GUSD发行Token

in #gusd6 years ago

我们看过这个token发行图,在Impl和Custodian中插入了PrintLimiter,这次来仔细看下PrintLimiter的实现。

合约代码

这部分代码不多,直接全放上来吧!

/** @title  A contact to govern hybrid control over increases to the token supply.
  *
  * @notice  A contract that acts as a custodian of the active token
  * implementation, and an intermediary between it and the ‘true’ custodian.
  * It preserves the functionality of direct custodianship as well as granting
  * limited control of token supply increases to an additional key.
  *
  * @dev  This contract is a layer of indirection between an instance of
  * ERC20Impl and a custodian. The functionality of the custodianship over
  * the token implementation is preserved (printing and custodian changes),
  * but this contract adds the ability for an additional key
  * (the 'limited printer') to increase the token supply up to a ceiling,
  * and this supply ceiling can only be raised by the custodian.
  *
  * @author  Gemini Trust Company, LLC
  */
contract PrintLimiter is LockRequestable {

    // TYPES
    /// @dev The struct type for pending ceiling raises.
    struct PendingCeilingRaise {
        uint256 raiseBy;
    }

    // MEMBERS
    /// @dev  The reference to the active token implementation.
    ERC20Impl public erc20Impl;

    /// @dev  The address of the account or contract that acts as the custodian.
    address public custodian;

    /** @dev  The sole authorized caller of limited printing.
      * This account is also authorized to lower the supply ceiling.
      */
    address public limitedPrinter;

    /** @dev  The maximum that the token supply can be increased to
      * through use of the limited printing feature.
      * The difference between the current total supply and the supply
      * ceiling is what is available to the 'limited printer' account.
      * The value of the ceiling can only be increased by the custodian.
      */
    uint256 public totalSupplyCeiling;

    /// @dev  The map of lock ids to pending ceiling raises.
    mapping (bytes32 => PendingCeilingRaise) public pendingRaiseMap;

    // CONSTRUCTOR
    function PrintLimiter(
        address _erc20Impl,
        address _custodian,
        address _limitedPrinter,
        uint256 _initialCeiling
    )
        public
    {
        erc20Impl = ERC20Impl(_erc20Impl);
        custodian = _custodian;
        limitedPrinter = _limitedPrinter;
        totalSupplyCeiling = _initialCeiling;
    }

    // MODIFIERS
    modifier onlyCustodian {
        require(msg.sender == custodian);
        _;
    }
    modifier onlyLimitedPrinter {
        require(msg.sender == limitedPrinter);
        _;
    }

    /** @notice  Increases the token supply, with the newly created tokens
      * being added to the balance of the specified account.
      *
      * @dev  The function checks that the value to print does not
      * exceed the supply ceiling when added to the current total supply.
      * NOTE: printing to the zero address is disallowed.
      *
      * @param  _receiver  The receiving address of the print.
      * @param  _value  The number of tokens to add to the total supply and the
      * balance of the receiving address.
      */
    function limitedPrint(address _receiver, uint256 _value) public onlyLimitedPrinter {
        uint256 totalSupply = erc20Impl.totalSupply();
        uint256 newTotalSupply = totalSupply + _value;

        require(newTotalSupply >= totalSupply);
        require(newTotalSupply <= totalSupplyCeiling);
        erc20Impl.confirmPrint(erc20Impl.requestPrint(_receiver, _value));
    }

    /** @notice  Requests an increase to the supply ceiling.
      *
      * @dev  Returns a unique lock id associated with the request.
      * Anyone can call this function, but confirming the request is authorized
      * by the custodian.
      *
      * @param  _raiseBy  The amount by which to raise the ceiling.
      *
      * @return  lockId  A unique identifier for this request.
      */
    function requestCeilingRaise(uint256 _raiseBy) public returns (bytes32 lockId) {
        require(_raiseBy != 0);

        lockId = generateLockId();

        pendingRaiseMap[lockId] = PendingCeilingRaise({
            raiseBy: _raiseBy
        });

        emit CeilingRaiseLocked(lockId, _raiseBy);
    }

    /** @notice  Confirms a pending increase in the token supply.
      *
      * @dev  When called by the custodian with a lock id associated with a
      * pending ceiling increase, the amount requested is added to the
      * current supply ceiling.
      * NOTE: this function will not execute any raise that would overflow the
      * supply ceiling, but it will not revert either.
      *
      * @param  _lockId  The identifier of a pending ceiling raise request.
      */
    function confirmCeilingRaise(bytes32 _lockId) public onlyCustodian {
        PendingCeilingRaise storage pendingRaise = pendingRaiseMap[_lockId];

