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03TransactionsWeb3Gateway

Ivan Angelkoski edited this page Jun 12, 2023 · 5 revisions

⚠️ The Docs have been moved to https://docs.ts.injective.network/transactions/web3-gateway ⚠️

Pre-requisite reading #1: Transaction Lifecycle

Pre-requisite reading #2: Transactions on Injective

The Web3Gateway microservice exposes an API to the end user with the main purpose of providing fee delegation for transactions that happen on Injective. This allows users to enjoy a gasless environment while interacting with Injective as the gas is being paid by the runner of the Web3Gateway service.

Alongside fee delegation support, Web3Gateway allows developers to convert Messages to EIP712 typed data. After converting the Message te EIP712 data, it can be signed by any Ethereum native wallet and then broadcasted to Injective.

Fee Delegation

As said before, fee delegation allows users to interact with Injective (submit transactions) without having to pay for gas. As a part of the Transaction Lifecycle of every Cosmos-SDK powered chain, we have AnteHandlers, which, among other things perform signature verification, gas calculation and fee deduction.

There are couple of things that we need to know:

  • Transactions can have multiple signers (i.e we can include multiple signatures within a transaction),
  • Gas Fee for the transaction is deducted from the authInfo.fee.feePayer value and the signature that gets verified against the feePayer is the first signature within the signatures list of the Transaction (reference),
  • The rest of the signatures are being verified against the actual sender of the transaction.

Knowing this, to achieve fee delegation, we have to sign the transaction using the private key of the Web3Gateway microservice, include the address of that privateKey as a feePayer, sign this transaction using the privateKey that we actually want to interact with Injective from and broadcast that transaction.

Web3Gateway API

Everyone can run the Web3Gateway microservice and provide fee delegation services to their users. As an example usage, developers who build exchange dApps on top of Injective can run this microservice to offer gasless trading environment to their traders.

This microservice exposes an API containing two core methods:

  • PrepareTx
  • BroadcastTx

PrepareTx

The PrepareTx method accepts a Message(s) including context for the transaction the user wants to execute (chainId, signerAddress, timeoutHeight, etc), and returns an EIP712 typed data of the particular message which includes the feePayer and its signature within the EIP712 typed data. We can use this EIP712 typed data to sign it using any Ethereum native wallet and get the signature for the user that wants to interact with Injective.

The EIP712 typed data is generated from the proto definition of the Message we pass to the PrepareTx method.

BroadcastTx

The BroadcastTx method is responsible for broadcasting the transaction to the node. Alongside the full response of the PrepareTx API call, we pass in the signature of the EIP712 typed data. Then, the BroadcastTx packs the Message into a native Cosmos transaction, prepares the transaction (including its context) and broadcasts it to Injective. As a result, the transaction hash is being returned to the user.


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