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This contract contains unverified libraries: @aave/core-v3/contracts/protocol/libraries/logic/LiquidationLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/SupplyLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/EModeLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/FlashLoanLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/BorrowLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/BridgeLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/PoolLogic.sol, @aave/core-v3/contracts/protocol/libraries/logic/CalldataLogic.sol
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Contract Name:
L2Pool
Compiler Version
v0.8.10+commit.fc410830
Optimization Enabled:
Yes with 100000 runs
Other Settings:
default evmVersion
Contract Source Code (Solidity Standard Json-Input format)
pragma solidity ^0.8.10;
import {Pool} from './Pool.sol';
import {IPoolAddressesProvider} from '../../interfaces/IPoolAddressesProvider.sol';
import {IL2Pool} from '../../interfaces/IL2Pool.sol';
import {CalldataLogic} from '../libraries/logic/CalldataLogic.sol';
/**
* @title L2Pool
* @author Aave
* @notice Calldata optimized extension of the Pool contract allowing users to pass compact calldata representation
* to reduce transaction costs on rollups.
*/
contract L2Pool is Pool, IL2Pool {
/**
* @dev Constructor.
* @param provider The address of the PoolAddressesProvider contract
*/
constructor(IPoolAddressesProvider provider) Pool(provider) {
// Intentionally left blank
}
/// @inheritdoc IL2Pool
function supply(bytes32 args) external override {
(address asset, uint256 amount, uint16 referralCode) = CalldataLogic.decodeSupplyParams(
_reservesList,
args
);
supply(asset, amount, msg.sender, referralCode);
}
/// @inheritdoc IL2Pool
function supplyWithPermit(
bytes32 args,
bytes32 r,
bytes32 s
) external override {
(address asset, uint256 amount, uint16 referralCode, uint256 deadline, uint8 v) = CalldataLogic
.decodeSupplyWithPermitParams(_reservesList, args);
supplyWithPermit(asset, amount, msg.sender, referralCode, deadline, v, r, s);
}
/// @inheritdoc IL2Pool
function withdraw(bytes32 args) external override {
(address asset, uint256 amount) = CalldataLogic.decodeWithdrawParams(_reservesList, args);
withdraw(asset, amount, msg.sender);
}
/// @inheritdoc IL2Pool
function borrow(bytes32 args) external override {
(address asset, uint256 amount, uint256 interestRateMode, uint16 referralCode) = CalldataLogic
.decodeBorrowParams(_reservesList, args);
borrow(asset, amount, interestRateMode, referralCode, msg.sender);
}
/// @inheritdoc IL2Pool
function repay(bytes32 args) external override returns (uint256) {
(address asset, uint256 amount, uint256 interestRateMode) = CalldataLogic.decodeRepayParams(
_reservesList,
args
);
return repay(asset, amount, interestRateMode, msg.sender);
}
/// @inheritdoc IL2Pool
function repayWithPermit(
bytes32 args,
bytes32 r,
bytes32 s
) external override returns (uint256) {
(
address asset,
uint256 amount,
uint256 interestRateMode,
uint256 deadline,
uint8 v
) = CalldataLogic.decodeRepayWithPermitParams(_reservesList, args);
return repayWithPermit(asset, amount, interestRateMode, msg.sender, deadline, v, r, s);
}
/// @inheritdoc IL2Pool
function repayWithATokens(bytes32 args) external override returns (uint256) {
(address asset, uint256 amount, uint256 interestRateMode) = CalldataLogic.decodeRepayParams(
_reservesList,
args
);
return repayWithATokens(asset, amount, interestRateMode);
}
/// @inheritdoc IL2Pool
function swapBorrowRateMode(bytes32 args) external override {
(address asset, uint256 interestRateMode) = CalldataLogic.decodeSwapBorrowRateModeParams(
_reservesList,
args
);
swapBorrowRateMode(asset, interestRateMode);
}
/// @inheritdoc IL2Pool
function rebalanceStableBorrowRate(bytes32 args) external override {
(address asset, address user) = CalldataLogic.decodeRebalanceStableBorrowRateParams(
_reservesList,
args
);
rebalanceStableBorrowRate(asset, user);
}
/// @inheritdoc IL2Pool
function setUserUseReserveAsCollateral(bytes32 args) external override {
(address asset, bool useAsCollateral) = CalldataLogic.decodeSetUserUseReserveAsCollateralParams(
_reservesList,
args
);
setUserUseReserveAsCollateral(asset, useAsCollateral);
}
/// @inheritdoc IL2Pool
function liquidationCall(bytes32 args1, bytes32 args2) external override {
(
address collateralAsset,
address debtAsset,
address user,
uint256 debtToCover,
bool receiveAToken
) = CalldataLogic.decodeLiquidationCallParams(_reservesList, args1, args2);
liquidationCall(collateralAsset, debtAsset, user, debtToCover, receiveAToken);
}
}// SPDX-License-Identifier: LGPL-3.0-or-later
pragma solidity 0.8.10;
import {IERC20} from '../../openzeppelin/contracts/IERC20.sol';
/// @title Gnosis Protocol v2 Safe ERC20 Transfer Library
/// @author Gnosis Developers
/// @dev Gas-efficient version of Openzeppelin's SafeERC20 contract.
library GPv2SafeERC20 {
/// @dev Wrapper around a call to the ERC20 function `transfer` that reverts
/// also when the token returns `false`.
function safeTransfer(
IERC20 token,
address to,
uint256 value
) internal {
bytes4 selector_ = token.transfer.selector;
// solhint-disable-next-line no-inline-assembly
assembly {
let freeMemoryPointer := mload(0x40)
mstore(freeMemoryPointer, selector_)
mstore(add(freeMemoryPointer, 4), and(to, 0xffffffffffffffffffffffffffffffffffffffff))
mstore(add(freeMemoryPointer, 36), value)
if iszero(call(gas(), token, 0, freeMemoryPointer, 68, 0, 0)) {
returndatacopy(0, 0, returndatasize())
revert(0, returndatasize())
}
}
require(getLastTransferResult(token), 'GPv2: failed transfer');
}
/// @dev Wrapper around a call to the ERC20 function `transferFrom` that
/// reverts also when the token returns `false`.
function safeTransferFrom(
IERC20 token,
address from,
address to,
uint256 value
) internal {
bytes4 selector_ = token.transferFrom.selector;
// solhint-disable-next-line no-inline-assembly
assembly {
let freeMemoryPointer := mload(0x40)
mstore(freeMemoryPointer, selector_)
mstore(add(freeMemoryPointer, 4), and(from, 0xffffffffffffffffffffffffffffffffffffffff))
mstore(add(freeMemoryPointer, 36), and(to, 0xffffffffffffffffffffffffffffffffffffffff))
mstore(add(freeMemoryPointer, 68), value)
if iszero(call(gas(), token, 0, freeMemoryPointer, 100, 0, 0)) {
returndatacopy(0, 0, returndatasize())
revert(0, returndatasize())
}
}
require(getLastTransferResult(token), 'GPv2: failed transferFrom');
}
/// @dev Verifies that the last return was a successful `transfer*` call.
/// This is done by checking that the return data is either empty, or
/// is a valid ABI encoded boolean.
function getLastTransferResult(IERC20 token) private view returns (bool success) {
// NOTE: Inspecting previous return data requires assembly. Note that
// we write the return data to memory 0 in the case where the return
// data size is 32, this is OK since the first 64 bytes of memory are
// reserved by Solidy as a scratch space that can be used within
// assembly blocks.
// <https://docs.soliditylang.org/en/v0.7.6/internals/layout_in_memory.html>
// solhint-disable-next-line no-inline-assembly
assembly {
/// @dev Revert with an ABI encoded Solidity error with a message
/// that fits into 32-bytes.
///
/// An ABI encoded Solidity error has the following memory layout:
///
/// ------------+----------------------------------
/// byte range | value
/// ------------+----------------------------------
/// 0x00..0x04 | selector("Error(string)")
/// 0x04..0x24 | string offset (always 0x20)
/// 0x24..0x44 | string length
/// 0x44..0x64 | string value, padded to 32-bytes
function revertWithMessage(length, message) {
mstore(0x00, '\x08\xc3\x79\xa0')
mstore(0x04, 0x20)
mstore(0x24, length)
mstore(0x44, message)
revert(0x00, 0x64)
}
switch returndatasize()
// Non-standard ERC20 transfer without return.
case 0 {
// NOTE: When the return data size is 0, verify that there
// is code at the address. This is done in order to maintain
// compatibility with Solidity calling conventions.
// <https://docs.soliditylang.org/en/v0.7.6/control-structures.html#external-function-calls>
if iszero(extcodesize(token)) {
revertWithMessage(20, 'GPv2: not a contract')
}
success := 1
}
// Standard ERC20 transfer returning boolean success value.
case 32 {
returndatacopy(0, 0, returndatasize())
// NOTE: For ABI encoding v1, any non-zero value is accepted
// as `true` for a boolean. In order to stay compatible with
// OpenZeppelin's `SafeERC20` library which is known to work
// with the existing ERC20 implementation we care about,
// make sure we return success for any non-zero return value
// from the `transfer*` call.
success := iszero(iszero(mload(0)))
}
default {
revertWithMessage(31, 'GPv2: malformed transfer result')
}
}
}
}// SPDX-License-Identifier: agpl-3.0
pragma solidity 0.8.10;
/**
* @dev Collection of functions related to the address type
*/
library Address {
/**
* @dev Returns true if `account` is a contract.
*
* [IMPORTANT]
* ====
* It is unsafe to assume that an address for which this function returns
* false is an externally-owned account (EOA) and not a contract.
*
* Among others, `isContract` will return false for the following
* types of addresses:
*
* - an externally-owned account
* - a contract in construction
* - an address where a contract will be created
* - an address where a contract lived, but was destroyed
* ====
*/
function isContract(address account) internal view returns (bool) {
// According to EIP-1052, 0x0 is the value returned for not-yet created accounts
// and 0xc5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470 is returned
// for accounts without code, i.e. `keccak256('')`
bytes32 codehash;
bytes32 accountHash = 0xc5d2460186f7233c927e7db2dcc703c0e500b653ca82273b7bfad8045d85a470;
// solhint-disable-next-line no-inline-assembly
assembly {
codehash := extcodehash(account)
}
return (codehash != accountHash && codehash != 0x0);
}
/**
* @dev Replacement for Solidity's `transfer`: sends `amount` wei to
* `recipient`, forwarding all available gas and reverting on errors.
*
* https://eips.ethereum.org/EIPS/eip-1884[EIP1884] increases the gas cost
* of certain opcodes, possibly making contracts go over the 2300 gas limit
* imposed by `transfer`, making them unable to receive funds via
* `transfer`. {sendValue} removes this limitation.
*
* https://diligence.consensys.net/posts/2019/09/stop-using-soliditys-transfer-now/[Learn more].
*
* IMPORTANT: because control is transferred to `recipient`, care must be
* taken to not create reentrancy vulnerabilities. Consider using
* {ReentrancyGuard} or the
* https://solidity.readthedocs.io/en/v0.5.11/security-considerations.html#use-the-checks-effects-interactions-pattern[checks-effects-interactions pattern].
*/
function sendValue(address payable recipient, uint256 amount) internal {
require(address(this).balance >= amount, 'Address: insufficient balance');
// solhint-disable-next-line avoid-low-level-calls, avoid-call-value
(bool success, ) = recipient.call{value: amount}('');
require(success, 'Address: unable to send value, recipient may have reverted');
}
}// SPDX-License-Identifier: agpl-3.0
pragma solidity 0.8.10;
/**
* @dev Interface of the ERC20 standard as defined in the EIP.
*/
interface IERC20 {
/**
* @dev Returns the amount of tokens in existence.
*/
function totalSupply() external view returns (uint256);
/**
* @dev Returns the amount of tokens owned by `account`.
*/
function balanceOf(address account) external view returns (uint256);
/**
* @dev Moves `amount` tokens from the caller's account to `recipient`.
*
* Returns a boolean value indicating whether the operation succeeded.
*
* Emits a {Transfer} event.
*/
function transfer(address recipient, uint256 amount) external returns (bool);
/**
* @dev Returns the remaining number of tokens that `spender` will be
* allowed to spend on behalf of `owner` through {transferFrom}. This is
* zero by default.
*
* This value changes when {approve} or {transferFrom} are called.
*/
function allowance(address owner, address spender) external view returns (uint256);
/**
* @dev Sets `amount` as the allowance of `spender` over the caller's tokens.
*
* Returns a boolean value indicating whether the operation succeeded.
*
* IMPORTANT: Beware that changing an allowance with this method brings the risk
* that someone may use both the old and the new allowance by unfortunate
* transaction ordering. One possible solution to mitigate this race
* condition is to first reduce the spender's allowance to 0 and set the
* desired value afterwards:
* https://github.com/ethereum/EIPs/issues/20#issuecomment-263524729
*
* Emits an {Approval} event.
*/
function approve(address spender, uint256 amount) external returns (bool);
/**
* @dev Moves `amount` tokens from `sender` to `recipient` using the
* allowance mechanism. `amount` is then deducted from the caller's
* allowance.
*
* Returns a boolean value indicating whether the operation succeeded.
*
* Emits a {Transfer} event.
*/
function transferFrom(
address sender,
address recipient,
uint256 amount
) external returns (bool);
/**
* @dev Emitted when `value` tokens are moved from one account (`from`) to
* another (`to`).
*
* Note that `value` may be zero.
*/
event Transfer(address indexed from, address indexed to, uint256 value);
/**
* @dev Emitted when the allowance of a `spender` for an `owner` is set by
* a call to {approve}. `value` is the new allowance.
*/
event Approval(address indexed owner, address indexed spender, uint256 value);
}// SPDX-License-Identifier: MIT
// OpenZeppelin Contracts v4.4.1 (utils/math/SafeCast.sol)
pragma solidity 0.8.10;
/**
* @dev Wrappers over Solidity's uintXX/intXX casting operators with added overflow
* checks.
*
* Downcasting from uint256/int256 in Solidity does not revert on overflow. This can
* easily result in undesired exploitation or bugs, since developers usually
* assume that overflows raise errors. `SafeCast` restores this intuition by
* reverting the transaction when such an operation overflows.
*
* Using this library instead of the unchecked operations eliminates an entire
* class of bugs, so it's recommended to use it always.
*
* Can be combined with {SafeMath} and {SignedSafeMath} to extend it to smaller types, by performing
* all math on `uint256` and `int256` and then downcasting.
*/
library SafeCast {
/**
* @dev Returns the downcasted uint224 from uint256, reverting on
* overflow (when the input is greater than largest uint224).
*
* Counterpart to Solidity's `uint224` operator.
*
* Requirements:
*
* - input must fit into 224 bits
*/
function toUint224(uint256 value) internal pure returns (uint224) {
require(value <= type(uint224).max, "SafeCast: value doesn't fit in 224 bits");
return uint224(value);
}
/**
* @dev Returns the downcasted uint128 from uint256, reverting on
* overflow (when the input is greater than largest uint128).