        // copy locals of references to struct members
        uint256 raiseBy = pendingRaise.raiseBy;
        // accounts for a gibberish _lockId
        require(raiseBy != 0);

        delete pendingRaiseMap[_lockId];

        uint256 newCeiling = totalSupplyCeiling + raiseBy;
        // overflow check
        if (newCeiling >= totalSupplyCeiling) {
            totalSupplyCeiling = newCeiling;

            emit CeilingRaiseConfirmed(_lockId, raiseBy, newCeiling);
        }
    }

    /** @notice  Lowers the supply ceiling, further constraining the bound of
      * what can be printed by the limited printer.
      *
      * @dev  The limited printer is the sole authorized caller of this function,
      * so it is the only account that can elect to lower its limit to increase
      * the token supply.
      *
      * @param  _lowerBy  The amount by which to lower the supply ceiling.
      */
    function lowerCeiling(uint256 _lowerBy) public onlyLimitedPrinter {
        uint256 newCeiling = totalSupplyCeiling - _lowerBy;
        // overflow check
        require(newCeiling <= totalSupplyCeiling);
        totalSupplyCeiling = newCeiling;

        emit CeilingLowered(_lowerBy, newCeiling);
    }

    /** @notice  Pass-through control of print confirmation, allowing this
      * contract's custodian to act as the custodian of the associated
      * active token implementation.
      *
      * @dev  This contract is the direct custodian of the active token
      * implementation, but this function allows this contract's custodian
      * to act as though it were the direct custodian of the active
      * token implementation. Therefore the custodian retains control of
      * unlimited printing.
      *
      * @param  _lockId  The identifier of a pending print request in
      * the associated active token implementation.
      */
    function confirmPrintProxy(bytes32 _lockId) public onlyCustodian {
        erc20Impl.confirmPrint(_lockId);
    }

    /** @notice  Pass-through control of custodian change confirmation,
      * allowing this contract's custodian to act as the custodian of
      * the associated active token implementation.
      *
      * @dev  This contract is the direct custodian of the active token
      * implementation, but this function allows this contract's custodian
      * to act as though it were the direct custodian of the active
      * token implementation. Therefore the custodian retains control of
      * custodian changes.
      *
      * @param  _lockId  The identifier of a pending custodian change request
      * in the associated active token implementation.
      */
    function confirmCustodianChangeProxy(bytes32 _lockId) public onlyCustodian {
        erc20Impl.confirmCustodianChange(_lockId);
    }

    // EVENTS
    /// @dev  Emitted by successful `requestCeilingRaise` calls.
    event CeilingRaiseLocked(bytes32 _lockId, uint256 _raiseBy);
    /// @dev  Emitted by successful `confirmCeilingRaise` calls.
    event CeilingRaiseConfirmed(bytes32 _lockId, uint256 _raiseBy, uint256 _newCeiling);

    /// @dev  Emitted by successful `lowerCeiling` calls.
    event CeilingLowered(uint256 _lowerBy, uint256 _newCeiling);
}

构造函数中传入了_erc20Impl(ERC20Impl合约地址)、_custodian(Custodian地址)、_limitedPrinter(受限发行人地址)和_initialCeiling(受限发行人初始最大发行量)。

通过Custodian可以改变受限发行人的最大发行量,以下三个函数处理:

    function requestCeilingRaise(uint256 _raiseBy) public returns (bytes32 lockId)
    function confirmCeilingRaise(bytes32 _lockId) public onlyCustodian
    function lowerCeiling(uint256 _lowerBy) public onlyLimitedPrinter

受限发行人通过limitedPrint()函数就可以发行token,但是受限发行人不能无限发行token,是受totalSupplyCeiling这个变量控制的,而totalSupplyCeiling是由Custodian设置的。

合约中有ERC20Impl的变量erc20Impl,确认发行时会调用erc20Impl的confirmPrint函数。

同时在ERC20Impl中有两个函数,需要Custodian才能调用,如下:

    function confirmPrint(bytes32 _lockId) public onlyCustodian
    function confirmCustodianChange(bytes32 _lockId) public onlyCustodian    

而ERC20Impl的Custodian是PrintLimiter合约地址,所以PrintLimiter实现了两个同样的函数,只是做下代理转发,这样就可以从PrintLimiter的Custodian调用了,如下:

    function confirmPrintProxy(bytes32 _lockId) public onlyCustodian
    function confirmCustodianChangeProxy(bytes32 _lockId) public onlyCustodian

ERC20Impl

看看ERC20Impl中的confirmPrint函数:

    function confirmPrint(bytes32 _lockId) public onlyCustodian {
        PendingPrint storage print = pendingPrintMap[_lockId];

        // reject ‘null’ results from the map lookup
        // this can only be the case if an unknown `_lockId` is received
        address receiver = print.receiver;
        require (receiver != address(0));
        uint256 value = print.value;

        delete pendingPrintMap[_lockId];

        uint256 supply = erc20Store.totalSupply();
        uint256 newSupply = supply + value;
        if (newSupply >= supply) {
          erc20Store.setTotalSupply(newSupply);
          erc20Store.addBalance(receiver, value);

          emit PrintingConfirmed(_lockId, receiver, value);
          erc20Proxy.emitTransfer(address(0), receiver, value);
        }
    }

这个函数有onlyCustodian修饰,这也就是ERC20Impl的Custodian与ERC20Proxy和ERC20Store的Custodian不是一个的原因,因为ERC20Impl的Custodian是PrintLimiter合约地址。

结论

GUSD不像其它ERC20代币在合约建立时就设定了发行总量,而是存入美元才发行GUSD,通过PrintLimiter增加了代币发行的灵活性,可以在一定授权额度内自由发行,这也就是GUSD白皮书说的既有线下签名的安全,又有线上签名的灵活了。

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