SUI Move开发必知必会——使用SUI DeepBook构建DEX-1:入门篇

  • rzexin
  • 更新于 2024-04-25 00:32
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SUI Move开发必知必会——使用SUI DeepBook构建DEX-1:入门篇

SUI Move开发必知必会——使用SUI DeepBook构建DEX-1:入门篇

rzexin 2024.04.18

[TOC]

1 前言

DeepBookSUI的第一个原生流动性层DeepBook为代币交易提供能力支持。通过它可以创建流动性池、处理存款和提款,以及执行各种资产交换等操作。

本文将介绍DeepBook合约的基础功能和方法,在下一篇中将进行合约开发及交互实践。

如果文中有错误或理解不到位的地方,欢迎大家指正。

参考资料:

2 基本概念

  • 流动性池(Liquidity Pool

    流动性池是一种包含资产储备的智能合约。从技术上讲,流动性池是锁定在智能合约中的代币集合,用于促进去中心化交易和资产交换。

  • 基础资产(Base Assets)和报价资产(Quote Assets

    基础资产是指正在被交易的资产,而报价资产是用来表示基础资产价值的资产。

    例如:在SUI/USDT交易对中,SUI是基础资产,表示我们正在交易SUI;而USDT是报价资产,表示我们用USDT来衡量SUI币的价值。

  • 托管账户(Custodian Account

    托管账户是一种特殊的账户,用于代表其他账户持有资产。在SUI中,托管账户被用来管理资产,提供安全性和灵活性。

    交易者可以通过调用create_account来获得授权他们访问托管账户的AccountCap对象,从而生成托管账户。

    AccountCap对象代表托管帐户的所有权,如果将此对象转移给其他人,则新所有者可以访问托管帐户中的所有资金和订单。

  • 限价单(Limit Order

    指以特定价格或更好的价格买卖资产的订单。

  • 市价单(Market Order

    指以最佳市场价买卖资产的订单。

  • 接单者/买入者(Taker

    通过接受已有的订单来从市场中获取流动性的参与者。

  • 挂单者/卖出者(Maker

    通过发布新的买入或卖出订单来为市场提供流动性的参与者。

3 DeepBook核心结构

3.1 流动性池结构(Pool

struct Pool<phantom BaseAsset, phantom QuoteAsset> has key, store {
    // The key to the following Critbit Tree are order prices.
    id: UID,
    // All open bid orders.
    bids: CritbitTree<TickLevel>,
    // All open ask orders.
    asks: CritbitTree<TickLevel>,
    // Order id of the next bid order, starting from 0.
    next_bid_order_id: u64,
    // Order id of the next ask order, starting from 1<<63.
    next_ask_order_id: u64,
    // Map from AccountCap owner ID -> (map from order id -> order price)
    usr_open_orders: Table<address, LinkedTable<u64, u64>>,
    // taker_fee_rate should be strictly greater than maker_rebate_rate.
    // The difference between taker_fee_rate and maker_rabate_rate goes to the protocol.
    // 10^9 scaling
    taker_fee_rate: u64,
    // 10^9 scaling
    maker_rebate_rate: u64,
    tick_size: u64,
    lot_size: u64,
    // other pool info
    base_custodian: Custodian<BaseAsset>,
    quote_custodian: Custodian<QuoteAsset>,
    // Stores the fee paid to create this pool. These funds are not accessible.
    creation_fee: Balance<SUI>,
    // Deprecated.
    base_asset_trading_fees: Balance<BaseAsset>,
    // Stores the trading fees paid in `QuoteAsset`. These funds are not accessible in the V1 of the Pools, but V2 Pools are accessible.
    quote_asset_trading_fees: Balance<QuoteAsset>,
}

