To simplify the process of building the whisper messages, a js file status-gas-relayer.js was created in the test-dapp. It only requires to setup connection to geth, and required keypairs and symkeys. This file might be expanded upon in the future and converted to a npm package.
import StatusGasRelayer, {Contracts, Functions, Messages} from 'status-gas-relayer';
// Connecting to web3
const web3 = new Web3('ws://localhost:8546');
const kid = await web3js.shh.newKeyPair()
const skid = await web3.shh.addSymKey("0xd0d905c1c62b810b787141430417caf2b3f54cffadb395b7bb39fdeb8f17266b");
General message subscription. Special handling is needed for handling relayer availability messages. The sig property is the relayer's public key that needs to be sent when sending a transaction message. More than 1 relayer can reply, so it's recommended to save these keys in a list/array.
StatusGasRelayer.subscribe(web3js, (error, msgObj) => {
if(error) {
console.error(error);
return;
}
if(msgObj.message == Messages.available){
// Relayer availability message
console.log("Relayer available: " + msgObj.sig);
} else {
// Normal message
console.log(msgObj);
}
}, {
privateKeyID: kid
});
const identityAddress = this.props.identityAddress; // Identity contract
const accountAddress = web3.eth.defaultAccount;
const gasToken = SNT.options.address;
const gasPrice = 1000000000000; // In wei equivalent to the used token
const s = new StatusGasRelayer.AvailableRelayers(Contracts.Identity, identityAddress, accountAddress)
.setRelayersSymKeyID(skid)
.setAsymmetricKeyID(kid)
.setGasToken(gasToken)
.setGas(gasPrice);
await s.post(web3);
Signing a message is similar to invoking a function. Both use mostly the same functions. The difference is that when you invoke a function, you need to specify the relayer and asymmetric key Id.
try {
const s = new StatusGasRelayer.Identity(identityAddress, accountAddress)
.setContractFunction(Functions.Identity.call)
.setTransaction(to, value, data)
.setGas(gasToken, gasPrice, gasLimit);
const signature = await s.sign(web3);
} catch(error){
console.log(error);
}
This functionality is used when a Identity will invoke a contract function or transfer ether without paying fees
try {
const s = new StatusGasRelayer.Identity(identityAddress, accountAddress)
.setContractFunction(Functions.Identity.call)
.setTransaction(to, value, data) // 'value' is in wei, and 'data' must be a hex string
.setGasToken(gasToken)
.setGas(gasPrice, gasMinimal)
.setRelayer(relayer)
.setAsymmetricKeyID(kid);
await s.post(signature, web3);
} catch(error){
console.log(error);
}
This functionality is used when a Identity will invoke a contract function that requires a transfer of Tokens
try {
const s = new StatusGasRelayer.Identity(identityAddress, accountAddress)
.setContractFunction(Functions.Identity.approveAndCall)
.setTransaction(to, value, data)
.setBaseToken(baseToken)
.setGas(gasPrice, gasMinimal)
.setGasToken(SNT_Address)
.setRelayer(relayer)
.setAsymmetricKeyID(kid);
await s.post(signature, web3);
} catch(error){
console.log(error);
}
This functionality is used for simple wallets to perform SNT transfers without paying ETH fees
try {
const accounts = await web3.eth.getAccounts();
const s = new StatusGasRelayer.SNTController(SNTController.options.address, accounts[2])
.transferSNT(to, amount)
.setGas(gasPrice)
.setRelayer(relayer)
.setAsymmetricKeyID(kid);
await s.post(signature, web3);
} catch(error){
console.log(error);
}
try {
const accounts = await web3.eth.getAccounts();
const s = new StatusGasRelayer.SNTController(SNTController.options.address, accounts[2])
.execute(allowedContract, data)
.setGas(gasPrice, gasMinimal)
.setRelayer(relayer)
.setAsymmetricKeyID(kid);
await s.post(signature, web3);
} catch(error){
console.log(error);
}