*
* Counterpart to Solidity's `uint128` operator.
*
* Requirements:
*
* - input must fit into 128 bits
*/
function toUint128(uint256 value) internal pure returns (uint128) {
require(value <= type(uint128).max, "SafeCast: value doesn't fit in 128 bits");
return uint128(value);
}
/**
* @dev Returns the downcasted uint96 from uint256, reverting on
* overflow (when the input is greater than largest uint96).
*
* Counterpart to Solidity's `uint96` operator.
*
* Requirements:
*
* - input must fit into 96 bits
*/
function toUint96(uint256 value) internal pure returns (uint96) {
require(value <= type(uint96).max, "SafeCast: value doesn't fit in 96 bits");
return uint96(value);
}
/**
* @dev Returns the downcasted uint64 from uint256, reverting on
* overflow (when the input is greater than largest uint64).
*
* Counterpart to Solidity's `uint64` operator.
*
* Requirements:
*
* - input must fit into 64 bits
*/
function toUint64(uint256 value) internal pure returns (uint64) {
require(value <= type(uint64).max, "SafeCast: value doesn't fit in 64 bits");
return uint64(value);
}
/**
* @dev Returns the downcasted uint32 from uint256, reverting on
* overflow (when the input is greater than largest uint32).
*
* Counterpart to Solidity's `uint32` operator.
*
* Requirements:
*
* - input must fit into 32 bits
*/
function toUint32(uint256 value) internal pure returns (uint32) {
require(value <= type(uint32).max, "SafeCast: value doesn't fit in 32 bits");
return uint32(value);
}
/**
* @dev Returns the downcasted uint16 from uint256, reverting on
* overflow (when the input is greater than largest uint16).
*
* Counterpart to Solidity's `uint16` operator.
*
* Requirements:
*
* - input must fit into 16 bits
*/
function toUint16(uint256 value) internal pure returns (uint16) {
require(value <= type(uint16).max, "SafeCast: value doesn't fit in 16 bits");
return uint16(value);
}
/**
* @dev Returns the downcasted uint8 from uint256, reverting on
* overflow (when the input is greater than largest uint8).
*
* Counterpart to Solidity's `uint8` operator.
*
* Requirements:
*
* - input must fit into 8 bits.
*/
function toUint8(uint256 value) internal pure returns (uint8) {
require(value <= type(uint8).max, "SafeCast: value doesn't fit in 8 bits");
return uint8(value);
}
/**
* @dev Converts a signed int256 into an unsigned uint256.
*
* Requirements:
*
* - input must be greater than or equal to 0.
*/
function toUint256(int256 value) internal pure returns (uint256) {
require(value >= 0, 'SafeCast: value must be positive');
return uint256(value);
}
/**
* @dev Returns the downcasted int128 from int256, reverting on
* overflow (when the input is less than smallest int128 or
* greater than largest int128).
*
* Counterpart to Solidity's `int128` operator.
*
* Requirements:
*
* - input must fit into 128 bits
*
* _Available since v3.1._
*/
function toInt128(int256 value) internal pure returns (int128) {
require(
value >= type(int128).min && value <= type(int128).max,
"SafeCast: value doesn't fit in 128 bits"
);
return int128(value);
}
/**
* @dev Returns the downcasted int64 from int256, reverting on
* overflow (when the input is less than smallest int64 or
* greater than largest int64).
*
* Counterpart to Solidity's `int64` operator.
*
* Requirements:
*
* - input must fit into 64 bits
*
* _Available since v3.1._
*/
function toInt64(int256 value) internal pure returns (int64) {
require(
value >= type(int64).min && value <= type(int64).max,
"SafeCast: value doesn't fit in 64 bits"
);
return int64(value);
}
/**
* @dev Returns the downcasted int32 from int256, reverting on
* overflow (when the input is less than smallest int32 or
* greater than largest int32).
*
* Counterpart to Solidity's `int32` operator.
*
* Requirements:
*
* - input must fit into 32 bits
*
* _Available since v3.1._
*/
function toInt32(int256 value) internal pure returns (int32) {
require(
value >= type(int32).min && value <= type(int32).max,
"SafeCast: value doesn't fit in 32 bits"
);
return int32(value);
}
/**
* @dev Returns the downcasted int16 from int256, reverting on
* overflow (when the input is less than smallest int16 or
* greater than largest int16).
*
* Counterpart to Solidity's `int16` operator.
*
* Requirements:
*
* - input must fit into 16 bits
*
* _Available since v3.1._
*/
function toInt16(int256 value) internal pure returns (int16) {
require(
value >= type(int16).min && value <= type(int16).max,
"SafeCast: value doesn't fit in 16 bits"
);
return int16(value);
}
/**
* @dev Returns the downcasted int8 from int256, reverting on
* overflow (when the input is less than smallest int8 or
* greater than largest int8).
*
* Counterpart to Solidity's `int8` operator.
*
* Requirements:
*
* - input must fit into 8 bits.
*
* _Available since v3.1._
*/
function toInt8(int256 value) internal pure returns (int8) {
require(
value >= type(int8).min && value <= type(int8).max,
"SafeCast: value doesn't fit in 8 bits"
);
return int8(value);
}
/**
* @dev Converts an unsigned uint256 into a signed int256.
*
* Requirements:
*
* - input must be less than or equal to maxInt256.
*/
function toInt256(uint256 value) internal pure returns (int256) {
// Note: Unsafe cast below is okay because `type(int256).max` is guaranteed to be positive
require(value <= uint256(type(int256).max), "SafeCast: value doesn't fit in an int256");
return int256(value);
}
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IPoolAddressesProvider} from '../../interfaces/IPoolAddressesProvider.sol';
import {IPool} from '../../interfaces/IPool.sol';
/**
* @title IFlashLoanReceiver
* @author Aave
* @notice Defines the basic interface of a flashloan-receiver contract.
* @dev Implement this interface to develop a flashloan-compatible flashLoanReceiver contract
**/
interface IFlashLoanReceiver {
/**
* @notice Executes an operation after receiving the flash-borrowed assets
* @dev Ensure that the contract can return the debt + premium, e.g., has
* enough funds to repay and has approved the Pool to pull the total amount
* @param assets The addresses of the flash-borrowed assets
* @param amounts The amounts of the flash-borrowed assets
* @param premiums The fee of each flash-borrowed asset
* @param initiator The address of the flashloan initiator
* @param params The byte-encoded params passed when initiating the flashloan
* @return True if the execution of the operation succeeds, false otherwise
*/
function executeOperation(
address[] calldata assets,
uint256[] calldata amounts,
uint256[] calldata premiums,
address initiator,
bytes calldata params
) external returns (bool);
function ADDRESSES_PROVIDER() external view returns (IPoolAddressesProvider);
function POOL() external view returns (IPool);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IPoolAddressesProvider} from '../../interfaces/IPoolAddressesProvider.sol';
import {IPool} from '../../interfaces/IPool.sol';
/**
* @title IFlashLoanSimpleReceiver
* @author Aave
* @notice Defines the basic interface of a flashloan-receiver contract.
* @dev Implement this interface to develop a flashloan-compatible flashLoanReceiver contract
**/
interface IFlashLoanSimpleReceiver {
/**
* @notice Executes an operation after receiving the flash-borrowed asset
* @dev Ensure that the contract can return the debt + premium, e.g., has
* enough funds to repay and has approved the Pool to pull the total amount
* @param asset The address of the flash-borrowed asset
* @param amount The amount of the flash-borrowed asset
* @param premium The fee of the flash-borrowed asset
* @param initiator The address of the flashloan initiator
* @param params The byte-encoded params passed when initiating the flashloan
* @return True if the execution of the operation succeeds, false otherwise
*/
function executeOperation(
address asset,
uint256 amount,
uint256 premium,
address initiator,
bytes calldata params
) external returns (bool);
function ADDRESSES_PROVIDER() external view returns (IPoolAddressesProvider);
function POOL() external view returns (IPool);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IPoolAddressesProvider} from './IPoolAddressesProvider.sol';
/**
* @title IACLManager
* @author Aave
* @notice Defines the basic interface for the ACL Manager
**/
interface IACLManager {
/**
* @notice Returns the contract address of the PoolAddressesProvider
* @return The address of the PoolAddressesProvider
*/
function ADDRESSES_PROVIDER() external view returns (IPoolAddressesProvider);
/**
* @notice Returns the identifier of the PoolAdmin role
* @return The id of the PoolAdmin role
*/
function POOL_ADMIN_ROLE() external view returns (bytes32);
/**
* @notice Returns the identifier of the EmergencyAdmin role
* @return The id of the EmergencyAdmin role
*/
function EMERGENCY_ADMIN_ROLE() external view returns (bytes32);
/**
* @notice Returns the identifier of the RiskAdmin role
* @return The id of the RiskAdmin role
*/
function RISK_ADMIN_ROLE() external view returns (bytes32);
/**
* @notice Returns the identifier of the FlashBorrower role
* @return The id of the FlashBorrower role
*/
function FLASH_BORROWER_ROLE() external view returns (bytes32);
/**
* @notice Returns the identifier of the Bridge role
* @return The id of the Bridge role
*/
function BRIDGE_ROLE() external view returns (bytes32);
/**
* @notice Returns the identifier of the AssetListingAdmin role
* @return The id of the AssetListingAdmin role
*/
function ASSET_LISTING_ADMIN_ROLE() external view returns (bytes32);
/**
* @notice Set the role as admin of a specific role.
* @dev By default the admin role for all roles is `DEFAULT_ADMIN_ROLE`.
* @param role The role to be managed by the admin role
* @param adminRole The admin role
*/
function setRoleAdmin(bytes32 role, bytes32 adminRole) external;
/**
* @notice Adds a new admin as PoolAdmin
* @param admin The address of the new admin
*/
function addPoolAdmin(address admin) external;
/**
* @notice Removes an admin as PoolAdmin
* @param admin The address of the admin to remove
*/
function removePoolAdmin(address admin) external;
/**
* @notice Returns true if the address is PoolAdmin, false otherwise
* @param admin The address to check
* @return True if the given address is PoolAdmin, false otherwise
*/
function isPoolAdmin(address admin) external view returns (bool);
/**
* @notice Adds a new admin as EmergencyAdmin
* @param admin The address of the new admin
*/
function addEmergencyAdmin(address admin) external;
/**
* @notice Removes an admin as EmergencyAdmin
* @param admin The address of the admin to remove
*/
function removeEmergencyAdmin(address admin) external;
/**
* @notice Returns true if the address is EmergencyAdmin, false otherwise
* @param admin The address to check
* @return True if the given address is EmergencyAdmin, false otherwise
*/
function isEmergencyAdmin(address admin) external view returns (bool);
/**
* @notice Adds a new admin as RiskAdmin
* @param admin The address of the new admin
*/
function addRiskAdmin(address admin) external;
/**
* @notice Removes an admin as RiskAdmin
* @param admin The address of the admin to remove
*/
function removeRiskAdmin(address admin) external;
/**
* @notice Returns true if the address is RiskAdmin, false otherwise
* @param admin The address to check
* @return True if the given address is RiskAdmin, false otherwise
*/
function isRiskAdmin(address admin) external view returns (bool);
/**
* @notice Adds a new address as FlashBorrower
* @param borrower The address of the new FlashBorrower
*/
function addFlashBorrower(address borrower) external;
/**
* @notice Removes an admin as FlashBorrower
* @param borrower The address of the FlashBorrower to remove
*/
function removeFlashBorrower(address borrower) external;
/**
* @notice Returns true if the address is FlashBorrower, false otherwise
* @param borrower The address to check
* @return True if the given address is FlashBorrower, false otherwise
*/
function isFlashBorrower(address borrower) external view returns (bool);
/**
* @notice Adds a new address as Bridge
* @param bridge The address of the new Bridge
*/
function addBridge(address bridge) external;
/**
* @notice Removes an address as Bridge
* @param bridge The address of the bridge to remove
*/
function removeBridge(address bridge) external;
/**
* @notice Returns true if the address is Bridge, false otherwise
* @param bridge The address to check
* @return True if the given address is Bridge, false otherwise
*/
function isBridge(address bridge) external view returns (bool);
/**
* @notice Adds a new admin as AssetListingAdmin
* @param admin The address of the new admin
*/
function addAssetListingAdmin(address admin) external;
/**
* @notice Removes an admin as AssetListingAdmin
* @param admin The address of the admin to remove
*/
function removeAssetListingAdmin(address admin) external;
/**
* @notice Returns true if the address is AssetListingAdmin, false otherwise
* @param admin The address to check
* @return True if the given address is AssetListingAdmin, false otherwise
*/
function isAssetListingAdmin(address admin) external view returns (bool);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IERC20} from '../dependencies/openzeppelin/contracts/IERC20.sol';
import {IScaledBalanceToken} from './IScaledBalanceToken.sol';
import {IInitializableAToken} from './IInitializableAToken.sol';
/**
* @title IAToken
* @author Aave
* @notice Defines the basic interface for an AToken.
**/
interface IAToken is IERC20, IScaledBalanceToken, IInitializableAToken {
/**
* @dev Emitted during the transfer action
* @param from The user whose tokens are being transferred
* @param to The recipient
* @param value The amount being transferred
* @param index The next liquidity index of the reserve
**/
event BalanceTransfer(address indexed from, address indexed to, uint256 value, uint256 index);
/**
* @notice Mints `amount` aTokens to `user`
* @param caller The address performing the mint
* @param onBehalfOf The address of the user that will receive the minted aTokens
* @param amount The amount of tokens getting minted
* @param index The next liquidity index of the reserve
* @return `true` if the the previous balance of the user was 0
*/
function mint(
address caller,
address onBehalfOf,
uint256 amount,
uint256 index
) external returns (bool);
/**
* @notice Burns aTokens from `user` and sends the equivalent amount of underlying to `receiverOfUnderlying`
* @dev In some instances, the mint event could be emitted from a burn transaction
* if the amount to burn is less than the interest that the user accrued
* @param from The address from which the aTokens will be burned
* @param receiverOfUnderlying The address that will receive the underlying
* @param amount The amount being burned
* @param index The next liquidity index of the reserve
**/
function burn(
address from,
address receiverOfUnderlying,
uint256 amount,
uint256 index
) external;
/**
* @notice Mints aTokens to the reserve treasury
* @param amount The amount of tokens getting minted
* @param index The next liquidity index of the reserve
*/
function mintToTreasury(uint256 amount, uint256 index) external;
/**
* @notice Transfers aTokens in the event of a borrow being liquidated, in case the liquidators reclaims the aToken
* @param from The address getting liquidated, current owner of the aTokens
* @param to The recipient
* @param value The amount of tokens getting transferred
**/
function transferOnLiquidation(
address from,
address to,
uint256 value
) external;
/**
* @notice Transfers the underlying asset to `target`.
* @dev Used by the Pool to transfer assets in borrow(), withdraw() and flashLoan()
* @param user The recipient of the underlying
* @param amount The amount getting transferred
**/
function transferUnderlyingTo(address user, uint256 amount) external;
/**
* @notice Handles the underlying received by the aToken after the transfer has been completed.
