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Integration

Supported dependencies

It should at least work until the following commits

  • rustc 1.62.0-nightly (ecd44958e 2022-05-10)
  • Polkadot release-v0.9.42
  • Cumulus polkadot-v0.9.42
  • Substrate polkadot-v0.9.42

Precondition

  • Implement MultiAssetsHandler with Native Currency, Local assets and Other assets which defined on your parachain.
  • Establish HRMP channels between zenlink registered parachains.

Zenlink Protocol v0.4.0 Overview

zenlink protocol

Zenlink Protocol mainly consists of two parts: assets and asset operations, namely Zenlink Assets and Zenlink Actions. Through the UAI(unified asset identifier) and MultiAssetsHandler interfaces, Zenlink can perform Swap and Transfer By XCM any asset on the chain.

Zenlink Protocol v0.4.0 Features

  • Based on the newest XCM design
  • Based on FRAMEv2
  • Compatible Polkadot XCMP cross-chain asset processing
  • Zenlink Protocol registration whitelist-XCM trust collection management
  • Through Transfer-By-XCM, assets can flow freely between parachains
  • ZenlinkMultiAssets adapter comes with LIQUIDITY and Foreign asset processing, which can adapt to various native assets such as NATIVE/LOCAL/RESERVE
  • Provide LocalAssetHandler, OtherAssetHandler and other traits to support locally defined assets such as LOCAL and RESERVE
  • Under the control of MultiAssetsHandler, assets can swap freely

UAI v0.1.0

  • UAI v0.1.0 definition
pub struct AssetId {
    pub chain_id: u32, // ParaId
    pub asset_type: u8, // Asset types supported by Zenlink Assets
    pub asset_index: u32, // the index number of the asset
}
  • UAI v0.1.0 asset type

asset_type currently only supports the following values:

/// Native currency, the most basic asset on each parachain
pub const NATIVE: u8 = 0;
/// Swap module asset, LP token generated by Zenlink DEX
pub const LIQUIDITY: u8 = 1;
/// Other asset type on this chain, other asset modules on this chain
pub const LOCAL: u8 = 2;
/// Reserved for future, reserved asset type
pub const RESERVED: u8 = 3;

In the current version of UAI, Zenlink Assets supports up to four locally defined assets of Native/LIQUIDITY/LOCAL/RESERVED. When these four assets are transferred across chains, a cross-chain mapping asset category Foreign will be generated inside ZenlinkProtocol.

  • Before and after the cross-chain asset transfer, the UAI of the asset has not changed.

MultiAssetsHandler

The trait is defined as follows

pub trait MultiAssetsHandler<AccountId> {
    fn balance_of(asset_id: AssetId, who: &AccountId) -> AssetBalance;
    fn total_supply(asset_id: AssetId) -> AssetBalance;
    fn is_exists(asset_id: AssetId) -> bool;
    fn transfer(
        asset_id: AssetId,
        origin: &AccountId,
        target: &AccountId,
        amount: AssetBalance,
    ) -> DispatchResult {
        let withdrawn = Self::withdraw(asset_id, origin, amount)?;
        let _ = Self::deposit(asset_id, target, withdrawn)?;
        Ok(())
    }
    fn deposit(
        asset_id: AssetId,
        target: &AccountId,
        amount: AssetBalance,
    ) -> Result<AssetBalance, DispatchError>;

    fn withdraw(
        asset_id: AssetId,
        origin: &AccountId,
        amount: AssetBalance,
    ) -> Result<AssetBalance, DispatchError>;
}
  • is_exists is a unified access interface for Zenlink Actions
  • balance_of, total_supply, transfer are Zenlink Swap Action access interface
  • deposit, withdraw are Zenlink Transfer-By-XCM Action access interface
  • MultiAssetsHandler can operate in addition to the four native defined assets identified by UAI, as well as the cross-chain mapping asset Foreign inside ZenlinkProtocol.

Swap and Transfer-By-XCM

  • Four native defined assets (NATIVE/LIQUIDITY/LOCAL/RESERVED) and cross-chain mapping assets (Foreign) can be exchanged through MultiAssetsHandler.
  • Four native defined assets (NATIVE/LIQUIDITY/LOCAL/RESERVED) Cross-chain asset transfer through Transfer-By-XCM, and a mapped asset Foreign is generated on the target parachain, Also through the Transfer-By-XCM cross-chain transfer back to the original definition chain of the asset.

