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313 lines
14 KiB
Markdown
313 lines
14 KiB
Markdown
# Deploying Provider
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### About Provider
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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).
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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](https://github.com/oceanprotocol/provider).
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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.
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## Deploying Provider using Docker Engine and Docker Compose
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In this guide, we will deploy Provider for Sepolia (Eth test network). Therefore, please note that in the following configuration files, "11155111" is the chain ID for Sepolia.
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### Prerequisites
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* A server for hosting Provider. See [this guide](setup-server.md) for how to create a server;
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* Docker Compose and Docker Engine are installed and configured on the server. See [this guide](setup-server.md#install-docker-engine-and-docker-compose) for how to install these products.
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* The RPC URLs and API keys for each of the networks to which the Provider will be connected. See [this guide](../developers/obtaining-api-keys-for-blockchain-access.md) for how to obtain the URL and the API key.
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* The private key which will be used by Provider to encrypt/decrypt URLs.
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### Steps
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The steps to deploy the Provider using Docker Engine and Docker Compose are:
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1. [Create the /etc/docker/compose/provider/docker-compose.yml file](deploying-provider.md#1-create-the-etcdockercomposeproviderdocker-composeyml-file)
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2. [Create the /etc/systemd/system/docker-compose@provider.service file](deploying-provider.md#2-create-the-etcsystemdsystemdocker-composeproviderservice-file)
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3. [Reload the systemd manager configuration](deploying-provider.md#3.-reload-the-systemd-manager-configuration)
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4. [Start the Provider service](deploying-provider.md#4.-start-the-provider-service)
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5. [Check the service's status](deploying-provider.md#5.-check-the-services-status)
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6. [Confirm the Provider is accessible](deploying-provider.md#6.-confirm-the-provider-is-accessible)
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7. [Check Provider service logs](deploying-provider.md#7.-check-provider-service-logs)
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#### 1. Create the /etc/docker/compose/provider/docker-compose.yml file
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From a terminal console, create /etc/docker/compose/provider/docker-compose.yml file, then 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.
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```yaml
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version: '3'
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services:
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provider:
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image: oceanprotocol/provider-py:latest =>(check on https://hub.docker.com/r/oceanprotocol/provider-py for specific tag)
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container_name: provider
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restart: on-failure
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ports:
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- 8030:8030
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networks:
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backend:
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environment:
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ARTIFACTS_PATH: "/ocean-contracts/artifacts"
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NETWORK_URL: '{"80001":"https://sepolia.infura.io/v3/<your INFURA project id>"}'
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PROVIDER_PRIVATE_KEY: '{"80001":"<your private key"}'
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LOG_LEVEL: DEBUG
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OCEAN_PROVIDER_URL: 'http://0.0.0.0:8030'
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OCEAN_PROVIDER_WORKERS: "1"
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IPFS_GATEWAY: "< your IPFS gateway >"
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OCEAN_PROVIDER_TIMEOUT: "9000"
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OPERATOR_SERVICE_URL: "https://stagev4.c2d.oceanprotocol.com" => (use custom value for Operator Service URL)
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AQUARIUS_URL: "http//localhost:5000" => (use custom value Aquarius URL)
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REQUEST_TIMEOUT: "10"
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networks:
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backend:
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driver: bridge
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```
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#### 2. Create the _/etc/systemd/system/docker-compose@provider.service_ file
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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.
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```
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[Unit]
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Description=%i service with docker compose
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Requires=docker.service
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After=docker.service
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[Service]
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Type=oneshot
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RemainAfterExit=true
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Environment="PROJECT=ocean"
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WorkingDirectory=/etc/docker/compose/%i
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ExecStartPre=/usr/bin/env docker-compose -p $PROJECT pull
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ExecStart=/usr/bin/env docker-compose -p $PROJECT up -d
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ExecStop=/usr/bin/env docker-compose -p $PROJECT stop
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[Install]
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WantedBy=multi-user.target
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```
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#### 3. Reload the systemd manager configuration
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Run the following command to reload the systemd manager configuration
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```bash
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sudo systemctl daemon-reload
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```
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Optionally, you can enable the services to start at boot, using the following command:
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```bash
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sudo systemctl enable docker-compose@provider.service
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```
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#### 4. Start the Provider service
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To start the Provider service, run the following command:
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```bash
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sudo systemctl start docker-compose@provider.service
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```
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#### 5. Check the service's status
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Check the status of the service by running the following command. The output of the command should be similar to the one presented here.