* @dev The default implementation is empty as with standard ERC20 tokens, nothing needs to be done after the
* transfer is concluded. However in the future there may be aTokens that allow for example to stake the underlying
* to receive LM rewards. In that case, `handleRepayment()` would perform the staking of the underlying asset.
* @param user The user executing the repayment
* @param amount The amount getting repaid
**/
function handleRepayment(address user, uint256 amount) external;
/**
* @notice Allow passing a signed message to approve spending
* @dev implements the permit function as for
* https://github.com/ethereum/EIPs/blob/8a34d644aacf0f9f8f00815307fd7dd5da07655f/EIPS/eip-2612.md
* @param owner The owner of the funds
* @param spender The spender
* @param value The amount
* @param deadline The deadline timestamp, type(uint256).max for max deadline
* @param v Signature param
* @param s Signature param
* @param r Signature param
*/
function permit(
address owner,
address spender,
uint256 value,
uint256 deadline,
uint8 v,
bytes32 r,
bytes32 s
) external;
/**
* @notice Returns the address of the underlying asset of this aToken (E.g. WETH for aWETH)
* @return The address of the underlying asset
**/
function UNDERLYING_ASSET_ADDRESS() external view returns (address);
/**
* @notice Returns the address of the Aave treasury, receiving the fees on this aToken.
* @return Address of the Aave treasury
**/
function RESERVE_TREASURY_ADDRESS() external view returns (address);
/**
* @notice Get the domain separator for the token
* @dev Return cached value if chainId matches cache, otherwise recomputes separator
* @return The domain separator of the token at current chain
*/
function DOMAIN_SEPARATOR() external view returns (bytes32);
/**
* @notice Returns the nonce for owner.
* @param owner The address of the owner
* @return The nonce of the owner
**/
function nonces(address owner) external view returns (uint256);
/**
* @notice Rescue and transfer tokens locked in this contract
* @param token The address of the token
* @param to The address of the recipient
* @param amount The amount of token to transfer
*/
function rescueTokens(
address token,
address to,
uint256 amount
) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
/**
* @title IAaveIncentivesController
* @author Aave
* @notice Defines the basic interface for an Aave Incentives Controller.
**/
interface IAaveIncentivesController {
/**
* @dev Emitted during `handleAction`, `claimRewards` and `claimRewardsOnBehalf`
* @param user The user that accrued rewards
* @param amount The amount of accrued rewards
*/
event RewardsAccrued(address indexed user, uint256 amount);
event RewardsClaimed(address indexed user, address indexed to, uint256 amount);
/**
* @dev Emitted during `claimRewards` and `claimRewardsOnBehalf`
* @param user The address that accrued rewards
* @param to The address that will be receiving the rewards
* @param claimer The address that performed the claim
* @param amount The amount of rewards
*/
event RewardsClaimed(
address indexed user,
address indexed to,
address indexed claimer,
uint256 amount
);
/**
* @dev Emitted during `setClaimer`
* @param user The address of the user
* @param claimer The address of the claimer
*/
event ClaimerSet(address indexed user, address indexed claimer);
/**
* @notice Returns the configuration of the distribution for a certain asset
* @param asset The address of the reference asset of the distribution
* @return The asset index
* @return The emission per second
* @return The last updated timestamp
**/
function getAssetData(address asset)
external
view
returns (
uint256,
uint256,
uint256
);
/**
* LEGACY **************************
* @dev Returns the configuration of the distribution for a certain asset
* @param asset The address of the reference asset of the distribution
* @return The asset index, the emission per second and the last updated timestamp
**/
function assets(address asset)
external
view
returns (
uint128,
uint128,
uint256
);
/**
* @notice Whitelists an address to claim the rewards on behalf of another address
* @param user The address of the user
* @param claimer The address of the claimer
*/
function setClaimer(address user, address claimer) external;
/**
* @notice Returns the whitelisted claimer for a certain address (0x0 if not set)
* @param user The address of the user
* @return The claimer address
*/
function getClaimer(address user) external view returns (address);
/**
* @notice Configure assets for a certain rewards emission
* @param assets The assets to incentivize
* @param emissionsPerSecond The emission for each asset
*/
function configureAssets(address[] calldata assets, uint256[] calldata emissionsPerSecond)
external;
/**
* @notice Called by the corresponding asset on any update that affects the rewards distribution
* @param asset The address of the user
* @param userBalance The balance of the user of the asset in the pool
* @param totalSupply The total supply of the asset in the pool
**/
function handleAction(
address asset,
uint256 userBalance,
uint256 totalSupply
) external;
/**
* @notice Returns the total of rewards of a user, already accrued + not yet accrued
* @param assets The assets to accumulate rewards for
* @param user The address of the user
* @return The rewards
**/
function getRewardsBalance(address[] calldata assets, address user)
external
view
returns (uint256);
/**
* @notice Claims reward for a user, on the assets of the pool, accumulating the pending rewards
* @param assets The assets to accumulate rewards for
* @param amount Amount of rewards to claim
* @param to Address that will be receiving the rewards
* @return Rewards claimed
**/
function claimRewards(
address[] calldata assets,
uint256 amount,
address to
) external returns (uint256);
/**
* @notice Claims reward for a user on its behalf, on the assets of the pool, accumulating the pending rewards.
* @dev The caller must be whitelisted via "allowClaimOnBehalf" function by the RewardsAdmin role manager
* @param assets The assets to accumulate rewards for
* @param amount The amount of rewards to claim
* @param user The address to check and claim rewards
* @param to The address that will be receiving the rewards
* @return The amount of rewards claimed
**/
function claimRewardsOnBehalf(
address[] calldata assets,
uint256 amount,
address user,
address to
) external returns (uint256);
/**
* @notice Returns the unclaimed rewards of the user
* @param user The address of the user
* @return The unclaimed user rewards
*/
function getUserUnclaimedRewards(address user) external view returns (uint256);
/**
* @notice Returns the user index for a specific asset
* @param user The address of the user
* @param asset The asset to incentivize
* @return The user index for the asset
*/
function getUserAssetData(address user, address asset) external view returns (uint256);
/**
* @notice for backward compatibility with previous implementation of the Incentives controller
* @return The address of the reward token
*/
function REWARD_TOKEN() external view returns (address);
/**
* @notice for backward compatibility with previous implementation of the Incentives controller
* @return The precision used in the incentives controller
*/
function PRECISION() external view returns (uint8);
/**
* @dev Gets the distribution end timestamp of the emissions
*/
function DISTRIBUTION_END() external view returns (uint256);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IERC20} from '../dependencies/openzeppelin/contracts/IERC20.sol';
/**
* @title IERC20WithPermit
* @author Aave
* @notice Interface for the permit function (EIP-2612)
**/
interface IERC20WithPermit is IERC20 {
/**
* @notice Allow passing a signed message to approve spending
* @dev implements the permit function as for
* https://github.com/ethereum/EIPs/blob/8a34d644aacf0f9f8f00815307fd7dd5da07655f/EIPS/eip-2612.md
* @param owner The owner of the funds
* @param spender The spender
* @param value The amount
* @param deadline The deadline timestamp, type(uint256).max for max deadline
* @param v Signature param
* @param s Signature param
* @param r Signature param
*/
function permit(
address owner,
address spender,
uint256 value,
uint256 deadline,
uint8 v,
bytes32 r,
bytes32 s
) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IAaveIncentivesController} from './IAaveIncentivesController.sol';
import {IPool} from './IPool.sol';
/**
* @title IInitializableAToken
* @author Aave
* @notice Interface for the initialize function on AToken
**/
interface IInitializableAToken {
/**
* @dev Emitted when an aToken is initialized
* @param underlyingAsset The address of the underlying asset
* @param pool The address of the associated pool
* @param treasury The address of the treasury
* @param incentivesController The address of the incentives controller for this aToken
* @param aTokenDecimals The decimals of the underlying
* @param aTokenName The name of the aToken
* @param aTokenSymbol The symbol of the aToken
* @param params A set of encoded parameters for additional initialization
**/
event Initialized(
address indexed underlyingAsset,
address indexed pool,
address treasury,
address incentivesController,
uint8 aTokenDecimals,
string aTokenName,
string aTokenSymbol,
bytes params
);
/**
* @notice Initializes the aToken
* @param pool The pool contract that is initializing this contract
* @param treasury The address of the Aave treasury, receiving the fees on this aToken
* @param underlyingAsset The address of the underlying asset of this aToken (E.g. WETH for aWETH)
* @param incentivesController The smart contract managing potential incentives distribution
* @param aTokenDecimals The decimals of the aToken, same as the underlying asset's
* @param aTokenName The name of the aToken
* @param aTokenSymbol The symbol of the aToken
* @param params A set of encoded parameters for additional initialization
*/
function initialize(
IPool pool,
address treasury,
address underlyingAsset,
IAaveIncentivesController incentivesController,
uint8 aTokenDecimals,
string calldata aTokenName,
string calldata aTokenSymbol,
bytes calldata params
) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IAaveIncentivesController} from './IAaveIncentivesController.sol';
import {IPool} from './IPool.sol';
/**
* @title IInitializableDebtToken
* @author Aave
* @notice Interface for the initialize function common between debt tokens
**/
interface IInitializableDebtToken {
/**
* @dev Emitted when a debt token is initialized
* @param underlyingAsset The address of the underlying asset
* @param pool The address of the associated pool
* @param incentivesController The address of the incentives controller for this aToken
* @param debtTokenDecimals The decimals of the debt token
* @param debtTokenName The name of the debt token
* @param debtTokenSymbol The symbol of the debt token
* @param params A set of encoded parameters for additional initialization
**/
event Initialized(
address indexed underlyingAsset,
address indexed pool,
address incentivesController,
uint8 debtTokenDecimals,
string debtTokenName,
string debtTokenSymbol,
bytes params
);
/**
* @notice Initializes the debt token.
* @param pool The pool contract that is initializing this contract
* @param underlyingAsset The address of the underlying asset of this aToken (E.g. WETH for aWETH)
* @param incentivesController The smart contract managing potential incentives distribution
* @param debtTokenDecimals The decimals of the debtToken, same as the underlying asset's
* @param debtTokenName The name of the token
* @param debtTokenSymbol The symbol of the token
* @param params A set of encoded parameters for additional initialization
*/
function initialize(
IPool pool,
address underlyingAsset,
IAaveIncentivesController incentivesController,
uint8 debtTokenDecimals,
string memory debtTokenName,
string memory debtTokenSymbol,
bytes calldata params
) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
/**
* @title IL2Pool
* @author Aave
* @notice Defines the basic extension interface for an L2 Aave Pool.
**/
interface IL2Pool {
/**
* @notice Calldata efficient wrapper of the supply function on behalf of the caller
* @param args Arguments for the supply function packed in one bytes32
* 96 bits 16 bits 128 bits 16 bits
* | 0-padding | referralCode | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
*/
function supply(bytes32 args) external;
/**
* @notice Calldata efficient wrapper of the supplyWithPermit function on behalf of the caller
* @param args Arguments for the supply function packed in one bytes32
* 56 bits 8 bits 32 bits 16 bits 128 bits 16 bits
* | 0-padding | permitV | shortenedDeadline | referralCode | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
* @param r The R parameter of ERC712 permit sig
* @param s The S parameter of ERC712 permit sig
*/
function supplyWithPermit(
bytes32 args,
bytes32 r,
bytes32 s
) external;
/**
* @notice Calldata efficient wrapper of the withdraw function, withdrawing to the caller
* @param args Arguments for the withdraw function packed in one bytes32
* 112 bits 128 bits 16 bits
* | 0-padding | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
*/
function withdraw(bytes32 args) external;
/**
* @notice Calldata efficient wrapper of the borrow function, borrowing on behalf of the caller
* @param args Arguments for the borrow function packed in one bytes32
* 88 bits 16 bits 8 bits 128 bits 16 bits
* | 0-padding | referralCode | shortenedInterestRateMode | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
*/
function borrow(bytes32 args) external;
/**
* @notice Calldata efficient wrapper of the repay function, repaying on behalf of the caller
* @param args Arguments for the repay function packed in one bytes32
* 104 bits 8 bits 128 bits 16 bits
* | 0-padding | shortenedInterestRateMode | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
* @return The final amount repaid
*/
function repay(bytes32 args) external returns (uint256);
/**
* @notice Calldata efficient wrapper of the repayWithPermit function, repaying on behalf of the caller
* @param args Arguments for the repayWithPermit function packed in one bytes32
* 64 bits 8 bits 32 bits 8 bits 128 bits 16 bits
* | 0-padding | permitV | shortenedDeadline | shortenedInterestRateMode | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
* @param r The R parameter of ERC712 permit sig
* @param s The S parameter of ERC712 permit sig
* @return The final amount repaid
*/
function repayWithPermit(
bytes32 args,
bytes32 r,
bytes32 s
) external returns (uint256);
/**
* @notice Calldata efficient wrapper of the repayWithATokens function
* @param args Arguments for the repayWithATokens function packed in one bytes32
* 104 bits 8 bits 128 bits 16 bits
* | 0-padding | shortenedInterestRateMode | shortenedAmount | assetId |
* @dev the shortenedAmount is cast to 256 bits at decode time, if type(uint128).max the value will be expanded to
* type(uint256).max
* @dev assetId is the index of the asset in the reservesList.
* @return The final amount repaid
*/
function repayWithATokens(bytes32 args) external returns (uint256);
/**
* @notice Calldata efficient wrapper of the swapBorrowRateMode function
* @param args Arguments for the swapBorrowRateMode function packed in one bytes32
* 232 bits 8 bits 16 bits
* | 0-padding | shortenedInterestRateMode | assetId |
* @dev assetId is the index of the asset in the reservesList.
*/
function swapBorrowRateMode(bytes32 args) external;
/**
* @notice Calldata efficient wrapper of the rebalanceStableBorrowRate function
* @param args Arguments for the rebalanceStableBorrowRate function packed in one bytes32
* 80 bits 160 bits 16 bits
* | 0-padding | user address | assetId |
* @dev assetId is the index of the asset in the reservesList.
*/
function rebalanceStableBorrowRate(bytes32 args) external;
/**
* @notice Calldata efficient wrapper of the setUserUseReserveAsCollateral function
* @param args Arguments for the setUserUseReserveAsCollateral function packed in one bytes32
* 239 bits 1 bit 16 bits
* | 0-padding | useAsCollateral | assetId |
* @dev assetId is the index of the asset in the reservesList.
*/
function setUserUseReserveAsCollateral(bytes32 args) external;
/**
* @notice Calldata efficient wrapper of the liquidationCall function
* @param args1 part of the arguments for the liquidationCall function packed in one bytes32
* 64 bits 160 bits 16 bits 16 bits
* | 0-padding | user address | debtAssetId | collateralAssetId |
* @param args2 part of the arguments for the liquidationCall function packed in one bytes32
* 127 bits 1 bit 128 bits
* | 0-padding | receiveAToken | shortenedDebtToCover |
* @dev the shortenedDebtToCover is cast to 256 bits at decode time,
* if type(uint128).max the value will be expanded to type(uint256).max
*/
function liquidationCall(bytes32 args1, bytes32 args2) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IPoolAddressesProvider} from './IPoolAddressesProvider.sol';
import {DataTypes} from '../protocol/libraries/types/DataTypes.sol';
/**
* @title IPool
* @author Aave
* @notice Defines the basic interface for an Aave Pool.
