# Creating a Private Network using IBFT 2.0 (Proof of Authority) Consensus Protocol A private network provides a configurable network for testing. This private network uses the [IBFT 2.0 (Proof of Authority) consensus protocol](../Consensus-Protocols/IBFT.md). !!!important An Ethereum private network created as described here is isolated but not protected or secure. We recommend running the private network behind a properly configured firewall. ## Prerequisites [Pantheon](../Installation/Install-Binaries.md) [Curl (or similar web service client)](https://curl.haxx.se/download.html) ## Steps To create a private network using IBFT 2.0 with three nodes and one initial validator: 1. [Create Folders](#1-create-folders) 1. [Get Public Key for Node-1](#2-get-public-key-for-node-1) 1. [Get Node Addresses](#3-get-node-addresses) 1. [Create JSON File to RLP Encode](#4-create-json-file-to-rlp-encode) 1. [RLP Encode Extra Data](#5-rlp-encode-extra-data) 1. [Create Genesis File](#6-create-genesis-file) 1. [Delete Database Directory](#7-delete-database-directory) 1. [Start First Node as Bootnode](#8-start-first-node-as-bootnode) 1. [Start Node-2](#9-start-node-2) 1. [Start Node-3](#10-start-node-3) 1. [Confirm Private Network is Working](#11-confirm-private-network-is-working) ### 1. Create Folders Each node requires a data directory for the blockchain data. When the node is started, the [node key](../Configuring-Pantheon/Node-Keys.md) is saved in this directory. Create directories for your private network, each of the three nodes, and a data directory for each node: ```bash IBFT-Network/ ├── Node-1 │   ├── data ├── Node-2 │   ├── data └── Node-3 ├── data ``` ### 2. Get Public Key for Node-1 The public key of Node-1 is needed for the [enode URL](../Configuring-Pantheon/Node-Keys.md#enode-url). The enode URL is used when starting Node-2 and Node-3 to specify Node-1 is the bootnode. In the `Node-1` directory, use the [`public-key export`](../Reference/Pantheon-CLI-Syntax.md#public-key) subcommand to write the [node public key](../Configuring-Pantheon/Node-Keys.md) to the specified file (`publicKey`): ```bash tab="MacOS" pantheon --data-path=data public-key export --to=data/publicKey ``` ```bash tab="Windows" pantheon --data-path=path public-key export --to=data\publicKey ``` Your node 1 directory now contains: ```bash ├── Node-1    ├── data ├── database       ├── key       ├── publicKey ``` The `database` directory contains the blockchain data. ### 3. Get Node Addresses In IBFT 2.0 networks, the address of at least one initial validator must be included in the genesis file in the RLP encoded `extraData` string. For this network, we will use Node-1 as the initial validator. This requires obtaining the address for Node-1. To obtain the address for Node-1, in the `Node-1` directory, use the [`public-key export-address`](../Reference/Pantheon-CLI-Syntax.md#public-key) subcommand to write the node address to the specified file (`nodeAddress`) ```bash tab="MacOS" pantheon --data-path=data public-key export-address --to=data/nodeAddress ``` ```bash tab="Windows" pantheon --data-path=data public-key export-address --to=data\nodeAddress ``` To vote in validators once the network is running, the node address for the proposed validator is required. In the `Node-2` and `Node-3` directories, write the node address for each node to the specified file using the `public-key export-address` command as for `Node-1`. ### 4. Create JSON File to RLP Encode Create a file called `toEncode.json` in the `IBFT-Network` directory that contains the [Node 1 address excluding the 0x prefix](#3-get-node-addresses) from the `nodeAddress` file in the `Node-1/data` directory: ```json tab="toEncode.json" [ "" ] ``` ```json tab="Example" [ "9b9f91039843450927b0043ae71cd803e0db0c30" ] ``` ### 5. RLP Encode Extra Data The `extraData` property in IBFT 2.0 genesis files is an RLP encoding of `[32 Bytes Vanity, List, No Vote, Round=Int(0), 0 Seals]`. In