pragma solidity ^0.7.0;
/**
* @title MakerDAO.
* @dev Collateralized Borrowing.
*/
import { TokenInterface, AccountInterface } from "../../common/interfaces.sol";
import { Helpers } from "./helpers.sol";
import { Events } from "./events.sol";
import { VatLike, TokenJoinInterface } from "./interface.sol";
abstract contract MakerResolver is Helpers, Events {
/**
* @dev Open Vault
* @notice Open a MakerDAO Vault
* @param colType Type of Collateral.(eg: 'ETH-A')
*/
function open(string calldata colType) external payable returns (string memory _eventName, bytes memory _eventParam) {
bytes32 ilk = stringToBytes32(colType);
require(instaMapping.gemJoinMapping(ilk) != address(0), "wrong-col-type");
uint256 vault = managerContract.open(ilk, address(this));
_eventName = "LogOpen(uint256,bytes32)";
_eventParam = abi.encode(vault, ilk);
}
/**
* @dev Close Vault
* @notice Close a MakerDAO Vault
* @param vault Vault ID to close.
*/
function close(uint256 vault) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(_vault);
(uint ink, uint art) = VatLike(managerContract.vat()).urns(ilk, urn);
require(ink == 0 && art == 0, "vault-has-assets");
require(managerContract.owns(_vault) == address(this), "not-owner");
managerContract.give(_vault, giveAddr);
_eventName = "LogClose(uint256,bytes32)";
_eventParam = abi.encode(_vault, ilk);
}
/**
* @dev Transfer Vault
* @notice Transfer a MakerDAO Vault to "nextOwner"
* @param vault Vault ID to close.
* @param nextOwner Address of the next owner of the vault.
*/
function transfer(
uint vault,
address nextOwner
) external payable returns (string memory _eventName, bytes memory _eventParam) {
require(AccountInterface(address(this)).isAuth(nextOwner), "nextOwner-is-not-auth");
uint256 _vault = getVault(vault);
(bytes32 ilk,) = getVaultData(_vault);
require(managerContract.owns(_vault) == address(this), "not-owner");
managerContract.give(_vault, nextOwner);
_eventName = "LogTransfer(uint256,bytes32,address)";
_eventParam = abi.encode(_vault, ilk, nextOwner);
}
/**
* @dev Deposit ETH/ERC20_Token Collateral.
* @notice Deposit collateral to a MakerDAO vault
* @param vault Vault ID. (Use 0 for last opened vault)
* @param amt The amount of tokens to deposit. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens deposited.
*/
function deposit(
uint256 vault,
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
uint _vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(_vault);
address colAddr = instaMapping.gemJoinMapping(ilk);
TokenJoinInterface tokenJoinContract = TokenJoinInterface(colAddr);
TokenInterface tokenContract = tokenJoinContract.gem();
if (isEth(address(tokenContract))) {
_amt = _amt == uint(-1) ? address(this).balance : _amt;
tokenContract.deposit{value: _amt}();
} else {
_amt = _amt == uint(-1) ? tokenContract.balanceOf(address(this)) : _amt;
}
approve(tokenContract, address(colAddr), _amt);
tokenJoinContract.join(address(this), _amt);
VatLike(managerContract.vat()).frob(
ilk,
urn,
address(this),
address(this),
toInt(convertTo18(tokenJoinContract.dec(), _amt)),
0
);
setUint(setId, _amt);
_eventName = "LogDeposit(uint256,bytes32,uint256,uint256,uint256)";
_eventParam = abi.encode(_vault, ilk, _amt, getId, setId);
}
/**
* @dev Withdraw ETH/ERC20_Token Collateral.
* @notice Withdraw collateral from a MakerDAO vault
* @param vault Vault ID. (Use 0 for last opened vault)
* @param amt The amount of tokens to withdraw. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of tokens withdrawn.
*/
function withdraw(
uint256 vault,
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
uint _vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(_vault);
address colAddr = instaMapping.gemJoinMapping(ilk);
TokenJoinInterface tokenJoinContract = TokenJoinInterface(colAddr);
uint _amt18;
if (_amt == uint(-1)) {
(_amt18,) = VatLike(managerContract.vat()).urns(ilk, urn);
_amt = convert18ToDec(tokenJoinContract.dec(), _amt18);
} else {
_amt18 = convertTo18(tokenJoinContract.dec(), _amt);
}
managerContract.frob(
_vault,
-toInt(_amt18),
0
);
managerContract.flux(
_vault,
address(this),
_amt18
);
TokenInterface tokenContract = tokenJoinContract.gem();
if (isEth(address(tokenContract))) {
tokenJoinContract.exit(address(this), _amt);
tokenContract.withdraw(_amt);
} else {
tokenJoinContract.exit(address(this), _amt);
}
setUint(setId, _amt);
_eventName = "LogWithdraw(uint256,bytes32,uint256,uint256,uint256)";
_eventParam = abi.encode(_vault, ilk, _amt, getId, setId);
}
/**
* @dev Borrow DAI.