**/
interface IPool {
/**
* @dev Emitted on mintUnbacked()
* @param reserve The address of the underlying asset of the reserve
* @param user The address initiating the supply
* @param onBehalfOf The beneficiary of the supplied assets, receiving the aTokens
* @param amount The amount of supplied assets
* @param referralCode The referral code used
**/
event MintUnbacked(
address indexed reserve,
address user,
address indexed onBehalfOf,
uint256 amount,
uint16 indexed referralCode
);
/**
* @dev Emitted on backUnbacked()
* @param reserve The address of the underlying asset of the reserve
* @param backer The address paying for the backing
* @param amount The amount added as backing
* @param fee The amount paid in fees
**/
event BackUnbacked(address indexed reserve, address indexed backer, uint256 amount, uint256 fee);
/**
* @dev Emitted on supply()
* @param reserve The address of the underlying asset of the reserve
* @param user The address initiating the supply
* @param onBehalfOf The beneficiary of the supply, receiving the aTokens
* @param amount The amount supplied
* @param referralCode The referral code used
**/
event Supply(
address indexed reserve,
address user,
address indexed onBehalfOf,
uint256 amount,
uint16 indexed referralCode
);
/**
* @dev Emitted on withdraw()
* @param reserve The address of the underlying asset being withdrawn
* @param user The address initiating the withdrawal, owner of aTokens
* @param to The address that will receive the underlying
* @param amount The amount to be withdrawn
**/
event Withdraw(address indexed reserve, address indexed user, address indexed to, uint256 amount);
/**
* @dev Emitted on borrow() and flashLoan() when debt needs to be opened
* @param reserve The address of the underlying asset being borrowed
* @param user The address of the user initiating the borrow(), receiving the funds on borrow() or just
* initiator of the transaction on flashLoan()
* @param onBehalfOf The address that will be getting the debt
* @param amount The amount borrowed out
* @param interestRateMode The rate mode: 1 for Stable, 2 for Variable
* @param borrowRate The numeric rate at which the user has borrowed, expressed in ray
* @param referralCode The referral code used
**/
event Borrow(
address indexed reserve,
address user,
address indexed onBehalfOf,
uint256 amount,
DataTypes.InterestRateMode interestRateMode,
uint256 borrowRate,
uint16 indexed referralCode
);
/**
* @dev Emitted on repay()
* @param reserve The address of the underlying asset of the reserve
* @param user The beneficiary of the repayment, getting his debt reduced
* @param repayer The address of the user initiating the repay(), providing the funds
* @param amount The amount repaid
* @param useATokens True if the repayment is done using aTokens, `false` if done with underlying asset directly
**/
event Repay(
address indexed reserve,
address indexed user,
address indexed repayer,
uint256 amount,
bool useATokens
);
/**
* @dev Emitted on swapBorrowRateMode()
* @param reserve The address of the underlying asset of the reserve
* @param user The address of the user swapping his rate mode
* @param interestRateMode The current interest rate mode of the position being swapped: 1 for Stable, 2 for Variable
**/
event SwapBorrowRateMode(
address indexed reserve,
address indexed user,
DataTypes.InterestRateMode interestRateMode
);
/**
* @dev Emitted on borrow(), repay() and liquidationCall() when using isolated assets
* @param asset The address of the underlying asset of the reserve
* @param totalDebt The total isolation mode debt for the reserve
*/
event IsolationModeTotalDebtUpdated(address indexed asset, uint256 totalDebt);
/**
* @dev Emitted when the user selects a certain asset category for eMode
* @param user The address of the user
* @param categoryId The category id
**/
event UserEModeSet(address indexed user, uint8 categoryId);
/**
* @dev Emitted on setUserUseReserveAsCollateral()
* @param reserve The address of the underlying asset of the reserve
* @param user The address of the user enabling the usage as collateral
**/
event ReserveUsedAsCollateralEnabled(address indexed reserve, address indexed user);
/**
* @dev Emitted on setUserUseReserveAsCollateral()
* @param reserve The address of the underlying asset of the reserve
* @param user The address of the user enabling the usage as collateral
**/
event ReserveUsedAsCollateralDisabled(address indexed reserve, address indexed user);
/**
* @dev Emitted on rebalanceStableBorrowRate()
* @param reserve The address of the underlying asset of the reserve
* @param user The address of the user for which the rebalance has been executed
**/
event RebalanceStableBorrowRate(address indexed reserve, address indexed user);
/**
* @dev Emitted on flashLoan()
* @param target The address of the flash loan receiver contract
* @param initiator The address initiating the flash loan
* @param asset The address of the asset being flash borrowed
* @param amount The amount flash borrowed
* @param interestRateMode The flashloan mode: 0 for regular flashloan, 1 for Stable debt, 2 for Variable debt
* @param premium The fee flash borrowed
* @param referralCode The referral code used
**/
event FlashLoan(
address indexed target,
address initiator,
address indexed asset,
uint256 amount,
DataTypes.InterestRateMode interestRateMode,
uint256 premium,
uint16 indexed referralCode
);
/**
* @dev Emitted when a borrower is liquidated.
* @param collateralAsset The address of the underlying asset used as collateral, to receive as result of the liquidation
* @param debtAsset The address of the underlying borrowed asset to be repaid with the liquidation
* @param user The address of the borrower getting liquidated
* @param debtToCover The debt amount of borrowed `asset` the liquidator wants to cover
* @param liquidatedCollateralAmount The amount of collateral received by the liquidator
* @param liquidator The address of the liquidator
* @param receiveAToken True if the liquidators wants to receive the collateral aTokens, `false` if he wants
* to receive the underlying collateral asset directly
**/
event LiquidationCall(
address indexed collateralAsset,
address indexed debtAsset,
address indexed user,
uint256 debtToCover,
uint256 liquidatedCollateralAmount,
address liquidator,
bool receiveAToken
);
/**
* @dev Emitted when the state of a reserve is updated.
* @param reserve The address of the underlying asset of the reserve
* @param liquidityRate The next liquidity rate
* @param stableBorrowRate The next stable borrow rate
* @param variableBorrowRate The next variable borrow rate
* @param liquidityIndex The next liquidity index
* @param variableBorrowIndex The next variable borrow index
**/
event ReserveDataUpdated(
address indexed reserve,
uint256 liquidityRate,
uint256 stableBorrowRate,
uint256 variableBorrowRate,
uint256 liquidityIndex,
uint256 variableBorrowIndex
);
/**
* @dev Emitted when the protocol treasury receives minted aTokens from the accrued interest.
* @param reserve The address of the reserve
* @param amountMinted The amount minted to the treasury
**/
event MintedToTreasury(address indexed reserve, uint256 amountMinted);
/**
* @dev Mints an `amount` of aTokens to the `onBehalfOf`
* @param asset The address of the underlying asset to mint
* @param amount The amount to mint
* @param onBehalfOf The address that will receive the aTokens
* @param referralCode Code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
**/
function mintUnbacked(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) external;
/**
* @dev Back the current unbacked underlying with `amount` and pay `fee`.
* @param asset The address of the underlying asset to back
* @param amount The amount to back
* @param fee The amount paid in fees
**/
function backUnbacked(
address asset,
uint256 amount,
uint256 fee
) external;
/**
* @notice Supplies an `amount` of underlying asset into the reserve, receiving in return overlying aTokens.
* - E.g. User supplies 100 USDC and gets in return 100 aUSDC
* @param asset The address of the underlying asset to supply
* @param amount The amount to be supplied
* @param onBehalfOf The address that will receive the aTokens, same as msg.sender if the user
* wants to receive them on his own wallet, or a different address if the beneficiary of aTokens
* is a different wallet
* @param referralCode Code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
**/
function supply(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) external;
/**
* @notice Supply with transfer approval of asset to be supplied done via permit function
* see: https://eips.ethereum.org/EIPS/eip-2612 and https://eips.ethereum.org/EIPS/eip-713
* @param asset The address of the underlying asset to supply
* @param amount The amount to be supplied
* @param onBehalfOf The address that will receive the aTokens, same as msg.sender if the user
* wants to receive them on his own wallet, or a different address if the beneficiary of aTokens
* is a different wallet
* @param deadline The deadline timestamp that the permit is valid
* @param referralCode Code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
* @param permitV The V parameter of ERC712 permit sig
* @param permitR The R parameter of ERC712 permit sig
* @param permitS The S parameter of ERC712 permit sig
**/
function supplyWithPermit(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode,
uint256 deadline,
uint8 permitV,
bytes32 permitR,
bytes32 permitS
) external;
/**
* @notice Withdraws an `amount` of underlying asset from the reserve, burning the equivalent aTokens owned
* E.g. User has 100 aUSDC, calls withdraw() and receives 100 USDC, burning the 100 aUSDC
* @param asset The address of the underlying asset to withdraw
* @param amount The underlying amount to be withdrawn
* - Send the value type(uint256).max in order to withdraw the whole aToken balance
* @param to The address that will receive the underlying, same as msg.sender if the user
* wants to receive it on his own wallet, or a different address if the beneficiary is a
* different wallet
* @return The final amount withdrawn
**/
function withdraw(
address asset,
uint256 amount,
address to
) external returns (uint256);
/**
* @notice Allows users to borrow a specific `amount` of the reserve underlying asset, provided that the borrower
* already supplied enough collateral, or he was given enough allowance by a credit delegator on the
* corresponding debt token (StableDebtToken or VariableDebtToken)
* - E.g. User borrows 100 USDC passing as `onBehalfOf` his own address, receiving the 100 USDC in his wallet
* and 100 stable/variable debt tokens, depending on the `interestRateMode`
* @param asset The address of the underlying asset to borrow
* @param amount The amount to be borrowed
* @param interestRateMode The interest rate mode at which the user wants to borrow: 1 for Stable, 2 for Variable
* @param referralCode The code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
* @param onBehalfOf The address of the user who will receive the debt. Should be the address of the borrower itself
* calling the function if he wants to borrow against his own collateral, or the address of the credit delegator
* if he has been given credit delegation allowance
**/
function borrow(
address asset,
uint256 amount,
uint256 interestRateMode,
uint16 referralCode,
address onBehalfOf
) external;
/**
* @notice Repays a borrowed `amount` on a specific reserve, burning the equivalent debt tokens owned
* - E.g. User repays 100 USDC, burning 100 variable/stable debt tokens of the `onBehalfOf` address
* @param asset The address of the borrowed underlying asset previously borrowed
* @param amount The amount to repay
* - Send the value type(uint256).max in order to repay the whole debt for `asset` on the specific `debtMode`
* @param interestRateMode The interest rate mode at of the debt the user wants to repay: 1 for Stable, 2 for Variable
* @param onBehalfOf The address of the user who will get his debt reduced/removed. Should be the address of the
* user calling the function if he wants to reduce/remove his own debt, or the address of any other
* other borrower whose debt should be removed
* @return The final amount repaid
**/
function repay(
address asset,
uint256 amount,
uint256 interestRateMode,
address onBehalfOf
) external returns (uint256);
/**
* @notice Repay with transfer approval of asset to be repaid done via permit function
* see: https://eips.ethereum.org/EIPS/eip-2612 and https://eips.ethereum.org/EIPS/eip-713
* @param asset The address of the borrowed underlying asset previously borrowed
* @param amount The amount to repay
* - Send the value type(uint256).max in order to repay the whole debt for `asset` on the specific `debtMode`
* @param interestRateMode The interest rate mode at of the debt the user wants to repay: 1 for Stable, 2 for Variable
* @param onBehalfOf Address of the user who will get his debt reduced/removed. Should be the address of the
* user calling the function if he wants to reduce/remove his own debt, or the address of any other
* other borrower whose debt should be removed
* @param deadline The deadline timestamp that the permit is valid
* @param permitV The V parameter of ERC712 permit sig
* @param permitR The R parameter of ERC712 permit sig
* @param permitS The S parameter of ERC712 permit sig
* @return The final amount repaid
**/
function repayWithPermit(
address asset,
uint256 amount,
uint256 interestRateMode,
address onBehalfOf,
uint256 deadline,
uint8 permitV,
bytes32 permitR,
bytes32 permitS
) external returns (uint256);
/**
* @notice Repays a borrowed `amount` on a specific reserve using the reserve aTokens, burning the
* equivalent debt tokens
* - E.g. User repays 100 USDC using 100 aUSDC, burning 100 variable/stable debt tokens
* @dev Passing uint256.max as amount will clean up any residual aToken dust balance, if the user aToken
* balance is not enough to cover the whole debt
* @param asset The address of the borrowed underlying asset previously borrowed
* @param amount The amount to repay
* - Send the value type(uint256).max in order to repay the whole debt for `asset` on the specific `debtMode`
* @param interestRateMode The interest rate mode at of the debt the user wants to repay: 1 for Stable, 2 for Variable
* @return The final amount repaid
**/
function repayWithATokens(
address asset,
uint256 amount,
uint256 interestRateMode
) external returns (uint256);
/**
* @notice Allows a borrower to swap his debt between stable and variable mode, or vice versa
* @param asset The address of the underlying asset borrowed
* @param interestRateMode The current interest rate mode of the position being swapped: 1 for Stable, 2 for Variable
**/
function swapBorrowRateMode(address asset, uint256 interestRateMode) external;
/**
* @notice Rebalances the stable interest rate of a user to the current stable rate defined on the reserve.
* - Users can be rebalanced if the following conditions are satisfied:
* 1. Usage ratio is above 95%
* 2. the current supply APY is below REBALANCE_UP_THRESHOLD * maxVariableBorrowRate, which means that too
* much has been borrowed at a stable rate and suppliers are not earning enough
* @param asset The address of the underlying asset borrowed
* @param user The address of the user to be rebalanced
**/
function rebalanceStableBorrowRate(address asset, address user) external;
/**
* @notice Allows suppliers to enable/disable a specific supplied asset as collateral
* @param asset The address of the underlying asset supplied
* @param useAsCollateral True if the user wants to use the supply as collateral, false otherwise
**/
function setUserUseReserveAsCollateral(address asset, bool useAsCollateral) external;
/**
* @notice Function to liquidate a non-healthy position collateral-wise, with Health Factor below 1
* - The caller (liquidator) covers `debtToCover` amount of debt of the user getting liquidated, and receives
* a proportionally amount of the `collateralAsset` plus a bonus to cover market risk
* @param collateralAsset The address of the underlying asset used as collateral, to receive as result of the liquidation
* @param debtAsset The address of the underlying borrowed asset to be repaid with the liquidation
* @param user The address of the borrower getting liquidated
* @param debtToCover The debt amount of borrowed `asset` the liquidator wants to cover
* @param receiveAToken True if the liquidators wants to receive the collateral aTokens, `false` if he wants
* to receive the underlying collateral asset directly
**/
function liquidationCall(
address collateralAsset,
address debtAsset,
address user,
uint256 debtToCover,
bool receiveAToken
) external;
/**
* @notice Allows smartcontracts to access the liquidity of the pool within one transaction,
* as long as the amount taken plus a fee is returned.
