RIF Relay Deployment
Set Up RIF Relay Contracts and Server
Deploy Contracts
Start by deploying on-chain components. All tools needed are in the RIF Relay Contract repository
- Regtest
- Clone the Repository:
git clone https://github.com/rsksmart/rif-relay-contracts
- Navigate to the directory and install dependencies:
cd rif-relay-contracts npm install
- Deploy the contract:
npx hardhat deploy --network regtest
This uses the Regtest configuration from
hardhat.config.ts
.┌───────────────────────────────────────┬──────────────────────────────────────────────┐ │ (index) │ Values │ ├───────────────────────────────────────┼──────────────────────────────────────────────┤ │ Penalizer │ '0x77045E71a7A2c50903d88e564cD72fab11e82051' │ │ RelayHub │ '0xDA7Ce79725418F4F6E13Bf5F520C89Cec5f6A974' │ │ SmartWallet │ '0x83C5541A6c8D2dBAD642f385d8d06Ca9B6C731ee' │ │ SmartWalletFactory │ '0xE0825f57Dd05Ef62FF731c27222A86E104CC4Cad' │ │ DeployVerifier │ '0x73ec81da0C72DD112e06c09A6ec03B5544d26F05' │ │ RelayVerifier │ '0x03F23ae1917722d5A27a2Ea0Bcc98725a2a2a49a' │ │ CustomSmartWallet │ '0x1eD614cd3443EFd9c70F04b6d777aed947A4b0c4' │ │ CustomSmartWalletFactory │ '0x5159345aaB821172e795d56274D0f5FDFdC6aBD9' │ │ CustomSmartWalletDeployVerifier │ '0x7557fcE0BbFAe81a9508FF469D481f2c72a8B5f3' │ │ CustomSmartWalletRelayVerifier │ '0x0e19674ebc2c2B6Df3e7a1417c49b50235c61924' │ │ NativeHolderSmartWallet │ '0x4aC9422c7720eF71Cb219B006aB363Ab54BB4183' │ │ NativeHolderSmartWalletFactory │ '0xBaDb31cAf5B95edd785446B76219b60fB1f07233' │ │ NativeHolderSmartWalletDeployVerifier │ '0xAe59e767768c6c25d64619Ee1c498Fd7D83e3c24' │ │ NativeHolderSmartWalletRelayVerifier │ '0x5897E84216220663F306676458Afc7bf2A6A3C52' │ │ UtilToken │ '0x1Af2844A588759D0DE58abD568ADD96BB8B3B6D8' │ │ VersionRegistry │ '0x8901a2Bbf639bFD21A97004BA4D7aE2BD00B8DA8' │ └───────────────────────────────────────┴──────────────────────────────────────────────┘
The deployment summary shows two sets of Smart Wallets, each paired with its verifiers. This is because the verifier is used for both deployment and transaction validation. For testing purposes, the focus will be on using these Smart Wallet Contracts. - Clone the Repository:
- Testnet
- Ensure your account is funded. You can get funds from the tRBTC Faucet.
- Deploy on Testnet:
npx hardhat deploy --network testnet
Remember to configure Testnet in
hardhat.config.ts
.
- Mainnet
- Ensure your account is funded.
- Deploy on Mainnet:
npx hardhat deploy --network mainnet
Ensure Mainnet is set up in
hardhat.config.ts
.
Revenue Sharing
Revenue Sharing is an optional feature in RIF Relay that can be implemented using collector contracts. You can deploy multiple Collector contracts, but they are not included in the default Relay contract deployment. For detailed information on Collector contracts, refer to the architecture documentation.
Before deploying a Collector contract ensure the following:
- Ensure the chosen token for the Collector contract is the same as the one used for transaction fees.
Note: You cannot retrieve any other tokens other than the one set during Collector deployment.
- Select an appropriate owner for the Collector contract. This owner doesn't have to be the deployer but must have the authority to execute the withdraw function, or else the revenue funds will be locked in the contract.
- Set up partners and their share percentages, ensuring the total adds up to 100%. Incorrectly sent tokens to an inaccessible address without a private key from the beneficiary will be lost. For an example of a structurally valid revenue shares definition see sample configuration.
- Regtest
- To deploy the Collector contract, we'll use the [RIF Relay Contract](https://github.com/rsksmart/.