3.2 托管账户结构(Custodian

    // Custodian for limit orders.
    public struct Custodian<phantom T> has key, store {
        id: UID,
        /// Map from the owner address of AccountCap object to an Account object
        account_balances: Table<address, Account<T>>,
    }

    public struct Account<phantom T> has store {
        available_balance: Balance<T>,
        locked_balance: Balance<T>,
    }
  • 托管账户链上存储结构

image.png

3.3 订单结构(Order

  • 对于每个交易池,订单ID对于每个开放订单都是递增且唯一的

  • 较早提交的订单具有较低的订单ID

  • 64位对于订单ID来说是足够的,而32位则不够

    假设Sui链的最大TPS(每秒交易数)为100K/s,那么需要 (1<<63) / 100000 / 3600 / 24 / 365 = 2924712年才能达到满容量。

  • 订单ID的最高位用于表示订单类型:0表示买单,1表示卖单

    public struct Order has store, drop {
        // For each pool, order id is incremental and unique for each opening order.
        // Orders that are submitted earlier has lower order ids.
        // 64 bits are sufficient for order ids whereas 32 bits are not.
        // Assuming a maximum TPS of 100K/s of Sui chain, it would take (1<<63) / 100000 / 3600 / 24 / 365 = 2924712 years to reach the full capacity.
        // The highest bit of the order id is used to denote the order type, 0 for bid, 1 for ask.
        order_id: u64,
        client_order_id: u64,
        // Only used for limit orders.
        price: u64,
        // quantity when the order first placed in
        original_quantity: u64,
        // quantity of the order currently held
        quantity: u64,
        is_bid: bool,
        /// Order can only be canceled by the `AccountCap` with this owner ID
        owner: address,
        // Expiration timestamp in ms.
        expire_timestamp: u64,
        // reserved field for prevent self_matching
        self_matching_prevention: u8
    }

4 DeepBook基础方法

4.1 创建流动性池(create_pool

  • DeepBook中创建流动性池子(create_pool)时,需要指定的参数有:
    • BaseAsset:基础资产类型
    • QuoteAsset:报价资产的类型
    • tick_size:最小价格变动数量。即价格变动的最小粒度,有助于限制价格的波动,并确保市场的稳定
    • lot_size:最小交易数量。即每笔交易的最小数量,有助于确保市场中的交易量不会过于碎片化
    • creation_fee:创建池子交易费
    public fun create_pool<BaseAsset, QuoteAsset>(
        tick_size: u64,
        lot_size: u64,
        creation_fee: Coin<SUI>,
        ctx: &mut TxContext,
    ) {
        create_customized_pool<BaseAsset, QuoteAsset>(
            tick_size,
            lot_size,
            REFERENCE_TAKER_FEE_RATE,
            REFERENCE_MAKER_REBATE_RATE,
            creation_fee,
            ctx,
        );
    }
  • create_pool中调用了create_customized_pool,设置了默认的接单者支付手续费率(taker_fee_rate)以及挂单者获得的返利费率
    const REFERENCE_TAKER_FEE_RATE: u64 = 2_500_000;
    const REFERENCE_MAKER_REBATE_RATE: u64 = 1_500_000;

    /// Function for creating pool with customized taker fee rate and maker rebate rate.
    /// The taker_fee_rate should be greater than or equal to the maker_rebate_rate, and both should have a scaling of 10^9.
    /// Taker_fee_rate of 0.25% should be 2_500_000 for example
    public fun create_customized_pool<BaseAsset, QuoteAsset>(
        tick_size: u64,
        lot_size: u64,
        taker_fee_rate: u64,
        maker_rebate_rate: u64,
        creation_fee: Coin<SUI>,
        ctx: &mut TxContext,
    ) {
        create_pool_<BaseAsset, QuoteAsset>(
            taker_fee_rate,
            maker_rebate_rate,
            tick_size,
            lot_size,
            coin::into_balance(creation_fee),
            ctx
        )
    }
  • 创建的流动性池(Pool)为一个共享对象,池子所有者权限(PoolOwnerCap)会发送给池子创建者
    #[allow(lint(self_transfer, share_owned))]
    fun create_pool_<BaseAsset, QuoteAsset>(
        taker_fee_rate: u64,
        maker_rebate_rate: u64,
        tick_size: u64,
        lot_size: u64,
        creation_fee: Balance<SUI>,
        ctx: &mut TxContext,
    ) {
        let (pool, pool_owner_cap) = create_pool_with_return_<BaseAsset, QuoteAsset>(
            taker_fee_rate,
            maker_rebate_rate,
            tick_size,
            lot_size,
            creation_fee,
            ctx
        );

        transfer::public_transfer(pool_owner_cap, tx_context::sender(ctx));
        transfer::share_object(pool);
    }