* @dev IMPORTANT There are security concerns for developers of flashloan receiver contracts that must be kept
* into consideration. For further details please visit https://developers.aave.com
* @param receiverAddress The address of the contract receiving the funds, implementing IFlashLoanReceiver interface
* @param assets The addresses of the assets being flash-borrowed
* @param amounts The amounts of the assets being flash-borrowed
* @param interestRateModes Types of the debt to open if the flash loan is not returned:
* 0 -> Don't open any debt, just revert if funds can't be transferred from the receiver
* 1 -> Open debt at stable rate for the value of the amount flash-borrowed to the `onBehalfOf` address
* 2 -> Open debt at variable rate for the value of the amount flash-borrowed to the `onBehalfOf` address
* @param onBehalfOf The address that will receive the debt in the case of using on `modes` 1 or 2
* @param params Variadic packed params to pass to the receiver as extra information
* @param referralCode The code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
**/
function flashLoan(
address receiverAddress,
address[] calldata assets,
uint256[] calldata amounts,
uint256[] calldata interestRateModes,
address onBehalfOf,
bytes calldata params,
uint16 referralCode
) external;
/**
* @notice Allows smartcontracts to access the liquidity of the pool within one transaction,
* as long as the amount taken plus a fee is returned.
* @dev IMPORTANT There are security concerns for developers of flashloan receiver contracts that must be kept
* into consideration. For further details please visit https://developers.aave.com
* @param receiverAddress The address of the contract receiving the funds, implementing IFlashLoanSimpleReceiver interface
* @param asset The address of the asset being flash-borrowed
* @param amount The amount of the asset being flash-borrowed
* @param params Variadic packed params to pass to the receiver as extra information
* @param referralCode The code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
**/
function flashLoanSimple(
address receiverAddress,
address asset,
uint256 amount,
bytes calldata params,
uint16 referralCode
) external;
/**
* @notice Returns the user account data across all the reserves
* @param user The address of the user
* @return totalCollateralBase The total collateral of the user in the base currency used by the price feed
* @return totalDebtBase The total debt of the user in the base currency used by the price feed
* @return availableBorrowsBase The borrowing power left of the user in the base currency used by the price feed
* @return currentLiquidationThreshold The liquidation threshold of the user
* @return ltv The loan to value of The user
* @return healthFactor The current health factor of the user
**/
function getUserAccountData(address user)
external
view
returns (
uint256 totalCollateralBase,
uint256 totalDebtBase,
uint256 availableBorrowsBase,
uint256 currentLiquidationThreshold,
uint256 ltv,
uint256 healthFactor
);
/**
* @notice Initializes a reserve, activating it, assigning an aToken and debt tokens and an
* interest rate strategy
* @dev Only callable by the PoolConfigurator contract
* @param asset The address of the underlying asset of the reserve
* @param aTokenAddress The address of the aToken that will be assigned to the reserve
* @param stableDebtAddress The address of the StableDebtToken that will be assigned to the reserve
* @param variableDebtAddress The address of the VariableDebtToken that will be assigned to the reserve
* @param interestRateStrategyAddress The address of the interest rate strategy contract
**/
function initReserve(
address asset,
address aTokenAddress,
address stableDebtAddress,
address variableDebtAddress,
address interestRateStrategyAddress
) external;
/**
* @notice Drop a reserve
* @dev Only callable by the PoolConfigurator contract
* @param asset The address of the underlying asset of the reserve
**/
function dropReserve(address asset) external;
/**
* @notice Updates the address of the interest rate strategy contract
* @dev Only callable by the PoolConfigurator contract
* @param asset The address of the underlying asset of the reserve
* @param rateStrategyAddress The address of the interest rate strategy contract
**/
function setReserveInterestRateStrategyAddress(address asset, address rateStrategyAddress)
external;
/**
* @notice Sets the configuration bitmap of the reserve as a whole
* @dev Only callable by the PoolConfigurator contract
* @param asset The address of the underlying asset of the reserve
* @param configuration The new configuration bitmap
**/
function setConfiguration(address asset, DataTypes.ReserveConfigurationMap calldata configuration)
external;
/**
* @notice Returns the configuration of the reserve
* @param asset The address of the underlying asset of the reserve
* @return The configuration of the reserve
**/
function getConfiguration(address asset)
external
view
returns (DataTypes.ReserveConfigurationMap memory);
/**
* @notice Returns the configuration of the user across all the reserves
* @param user The user address
* @return The configuration of the user
**/
function getUserConfiguration(address user)
external
view
returns (DataTypes.UserConfigurationMap memory);
/**
* @notice Returns the normalized income normalized income of the reserve
* @param asset The address of the underlying asset of the reserve
* @return The reserve's normalized income
*/
function getReserveNormalizedIncome(address asset) external view returns (uint256);
/**
* @notice Returns the normalized variable debt per unit of asset
* @param asset The address of the underlying asset of the reserve
* @return The reserve normalized variable debt
*/
function getReserveNormalizedVariableDebt(address asset) external view returns (uint256);
/**
* @notice Returns the state and configuration of the reserve
* @param asset The address of the underlying asset of the reserve
* @return The state and configuration data of the reserve
**/
function getReserveData(address asset) external view returns (DataTypes.ReserveData memory);
/**
* @notice Validates and finalizes an aToken transfer
* @dev Only callable by the overlying aToken of the `asset`
* @param asset The address of the underlying asset of the aToken
* @param from The user from which the aTokens are transferred
* @param to The user receiving the aTokens
* @param amount The amount being transferred/withdrawn
* @param balanceFromBefore The aToken balance of the `from` user before the transfer
* @param balanceToBefore The aToken balance of the `to` user before the transfer
*/
function finalizeTransfer(
address asset,
address from,
address to,
uint256 amount,
uint256 balanceFromBefore,
uint256 balanceToBefore
) external;
/**
* @notice Returns the list of the underlying assets of all the initialized reserves
* @dev It does not include dropped reserves
* @return The addresses of the underlying assets of the initialized reserves
**/
function getReservesList() external view returns (address[] memory);
/**
* @notice Returns the address of the underlying asset of a reserve by the reserve id as stored in the DataTypes.ReserveData struct
* @param id The id of the reserve as stored in the DataTypes.ReserveData struct
* @return The address of the reserve associated with id
**/
function getReserveAddressById(uint16 id) external view returns (address);
/**
* @notice Returns the PoolAddressesProvider connected to this contract
* @return The address of the PoolAddressesProvider
**/
function ADDRESSES_PROVIDER() external view returns (IPoolAddressesProvider);
/**
* @notice Updates the protocol fee on the bridging
* @param bridgeProtocolFee The part of the premium sent to the protocol treasury
*/
function updateBridgeProtocolFee(uint256 bridgeProtocolFee) external;
/**
* @notice Updates flash loan premiums. Flash loan premium consists of two parts:
* - A part is sent to aToken holders as extra, one time accumulated interest
* - A part is collected by the protocol treasury
* @dev The total premium is calculated on the total borrowed amount
* @dev The premium to protocol is calculated on the total premium, being a percentage of `flashLoanPremiumTotal`
* @dev Only callable by the PoolConfigurator contract
* @param flashLoanPremiumTotal The total premium, expressed in bps
* @param flashLoanPremiumToProtocol The part of the premium sent to the protocol treasury, expressed in bps
*/
function updateFlashloanPremiums(
uint128 flashLoanPremiumTotal,
uint128 flashLoanPremiumToProtocol
) external;
/**
* @notice Configures a new category for the eMode.
* @dev In eMode, the protocol allows very high borrowing power to borrow assets of the same category.
* The category 0 is reserved as it's the default for volatile assets
* @param id The id of the category
* @param config The configuration of the category
*/
function configureEModeCategory(uint8 id, DataTypes.EModeCategory memory config) external;
/**
* @notice Returns the data of an eMode category
* @param id The id of the category
* @return The configuration data of the category
*/
function getEModeCategoryData(uint8 id) external view returns (DataTypes.EModeCategory memory);
/**
* @notice Allows a user to use the protocol in eMode
* @param categoryId The id of the category
*/
function setUserEMode(uint8 categoryId) external;
/**
* @notice Returns the eMode the user is using
* @param user The address of the user
* @return The eMode id
*/
function getUserEMode(address user) external view returns (uint256);
/**
* @notice Resets the isolation mode total debt of the given asset to zero
* @dev It requires the given asset has zero debt ceiling
* @param asset The address of the underlying asset to reset the isolationModeTotalDebt
*/
function resetIsolationModeTotalDebt(address asset) external;
/**
* @notice Returns the percentage of available liquidity that can be borrowed at once at stable rate
* @return The percentage of available liquidity to borrow, expressed in bps
*/
function MAX_STABLE_RATE_BORROW_SIZE_PERCENT() external view returns (uint256);
/**
* @notice Returns the total fee on flash loans
* @return The total fee on flashloans
*/
function FLASHLOAN_PREMIUM_TOTAL() external view returns (uint128);
/**
* @notice Returns the part of the bridge fees sent to protocol
* @return The bridge fee sent to the protocol treasury
*/
function BRIDGE_PROTOCOL_FEE() external view returns (uint256);
/**
* @notice Returns the part of the flashloan fees sent to protocol
* @return The flashloan fee sent to the protocol treasury
*/
function FLASHLOAN_PREMIUM_TO_PROTOCOL() external view returns (uint128);
/**
* @notice Returns the maximum number of reserves supported to be listed in this Pool
* @return The maximum number of reserves supported
*/
function MAX_NUMBER_RESERVES() external view returns (uint16);
/**
* @notice Mints the assets accrued through the reserve factor to the treasury in the form of aTokens
* @param assets The list of reserves for which the minting needs to be executed
**/
function mintToTreasury(address[] calldata assets) external;
/**
* @notice Rescue and transfer tokens locked in this contract
* @param token The address of the token
* @param to The address of the recipient
* @param amount The amount of token to transfer
*/
function rescueTokens(
address token,
address to,
uint256 amount
) external;
/**
* @notice Supplies an `amount` of underlying asset into the reserve, receiving in return overlying aTokens.
* - E.g. User supplies 100 USDC and gets in return 100 aUSDC
* @dev Deprecated: Use the `supply` function instead
* @param asset The address of the underlying asset to supply
* @param amount The amount to be supplied
* @param onBehalfOf The address that will receive the aTokens, same as msg.sender if the user
* wants to receive them on his own wallet, or a different address if the beneficiary of aTokens
* is a different wallet
* @param referralCode Code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
**/
function deposit(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
/**
* @title IPoolAddressesProvider
* @author Aave
* @notice Defines the basic interface for a Pool Addresses Provider.
**/
interface IPoolAddressesProvider {
/**
* @dev Emitted when the market identifier is updated.
* @param oldMarketId The old id of the market
* @param newMarketId The new id of the market
*/
event MarketIdSet(string indexed oldMarketId, string indexed newMarketId);
/**
* @dev Emitted when the pool is updated.
* @param oldAddress The old address of the Pool
* @param newAddress The new address of the Pool
*/
event PoolUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the pool configurator is updated.
* @param oldAddress The old address of the PoolConfigurator
* @param newAddress The new address of the PoolConfigurator
*/
event PoolConfiguratorUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the price oracle is updated.
* @param oldAddress The old address of the PriceOracle
* @param newAddress The new address of the PriceOracle
*/
event PriceOracleUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the ACL manager is updated.
* @param oldAddress The old address of the ACLManager
* @param newAddress The new address of the ACLManager
*/
event ACLManagerUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the ACL admin is updated.
* @param oldAddress The old address of the ACLAdmin
* @param newAddress The new address of the ACLAdmin
*/
event ACLAdminUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the price oracle sentinel is updated.
* @param oldAddress The old address of the PriceOracleSentinel
* @param newAddress The new address of the PriceOracleSentinel
*/
event PriceOracleSentinelUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the pool data provider is updated.
* @param oldAddress The old address of the PoolDataProvider
* @param newAddress The new address of the PoolDataProvider
*/
event PoolDataProviderUpdated(address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when a new proxy is created.
* @param id The identifier of the proxy
* @param proxyAddress The address of the created proxy contract
* @param implementationAddress The address of the implementation contract
*/
event ProxyCreated(
bytes32 indexed id,
address indexed proxyAddress,
address indexed implementationAddress
);
/**
* @dev Emitted when a new non-proxied contract address is registered.
* @param id The identifier of the contract
* @param oldAddress The address of the old contract
* @param newAddress The address of the new contract
*/
event AddressSet(bytes32 indexed id, address indexed oldAddress, address indexed newAddress);
/**
* @dev Emitted when the implementation of the proxy registered with id is updated
* @param id The identifier of the contract
* @param proxyAddress The address of the proxy contract
* @param oldImplementationAddress The address of the old implementation contract
* @param newImplementationAddress The address of the new implementation contract
*/
event AddressSetAsProxy(
bytes32 indexed id,
address indexed proxyAddress,
address oldImplementationAddress,
address indexed newImplementationAddress
);
/**
* @notice Returns the id of the Aave market to which this contract points to.
* @return The market id
**/
function getMarketId() external view returns (string memory);
/**
* @notice Associates an id with a specific PoolAddressesProvider.
* @dev This can be used to create an onchain registry of PoolAddressesProviders to
* identify and validate multiple Aave markets.
* @param newMarketId The market id
*/
function setMarketId(string calldata newMarketId) external;
/**
* @notice Returns an address by its identifier.
* @dev The returned address might be an EOA or a contract, potentially proxied
* @dev It returns ZERO if there is no registered address with the given id
* @param id The id
* @return The address of the registered for the specified id
*/
function getAddress(bytes32 id) external view returns (address);
/**
* @notice General function to update the implementation of a proxy registered with
* certain `id`. If there is no proxy registered, it will instantiate one and
* set as implementation the `newImplementationAddress`.
* @dev IMPORTANT Use this function carefully, only for ids that don't have an explicit
* setter function, in order to avoid unexpected consequences
* @param id The id
* @param newImplementationAddress The address of the new implementation
*/
function setAddressAsProxy(bytes32 id, address newImplementationAddress) external;
/**
* @notice Sets an address for an id replacing the address saved in the addresses map.
* @dev IMPORTANT Use this function carefully, as it will do a hard replacement
* @param id The id
* @param newAddress The address to set
*/
function setAddress(bytes32 id, address newAddress) external;
/**
* @notice Returns the address of the Pool proxy.
* @return The Pool proxy address
**/
function getPool() external view returns (address);
/**
* @notice Updates the implementation of the Pool, or creates a proxy
* setting the new `pool` implementation when the function is called for the first time.