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```bash
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$ sudo systemctl status docker-compose@provider.service
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● docker-compose@provider.service - provider service with docker compose
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Loaded: loaded (/etc/systemd/system/docker-compose@provider.service; disabled; vendor preset: enabled)
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Active: active (exited) since Wed 2023-06-14 09:41:53 UTC; 20s ago
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Process: 4118 ExecStartPre=/usr/bin/env docker-compose -p $PROJECT pull (code=exited, status=0/SUCCESS)
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Process: 4126 ExecStart=/usr/bin/env docker-compose -p $PROJECT up -d (code=exited, status=0/SUCCESS)
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Main PID: 4126 (code=exited, status=0/SUCCESS)
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CPU: 93ms
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Jun 14 09:41:52 testvm systemd[1]: Starting provider service with docker compose...
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Jun 14 09:41:52 testvm env[4118]: provider Pulling
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Jun 14 09:41:53 testvm env[4118]: provider Pulled
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Jun 14 09:41:53 testvm env[4126]: Container provider Created
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Jun 14 09:41:53 testvm env[4126]: Container provider Starting
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Jun 14 09:41:53 testvm env[4126]: Container provider Started
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Jun 14 09:41:53 testvm systemd[1]: Finished provider service with docker compose.
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```
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#### 6. Confirm the Provider is accessible
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Once started, the Provider service is accessible on `localhost` port 8030/tcp. Run the following command to access the Provider. The output should be similar to the one displayed here.
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```bash
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$ curl localhost:8030
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{"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"}
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```
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#### 7. Check Provider service logs
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If needed, use docker CLI to check provider service logs.
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First, identify the container id:
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```bash
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$ docker ps
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CONTAINER ID IMAGE COMMAND CREATED STATUS PORTS NAMES
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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
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```
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Then, check the logs from the Provider's docker container:
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```bash
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$ docker logs --follow provider
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[2023-06-14 09:31:02 +0000] [8] [INFO] Starting gunicorn 20.0.4
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[2023-06-14 09:31:02 +0000] [8] [INFO] Listening at: http://0.0.0.0:8030 (8)
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[2023-06-14 09:31:02 +0000] [8] [INFO] Using worker: sync
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[2023-06-14 09:31:02 +0000] [10] [INFO] Booting worker with pid: 10
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2023-06-14 09:31:02 594415b13f8c rlp.codec[10] DEBUG Consider installing rusty-rlp to improve pyrlp performance with a rust based backend
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2023-06-14 09:31:12 594415b13f8c ocean_provider.run[10] INFO incoming request = http, GET, 172.18.0.1, /?
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2023-06-14 09:31:12 594415b13f8c ocean_provider.run[10] INFO root endpoint called
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2023-06-14 09:31:12 594415b13f8c ocean_provider.run[10] INFO root endpoint response = <Response 1031 bytes [200 OK]>
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[2023-06-14 09:41:53 +0000] [8] [INFO] Starting gunicorn 20.0.4
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[2023-06-14 09:41:53 +0000] [8] [INFO] Listening at: http://0.0.0.0:8030 (8)
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[2023-06-14 09:41:53 +0000] [8] [INFO] Using worker: sync
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[2023-06-14 09:41:53 +0000] [10] [INFO] Booting worker with pid: 10
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2023-06-14 09:41:54 594415b13f8c rlp.codec[10] DEBUG Consider installing rusty-rlp to improve pyrlp performance with a rust based backend
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2023-06-14 09:42:40 594415b13f8c ocean_provider.run[10] INFO incoming request = http, GET, 172.18.0.1, /?
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2023-06-14 09:42:40 594415b13f8c ocean_provider.run[10] INFO root endpoint called
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2023-06-14 09:42:40 594415b13f8c ocean_provider.run[10] INFO root endpoint response = <Response 1031 bytes [200 OK]>
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```
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## Deploying Provider using Kubernetes with Docker Engine
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In this example, we will run Provider as a Kubernetes deployment resource. We will deploy Provider for Sepolia (Eth test network). Therefore, please note that in the following configuration files, "11155111" is the chain ID for Sepolia.
