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151 lines
5.2 KiB
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151 lines
5.2 KiB
Markdown
---
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description: Remote setup for running & testing ocean.py
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---
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# Remote Setup
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This setup does not use barge and uses a remote chain to do the transactions. When the network URL is specified & configured, ocean.py will use components (such as Provider, Aquarius, C2D) according to the expected blockchain.
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Here, we do setup for Sepolia. It's similar for other remote chains.
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Here, we will:
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1. Configure Networks
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2. Create two accounts - `REMOTE_TEST_PRIVATE_KEY1` and `2`
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3. Get test ETH on Sepolia
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4. Get test OCEAN on Sepolia
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5. Set envvars
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6. Set up Alice and Bob wallets in Python
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Let's go!
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### 1. Configure Networks
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#### 1.1 Supported networks
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All [Ocean chain deployments](https://docs.oceanprotocol.com/discover/networks) (Eth mainnet, Polygon, etc) are supported.
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For any supported network, use the RPC URL of your choice when passing it to the ocean config object.
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#### 1.2 RPCs and Infura
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In order to obtain API keys for blockchain access, follow up [this document](http://127.0.0.1:5000/o/mTcjMqA4ylf55anucjH8/s/zQlpIJEeu8x5yl0OLuXn/) for tips & tricks.
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**If you do have an Infura account**
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Use the full RPC URL including the base and API key, e.g. for sepolia: `https://sepolia.infura.io/v3/<API-KEY>`
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### 2. Create EVM Accounts (One-Time)
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An EVM account is singularly defined by its private key. Its address is a function of that key. Let's generate two accounts!
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In a new or existing console, run Python.
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```bash
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python
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```
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In the Python console:
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```python
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from eth_account.account import Account
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account1 = Account.create()
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account2 = Account.create()
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print(f"""
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REMOTE_TEST_PRIVATE_KEY1={account1.key.hex()}, ADDRESS1={account1.address}
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REMOTE_TEST_PRIVATE_KEY2={account2.key.hex()}, ADDRESS2={account2.address}
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""")
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```
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Then, hit Ctrl-C to exit the Python console.
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Now, you have two EVM accounts (address & private key). Save them somewhere safe, like a local file or a password manager.
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These accounts will work on any EVM-based chain: production chains like Eth mainnet and Polygon, and testnets like Sepolia. Here, we'll use them for Sepolia.
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### 3. Get (test) ETH on Sepolia
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We need the a network's native token to pay for transactions on the network. [ETH](https://ethereum.org/en/get-eth/) is the native token for Ethereum mainnet; [MATIC](https://polygon.technology/matic-token/) is the native token for Polygon, and [(test) ETH](https://www.alchemy.com/faucets/ethereum-sepolia) is the native token for Sepolia.
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To get free (test) ETH on Sepolia:
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1. Go to the faucet [https://www.alchemy.com/faucets/ethereum-sepolia](https://www.alchemy.com/faucets/ethereum-sepolia). Login or create an account on Alchemy.
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2. Request funds for ADDRESS1
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3. Request funds for ADDRESS2
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### 4. Get (test) OCEAN on Sepolia
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[OCEAN](https://oceanprotocol.com/token) can be used as a data payment token, and locked into veOCEAN for Data Farming / curation. The READMEs show how to use OCEAN in both cases.
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* (Test) OCEAN is on each testnet. Test OCEAN on Sepolia is at [`0x1B083D8584dd3e6Ff37d04a6e7e82b5F622f3985`](https://sepolia.etherscan.io/address/0x1B083D8584dd3e6Ff37d04a6e7e82b5F622f3985).
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To get free (test) OCEAN on Sepolia:
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1. Go to the faucet [https://faucet.sepolia.oceanprotocol.com/](https://faucet.sepolia.oceanprotocol.com/)
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2. Request funds for ADDRESS1
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3. Request funds for ADDRESS2
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You can confirm receiving funds by going to the following url, and seeing your reported OCEAN balance: `https://sepolia.etherscan.io/address/0x1B083D8584dd3e6Ff37d04a6e7e82b5F622f3985?a=<ADDRESS1 or ADDRESS2>`
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### 5. Set envvars
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As usual, Linux/MacOS needs "`export`" and Windows needs "`set`". In the console:
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**Linux & MacOS users:**
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```bash
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# For accounts: set private keys
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export REMOTE_TEST_PRIVATE_KEY1=<your REMOTE_TEST_PRIVATE_KEY1>
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export REMOTE_TEST_PRIVATE_KEY2=<your REMOTE_TEST_PRIVATE_KEY2>
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```
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**Windows users:**
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```powershell
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# For accounts: set private keys
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set REMOTE_TEST_PRIVATE_KEY1=<your REMOTE_TEST_PRIVATE_KEY1>
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set REMOTE_TEST_PRIVATE_KEY2=<your REMOTE_TEST_PRIVATE_KEY2>
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```
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### 6. Setup in Python
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In your working console, run Python:
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```bash
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python
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```
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In the Python console:
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```python
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# Create Ocean instance
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import os
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from ocean_lib.example_config import get_config_dict
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from ocean_lib.ocean.ocean import Ocean
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config = get_config_dict("https://polygon.llamarpc.com") # or use another RPC URL, or an Infura one
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ocean = Ocean(config)
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# Create OCEAN object. ocean_lib knows where OCEAN is on all remote networks
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OCEAN = ocean.OCEAN_token
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# Create Alice's wallet
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from eth_account import Account
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alice_private_key = os.getenv('REMOTE_TEST_PRIVATE_KEY1')
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alice = Account.from_key(private_key=alice_private_key)
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assert alice.balance() > 0, "Alice needs MATIC"
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assert OCEAN.balanceOf(alice) > 0, "Alice needs OCEAN"
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# Create Bob's wallet. While some flows just use Alice wallet, it's simpler to do all here.
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bob_private_key = os.getenv('REMOTE_TEST_PRIVATE_KEY2')
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bob = Account.from_key(private_key=bob_private_key)
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assert bob.balance() > 0, "Bob needs MATIC"
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assert OCEAN.balanceOf(bob) > 0, "Bob needs OCEAN"
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# Compact wei <> eth conversion
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from ocean_lib.ocean.util import to_wei, from_wei
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```
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If you get a gas-related error like `transaction underpriced`, you'll need to change the `maxFeePerGas` or `maxPriorityFeePerGas`.
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