   /// Helper function that all the create pools now call to create pools.
    fun create_pool_with_return_<BaseAsset, QuoteAsset>(
        taker_fee_rate: u64,
        maker_rebate_rate: u64,
        tick_size: u64,
        lot_size: u64,
        creation_fee: Balance<SUI>,
        ctx: &mut TxContext,
    ): (Pool<BaseAsset, QuoteAsset>, PoolOwnerCap) {
        assert!(balance::value(&creation_fee) == FEE_AMOUNT_FOR_CREATE_POOL, EInvalidFee);

        let base_type_name = type_name::get<BaseAsset>();
        let quote_type_name = type_name::get<QuoteAsset>();

        assert!(clob_math::unsafe_mul(lot_size, tick_size) > 0, EInvalidTickSizeLotSize);
        assert!(base_type_name != quote_type_name, EInvalidPair);
        assert!(taker_fee_rate >= maker_rebate_rate, EInvalidFeeRateRebateRate);

        let pool_uid = object::new(ctx);
        let pool_id = *object::uid_as_inner(&pool_uid);

        // Creates the capability to mark a pool owner.
        let id = object::new(ctx);
        let owner = object::uid_to_address(&pool_uid);
        let pool_owner_cap = PoolOwnerCap { id, owner };

        event::emit(PoolCreated {
            pool_id,
            base_asset: base_type_name,
            quote_asset: quote_type_name,
            taker_fee_rate,
            maker_rebate_rate,
            tick_size,
            lot_size,
        });

        (Pool<BaseAsset, QuoteAsset> {
            id: pool_uid,
            bids: critbit::new(ctx),
            asks: critbit::new(ctx),
            next_bid_order_id: MIN_BID_ORDER_ID,
            next_ask_order_id: MIN_ASK_ORDER_ID,
            usr_open_orders: table::new(ctx),
            taker_fee_rate,
            maker_rebate_rate,
            tick_size,
            lot_size,
            base_custodian: custodian::new<BaseAsset>(ctx),
            quote_custodian: custodian::new<QuoteAsset>(ctx),
            creation_fee,
            base_asset_trading_fees: balance::zero(),
            quote_asset_trading_fees: balance::zero(),
        }, pool_owner_cap)
    }

4.2 限价单

(1)创建托管账户(create_account

  • 该账户仅用于限价单,在下限价单之前,交易者需要先创建托管账户存放资产

  • 交易者可以通过调用create_account来获得授权他们访问托管账户的AccountCap对象,从而生成托管账户

    public fun create_account(ctx: &mut TxContext): AccountCap {
        mint_account_cap(ctx)
    }

    /// Capability granting permission to access an entry in `Custodian.account_balances`.
    /// Calling `mint_account_cap` creates an "admin account cap" such that id == owner with
    /// the permission to both access funds and create new `AccountCap`s.
    /// Calling `create_child_account_cap` creates a "child account cap" such that id != owner
    /// that can access funds, but cannot create new `AccountCap`s.
    public struct AccountCap has key, store {
        id: UID,
        /// The owner of this AccountCap. Note: this is
        /// derived from an object ID, not a user address
        owner: address
    }

    /// Create an admin `AccountCap` that can be used across all DeepBook pools, and has
    /// the permission to create new `AccountCap`s that can access the same source of funds
    public(package) fun mint_account_cap(ctx: &mut TxContext): AccountCap {
        let id = object::new(ctx);
        let owner = object::uid_to_address(&id);
        AccountCap { id, owner }
    }