Example

see runtime example

Compile Relaychain

git clone https://github.com/paritytech/polkadot.git
git checkout release-v0.9.1
cd polkadot & cargo build --release 

Run testnet

In this case, the test network consists of 5 Relaychain nodes and 2 Parachain Collectors. The Parachain IDs are 200 and 300, respectively. Execute the following shell script to generate the required files, including the Relaychain configuration file, the Parachain Genesis file, and the WASM file.

#!/bin/bash

# polkadot
cp ../polkadot/target/release/polkadot .
mkdir config

./polkadot build-spec --chain rococo-local --disable-default-bootnode > ./config/rococo-custom-local.json
sed -i 's/"validation_upgrade_frequency": 600/"validation_upgrade_frequency": 10/g' ./config/rococo-custom-local.json
sed -I ’s/“validation_upgrade_delay”: 300/“validation_upgrade_delay”: 5/g’ ./config/rococo-custom-local.json
./polkadot build-spec —chain ./config/rococo-custom-local.json —disable-default-bootnode —raw > ./config/rococo-local.json


# dev-parachain
cp ../dev-parachain/target/release/dev-parachain .

./dev-parachain build-spec —disable-default-bootnode > ./config/200para.json
sed -I ’s/“para_id”: 500,/“para_id”: 200,/g’ ./config/200para.json
sed -I ’s/“parachainId”: 500/“parachainId”: 200/g’ ./config/200para.json
./dev-parachain export-genesis-state —parachain-id 200 > ./config/200.genesis

./dev-parachain build-spec —disable-default-bootnode > ./config/300para.json
sed -I ’s/“para_id”: 500,/“para_id”: 300,/g’ ./config/300para.json
sed -I ’s/“parachainId”: 500/“parachainId”: 300/g’ ./config/300para.json
./dev-parachain export-genesis-state —parachain-id 300 > ./config/300.genesis

./dev-parachain export-genesis-wasm > ./config/200-300.wasm

Execute the following shell script to start the testnet.

#!/bin/bash

cp config/rococo-custom-local.json config/rococo-custom-local-5.json
sed ‘/palletSession/,/palletGrandpa/{/palletSession/!{/palletGrandpa/!d}}’ -I config/rococo-custom-local-5.json
sed ‘/palletSession/ r palletSession.txt’ -I config/rococo-custom-local-5.json

./polkadot build-spec —chain config/rococo-custom-local-5.json —disable-default-bootnode —raw > config/rococo-local-5.json

mkdir data

./polkadot  —ws-port 9944 —rpc-port 10025 —port 30033  -d ./data/data-a —validator —chain config/rococo-local-5.json —Alice   > ./data/log.a 2>&1 &
./polkadot  —ws-port 9946 —rpc-port 10026 —port 30034  -d ./data/data-b —validator —chain config/rococo-local-5.json —bob     > ./data/log.b 2>&1 &
./polkadot  —ws-port 9947 —rpc-port 10027 —port 30035  -d ./data/data-c —validator —chain config/rococo-local-5.json —Charlie > ./data/log.c 2>&1 &
./polkadot  —ws-port 9948 —rpc-port 10028 —port 30036  -d ./data/data-d —validator —chain config/rococo-local-5.json —Dave    > ./data/log.d 2>&1 &
./polkadot  —ws-port 9949 —rpc-port 10029 —port 30037  -d ./data/data-e —validator —chain config/rococo-local-5.json —eve     > ./data/log.e 2>&1 &


./dev-parachain -d ./data/data-200  —ws-port 9977 —port 30336 —rpc-port 10002 —rpc-cors all —unsafe-ws-external  —unsafe-rpc-external  —parachain-id 200  —validator —execution=native -lruntime=debug,cumulus-collator=trace,cumulus-network=trace,cumulus-consensus=trace —chain ./config/200para.json  —   —chain ./config/rococo-local-5.json  —discover-local —execution=wasm > ./data/log.200 2>&1 &

./dev-parachain -d ./data/data-300  —ws-port 9988 —port 30337 —rpc-port 10003 —rpc-cors all —unsafe-ws-external  —unsafe-rpc-external  —parachain-id 300  —validator —execution=native -lruntime=debug,cumulus-collator=trace,cumulus-network=trace,cumulus-consensus=trace —chain ./config/300para.json  —   —chain ./config/rococo-local-5.json  —discover-local —execution=wasm > ./data/log.300 2>&1 &