* @notice Borrow DAI using a MakerDAO vault
* @param vault Vault ID. (Use 0 for last opened vault)
* @param amt The amount of DAI to borrow.
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of DAI borrowed.
*/
function borrow(
uint256 vault,
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
uint _vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(_vault);
VatLike vatContract = VatLike(managerContract.vat());
managerContract.frob(
_vault,
0,
_getBorrowAmt(
address(vatContract),
urn,
ilk,
_amt
)
);
managerContract.move(
_vault,
address(this),
toRad(_amt)
);
if (vatContract.can(address(this), address(daiJoinContract)) == 0) {
vatContract.hope(address(daiJoinContract));
}
daiJoinContract.exit(address(this), _amt);
setUint(setId, _amt);
_eventName = "LogBorrow(uint256,bytes32,uint256,uint256,uint256)";
_eventParam = abi.encode(_vault, ilk, _amt, getId, setId);
}
/**
* @dev Payback borrowed DAI.
* @notice Payback DAI debt owed by a MakerDAO vault
* @param vault Vault ID. (Use 0 for last opened vault)
* @param amt The amount of DAI to payback. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of DAI paid back.
*/
function payback(
uint256 vault,
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
uint _vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(_vault);
address vat = managerContract.vat();
uint _maxDebt = _getVaultDebt(vat, ilk, urn);
_amt = _amt == uint(-1) ? _maxDebt : _amt;
require(_maxDebt >= _amt, "paying-excess-debt");
approve(daiJoinContract.dai(), address(daiJoinContract), _amt);
daiJoinContract.join(urn, _amt);
managerContract.frob(
_vault,
0,
_getWipeAmt(
vat,
VatLike(vat).dai(urn),
urn,
ilk
)
);
setUint(setId, _amt);
_eventName = "LogPayback(uint256,bytes32,uint256,uint256,uint256)";
_eventParam = abi.encode(_vault, ilk, _amt, getId, setId);
}
/**
* @dev Withdraw leftover ETH/ERC20_Token after Liquidation.
* @notice Withdraw leftover collateral after Liquidation.
* @param vault Vault ID. (Use 0 for last opened vault)
* @param amt token amount to Withdraw. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of collateral withdrawn.
*/
function withdrawLiquidated(
uint256 vault,
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
(bytes32 ilk, address urn) = getVaultData(vault);
address colAddr = instaMapping.gemJoinMapping(ilk);
TokenJoinInterface tokenJoinContract = TokenJoinInterface(colAddr);
uint _amt18;
if (_amt == uint(-1)) {
_amt18 = VatLike(managerContract.vat()).gem(ilk, urn);
_amt = convert18ToDec(tokenJoinContract.dec(), _amt18);
} else {
_amt18 = convertTo18(tokenJoinContract.dec(), _amt);
}
managerContract.flux(
vault,
address(this),
_amt18
);
TokenInterface tokenContract = tokenJoinContract.gem();
tokenJoinContract.exit(address(this), _amt);
if (isEth(address(tokenContract))) {
tokenContract.withdraw(_amt);
}
setUint(setId, _amt);
_eventName = "LogWithdrawLiquidated(uint256,bytes32,uint256,uint256,uint256)";
_eventParam = abi.encode(vault, ilk, _amt, getId, setId);
}
struct MakerData {
uint _vault;
address colAddr;
TokenJoinInterface tokenJoinContract;
VatLike vatContract;
TokenInterface tokenContract;
}
/**
* @dev Deposit ETH/ERC20_Token Collateral and Borrow DAI.
* @notice Deposit collateral and borrow DAI.
* @param vault Vault ID. (Use 0 for last opened vault)
* @param depositAmt The amount of tokens to deposit. (For max: `uint256(-1)`)
* @param borrowAmt The amount of DAI to borrow.
* @param getIdDeposit ID to retrieve depositAmt.
* @param getIdBorrow ID to retrieve borrowAmt.
* @param setIdDeposit ID stores the amount of tokens deposited.
* @param setIdBorrow ID stores the amount of DAI borrowed.
