# Prysm Client Interoperability Guide This README details how to setup Prysm for interop testing for usage with other Ethereum 2.0 clients. ## Installation & Setup 1. Install [Bazel](https://docs.bazel.build/versions/master/install.html) **(Recommended)** 2. `git clone https://github.com/prysmaticlabs/prysm && cd prysm` 3. `bazel build //...` ## Starting from Genesis Prysm supports a few ways to quickly launch a beacon node from basic configurations: - `NumValidators + GenesisTime`: Launches a beacon node by deterministically generating a state from a num-validators flag along with a genesis time **(Recommended)** - `SSZ Genesis`: Launches a beacon node from a .ssz file containing a SSZ-encoded, genesis beacon state ## Generating a Genesis State To setup the necessary files for these quick starts, Prysm provides a tool to generate a `genesis.ssz` from a deterministically generated set of validator private keys following the official interop YAML format [here](https://github.com/ethereum/eth2.0-pm/blob/master/interop/mocked_start). You can use `bazel run //tools/genesis-state-gen` to create a deterministic genesis state for interop. ### Usage - **--genesis-time** uint: Unix timestamp used as the genesis time in the generated genesis state (defaults to now) - **--mainnet-config** bool: Select whether genesis state should be generated with mainnet or minimal (default) params - **--num-validators** int: Number of validators to deterministically include in the generated genesis state - **--output-ssz** string: Output filename of the SSZ marshaling of the generated genesis state The example below creates 64 validator keys, instantiates a genesis state with those 64 validators and with genesis unix timestamp 1567542540, and finally writes a ssz encoded output to ~/Desktop/genesis.ssz. This file can be used to kickstart the beacon chain in the next section. ``` bazel run //tools/genesis-state-gen -- --output-ssz ~/Desktop/genesis.ssz --num-validators 64 --genesis-time 1567542540 ``` ## Launching a Beacon Node + Validator Client ### Launching from Pure CLI Flags Open up two terminal windows, run: ``` bazel run //beacon-chain -- \ --no-genesis-delay \ --bootstrap-node= \ --deposit-contract 0xD775140349E6A5D12524C6ccc3d6A1d4519D4029 \ --clear-db \ --interop-num-validators 64 \ --interop-eth1data-votes ``` This will deterministically generate a beacon genesis state and start the system with 64 validators and the genesis time set to the current unix timestamp. Wait a bit until your beacon chain starts, and in the other window: ``` bazel run //validator -- --interop-num-validators 64 ``` This will launch and kickstart the system with your 64 validators performing their duties accordingly. specify which keys ### Launching from `genesis.ssz` Assuming you generated a `genesis.ssz` file with 64 validators, open up two terminal windows, run: ``` bazel run //beacon-chain -- \ --no-genesis-delay \ --bootstrap-node= \ --deposit-contract 0xD775140349E6A5D12524C6ccc3d6A1d4519D4029 \ --clear-db \ --interop-genesis-state /path/to/genesis.ssz \ --interop-eth1data-votes ``` Wait a bit until your beacon chain starts, and in the other window: ``` bazel run //validator -- --interop-num-validators 64 ``` This will launch and kickstart the system with your 64 validators performing their duties accordingly.