* @param newPoolImpl The new Pool implementation
**/
function setPoolImpl(address newPoolImpl) external;
/**
* @notice Returns the address of the PoolConfigurator proxy.
* @return The PoolConfigurator proxy address
**/
function getPoolConfigurator() external view returns (address);
/**
* @notice Updates the implementation of the PoolConfigurator, or creates a proxy
* setting the new `PoolConfigurator` implementation when the function is called for the first time.
* @param newPoolConfiguratorImpl The new PoolConfigurator implementation
**/
function setPoolConfiguratorImpl(address newPoolConfiguratorImpl) external;
/**
* @notice Returns the address of the price oracle.
* @return The address of the PriceOracle
*/
function getPriceOracle() external view returns (address);
/**
* @notice Updates the address of the price oracle.
* @param newPriceOracle The address of the new PriceOracle
*/
function setPriceOracle(address newPriceOracle) external;
/**
* @notice Returns the address of the ACL manager.
* @return The address of the ACLManager
*/
function getACLManager() external view returns (address);
/**
* @notice Updates the address of the ACL manager.
* @param newAclManager The address of the new ACLManager
**/
function setACLManager(address newAclManager) external;
/**
* @notice Returns the address of the ACL admin.
* @return The address of the ACL admin
*/
function getACLAdmin() external view returns (address);
/**
* @notice Updates the address of the ACL admin.
* @param newAclAdmin The address of the new ACL admin
*/
function setACLAdmin(address newAclAdmin) external;
/**
* @notice Returns the address of the price oracle sentinel.
* @return The address of the PriceOracleSentinel
*/
function getPriceOracleSentinel() external view returns (address);
/**
* @notice Updates the address of the price oracle sentinel.
* @param newPriceOracleSentinel The address of the new PriceOracleSentinel
**/
function setPriceOracleSentinel(address newPriceOracleSentinel) external;
/**
* @notice Returns the address of the data provider.
* @return The address of the DataProvider
*/
function getPoolDataProvider() external view returns (address);
/**
* @notice Updates the address of the data provider.
* @param newDataProvider The address of the new DataProvider
**/
function setPoolDataProvider(address newDataProvider) external;
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
/**
* @title IPriceOracleGetter
* @author Aave
* @notice Interface for the Aave price oracle.
**/
interface IPriceOracleGetter {
/**
* @notice Returns the base currency address
* @dev Address 0x0 is reserved for USD as base currency.
* @return Returns the base currency address.
**/
function BASE_CURRENCY() external view returns (address);
/**
* @notice Returns the base currency unit
* @dev 1 ether for ETH, 1e8 for USD.
* @return Returns the base currency unit.
**/
function BASE_CURRENCY_UNIT() external view returns (uint256);
/**
* @notice Returns the asset price in the base currency
* @param asset The address of the asset
* @return The price of the asset
**/
function getAssetPrice(address asset) external view returns (uint256);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IPoolAddressesProvider} from './IPoolAddressesProvider.sol';
/**
* @title IPriceOracleSentinel
* @author Aave
* @notice Defines the basic interface for the PriceOracleSentinel
*/
interface IPriceOracleSentinel {
/**
* @dev Emitted after the sequencer oracle is updated
* @param newSequencerOracle The new sequencer oracle
*/
event SequencerOracleUpdated(address newSequencerOracle);
/**
* @dev Emitted after the grace period is updated
* @param newGracePeriod The new grace period value
*/
event GracePeriodUpdated(uint256 newGracePeriod);
/**
* @notice Returns the PoolAddressesProvider
* @return The address of the PoolAddressesProvider contract
*/
function ADDRESSES_PROVIDER() external view returns (IPoolAddressesProvider);
/**
* @notice Returns true if the `borrow` operation is allowed.
* @dev Operation not allowed when PriceOracle is down or grace period not passed.
* @return True if the `borrow` operation is allowed, false otherwise.
*/
function isBorrowAllowed() external view returns (bool);
/**
* @notice Returns true if the `liquidation` operation is allowed.
* @dev Operation not allowed when PriceOracle is down or grace period not passed.
* @return True if the `liquidation` operation is allowed, false otherwise.
*/
function isLiquidationAllowed() external view returns (bool);
/**
* @notice Updates the address of the sequencer oracle
* @param newSequencerOracle The address of the new Sequencer Oracle to use
*/
function setSequencerOracle(address newSequencerOracle) external;
/**
* @notice Updates the duration of the grace period
* @param newGracePeriod The value of the new grace period duration
*/
function setGracePeriod(uint256 newGracePeriod) external;
/**
* @notice Returns the SequencerOracle
* @return The address of the sequencer oracle contract
*/
function getSequencerOracle() external view returns (address);
/**
* @notice Returns the grace period
* @return The duration of the grace period
*/
function getGracePeriod() external view returns (uint256);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {DataTypes} from '../protocol/libraries/types/DataTypes.sol';
/**
* @title IReserveInterestRateStrategy
* @author Aave
* @notice Interface for the calculation of the interest rates
*/
interface IReserveInterestRateStrategy {
/**
* @notice Returns the base variable borrow rate
* @return The base variable borrow rate, expressed in ray
**/
function getBaseVariableBorrowRate() external view returns (uint256);
/**
* @notice Returns the maximum variable borrow rate
* @return The maximum variable borrow rate, expressed in ray
**/
function getMaxVariableBorrowRate() external view returns (uint256);
/**
* @notice Calculates the interest rates depending on the reserve's state and configurations
* @param params The parameters needed to calculate interest rates
* @return liquidityRate The liquidity rate expressed in rays
* @return stableBorrowRate The stable borrow rate expressed in rays
* @return variableBorrowRate The variable borrow rate expressed in rays
**/
function calculateInterestRates(DataTypes.CalculateInterestRatesParams memory params)
external
view
returns (
uint256,
uint256,
uint256
);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
/**
* @title IScaledBalanceToken
* @author Aave
* @notice Defines the basic interface for a scaledbalance token.
**/
interface IScaledBalanceToken {
/**
* @dev Emitted after the mint action
* @param caller The address performing the mint
* @param onBehalfOf The address of the user that will receive the minted scaled balance tokens
* @param value The amount being minted (user entered amount + balance increase from interest)
* @param balanceIncrease The increase in balance since the last action of the user
* @param index The next liquidity index of the reserve
**/
event Mint(
address indexed caller,
address indexed onBehalfOf,
uint256 value,
uint256 balanceIncrease,
uint256 index
);
/**
* @dev Emitted after scaled balance tokens are burned
* @param from The address from which the scaled tokens will be burned
* @param target The address that will receive the underlying, if any
* @param value The amount being burned (user entered amount - balance increase from interest)
* @param balanceIncrease The increase in balance since the last action of the user
* @param index The next liquidity index of the reserve
**/
event Burn(
address indexed from,
address indexed target,
uint256 value,
uint256 balanceIncrease,
uint256 index
);
/**
* @notice Returns the scaled balance of the user.
* @dev The scaled balance is the sum of all the updated stored balance divided by the reserve's liquidity index
* at the moment of the update
* @param user The user whose balance is calculated
* @return The scaled balance of the user
**/
function scaledBalanceOf(address user) external view returns (uint256);
/**
* @notice Returns the scaled balance of the user and the scaled total supply.
* @param user The address of the user
* @return The scaled balance of the user
* @return The scaled total supply
**/
function getScaledUserBalanceAndSupply(address user) external view returns (uint256, uint256);
/**
* @notice Returns the scaled total supply of the scaled balance token. Represents sum(debt/index)
* @return The scaled total supply
**/
function scaledTotalSupply() external view returns (uint256);
/**
* @notice Returns last index interest was accrued to the user's balance
* @param user The address of the user
* @return The last index interest was accrued to the user's balance, expressed in ray
**/
function getPreviousIndex(address user) external view returns (uint256);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IInitializableDebtToken} from './IInitializableDebtToken.sol';
/**
* @title IStableDebtToken
* @author Aave
* @notice Defines the interface for the stable debt token
* @dev It does not inherit from IERC20 to save in code size
**/
interface IStableDebtToken is IInitializableDebtToken {
/**
* @dev Emitted when new stable debt is minted
* @param user The address of the user who triggered the minting
* @param onBehalfOf The recipient of stable debt tokens
* @param amount The amount minted (user entered amount + balance increase from interest)
* @param currentBalance The current balance of the user
* @param balanceIncrease The increase in balance since the last action of the user
* @param newRate The rate of the debt after the minting
* @param avgStableRate The next average stable rate after the minting
* @param newTotalSupply The next total supply of the stable debt token after the action
**/
event Mint(
address indexed user,
address indexed onBehalfOf,
uint256 amount,
uint256 currentBalance,
uint256 balanceIncrease,
uint256 newRate,
uint256 avgStableRate,
uint256 newTotalSupply
);
/**
* @dev Emitted when new stable debt is burned
* @param from The address from which the debt will be burned
* @param amount The amount being burned (user entered amount - balance increase from interest)
* @param currentBalance The current balance of the user
* @param balanceIncrease The the increase in balance since the last action of the user
* @param avgStableRate The next average stable rate after the burning
* @param newTotalSupply The next total supply of the stable debt token after the action
**/
event Burn(
address indexed from,
uint256 amount,
uint256 currentBalance,
uint256 balanceIncrease,
uint256 avgStableRate,
uint256 newTotalSupply
);
/**
* @notice Mints debt token to the `onBehalfOf` address.
* @dev The resulting rate is the weighted average between the rate of the new debt
* and the rate of the previous debt
* @param user The address receiving the borrowed underlying, being the delegatee in case
* of credit delegate, or same as `onBehalfOf` otherwise
* @param onBehalfOf The address receiving the debt tokens
* @param amount The amount of debt tokens to mint
* @param rate The rate of the debt being minted
* @return True if it is the first borrow, false otherwise
* @return The total stable debt
* @return The average stable borrow rate
**/
function mint(
address user,
address onBehalfOf,
uint256 amount,
uint256 rate
)
external
returns (
bool,
uint256,
uint256
);
/**
* @notice Burns debt of `user`
* @dev The resulting rate is the weighted average between the rate of the new debt
* and the rate of the previous debt
* @dev In some instances, a burn transaction will emit a mint event
* if the amount to burn is less than the interest the user earned
* @param from The address from which the debt will be burned
* @param amount The amount of debt tokens getting burned
* @return The total stable debt
* @return The average stable borrow rate
**/
function burn(address from, uint256 amount) external returns (uint256, uint256);
/**
* @notice Returns the average rate of all the stable rate loans.
* @return The average stable rate
**/
function getAverageStableRate() external view returns (uint256);
/**
* @notice Returns the stable rate of the user debt
* @param user The address of the user
* @return The stable rate of the user
**/
function getUserStableRate(address user) external view returns (uint256);
/**
* @notice Returns the timestamp of the last update of the user
* @param user The address of the user
* @return The timestamp
**/
function getUserLastUpdated(address user) external view returns (uint40);
/**
* @notice Returns the principal, the total supply, the average stable rate and the timestamp for the last update
* @return The principal
* @return The total supply
* @return The average stable rate
* @return The timestamp of the last update
**/
function getSupplyData()
external
view
returns (
uint256,
uint256,
uint256,
uint40
);
/**
* @notice Returns the timestamp of the last update of the total supply
* @return The timestamp
**/
function getTotalSupplyLastUpdated() external view returns (uint40);
/**
* @notice Returns the total supply and the average stable rate
* @return The total supply
* @return The average rate
**/
function getTotalSupplyAndAvgRate() external view returns (uint256, uint256);
/**
* @notice Returns the principal debt balance of the user
* @return The debt balance of the user since the last burn/mint action
**/
function principalBalanceOf(address user) external view returns (uint256);
/**
* @notice Returns the address of the underlying asset of this stableDebtToken (E.g. WETH for stableDebtWETH)
* @return The address of the underlying asset
**/
function UNDERLYING_ASSET_ADDRESS() external view returns (address);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
import {IScaledBalanceToken} from './IScaledBalanceToken.sol';
import {IInitializableDebtToken} from './IInitializableDebtToken.sol';
/**
* @title IVariableDebtToken
* @author Aave
* @notice Defines the basic interface for a variable debt token.
**/
interface IVariableDebtToken is IScaledBalanceToken, IInitializableDebtToken {
/**
* @notice Mints debt token to the `onBehalfOf` address
* @param user The address receiving the borrowed underlying, being the delegatee in case
* of credit delegate, or same as `onBehalfOf` otherwise
* @param onBehalfOf The address receiving the debt tokens
* @param amount The amount of debt being minted
* @param index The variable debt index of the reserve
* @return True if the previous balance of the user is 0, false otherwise
* @return The scaled total debt of the reserve
**/
function mint(
address user,
address onBehalfOf,
uint256 amount,
uint256 index
) external returns (bool, uint256);
/**
* @notice Burns user variable debt
* @dev In some instances, a burn transaction will emit a mint event
* if the amount to burn is less than the interest that the user accrued
* @param from The address from which the debt will be burned
* @param amount The amount getting burned
* @param index The variable debt index of the reserve
* @return The scaled total debt of the reserve
**/
function burn(
address from,
uint256 amount,
uint256 index
) external returns (uint256);
/**
* @notice Returns the address of the underlying asset of this debtToken (E.g. WETH for variableDebtWETH)
* @return The address of the underlying asset
**/
function UNDERLYING_ASSET_ADDRESS() external view returns (address);
}// SPDX-License-Identifier: AGPL-3.0
pragma solidity 0.8.10;
/**
* @title VersionedInitializable
* @author Aave, inspired by the OpenZeppelin Initializable contract
* @notice Helper contract to implement initializer functions. To use it, replace
* the constructor with a function that has the `initializer` modifier.
* @dev WARNING: Unlike constructors, initializer functions must be manually
* invoked. This applies both to deploying an Initializable contract, as well
* as extending an Initializable contract via inheritance.
* WARNING: When used with inheritance, manual care must be taken to not invoke
* a parent initializer twice, or ensure that all initializers are idempotent,
* because this is not dealt with automatically as with constructors.
*/
abstract contract VersionedInitializable {
/**
* @dev Indicates that the contract has been initialized.
*/
uint256 private lastInitializedRevision = 0;
/**
* @dev Indicates that the contract is in the process of being initialized.
*/
bool private initializing;
/**
* @dev Modifier to use in the initializer function of a contract.
*/
modifier initializer() {
uint256 revision = getRevision();
require(
initializing || isConstructor() || revision > lastInitializedRevision,
'Contract instance has already been initialized'
);
bool isTopLevelCall = !initializing;
if (isTopLevelCall) {
initializing = true;
lastInitializedRevision = revision;
}
_;
if (isTopLevelCall) {
initializing = false;
}
}
/**
* @notice Returns the revision number of the contract
* @dev Needs to be defined in the inherited class as a constant.