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### Prerequisites
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* A server for hosting Ocean Marketplace. See [this guide](setup-server.md) for how to create a server;
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* Kubernetes with Docker Engine is installed and configured on the server. See [this chapter](setup-server.md#install-kubernetes-with-docker-engine) for information on installing Kubernetes.
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* The RPC URLs and API keys for each of the networks to which the Provider will be connected. See [this guide](../developers/obtaining-api-keys-for-blockchain-access.md) for how to obtain the URL and the API key.
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* The private key that will be used by Provider to encrypt/decrypt URLs.
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* Aquarius is up and running
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### Steps
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The steps to deploy the Provider in Kubernetes are:
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[1. Create a YAML file for Provider configuration.](deploying-provider.md#1-create-a-yaml-file-for-provider-configuration)
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[2. Deploy the configuration.](deploying-provider.md#2.-deploy-the-configuration)
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[3. Create a Kubernetes service.](deploying-provider.md#3.-create-a-kubernetes-service)
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#### 1. Create a YAML file for Provider configuration.
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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.).
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```yaml
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apiVersion: apps/v1
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kind: Deployment
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metadata:
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labels:
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app: provider
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name: provider
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spec:
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progressDeadlineSeconds: 2147483647
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replicas: 1
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revisionHistoryLimit: 2147483647
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selector:
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matchLabels:
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app: provider
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strategy:
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rollingUpdate:
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maxSurge: 25%
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maxUnavailable: 25%
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type: RollingUpdate
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template:
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metadata:
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labels:
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app: provider
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spec:
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containers:
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- env:
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- name: ARTIFACTS_PATH
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value: /ocean-provider/artifacts
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- name: NETWORK_URL
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value: |
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{"80001":"https://sepolia.infura.io/v3/<your INFURA project id>"}
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- name: PROVIDER_PRIVATE_KEY
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value: |
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{"5":"<your private key>","80001":"<your private key>"}
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- name: LOG_LEVEL
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value: DEBUG
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- name: OCEAN_PROVIDER_URL
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value: http://0.0.0.0:8030
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- name: OCEAN_PROVIDER_WORKERS
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value: "4"
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- name: IPFS_GATEWAY
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value: < your IPFS gateway >
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- name: OCEAN_PROVIDER_TIMEOUT
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value: "9000"
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- name: OPERATOR_SERVICE_URL
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value: < Operator service URL>
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- name: AQUARIUS_URL
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value: < Aquarius URL >
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- name: UNIVERSAL_PRIVATE_KEY
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value: <your universal private key>
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- name: REQUEST_TIMEOUT
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value: "10"
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image: oceanprotocol/provider-py:latest => (check on https://hub.docker.com/r/oceanprotocol/provider-py for specific tag)
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imagePullPolicy: Always
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name: provider
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ports:
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- containerPort: 8030
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protocol: TCP
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resources:
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limits:
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cpu: 500m
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memory: 700Mi
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requests:
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cpu: 500m
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memory: 700Mi
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terminationMessagePath: /dev/termination-log
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terminationMessagePolicy: File
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dnsPolicy: ClusterFirst
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restartPolicy: Always
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schedulerName: default-scheduler
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terminationGracePeriodSeconds: 30
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```
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Tip: before deployment, you can [validate](https://github.com/instrumenta/kubeval) the yaml file.
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#### 2. Deploy the configuration
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Deploy the configuration in Kubernetes using the following commands.
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```bash
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kubectl config set-context --current --namespace ocean
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kubectl apply -f provider-deploy.yaml
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deployment.apps/provider created
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kubectl get pod -l app=provider
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NAME READY STATUS RESTARTS AGE
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provider-865cb8cf9d-r9xm4 1/1 Running 0 67s
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```
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#### 3. Create a Kubernetes service
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The next step is to create a Kubernetes service (eg. ClusterIP, NodePort, Loadbalancer, ExternalName) for this deployment, depending on the environment specifications. Follow [this link](https://kubernetes.io/docs/concepts/services-networking/service/) for details on how to create a Kubernetes service.
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