Register Parachain & Establish HRMP channel

Connect Relaychain with endpoint 'ws://127.0.0.1:9944' on https://polkadot.js.org/apps

  • Register Parachain200

Register Parachain200

  • Register Parachain300

Register Parachain300

  • Establish HRMP channel, Parachain200 -> Parachain300

Establish HRMP 200->300

  • Establish HRMP channel, Parachain300 -> Parachain200

Establish HRMP 300->200

Transaction type

{
   "AccountData": {
      "free": "Balance",
      "reserved": "Balance",
      "frozen": "Balance"
   },
  "Currency": "CurrencyIdOf",
  "CurrencyIdOf": "CurrencyId",
  "AmountOf": "Balance",
  "Amount": "AmountOf",
  "TransferOriginType": {
    "_enum": {
      "FromSelf": 0,
      "FromRelayChain": 1,
      "FromSiblingParaChain": 2
    }
  },
  "TokenSymbol": {
    "_enum": {
      "ASG": 0,
      "BNC": 1,
      "KUSD": 2,
      "DOT": 3,
      "KSM": 4,
      "ETH": 5
    }
  },
  "CurrencyId": {
    "_enum": {
      "Native": "TokenSymbol",
      "VToken": "TokenSymbol",
      "Token": "TokenSymbol",
      "Stable": "TokenSymbol",
      "VSToken": "TokenSymbol",
      "VSBond": "(TokenSymbol, ParaId, LeasePeriod, LeasePeriod)",
      "LPToken": "(TokenSymbol, u8, TokenSymbol, u8)"
    }
  },
  "TAssetBalance": "Balance",
  "PalletBalanceOf": "Balance",
  "BlockNumberFor": "BlockNumber",
  "NumberOrHex": {
    "_enum": {
      "Number": "u64",
      "Hex": "U256"
    }
  },
  "IsExtended": "bool",
  "SystemPalletId": "PalletId",
  "RewardRecord": {
    "account_id": "AccountId",
    "record_amount": "Balance"
  },
  "MaxLocksOf": "u32",
  "VestingInfo": {
    "locked": "Balance",
    "per_block": "Balance",
    "starting_block": "BlockNumber"
  },
  "OrderId": "u64",
  "OrderInfo": {
    "owner": "AccountIdOf",
    "currency_sold": "CurrencyIdOf",
    "amount_sold": "BalanceOf",
    "currency_expected": "CurrencyIdOf",
    "amount_expected": "BalanceOf",
    "order_id": "OrderId",
    "order_state": "OrderState"
  },
  "OrderState": {
    "_enum": [
      "InTrade",
      "Revoked",
      "Clinchd"
    ]
  },
  "AssetId": {
    "chain_id": "u32",
    "asset_type": "u8",
    "asset_index": "u64"
  },
  "ZenlinkAssetBalance": "u128",
  "PairInfo": {
    "asset0": "AssetId",
    "asset1": "AssetId",
    "account": "AccountId",
    "totalLiquidity": "ZenlinkAssetBalance",
    "holdingLiquidity": "ZenlinkAssetBalance",
    "reserve0": "ZenlinkAssetBalance",
    "reserve1": "ZenlinkAssetBalance",
    "lpAssetId": "AssetId"
  },
  "PairMetadata": {
    "pair_account": "AccountId",
    "target_supply": "AssetBalance"
  },
  "AssetBalance": "u128",
  "BootstrapParamter": {
    "min_contribution": "(AssetBalance, AssetBalance)",
    "target_supply": "(AssetBalance, AssetBalance)",
    "accumulated_supply": "(AssetBalance, AssetBalance)",
    "end_block_number": "BlockNumber",
    "pair_account": "AccountId"
  },
  "PairStatus": {
    "_enum": {
      "Trading": "PairMetadata",
      "Bootstrap": "BootstrapParamter",
      "Disable": null
    }
  }
}`

Switch to 'Settings' -> 'Developer', input the above json, then save.

Setting Type

Cross chain transfer

In this example, the Balances module index equal 2 and it just has one asset. So the AssetId of native currency is (200,2,0). It means the first asset of the second module on parachain 200. Now we transfer it to parachain 300.

Cross_transfer We can see the event in parachain 300. It means that the zenlink protocol first issued an asset, and then minted 1,000,000.

Cross_transfer

We can see the result in zenlink protocol storage.

Cross_transfer

Create Pair

Now we have two assets in parachain 300. So we can create a pair. Create_Pair

Add liquidity

Create_Pair

Swap

Swap

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