(2)存入资产(deposit_basedeposit_quote

  • 交易者可以将基础资产或报价资产存入其托管账户,以便日后用于下限价单。包括:
  • 存入基础资产
 public fun deposit_base<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        coin: Coin<BaseAsset>,
        account_cap: &AccountCap
    ) {
        let quantity = coin::value(&coin);
        assert!(quantity != 0, EInsufficientBaseCoin);
        custodian::increase_user_available_balance(
            &mut pool.base_custodian,
            account_owner(account_cap),
            coin::into_balance(coin)
        );
        event::emit(DepositAsset<BaseAsset>{
            pool_id: *object::uid_as_inner(&pool.id),
            quantity,
            owner: account_owner(account_cap)
        })
    }

    public(package) fun increase_user_available_balance<T>(
        custodian: &mut Custodian<T>,
        owner: address,
        quantity: Balance<T>,
    ) {
        let account = borrow_mut_account_balance<T>(custodian, owner);
        balance::join(&mut account.available_balance, quantity);
    }
  • 存入报价资产
    public fun deposit_quote<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        coin: Coin<QuoteAsset>,
        account_cap: &AccountCap
    ) {
        let quantity = coin::value(&coin);
        assert!(quantity != 0, EInsufficientQuoteCoin);
        custodian::increase_user_available_balance(
            &mut pool.quote_custodian,
            account_owner(account_cap),
            coin::into_balance(coin)
        );
        event::emit(DepositAsset<QuoteAsset>{
            pool_id: *object::uid_as_inner(&pool.id),
            quantity,
            owner: account_owner(account_cap)
        })
    }

(3)提取资产(withdraw_basewithdraw_quote

  • 相应的有2个提取资产的方法
    public fun withdraw_base<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        quantity: u64,
        account_cap: &AccountCap,
        ctx: &mut TxContext
    ): Coin<BaseAsset> {
        assert!(quantity > 0, EInvalidQuantity);
        event::emit(WithdrawAsset<BaseAsset>{
            pool_id: *object::uid_as_inner(&pool.id),
            quantity,
            owner: account_owner(account_cap)
        });
        custodian::withdraw_asset(&mut pool.base_custodian, quantity, account_cap, ctx)
    }

    public fun withdraw_quote<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        quantity: u64,
        account_cap: &AccountCap,
        ctx: &mut TxContext
    ): Coin<QuoteAsset> {
        assert!(quantity > 0, EInvalidQuantity);
        event::emit(WithdrawAsset<QuoteAsset>{
            pool_id: *object::uid_as_inner(&pool.id),
            quantity,
            owner: account_owner(account_cap)
        });
        custodian::withdraw_asset(&mut pool.quote_custodian, quantity, account_cap, ctx)
    }

(4)挂限价单(place_limit_order

  • 挂单前需确保已经有了托管账户,并且拥有足够用于交易的基础资产或报价资产

  • is_bid:表示卖出或买入基础资产

    • true表示使用报价资产购买基础资产(即:使用USDT购买SUI
    • false表示出售基础资产获得报价资产(即:卖出SUI获得USDT
  • 返回值:成交的基础资产数量、成交的报价资产数量、是否为挂单方订单、挂单方订单的ID

