
selector:
matchLabels:
app: provider
strategy:
rollingUpdate:
maxSurge: 25%
maxUnavailable: 25%
type: RollingUpdate
template:
metadata:
labels:
app: provider
spec:
containers:
- env:
- name: ARTIFACTS_PATH
value: /ocean-provider/artifacts
- name: NETWORK_URL
value: |
{"5":"https://goerli.infura.io/v3/<your INFURA project id>","80001":"https://polygon-mumbai.infura.io/v3/<your INFURA project id>"}
- name: PROVIDER_PRIVATE_KEY
value: |
{"5":"<your private key>","80001":"<your private key>"}
- name: LOG_LEVEL
value: DEBUG
- name: OCEAN_PROVIDER_URL
value: http://0.0.0.0:8030
- name: OCEAN_PROVIDER_WORKERS
value: "4"
- name: IPFS_GATEWAY
value: < your IPFS gateway >
- name: OCEAN_PROVIDER_TIMEOUT
value: "9000"
- name: OPERATOR_SERVICE_URL
value: < Operator service URL>
- name: AQUARIUS_URL
value: < Aquarius URL >
- name: UNIVERSAL_PRIVATE_KEY
value: <your universal private key>
- name: REQUEST_TIMEOUT
value: "10"
image: oceanprotocol/provider-py:latest => (check on https://hub.docker.com/r/oceanprotocol/provider-py for specific tag)
imagePullPolicy: Always
name: provider
ports:
- containerPort: 8030
protocol: TCP
resources:
limits:
cpu: 500m
memory: 700Mi
requests:
cpu: 500m
memory: 700Mi
terminationMessagePath: /dev/termination-log
terminationMessagePolicy: File
dnsPolicy: ClusterFirst
restartPolicy: Always
schedulerName: default-scheduler
terminationGracePeriodSeconds: 30
Tip: before deployment you can validate the yaml file.
- Deploy the configuration
Deploy the configuration in Kubernetes using the following commands.
kubectl config set-context --current --namespace ocean
kubectl apply -f provider-deploy.yaml
deployment.apps/provider created
kubectl get pod -l app=provider
NAME READY STATUS RESTARTS AGE
provider-865cb8cf9d-r9xm4 1/1 Running 0 67s
- Create a Kubernetes service
The next step is to create a Kubernetes service (eg. ClusterIP, NodePort, Loadbalancer, ExternalName) for this deployment, depending on environment specifications. Follow this link for details on how to create a Kubernetes service.