* @return The revision number
**/
function getRevision() internal pure virtual returns (uint256);
/**
* @notice Returns true if and only if the function is running in the constructor
* @return True if the function is running in the constructor
**/
function isConstructor() private view returns (bool) {
// extcodesize checks the size of the code stored in an address, and
// address returns the current address. Since the code is still not
// deployed when running a constructor, any checks on its code size will
// yield zero, making it an effective way to detect if a contract is
// under construction or not.
uint256 cs;
//solium-disable-next-line
assembly {
cs := extcodesize(address())
}
return cs == 0;
}
// Reserved storage space to allow for layout changes in the future.
uint256[50] private ______gap;
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {Errors} from '../helpers/Errors.sol';
import {DataTypes} from '../types/DataTypes.sol';
/**
* @title ReserveConfiguration library
* @author Aave
* @notice Implements the bitmap logic to handle the reserve configuration
*/
library ReserveConfiguration {
uint256 internal constant LTV_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF0000; // prettier-ignore
uint256 internal constant LIQUIDATION_THRESHOLD_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF0000FFFF; // prettier-ignore
uint256 internal constant LIQUIDATION_BONUS_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF0000FFFFFFFF; // prettier-ignore
uint256 internal constant DECIMALS_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00FFFFFFFFFFFF; // prettier-ignore
uint256 internal constant ACTIVE_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant FROZEN_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFDFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant BORROWING_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFBFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant STABLE_BORROWING_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF7FFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant PAUSED_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant BORROWABLE_IN_ISOLATION_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFDFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant SILOED_BORROWING_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFBFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant RESERVE_FACTOR_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF0000FFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant BORROW_CAP_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF000000000FFFFFFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant SUPPLY_CAP_MASK = 0xFFFFFFFFFFFFFFFFFFFFFFFFFF000000000FFFFFFFFFFFFFFFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant LIQUIDATION_PROTOCOL_FEE_MASK = 0xFFFFFFFFFFFFFFFFFFFFFF0000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant EMODE_CATEGORY_MASK = 0xFFFFFFFFFFFFFFFFFFFF00FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant UNBACKED_MINT_CAP_MASK = 0xFFFFFFFFFFF000000000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF; // prettier-ignore
uint256 internal constant DEBT_CEILING_MASK = 0xF0000000000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF; // prettier-ignore
/// @dev For the LTV, the start bit is 0 (up to 15), hence no bitshifting is needed
uint256 internal constant LIQUIDATION_THRESHOLD_START_BIT_POSITION = 16;
uint256 internal constant LIQUIDATION_BONUS_START_BIT_POSITION = 32;
uint256 internal constant RESERVE_DECIMALS_START_BIT_POSITION = 48;
uint256 internal constant IS_ACTIVE_START_BIT_POSITION = 56;
uint256 internal constant IS_FROZEN_START_BIT_POSITION = 57;
uint256 internal constant BORROWING_ENABLED_START_BIT_POSITION = 58;
uint256 internal constant STABLE_BORROWING_ENABLED_START_BIT_POSITION = 59;
uint256 internal constant IS_PAUSED_START_BIT_POSITION = 60;
uint256 internal constant BORROWABLE_IN_ISOLATION_START_BIT_POSITION = 61;
uint256 internal constant SILOED_BORROWING_START_BIT_POSITION = 62;
/// @dev bit 63 reserved
uint256 internal constant RESERVE_FACTOR_START_BIT_POSITION = 64;
uint256 internal constant BORROW_CAP_START_BIT_POSITION = 80;
uint256 internal constant SUPPLY_CAP_START_BIT_POSITION = 116;
uint256 internal constant LIQUIDATION_PROTOCOL_FEE_START_BIT_POSITION = 152;
uint256 internal constant EMODE_CATEGORY_START_BIT_POSITION = 168;
uint256 internal constant UNBACKED_MINT_CAP_START_BIT_POSITION = 176;
uint256 internal constant DEBT_CEILING_START_BIT_POSITION = 212;
uint256 internal constant MAX_VALID_LTV = 65535;
uint256 internal constant MAX_VALID_LIQUIDATION_THRESHOLD = 65535;
uint256 internal constant MAX_VALID_LIQUIDATION_BONUS = 65535;
uint256 internal constant MAX_VALID_DECIMALS = 255;
uint256 internal constant MAX_VALID_RESERVE_FACTOR = 65535;
uint256 internal constant MAX_VALID_BORROW_CAP = 68719476735;
uint256 internal constant MAX_VALID_SUPPLY_CAP = 68719476735;
uint256 internal constant MAX_VALID_LIQUIDATION_PROTOCOL_FEE = 65535;
uint256 internal constant MAX_VALID_EMODE_CATEGORY = 255;
uint256 internal constant MAX_VALID_UNBACKED_MINT_CAP = 68719476735;
uint256 internal constant MAX_VALID_DEBT_CEILING = 1099511627775;
uint256 public constant DEBT_CEILING_DECIMALS = 2;
uint16 public constant MAX_RESERVES_COUNT = 128;
/**
* @notice Sets the Loan to Value of the reserve
* @param self The reserve configuration
* @param ltv The new ltv
**/
function setLtv(DataTypes.ReserveConfigurationMap memory self, uint256 ltv) internal pure {
require(ltv <= MAX_VALID_LTV, Errors.INVALID_LTV);
self.data = (self.data & LTV_MASK) | ltv;
}
/**
* @notice Gets the Loan to Value of the reserve
* @param self The reserve configuration
* @return The loan to value
**/
function getLtv(DataTypes.ReserveConfigurationMap memory self) internal pure returns (uint256) {
return self.data & ~LTV_MASK;
}
/**
* @notice Sets the liquidation threshold of the reserve
* @param self The reserve configuration
* @param threshold The new liquidation threshold
**/
function setLiquidationThreshold(DataTypes.ReserveConfigurationMap memory self, uint256 threshold)
internal
pure
{
require(threshold <= MAX_VALID_LIQUIDATION_THRESHOLD, Errors.INVALID_LIQ_THRESHOLD);
self.data =
(self.data & LIQUIDATION_THRESHOLD_MASK) |
(threshold << LIQUIDATION_THRESHOLD_START_BIT_POSITION);
}
/**
* @notice Gets the liquidation threshold of the reserve
* @param self The reserve configuration
* @return The liquidation threshold
**/
function getLiquidationThreshold(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~LIQUIDATION_THRESHOLD_MASK) >> LIQUIDATION_THRESHOLD_START_BIT_POSITION;
}
/**
* @notice Sets the liquidation bonus of the reserve
* @param self The reserve configuration
* @param bonus The new liquidation bonus
**/
function setLiquidationBonus(DataTypes.ReserveConfigurationMap memory self, uint256 bonus)
internal
pure
{
require(bonus <= MAX_VALID_LIQUIDATION_BONUS, Errors.INVALID_LIQ_BONUS);
self.data =
(self.data & LIQUIDATION_BONUS_MASK) |
(bonus << LIQUIDATION_BONUS_START_BIT_POSITION);
}
/**
* @notice Gets the liquidation bonus of the reserve
* @param self The reserve configuration
* @return The liquidation bonus
**/
function getLiquidationBonus(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~LIQUIDATION_BONUS_MASK) >> LIQUIDATION_BONUS_START_BIT_POSITION;
}
/**
* @notice Sets the decimals of the underlying asset of the reserve
* @param self The reserve configuration
* @param decimals The decimals
**/
function setDecimals(DataTypes.ReserveConfigurationMap memory self, uint256 decimals)
internal
pure
{
require(decimals <= MAX_VALID_DECIMALS, Errors.INVALID_DECIMALS);
self.data = (self.data & DECIMALS_MASK) | (decimals << RESERVE_DECIMALS_START_BIT_POSITION);
}
/**
* @notice Gets the decimals of the underlying asset of the reserve
* @param self The reserve configuration
* @return The decimals of the asset
**/
function getDecimals(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~DECIMALS_MASK) >> RESERVE_DECIMALS_START_BIT_POSITION;
}
/**
* @notice Sets the active state of the reserve
* @param self The reserve configuration
* @param active The active state
**/
function setActive(DataTypes.ReserveConfigurationMap memory self, bool active) internal pure {
self.data =
(self.data & ACTIVE_MASK) |
(uint256(active ? 1 : 0) << IS_ACTIVE_START_BIT_POSITION);
}
/**
* @notice Gets the active state of the reserve
* @param self The reserve configuration
* @return The active state
**/
function getActive(DataTypes.ReserveConfigurationMap memory self) internal pure returns (bool) {
return (self.data & ~ACTIVE_MASK) != 0;
}
/**
* @notice Sets the frozen state of the reserve
* @param self The reserve configuration
* @param frozen The frozen state
**/
function setFrozen(DataTypes.ReserveConfigurationMap memory self, bool frozen) internal pure {
self.data =
(self.data & FROZEN_MASK) |
(uint256(frozen ? 1 : 0) << IS_FROZEN_START_BIT_POSITION);
}
/**
* @notice Gets the frozen state of the reserve
* @param self The reserve configuration
* @return The frozen state
**/
function getFrozen(DataTypes.ReserveConfigurationMap memory self) internal pure returns (bool) {
return (self.data & ~FROZEN_MASK) != 0;
}
/**
* @notice Sets the paused state of the reserve
* @param self The reserve configuration
* @param paused The paused state
**/
function setPaused(DataTypes.ReserveConfigurationMap memory self, bool paused) internal pure {
self.data =
(self.data & PAUSED_MASK) |
(uint256(paused ? 1 : 0) << IS_PAUSED_START_BIT_POSITION);
}
/**
* @notice Gets the paused state of the reserve
* @param self The reserve configuration
* @return The paused state
**/
function getPaused(DataTypes.ReserveConfigurationMap memory self) internal pure returns (bool) {
return (self.data & ~PAUSED_MASK) != 0;
}
/**
* @notice Sets the borrowable in isolation flag for the reserve.
* @dev When this flag is set to true, the asset will be borrowable against isolated collaterals and the borrowed
* amount will be accumulated in the isolated collateral's total debt exposure.
* @dev Only assets of the same family (eg USD stablecoins) should be borrowable in isolation mode to keep
* consistency in the debt ceiling calculations.
* @param self The reserve configuration
* @param borrowable True if the asset is borrowable
**/
function setBorrowableInIsolation(DataTypes.ReserveConfigurationMap memory self, bool borrowable)
internal
pure
{
self.data =
(self.data & BORROWABLE_IN_ISOLATION_MASK) |
(uint256(borrowable ? 1 : 0) << BORROWABLE_IN_ISOLATION_START_BIT_POSITION);
}
/**
* @notice Gets the borrowable in isolation flag for the reserve.
* @dev If the returned flag is true, the asset is borrowable against isolated collateral. Assets borrowed with
* isolated collateral is accounted for in the isolated collateral's total debt exposure.
* @dev Only assets of the same family (eg USD stablecoins) should be borrowable in isolation mode to keep
* consistency in the debt ceiling calculations.
* @param self The reserve configuration
* @return The borrowable in isolation flag
**/
function getBorrowableInIsolation(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (bool)
{
return (self.data & ~BORROWABLE_IN_ISOLATION_MASK) != 0;
}
/**
* @notice Sets the siloed borrowing flag for the reserve.
* @dev When this flag is set to true, users borrowing this asset will not be allowed to borrow any other asset.
* @param self The reserve configuration
* @param siloed True if the asset is siloed
**/
function setSiloedBorrowing(DataTypes.ReserveConfigurationMap memory self, bool siloed)
internal
pure
{
self.data =
(self.data & SILOED_BORROWING_MASK) |
(uint256(siloed ? 1 : 0) << SILOED_BORROWING_START_BIT_POSITION);
}
/**
* @notice Gets the siloed borrowing flag for the reserve.
* @dev When this flag is set to true, users borrowing this asset will not be allowed to borrow any other asset.