the `IBFT-Network` directory, use the Pantheon subcommand [`rlp encode`](../Reference/Pantheon-CLI-Syntax.md#rlp) to generate the `extraData` RLP string to include in the genesis file. ```bash tab="MacOS" pantheon rlp encode --from=toEncode.json --to=rlpEncodedExtraData ``` ```bash tab="Windows" pantheon rlp encode --from=toEncode.json --to=rlpEncodedExtraData ``` ### 6. Create Genesis File The genesis file defines the genesis block of the blockchain (that is, the start of the blockchain). The [IBFT 2.0 genesis file](../Consensus-Protocols/IBFT.md#genesis-file) includes the address of Node-1 as the initial validator in the RLP encoded `extraData` string. All nodes in a network must use the same genesis file. Copy the following genesis definition to a file called `ibftGenesis.json` and save it in the `IBFT-Network` directory: ```json { "config": { "chainId": 1981, "constantinoplefixblock": 0, "ibft2": { "blockperiodseconds": 2, "epochlength": 30000, "requesttimeoutseconds": 10 } }, "nonce": "0x0", "timestamp": "0x58ee40ba", "extraData": "", "gasLimit": "0x47b760", "difficulty": "0x1", "mixHash": "0x63746963616c2062797a616e74696e65206661756c7420746f6c6572616e6365", "coinbase": "0x0000000000000000000000000000000000000000", "alloc": { "fe3b557e8fb62b89f4916b721be55ceb828dbd73": { "privateKey": "8f2a55949038a9610f50fb23b5883af3b4ecb3c3bb792cbcefbd1542c692be63", "comment": "private key and this comment are ignored. In a real chain, the private key should NOT be stored", "balance": "0xad78ebc5ac6200000" }, "627306090abaB3A6e1400e9345bC60c78a8BEf57": { "privateKey": "c87509a1c067bbde78beb793e6fa76530b6382a4c0241e5e4a9ec0a0f44dc0d3", "comment": "private key and this comment are ignored. In a real chain, the private key should NOT be stored", "balance": "90000000000000000000000" }, "f17f52151EbEF6C7334FAD080c5704D77216b732": { "privateKey": "ae6ae8e5ccbfb04590405997ee2d52d2b330726137b875053c36d94e974d162f", "comment": "private key and this comment are ignored. In a real chain, the private key should NOT be stored", "balance": "90000000000000000000000" } } } ``` In `extraData`, copy the [RLP encoded data](#5-rlp-encode-extra-data) from the `rlpEncodedExtraData` file. !!! example ```json { ... "extraData":0xf83ea00000000000000000000000000000000000000000000000000000000000000000d5949b9f91039843450927b0043ae71cd803e0db0c30808400000000c0", ... } ``` !!! warning Do not use the accounts in `alloc` in the genesis file on mainnet or any public network except for testing. The private keys are displayed which means the accounts are not secure. ### 7. Delete Database Directories Delete the `database` directories created when [getting the public key for Node-1](#2-get-public-key-for-node-1) and [addresses for Node-2 and Node-3](#3-get-node-addresses). The nodes cannot be started with the IBFT 2.0 genesis file while the previously generated data is in the `database` directories. ### 8. Start First Node as Bootnode In the `Node-1` directory, start Node-1: ```bash tab="MacOS" pantheon --data-path=data --genesis-file=../ibftGenesis.json --rpc-http-enabled --rpc-http-api=ETH,NET,IBFT --host-whitelist=* --rpc-http-cors-origins="all" ``` ```bash tab="Windows" pantheon --data-path=data --genesis-file=..\ibftGenesis.json --rpc-http-enabled --rpc-http-api=ETH,NET,IBFT --host-whitelist=* --rpc-http-cors-origins="all" ``` The command line specifies: * Data directory for Node-1 using the [`--data-path`](../Reference/Pantheon-CLI-Syntax.md#data-path) option. * JSON-RPC API is enabled using the [`--rpc-http-enabled`](../Reference/Pantheon-CLI-Syntax.md#rpc-http-enabled) option * ETH,NET, and IBFT APIs are enabled using the [`--rpc-http-api`](../Reference/Pantheon-CLI-Syntax.md#rpc-http-api) option * All hosts can access the HTTP JSON-RPC API using the [`--host-whitelist`](../Reference/Pantheon-CLI-Syntax.md#host-whitelist) option * All domains can access the node using the HTTP JSON-RPC API using the [`--rpc-http-cors-origins`](../Reference/Pantheon-CLI-Syntax.md#rpc-http-cors-origins) option ### 9. Start Node-2 You need the [enode URL](../Configuring-Pantheon/Node-Keys.md#enode-url) for Node-1 to specify Node-1 as a bootnode. Start another terminal, change to the `Node-2` directory and start Node-2 replacing the enode URL with your bootonde: ```bash tab="MacOS" pantheon --data-path=data --genesis-file=../ibftGenesis.json --bootnodes="enode://@127.0.0.1:30303" --p2p-port=30304 --rpc-http-enabled --rpc-http-api=ETH,NET,IBFT --host-whitelist=* --rpc-http-cors-origins="all" --rpc-http-port=8546 ``` ```bash tab="Windows" pantheon --data-path=data --genesis-file=..\ibftGenesis.json --bootnodes="enode://@127.0.0.1:30303" --p2p-port=30304 --rpc-http-enabled --rpc-http-api=ETH,NET,IBFT --host-whitelist=* --rpc-http-cors-origins="all" --rpc-http-port=8546 ``` The command line specifies: * Data directory for Node-2 using the [`--data-path`](../Reference/Pantheon-CLI-Syntax.md#data-path) option. * Different port to Node-1 for P2P peer discovery using the [`--p2p-port`](../Reference/Pantheon-CLI-Syntax.md#p2p-port) option. * Different port to Node-1 for HTTP JSON-RPC using the [`--rpc-http-port`](../Reference/Pantheon-CLI-Syntax.md#rpc-http-port) option. * Enode URL for Node-1 using the [`--bootnodes`](../Reference/Pantheon-CLI-Syntax.md#bootnodes) option. * Other options as for [Node-1](#5-start-first-node-as-bootnode). ### 10. Start Node-3 Start another terminal, change to the `Node-3` directory and start Node-3 replacing the enode URL with your bootnode: ```bash tab="MacOS" pantheon --data-path=data --genesis-file=../ibftGenesis.json --bootnodes="enode://@127.0.0.1:30303" --p2p-port=30305 --rpc-http-enabled --rpc-http-api=ETH,NET,IBFT --host-whitelist=* --rpc-http-cors-origins="all" --rpc-http-port=8547 ``` ```bash tab="Windows" pantheon --data-path=data --genesis-file=..\ibftGenesis.json --bootnodes="enode://@127.0.0.1:30303" --p2p-port=30305 --rpc-http-enabled --rpc-http-api=ETH,NET,IBFT --host-whitelist=* --rpc-http-cors-origins="all" --rpc-http-port=8547 ``` The command line specifies: * Data directory for Node-3 using the [`--data-path`](../Reference/Pantheon-CLI-Syntax.md#data-path) option. * Different port to Node-1 and Node-2 for P2P peer discovery using the [`--p2p-port`](../Reference/Pantheon-CLI-Syntax.md#p2p-port) option. * Different port to Node-1 and Node-2 for HTTP JSON-RPC using the [`--rpc-http-port`](../Reference/Pantheon-CLI-Syntax.md#rpc-http-port) option. * Bootnode as for [Node-2](#6-start-node-2). * Other options as for [Node-1](#5-start-first-node-as-bootnode). ### 11. Confirm Private Network is Working Start another terminal, use curl to call the JSON-RPC API [`net_peerCount`](../Reference/JSON-RPC-API-Methods.md#net_peercount) method and confirm the nodes are functioning as peers: ```bash curl -X POST --data '{"jsonrpc":"2.0","method":"net_peerCount","params":[],"id":1}' 127.0.0.1:8545 ``` The result confirms Node-1 has two peers (Node-2 and Node-3): ```json { "jsonrpc" : "2.0", "id" : 1, "result" : "0x2" } ``` ## Next Steps Look at the logs displayed to confirm Node-1 is producing blocks and Node-2 and Node-3 are importing blocks. Use the [IBFT API to add](../Consensus-Protocols/IBFT.md#adding-and-removing-validators) Node-2 or Node-3 as a validator. !!! note To add Node-2 or Node-3 as a validator you need the [node address as when specifying Node-1](#2-get-address-for-node-1) as the initial validator. Import accounts to MetaMask and send transactions as described in the [Private Network Quickstart Tutorial](Private-Network-Quickstart.md#creating-a-transaction-using-metamask) !!! info Pantheon does not implement [private key management](../Using-Pantheon/Account-Management.md). ## Stop Nodes When finished using the private network, stop all nodes using ++ctrl+c++ in each terminal window. !!!tip To restart the IBFT 2.0 network in the future, start from [8. Start First Node as Bootnode](#8-start-first-node-as-bootnode).