- Create a configuration file named
deploy-collector.input.json
with the required structure:{ "collectorOwner": "0xCD2a3d9F938E13CD947Ec05AbC7FE734Df8DD826", "partners": [ { "beneficiary": "0x7986b3DF570230288501EEa3D890bd66948C9B79", "share": 20 }, { "beneficiary": "0x0a3aA774752ec2042c46548456c094A76C7F3a79", "share": 35 }, { "beneficiary": "0xCF7CDBbB5F7BA79d3ffe74A0bBA13FC0295F6036", "share": 13 }, { "beneficiary": "0x39B12C05E8503356E3a7DF0B7B33efA4c054C409", "share": 32 } ], "tokenAddresses": ["0x1Af2844A588759D0DE58abD568ADD96BB8B3B6D8"], "remainderAddress": "0xc354D97642FAa06781b76Ffb6786f72cd7746C97" }
Note: The
collectorOwner
,beneficiaries
, andremainderAddress
are the first five accounts provided by the node in Regtest. - Deploy the contract:
The collector is ready and can start receiving fees.
npx hardhat collector:deploy --network regtest
- Testnet
- Using the configuration file you created in the regtest section, run this command to deploy the contract:
npx hardhat collector:deploy --network testnet
- Using the configuration file you created in the regtest section, run this command to deploy the contract:
- Mainnet
- Using the configuration file you created in the regtest section, run this command to deploy the contract:
npx hardhat collector:deploy --network mainnet
- Using the configuration file you created in the regtest section, run this command to deploy the contract:
Allow Tokens
RIF Relay only accepts whitelisted tokens, primarily to ensure only tokens of value to the operator are accepted. To whitelist a token:
Execute the acceptToken(address token)
function on the Relay Verifiers contracts, which include:
SmartWalletDeployVerifier
SmartWalletRelayVerifier
Note: This action must be performed by the contracts' owner, typically the account that conducted the deployment.
- Regtest
- In the RIF Relay Contracts, execute this command:
npx hardhat allow-tokens --network regtest --token-list <TOKEN_ADDRESSES>
<TOKEN_ADDRESSES>
is a comma-separated list of the token addresses to be allowed on the available verifiers. TheallowTokens
uses the first account (referred to as account[0]) as the owner of the contracts. This is important because only the account owner can allow tokens.
- In the RIF Relay Contracts, execute this command:
- Testnet
- In the RIF Relay Contracts, execute the command:
npx hardhat allow-tokens --network testnet --token-list <TOKEN_ADDRESSES>
<TOKEN_ADDRESSES>
is a comma-separated list of the token addresses to be allowed on the available verifiers. TheallowTokens
script will use the Testnet network configured in thehardhat.config.ts
, this network will be required to use the account that deployed the contracts. You can also modify the allowed tokens for specific verifiers only by using the--verifier-list
option as follows:Likenpx hardhat allow-tokens --network testnet --token-list <TOKEN_ADDRESSES> --verifier-list <VERIFIER_ADRESSES>
<TOKEN_ADDRESSES>
,<VERIFIER_ADDRESSES>
is a comma-seperated list of verifier addresses to allow the tokens for.
- In the RIF Relay Contracts, execute the command:
- Mainnet
- In the RIF Relay Contracts, execute the command:
npx hardhat allow-tokens --network mainnet --token-list <TOKEN_ADDRESSES>
<TOKEN_ADDRESSES>
is a comma-separated list of the token addresses to be allowed on the available verifiers. TheallowTokens
script will use the Mainnet network configured inhardhat.config.ts
, this network will be required to use the account that did the deployment of the contracts. You can also modify the allowed tokens for specific verifiers only by using the--verifier-list
option as follows:Likenpx hardhat allow-tokens --network testnet --token-list <TOKEN_ADDRESSES> --verifier-list <VERIFIER_ADRESSES>
<TOKEN_ADDRESSES>
,<VERIFIER_ADDRESSES>
is a comma-seperated list of verifier addresses to allow the tokens for.
- In the RIF Relay Contracts, execute the command:
Note: The network name; regtest, testnet, or mainnet, is an optional parameter that is taken from the hardhat.config.ts file. The network name you specify must be the same as the one used to deploy the contract.
Run the RIF Relay Server
After setting up on-chain components, the next step is to set up off-chain components, using the RIF Relay Server. Configuration of the Relay Server is streamlined using the node-config package. For detailed advantages of this package, visit their wiki.
The TL;DR: In the config
directory, create a file named local.json
.
For visual insights into how the Relay Server functions, refer to the diagrams available here.
