@izumifinance/iziswap_periphery

1.0.1 • Public • Published

iZiSwap-periphery

Contracts for iZiSwap periphery. Periphery contracts are suggested entrances to interact with iZiSwap Core contracts.

Overview

  • Swap Related:

    • Quoter.sol: Used for simulating trades without restrictions on identity and assets. Typically called before actual trading to determine how many tokenB can be obtained by exchanging a specified quantity of tokenA.
    • QuoterWithLim.sol: similar to Quoter.sol but only search liquidity around the current point to accelerate the search process and void Out of gas error.
    • Swap.sol: Used to initiates real trades. There are two modes: amount mode and desired mode. Assuming the exchange is x tokenA -> y tokenB, in amount mode, x is fixed, while in desired mode, y is fixed.
  • Limit Order Related:

    • LimitOrderManager.sol: Used for managing the logical operations related to limit orders, including placing orders, canceling orders, and claiming the traded tokens. To some extent, this contract is coupled with the core contract and is primarily used to avoid fund temporary storage. Only can place order above the current price for sell or below the current price for buy.
    • LimitOrderWithSwapManager.sol: Similar to LimitOrderManger.sol but add an extra mode: swap and place order. In this mode, the price constrains are removed and the portion that should be executed immediately will be traded as a normal swap. Prone to sandwich attacks, careful setting of slippage is required.
  • Liquidity Related:

    • LiquidityManager.sol: Used for managing the addition, removal, and fee claiming of liquidity. Liquidity is provided in ranges, where each range is determined by a triplet of <min_price, max_price, liquidity>. Each piece of liquidity generates an ERC-721 NFT.
  • Auxiliary Contracts:

    • Box: Some tokens have additional fees when transferring, which can cause failures in iZiSwap because it uses a callback payment method. In such cases, the original token can be wrapped into a feeless version by using a box to encapsulate it, ensuring a seamless user experience.
      • WrapToken: Used to wrap the fee-charging token into a normal one.
      • Box: Used to wrap the swap and liquidity management operations. Do not support limit order.

Usage

Set up Environment

install node.js(at least 14.X) and npm

Compile from source

1. clone repo from github
$ git clone git@github.com:izumiFinance/izumi-swap-periphery.git

suppose the root dir of the project is ${IZUMI_SWAP_PERIPHERY}

2. checkout the branch

cd to the dir ${IZUMI_SWAP_PERIPHERY} and checkout to the branch you want

3. install denpendencies

install the package listed in the package.json via npm

4. compile

compile via following command

$ npx hardhat compile
5. compiled json file

after compile, the abi and code of the contracts can be found in files artifacts/*.sol/*.json

Run test cases

1. compile izumi-swap-core

before running test case, you should compile izumi-swap-core first. you can refer to the README.md in the link to compile the core, suppose the project dir of izumi-swap-core is ${IZUMI_SWAP_CORE_DIR}

2. copy compiled json from izumi-swap-core to izmui-swap-periphery

after compile the izumi-swap-core project, copy dirs ${IZUMI_SWAP_CORE_DIR}/artifacts/*.sol to ${IZUMI_SWAP_PERIPHERY}/test/core/ copy compiled json file of weth9 into ${IZUMI_SWAP_PERIPHERY}/test/core/ and name it as WETH9.json because when we running test cases, we will find abi and code of izumi-swap-core contracts and weth contract under ${IZUMI_SWAP_PERIPHERY}/test/core/

Your file structure of ${IZUMI_SWAP_PERIPHERY}/test/core/ might be following:

/test
    /core
        WETH9.json
        FlashModule.json
        iZiSwapFactory.json
        ...
3. run test case

run test cases via following command

$ npx hardhat test

if you want to only run a single test case, simply run

$ npx hardhat test test/${FILE_OF_TEST_CASE}.json

Example of Deploy and interact

1. Example of Deployment

we provide example scripts for deploy contracts. in the following, we take the example of deploying and interface in izumi-test network, which has been set in ${IZUMI_SWAP_PERIPHERY}/hardhat.config.js, if you want to deploy and interface in other eth-networks, you could just configure the network in the hardhat.config.js and specified it via env var HARDHAT_NETWORK when runing coresponding scripts

2. prepare work

establish a file called .secret.js under dir ${IZUMI_SWAP_PERIPHERY}

$ cp .secret.js.example .secret.js

following 3 field must be filled change the field of sk to a private key of your sign account of the network you want to deploy

ensure that there exists an deployed izumi-swap-factory contract, ofcourse you can deploy it by yourself the deployment of IzumiswapFactory can be refered in izumi-swap-core

you should fill the field iZiSwapFactory to corresponding address in the js file scripts/deployed.js under the target chain.

3. Deploy "LiquidityManager"

you can refer to the example script scripts/liquidityManager/deployNFLM.js. if you want to deploy it in the bscTest network configered in hardhat.config.js, simply run

$ HARDHAT_NETWORK='bscTest' node scripts/liquidityManager/deployNFLM.js ${address of WBNB on bscTest}

replace bscTest and corresponding ${address of WBNB on BSC} if you want to deploy the 2 contracts on other evm-networks

after running, the deployed addresses of LiquidityManager can be viewed on the screen.

4. Deploy "LimitOrderManager" contract

if you want to deploy it in the bscTest network configered in hardhat.config.js, simply run

$ HARDHAT_NETWORK='bscTest' node scripts/limOrderManager/deployLimOrderManager.js ${address of WBNB on bscTest}
5. Deploy "LimitOrderWithSwapManager" contract

if you want to deploy it in the bscTest network configered in hardhat.config.js, simply run

$ HARDHAT_NETWORK='bscTest' node scripts/limOrderWithSwapManager/deployLimOrderWithSwapManager.js ${address of WBNB on bscTest}
6. Deploy "Swap" contract.

if you want to deploy it in the bscTest network configered in hardhat.config.js, simply run

$ HARDHAT_NETWORK='bscTest' node scripts/swap/deploySwap.js ${address of WBNB on bscTest}

7. Deploy "Quoter" contract.

if you want to deploy it in the bscTest network configered in hardhat.config.js, simply run

$ HARDHAT_NETWORK='bscTest' node scripts/quoter/deployQuoter.js ${address of WBNB on bscTest}

7. Deploy "Quoter" contract.

if you want to deploy it in the bscTest network configered in hardhat.config.js, simply run

$ HARDHAT_NETWORK='bscTest' node scripts/quoter/deployQuoter.js ${address of WBNB on bscTest}

8. Deploy "Box" contract

Suppose you want to deploy on bscTest network.

Before running box's deploy script, you should fill the field liquidityManager, swap and wrapChainToken to corresponding address in the js file scripts/deployed.js under the target chain. Here wrapChainToken is address WBNB on bscTest network, and if you want to deploy Box on other networks, you should replace it to other wrapped gas token like WETH or WMATIC ...

The field liquidityManager and swap are contracts you just deployed.

After filling those fields, run following command to deploy box.

$ HARDHAT_NETWORK='bscTest' node scripts/box/deployBox.js
9. Interact with those contracts

You can refer to our iziswap-sdk for interaction.

Check dev.iZUMi.finance for in-depth documentation.

Check Github for latest sdk code.

Use source code as npm package

$ npm install iziswap_periphery

An example to usage interfaces of Swap

import 'izumifinance/iziswap_periphery/contracts/interfaces/ISwap.sol';

contract Foo {
  ISwap swapRouter;

  function bar() {
      // swapRouter.swapAmount(...)
      // swapRouter.swapDesire(...)
  }
}

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