@infinityswapofficial/evm-client v0.2.8

Bitfinity Evm-client

Introduction

This plugin demonstrates the process of bridging tokens between an ICRC chain and an EVM chain. The bridge allows tokens to be transferred between these two blockchain environments. The provided test files utilize the Chain class to perform various actions related to token bridging.

Installation

Using NPM

npm install @infinityswapofficial/evm-client

Using Yarn

yarn add @infinityswapofficial/evm-client

Usage

    import { Chain } from "@infinityswapofficial/evm-client";
    const bridge = new Chain({
        minterCanister,
        Ic,
        signer,
        provider,
        rpcUrl, // eg https://testnet.bitfinity.network 
        icHost, // Your icHost url
    });

Find test files at src/tests

Add Operation Points

    const operationReceipt = await bridge.add_operation_points();

Get Bitfinity Bridge Contract Address

Call the get_bft_bridge_contract on the Chain class to get bft bridge contract address

    const bftBridgeContractAddress = await bridge.get_bft_bridge_contract();

Deploy a BFT Wrapped Token

In other to bridge, you must have a wrapped version of your token on bft. If the wrapped token already exists, the function will return the wrapped token and not create another. The function takes 3 parameters. The first being the name of the token, the second the symbol of the token and the last is the token in Id256. Example below.

    import { Chain } from "@infinityswapofficial/evm-client";
    const ercToken = await bridge.deploy_bft_wrapped_token(
        "Token",
        "TKN",
        tokenInId256,
      );

Get Id256 of Token

For ICRC Token

example

import {Id256Factory} from "@infinityswapofficial/evm-client";
tokenInId256 = Id256Factory.fromPrincipal(Principal_of_token)

For EVM Token

example

import {Id256Factory} from "@infinityswapofficial/evm-client";
const chain_id = 355113
tokenInId256 = Id256Factory.fromAddress(new AddressWithChainID(erc20TokenAddress, chain_id))

Burning icrc Tokens

Burns a specified amount of ICRC tokens to initiate the creation of an ERC20 mint order. Operation_id is a unique number to add to your burn. This can be used to retrieve a burn or initialize one in case something goes wrong. You can generate one using bridge.generateOperationId() or use your own format.

const operation_id = bridge.generateOperationId();
const signedMintOrder = await bridge.burn_icrc2_tokens(TOKEN_PRINCIPAL,amount, operation_id);

Mint ERC20 Token

Mints ERC20 tokens on the EVM chain using a previously generated mint order.

const signedMintOrder = await bridge.mintOrder(signedMintOrder);

Get all cached Transations

Retrieves cached transactions, including mint transactions.

const cachedMintTx = await bridge.getCacheTx(); // get burnt transaction hash
const cachedMintTx = await bridge.getCacheTx("evm_client_mint"); // get mint results
const cachedMintTx = await bridge.getCacheTx("evm_client_mint_order"); // get mint order

Burn ERC20 Token

Burn erc20 tokens

const burnTxHash = await bridge.burn_erc_20_tokens(ercToken, 1000000, 0);

Get Operation id from burnt transaction hash

Burn erc20 tokens

const operation_id = await bridge.get_operation_id(Principal.fromText(canisterIds.evm.local),burnTxHash!);

Minting ICRC Tokens after burning erc20 tokens

const mintResult = await bridge.mint_icrc_tokens(operation_id,Principal.fromText(canisterIds.token.local));

Get base token principal from wrapped erc20 token address

const baseTokenPrincipal = await bridge.get_base_token(ercToken.getAddress());