*/
function depositAndBorrow(
uint256 vault,
uint256 depositAmt,
uint256 borrowAmt,
uint256 getIdDeposit,
uint256 getIdBorrow,
uint256 setIdDeposit,
uint256 setIdBorrow
) external payable returns (string memory _eventName, bytes memory _eventParam) {
MakerData memory makerData;
uint _amtDeposit = getUint(getIdDeposit, depositAmt);
uint _amtBorrow = getUint(getIdBorrow, borrowAmt);
makerData._vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(makerData._vault);
makerData.colAddr = instaMapping.gemJoinMapping(ilk);
makerData.tokenJoinContract = TokenJoinInterface(makerData.colAddr);
makerData.vatContract = VatLike(managerContract.vat());
makerData.tokenContract = makerData.tokenJoinContract.gem();
if (isEth(address(makerData.tokenContract))) {
_amtDeposit = _amtDeposit == uint(-1) ? address(this).balance : _amtDeposit;
makerData.tokenContract.deposit{value: _amtDeposit}();
} else {
_amtDeposit = _amtDeposit == uint(-1) ? makerData.tokenContract.balanceOf(address(this)) : _amtDeposit;
}
approve(makerData.tokenContract, address(makerData.colAddr), _amtDeposit);
makerData.tokenJoinContract.join(urn, _amtDeposit);
managerContract.frob(
makerData._vault,
toInt(convertTo18(makerData.tokenJoinContract.dec(), _amtDeposit)),
_getBorrowAmt(
address(makerData.vatContract),
urn,
ilk,
_amtBorrow
)
);
managerContract.move(
makerData._vault,
address(this),
toRad(_amtBorrow)
);
if (makerData.vatContract.can(address(this), address(daiJoinContract)) == 0) {
makerData.vatContract.hope(address(daiJoinContract));
}
daiJoinContract.exit(address(this), _amtBorrow);
setUint(setIdDeposit, _amtDeposit);
setUint(setIdBorrow, _amtBorrow);
_eventName = "LogDepositAndBorrow(uint256,bytes32,uint256,uint256,uint256,uint256,uint256,uint256)";
_eventParam = abi.encode(
makerData._vault,
ilk,
_amtDeposit,
_amtBorrow,
getIdDeposit,
getIdBorrow,
setIdDeposit,
setIdBorrow
);
}
/**
* @dev Exit DAI from urn.
* @notice Exit DAI from urn.
* @param vault Vault ID. (Use 0 for last opened vault)
* @param amt The amount of DAI to exit. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of DAI exited.
*/
function exitDai(
uint256 vault,
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
uint _vault = getVault(vault);
(bytes32 ilk, address urn) = getVaultData(_vault);
VatLike vatContract = VatLike(managerContract.vat());
if(_amt == uint(-1)) {
_amt = vatContract.dai(urn);
_amt = _amt / 10 ** 27;
}
managerContract.move(
_vault,
address(this),
toRad(_amt)
);
if (vatContract.can(address(this), address(daiJoinContract)) == 0) {
vatContract.hope(address(daiJoinContract));
}
daiJoinContract.exit(address(this), _amt);
setUint(setId, _amt);
_eventName = "LogExitDai(uint256,bytes32,uint256,uint256,uint256)";
_eventParam = abi.encode(_vault, ilk, _amt, getId, setId);
}
/**
* @dev Deposit DAI in DSR.
* @notice Deposit DAI in DSR.
* @param amt The amount of DAI to deposit. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of DAI deposited.
*/
function depositDai(
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
_amt = _amt == uint(-1) ?
daiJoinContract.dai().balanceOf(address(this)) :
_amt;
VatLike vat = daiJoinContract.vat();
uint chi = potContract.drip();
approve(daiJoinContract.dai(), address(daiJoinContract), _amt);
daiJoinContract.join(address(this), _amt);
if (vat.can(address(this), address(potContract)) == 0) {
vat.hope(address(potContract));
}
potContract.join(mul(_amt, RAY) / chi);
setUint(setId, _amt);
_eventName = "LogDepositDai(uint256,uint256,uint256)";
_eventParam = abi.encode(_amt, getId, setId);
}
/**
* @dev Withdraw DAI from DSR.
* @notice Withdraw DAI from DSR.
* @param amt The amount of DAI to withdraw. (For max: `uint256(-1)`)
* @param getId ID to retrieve amt.
* @param setId ID stores the amount of DAI withdrawn.
*/
function withdrawDai(
uint256 amt,
uint256 getId,
uint256 setId
) external payable returns (string memory _eventName, bytes memory _eventParam) {
uint _amt = getUint(getId, amt);
VatLike vat = daiJoinContract.vat();
uint chi = potContract.drip();
uint pie;
if (_amt == uint(-1)) {
pie = potContract.pie(address(this));
_amt = mul(chi, pie) / RAY;
} else {
pie = mul(_amt, RAY) / chi;
}
potContract.exit(pie);
uint bal = vat.dai(address(this));
if (vat.can(address(this), address(daiJoinContract)) == 0) {
vat.hope(address(daiJoinContract));
}
daiJoinContract.exit(
address(this),
bal >= mul(_amt, RAY) ? _amt : bal / RAY
);
setUint(setId, _amt);
_eventName = "LogWithdrawDai(uint256,uint256,uint256)";
_eventParam = abi.encode(_amt, getId, setId);
}
}
contract ConnectV2MakerDAO is MakerResolver {
string public constant name = "MakerDAO-v1.2";
}