- Regtest
- Here's a configuration example for setting up the RSKj node locally with the contracts deployed in Regtest:
{ "app": { "url": "http://127.0.0.1", "port": 8090, "devMode": true, "logLevel": 1, "workdir": "./enveloping/environment/", }, "blockchain": { "rskNodeUrl": "http://127.0.0.1:4444", }, "contracts": { "relayHubAddress": "0xDA7Ce79725418F4F6E13Bf5F520C89Cec5f6A974", "relayVerifierAddress": "0x03F23ae1917722d5A27a2Ea0Bcc98725a2a2a49a", "deployVerifierAddress": "0x73ec81da0C72DD112e06c09A6ec03B5544d26F05" } }
Note: Relay and Deploy verifiers use the contracts from the Smart Wallet section in the summary.
- To start the server, run the following command:
npm run start
By default, the server uses the
default.json5
file in the config directory. Depending on the profile inNODE_ENV
, the values in thedefault.json5
file is overriden. - To enable the server for transaction processing, you must register the off-chain components in the Relay Hub. This step requires the server to be active. To register the components, in a different terminal window, execute the following command:
The register process performs the following actions:
npm run register
- Stakes the Relay Manager
- Adds the Relay Worker
- Registers the Relay Server
ready
message is diplayed on the console. For more details on configuration and registration parameters, refer to the RIF Relay Server documentation.
- Here's a configuration example for setting up the RSKj node locally with the contracts deployed in Regtest:
- Testnet
-
Here's an example configuration file using the off-chain components deployed on the Rootstock Testnet (https://public-node.testnet.rsk.co).
Important: Due to specific modules enabled in the RSKj nodes, the RIF Relay Server cannot connect to the public nodes.
{ "app": { "url": "https://backend.dev.relay.rifcomputing.net", "port": 8090, "devMode": true, "logLevel": 1, "feePercentage": "0", "workdir": "/srv/app/environment" }, "blockchain": { "rskNodeUrl": "http://172.17.0.1:4444" }, "contracts": { "relayHubAddress": "0xAd525463961399793f8716b0D85133ff7503a7C2", "relayVerifierAddress": "0xB86c972Ff212838C4c396199B27a0DBe45560df8", "deployVerifierAddress": "0xc67f193Bb1D64F13FD49E2da6586a2F417e56b16" } }
The contracts used in this setup are the primary contracts available on the Rootstock network. These primary contracts, however, do not include support for the
CustomSmartWallet
.For details of each configuration key used in setting up the RIF Relay Server, refer to the RIF Relay Server Configuration documentation.
-
To start the server, execute the following command:
npm run start
By default, the server uses the
default.json5
file in the config directory. Depending on the profile inNODE_ENV
, the values in thedefault.json5
file is overriden. Therefore you need to setup theNODE_ENV
environment totestnet
.At this point, the server should be running and ready to start processing transactions; however, you still need to register the off-chain components in the Relay Hub. For the registration process, the Relay Manager and Worker must have funds.
-
To get the addresses, this requires the server to be active. In a different terminal window, execute the following command:
curl http://<SERVER_URL>/chain-info
{ "relayWorkerAddress": "0xabf898bd73b746298462915ca91623f5630f2462", "relayManagerAddress": "0xa71d65cbe28689e9358407f87e0b4481161c7e57", "relayHubAddress": "0xe90592939fE8bb6017A8a533264a5894B41aF7d5", "feesReceiver": "0x52D107bB12d83EbCBFb4A6Ad0ec866Bb69FdB5Db", "minGasPrice": "6000000000", "chainId": "31", "networkId": "31", "ready": false, "version": "2.0.1" }
-
Send an arbitrary amount of tRBTC, 0.001 tRBTC for example, to the Worker and Manager.
-
Now execute the register command.
npm run register
Here's an example of the
register.json5
{ "register": { "stake": "REGISTER_STAKE", "funds": "REGISTER_FUNDS", "mnemonic": "REGISTER_MNEMONIC", "privateKey": "REGISTER_PRIVATE_KEY", "hub": "REGISTER_HUB_ADDRESS", "gasPrice": "REGISTER_GAS_PRICE", "relayUrl": "REGISTER_RELAY_URL", "unstakeDelay": "REGISTER_UNSTAKE_DELAY" } }
The register process performs the following actions:
- Stakes the Relay Manager
- Adds the Relay Worker
- Registers the Relay Server
The server is now ready to start processing transactions and a ready message is diplayed on the console. For more details on configuration and registration parameters, refer to the RIF Relay Server documentation.
-
- Mainnet
- To run RIF Relay Server on the Rootstock Mainnet, the procedure is the same as the one on Testnet, the only difference is the configuration. Configure it to use contracts deployed on Mainnet and an RSKj node connected to Mainnet.