    • 当限价订单未成功匹配时,将返回false以表示未成功匹配,并返回一个无意义的订单ID:0
    • 当限价订单成功匹配时,我们将返回true以表示成功匹配,并返回相应的订单ID
    /// Place a limit order to the order book.
    /// Returns (base quantity filled, quote quantity filled, whether a maker order is being placed, order id of the maker order).
    /// When the limit order is not successfully placed, we return false to indicate that and also returns a meaningless order_id 0.
    /// When the limit order is successfully placed, we return true to indicate that and also the corresponding order_id.
    /// So please check that boolean value first before using the order id.
    public fun place_limit_order<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        client_order_id: u64,
        price: u64,
        quantity: u64,
        self_matching_prevention: u8,
        is_bid: bool,
        expire_timestamp: u64, // Expiration timestamp in ms in absolute value inclusive.
        restriction: u8,
        clock: &Clock,
        account_cap: &AccountCap,
        ctx: &mut TxContext
    ): (u64, u64, bool, u64) {
        let (base_quantity_filled, quote_quantity_filled, is_success, order_id, _meta_data) = place_limit_order_int(
            pool,
            client_order_id,
            price,
            quantity,
            self_matching_prevention,
            is_bid,
            expire_timestamp, // Expiration timestamp in ms in absolute value inclusive.
            restriction,
            clock,
            account_cap,
            false, // don't compute metadata
            ctx
        );
        (base_quantity_filled, quote_quantity_filled, is_success, order_id)
    }

4.3 市价单

(1)挂市价单(place_market_order

  • 挂市价单不需要托管账户
    /// Place a market order to the order book.
    public fun place_market_order<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        account_cap: &AccountCap,
        client_order_id: u64,
        quantity: u64,
        is_bid: bool,
        base_coin: Coin<BaseAsset>,
        quote_coin: Coin<QuoteAsset>,
        clock: &Clock,
        ctx: &mut TxContext,
    ): (Coin<BaseAsset>, Coin<QuoteAsset>) {
        let (base_coin, quote_coin, _metadata) = place_market_order_int(
            pool,
            account_cap,
            client_order_id,
            quantity,
            is_bid,
            base_coin,
            quote_coin,
            clock,
            false, // don't return metadata
            ctx
        );
        (base_coin, quote_coin)
    }

4.4 资产交换

(1)基础资产兑换成报价资产(swap_exact_base_for_quote

    // for smart routing
    public fun swap_exact_base_for_quote<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        client_order_id: u64,
        account_cap: &AccountCap,
        quantity: u64,
        base_coin: Coin<BaseAsset>,
        quote_coin: Coin<QuoteAsset>,
        clock: &Clock,
        ctx: &mut TxContext,
    ): (Coin<BaseAsset>, Coin<QuoteAsset>, u64) {
        assert!(quantity > 0, EInvalidQuantity);
        assert!(coin::value(&base_coin) >= quantity, EInsufficientBaseCoin);
        let original_val = coin::value(&quote_coin);
        let (ret_base_coin, ret_quote_coin) = place_market_order(
            pool,
            account_cap,
            client_order_id,
            quantity,
            false,
            base_coin,
            quote_coin,
            clock,
            ctx
        );
        let ret_val = coin::value(&ret_quote_coin);
        (ret_base_coin, ret_quote_coin, ret_val - original_val)
    }

(2)报价资产兑换成基础资产(swap_exact_quote_for_base

    // for smart routing
    public fun swap_exact_quote_for_base<BaseAsset, QuoteAsset>(
        pool: &mut Pool<BaseAsset, QuoteAsset>,
        client_order_id: u64,
        account_cap: &AccountCap,
        quantity: u64,
        clock: &Clock,
        quote_coin: Coin<QuoteAsset>,
        ctx: &mut TxContext,
    ): (Coin<BaseAsset>, Coin<QuoteAsset>, u64) {
        assert!(quantity > 0, EInvalidQuantity);
        assert!(coin::value(&quote_coin) >= quantity, EInsufficientQuoteCoin);
        let (base_asset_balance, quote_asset_balance, _matched_order_metadata) = match_bid_with_quote_quantity(
            pool,
            account_cap,
            client_order_id,
            quantity,
            MAX_PRICE,
            clock::timestamp_ms(clock),
            coin::into_balance(quote_coin),
            false // don't return metadata
        );
        let val = balance::value(&base_asset_balance);
        (coin::from_balance(base_asset_balance, ctx), coin::from_balance(quote_asset_balance, ctx), val)
    }

5 更多

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rzexin
rzexin
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江湖只有他的大名,没有他的介绍。