* @param self The reserve configuration
* @return The siloed borrowing flag
**/
function getSiloedBorrowing(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (bool)
{
return (self.data & ~SILOED_BORROWING_MASK) != 0;
}
/**
* @notice Enables or disables borrowing on the reserve
* @param self The reserve configuration
* @param enabled True if the borrowing needs to be enabled, false otherwise
**/
function setBorrowingEnabled(DataTypes.ReserveConfigurationMap memory self, bool enabled)
internal
pure
{
self.data =
(self.data & BORROWING_MASK) |
(uint256(enabled ? 1 : 0) << BORROWING_ENABLED_START_BIT_POSITION);
}
/**
* @notice Gets the borrowing state of the reserve
* @param self The reserve configuration
* @return The borrowing state
**/
function getBorrowingEnabled(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (bool)
{
return (self.data & ~BORROWING_MASK) != 0;
}
/**
* @notice Enables or disables stable rate borrowing on the reserve
* @param self The reserve configuration
* @param enabled True if the stable rate borrowing needs to be enabled, false otherwise
**/
function setStableRateBorrowingEnabled(
DataTypes.ReserveConfigurationMap memory self,
bool enabled
) internal pure {
self.data =
(self.data & STABLE_BORROWING_MASK) |
(uint256(enabled ? 1 : 0) << STABLE_BORROWING_ENABLED_START_BIT_POSITION);
}
/**
* @notice Gets the stable rate borrowing state of the reserve
* @param self The reserve configuration
* @return The stable rate borrowing state
**/
function getStableRateBorrowingEnabled(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (bool)
{
return (self.data & ~STABLE_BORROWING_MASK) != 0;
}
/**
* @notice Sets the reserve factor of the reserve
* @param self The reserve configuration
* @param reserveFactor The reserve factor
**/
function setReserveFactor(DataTypes.ReserveConfigurationMap memory self, uint256 reserveFactor)
internal
pure
{
require(reserveFactor <= MAX_VALID_RESERVE_FACTOR, Errors.INVALID_RESERVE_FACTOR);
self.data =
(self.data & RESERVE_FACTOR_MASK) |
(reserveFactor << RESERVE_FACTOR_START_BIT_POSITION);
}
/**
* @notice Gets the reserve factor of the reserve
* @param self The reserve configuration
* @return The reserve factor
**/
function getReserveFactor(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~RESERVE_FACTOR_MASK) >> RESERVE_FACTOR_START_BIT_POSITION;
}
/**
* @notice Sets the borrow cap of the reserve
* @param self The reserve configuration
* @param borrowCap The borrow cap
**/
function setBorrowCap(DataTypes.ReserveConfigurationMap memory self, uint256 borrowCap)
internal
pure
{
require(borrowCap <= MAX_VALID_BORROW_CAP, Errors.INVALID_BORROW_CAP);
self.data = (self.data & BORROW_CAP_MASK) | (borrowCap << BORROW_CAP_START_BIT_POSITION);
}
/**
* @notice Gets the borrow cap of the reserve
* @param self The reserve configuration
* @return The borrow cap
**/
function getBorrowCap(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~BORROW_CAP_MASK) >> BORROW_CAP_START_BIT_POSITION;
}
/**
* @notice Sets the supply cap of the reserve
* @param self The reserve configuration
* @param supplyCap The supply cap
**/
function setSupplyCap(DataTypes.ReserveConfigurationMap memory self, uint256 supplyCap)
internal
pure
{
require(supplyCap <= MAX_VALID_SUPPLY_CAP, Errors.INVALID_SUPPLY_CAP);
self.data = (self.data & SUPPLY_CAP_MASK) | (supplyCap << SUPPLY_CAP_START_BIT_POSITION);
}
/**
* @notice Gets the supply cap of the reserve
* @param self The reserve configuration
* @return The supply cap
**/
function getSupplyCap(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~SUPPLY_CAP_MASK) >> SUPPLY_CAP_START_BIT_POSITION;
}
/**
* @notice Sets the debt ceiling in isolation mode for the asset
* @param self The reserve configuration
* @param ceiling The maximum debt ceiling for the asset
**/
function setDebtCeiling(DataTypes.ReserveConfigurationMap memory self, uint256 ceiling)
internal
pure
{
require(ceiling <= MAX_VALID_DEBT_CEILING, Errors.INVALID_DEBT_CEILING);
self.data = (self.data & DEBT_CEILING_MASK) | (ceiling << DEBT_CEILING_START_BIT_POSITION);
}
/**
* @notice Gets the debt ceiling for the asset if the asset is in isolation mode
* @param self The reserve configuration
* @return The debt ceiling (0 = isolation mode disabled)
**/
function getDebtCeiling(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~DEBT_CEILING_MASK) >> DEBT_CEILING_START_BIT_POSITION;
}
/**
* @notice Sets the liquidation protocol fee of the reserve
* @param self The reserve configuration
* @param liquidationProtocolFee The liquidation protocol fee
**/
function setLiquidationProtocolFee(
DataTypes.ReserveConfigurationMap memory self,
uint256 liquidationProtocolFee
) internal pure {
require(
liquidationProtocolFee <= MAX_VALID_LIQUIDATION_PROTOCOL_FEE,
Errors.INVALID_LIQUIDATION_PROTOCOL_FEE
);
self.data =
(self.data & LIQUIDATION_PROTOCOL_FEE_MASK) |
(liquidationProtocolFee << LIQUIDATION_PROTOCOL_FEE_START_BIT_POSITION);
}
/**
* @dev Gets the liquidation protocol fee
* @param self The reserve configuration
* @return The liquidation protocol fee
**/
function getLiquidationProtocolFee(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return
(self.data & ~LIQUIDATION_PROTOCOL_FEE_MASK) >> LIQUIDATION_PROTOCOL_FEE_START_BIT_POSITION;
}
/**
* @notice Sets the unbacked mint cap of the reserve
* @param self The reserve configuration
* @param unbackedMintCap The unbacked mint cap
**/
function setUnbackedMintCap(
DataTypes.ReserveConfigurationMap memory self,
uint256 unbackedMintCap
) internal pure {
require(unbackedMintCap <= MAX_VALID_UNBACKED_MINT_CAP, Errors.INVALID_UNBACKED_MINT_CAP);
self.data =
(self.data & UNBACKED_MINT_CAP_MASK) |
(unbackedMintCap << UNBACKED_MINT_CAP_START_BIT_POSITION);
}
/**
* @dev Gets the unbacked mint cap of the reserve
* @param self The reserve configuration
* @return The unbacked mint cap
**/
function getUnbackedMintCap(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~UNBACKED_MINT_CAP_MASK) >> UNBACKED_MINT_CAP_START_BIT_POSITION;
}
/**
* @notice Sets the eMode asset category
* @param self The reserve configuration
* @param category The asset category when the user selects the eMode
**/
function setEModeCategory(DataTypes.ReserveConfigurationMap memory self, uint256 category)
internal
pure
{
require(category <= MAX_VALID_EMODE_CATEGORY, Errors.INVALID_EMODE_CATEGORY);
self.data = (self.data & EMODE_CATEGORY_MASK) | (category << EMODE_CATEGORY_START_BIT_POSITION);
}
/**
* @dev Gets the eMode asset category
* @param self The reserve configuration
* @return The eMode category for the asset
**/
function getEModeCategory(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256)
{
return (self.data & ~EMODE_CATEGORY_MASK) >> EMODE_CATEGORY_START_BIT_POSITION;
}
/**
* @notice Gets the configuration flags of the reserve
* @param self The reserve configuration
* @return The state flag representing active
* @return The state flag representing frozen
* @return The state flag representing borrowing enabled
* @return The state flag representing stableRateBorrowing enabled
* @return The state flag representing paused
**/
function getFlags(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (
bool,
bool,
bool,
bool,
bool
)
{
uint256 dataLocal = self.data;
return (
(dataLocal & ~ACTIVE_MASK) != 0,
(dataLocal & ~FROZEN_MASK) != 0,
(dataLocal & ~BORROWING_MASK) != 0,
(dataLocal & ~STABLE_BORROWING_MASK) != 0,
(dataLocal & ~PAUSED_MASK) != 0
);
}
/**
* @notice Gets the configuration parameters of the reserve from storage
* @param self The reserve configuration
* @return The state param representing ltv
* @return The state param representing liquidation threshold
* @return The state param representing liquidation bonus
* @return The state param representing reserve decimals
* @return The state param representing reserve factor
* @return The state param representing eMode category
**/
function getParams(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (
uint256,
uint256,
uint256,
uint256,
uint256,
uint256
)
{
uint256 dataLocal = self.data;
return (
dataLocal & ~LTV_MASK,
(dataLocal & ~LIQUIDATION_THRESHOLD_MASK) >> LIQUIDATION_THRESHOLD_START_BIT_POSITION,
(dataLocal & ~LIQUIDATION_BONUS_MASK) >> LIQUIDATION_BONUS_START_BIT_POSITION,
(dataLocal & ~DECIMALS_MASK) >> RESERVE_DECIMALS_START_BIT_POSITION,
(dataLocal & ~RESERVE_FACTOR_MASK) >> RESERVE_FACTOR_START_BIT_POSITION,
(dataLocal & ~EMODE_CATEGORY_MASK) >> EMODE_CATEGORY_START_BIT_POSITION
);
}
/**
* @notice Gets the caps parameters of the reserve from storage
* @param self The reserve configuration
* @return The state param representing borrow cap
* @return The state param representing supply cap.
**/
function getCaps(DataTypes.ReserveConfigurationMap memory self)
internal
pure
returns (uint256, uint256)
{
uint256 dataLocal = self.data;
return (
(dataLocal & ~BORROW_CAP_MASK) >> BORROW_CAP_START_BIT_POSITION,
(dataLocal & ~SUPPLY_CAP_MASK) >> SUPPLY_CAP_START_BIT_POSITION
);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {Errors} from '../helpers/Errors.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ReserveConfiguration} from './ReserveConfiguration.sol';
/**
* @title UserConfiguration library
* @author Aave
* @notice Implements the bitmap logic to handle the user configuration
*/
library UserConfiguration {
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
uint256 internal constant BORROWING_MASK =
0x5555555555555555555555555555555555555555555555555555555555555555;
uint256 internal constant COLLATERAL_MASK =
0xAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA;
/**
* @notice Sets if the user is borrowing the reserve identified by reserveIndex
* @param self The configuration object
* @param reserveIndex The index of the reserve in the bitmap
* @param borrowing True if the user is borrowing the reserve, false otherwise
**/
function setBorrowing(
DataTypes.UserConfigurationMap storage self,
uint256 reserveIndex,
bool borrowing
) internal {
unchecked {
require(reserveIndex < ReserveConfiguration.MAX_RESERVES_COUNT, Errors.INVALID_RESERVE_INDEX);
uint256 bit = 1 << (reserveIndex << 1);
if (borrowing) {
self.data |= bit;
} else {
self.data &= ~bit;
}
}
}
/**
* @notice Sets if the user is using as collateral the reserve identified by reserveIndex
* @param self The configuration object
* @param reserveIndex The index of the reserve in the bitmap
* @param usingAsCollateral True if the user is using the reserve as collateral, false otherwise
**/
function setUsingAsCollateral(
DataTypes.UserConfigurationMap storage self,
uint256 reserveIndex,
bool usingAsCollateral
) internal {
unchecked {
require(reserveIndex < ReserveConfiguration.MAX_RESERVES_COUNT, Errors.INVALID_RESERVE_INDEX);
uint256 bit = 1 << ((reserveIndex << 1) + 1);
if (usingAsCollateral) {
self.data |= bit;
} else {
self.data &= ~bit;
}
}
}
/**
* @notice Returns if a user has been using the reserve for borrowing or as collateral
* @param self The configuration object
* @param reserveIndex The index of the reserve in the bitmap
* @return True if the user has been using a reserve for borrowing or as collateral, false otherwise
**/
function isUsingAsCollateralOrBorrowing(
DataTypes.UserConfigurationMap memory self,
uint256 reserveIndex
) internal pure returns (bool) {
unchecked {
require(reserveIndex < ReserveConfiguration.MAX_RESERVES_COUNT, Errors.INVALID_RESERVE_INDEX);
return (self.data >> (reserveIndex << 1)) & 3 != 0;
}
}
/**
* @notice Validate a user has been using the reserve for borrowing
* @param self The configuration object
* @param reserveIndex The index of the reserve in the bitmap
* @return True if the user has been using a reserve for borrowing, false otherwise
**/
function isBorrowing(DataTypes.UserConfigurationMap memory self, uint256 reserveIndex)
internal
pure
returns (bool)
{
unchecked {
require(reserveIndex < ReserveConfiguration.MAX_RESERVES_COUNT, Errors.INVALID_RESERVE_INDEX);
return (self.data >> (reserveIndex << 1)) & 1 != 0;
}
}
/**
* @notice Validate a user has been using the reserve as collateral
* @param self The configuration object
* @param reserveIndex The index of the reserve in the bitmap
* @return True if the user has been using a reserve as collateral, false otherwise
**/
function isUsingAsCollateral(DataTypes.UserConfigurationMap memory self, uint256 reserveIndex)
internal
pure
returns (bool)
{
unchecked {
require(reserveIndex < ReserveConfiguration.MAX_RESERVES_COUNT, Errors.INVALID_RESERVE_INDEX);
return (self.data >> ((reserveIndex << 1) + 1)) & 1 != 0;
}
}
/**
* @notice Checks if a user has been supplying only one reserve as collateral
* @dev this uses a simple trick - if a number is a power of two (only one bit set) then n & (n - 1) == 0
* @param self The configuration object
* @return True if the user has been supplying as collateral one reserve, false otherwise
**/
function isUsingAsCollateralOne(DataTypes.UserConfigurationMap memory self)
internal
pure
returns (bool)
{
uint256 collateralData = self.data & COLLATERAL_MASK;
return collateralData != 0 && (collateralData & (collateralData - 1) == 0);
}
/**
* @notice Checks if a user has been supplying any reserve as collateral
* @param self The configuration object
* @return True if the user has been supplying as collateral any reserve, false otherwise
**/
function isUsingAsCollateralAny(DataTypes.UserConfigurationMap memory self)
internal
pure
returns (bool)
{
return self.data & COLLATERAL_MASK != 0;
}
/**
* @notice Checks if a user has been borrowing only one asset
* @dev this uses a simple trick - if a number is a power of two (only one bit set) then n & (n - 1) == 0
* @param self The configuration object
* @return True if the user has been supplying as collateral one reserve, false otherwise
**/
function isBorrowingOne(DataTypes.UserConfigurationMap memory self) internal pure returns (bool) {
uint256 borrowingData = self.data & BORROWING_MASK;
return borrowingData != 0 && (borrowingData & (borrowingData - 1) == 0);
}
/**
* @notice Checks if a user has been borrowing from any reserve
* @param self The configuration object
* @return True if the user has been borrowing any reserve, false otherwise
**/
function isBorrowingAny(DataTypes.UserConfigurationMap memory self) internal pure returns (bool) {
return self.data & BORROWING_MASK != 0;
}
/**
* @notice Checks if a user has not been using any reserve for borrowing or supply
* @param self The configuration object
* @return True if the user has not been borrowing or supplying any reserve, false otherwise
**/
function isEmpty(DataTypes.UserConfigurationMap memory self) internal pure returns (bool) {
return self.data == 0;
}
/**
* @notice Returns the Isolation Mode state of the user
* @param self The configuration object
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @return True if the user is in isolation mode, false otherwise
* @return The address of the only asset used as collateral
* @return The debt ceiling of the reserve
*/
function getIsolationModeState(
DataTypes.UserConfigurationMap memory self,
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList
)
internal
view
returns (
bool,
address,
uint256
)
{
if (isUsingAsCollateralOne(self)) {
uint256 assetId = _getFirstAssetIdByMask(self, COLLATERAL_MASK);
address assetAddress = reservesList[assetId];
uint256 ceiling = reservesData[assetAddress].configuration.getDebtCeiling();
if (ceiling != 0) {
return (true, assetAddress, ceiling);
}
}
return (false, address(0), 0);
}
/**
* @notice Returns the siloed borrowing state for the user
* @param self The configuration object
* @param reservesData The data of all the reserves
* @param reservesList The reserve list
* @return True if the user has borrowed a siloed asset, false otherwise
* @return The address of the only borrowed asset
*/
function getSiloedBorrowingState(
DataTypes.UserConfigurationMap memory self,
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList
) internal view returns (bool, address) {
if (isBorrowingOne(self)) {
uint256 assetId = _getFirstAssetIdByMask(self, BORROWING_MASK);
address assetAddress = reservesList[assetId];
if (reservesData[assetAddress].configuration.getSiloedBorrowing()) {
return (true, assetAddress);
}
}
return (false, address(0));
}
/**
* @notice Returns the address of the first asset flagged in the bitmap given the corresponding bitmask
* @param self The configuration object
* @return The index of the first asset flagged in the bitmap once the corresponding mask is applied
*/
function _getFirstAssetIdByMask(DataTypes.UserConfigurationMap memory self, uint256 mask)
internal
pure
returns (uint256)
{
unchecked {
uint256 bitmapData = self.data & mask;
uint256 firstAssetPosition = bitmapData & ~(bitmapData - 1);
uint256 id;
while ((firstAssetPosition >>= 2) != 0) {
id += 1;
}
return id;
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
/**
* @title Errors library
* @author Aave
* @notice Defines the error messages emitted by the different contracts of the Aave protocol
*/
library Errors {
string public constant CALLER_NOT_POOL_ADMIN = '1'; // 'The caller of the function is not a pool admin'
string public constant CALLER_NOT_EMERGENCY_ADMIN = '2'; // 'The caller of the function is not an emergency admin'
string public constant CALLER_NOT_POOL_OR_EMERGENCY_ADMIN = '3'; // 'The caller of the function is not a pool or emergency admin'
string public constant CALLER_NOT_RISK_OR_POOL_ADMIN = '4'; // 'The caller of the function is not a risk or pool admin'
string public constant CALLER_NOT_ASSET_LISTING_OR_POOL_ADMIN = '5'; // 'The caller of the function is not an asset listing or pool admin'
string public constant CALLER_NOT_BRIDGE = '6'; // 'The caller of the function is not a bridge'
string public constant ADDRESSES_PROVIDER_NOT_REGISTERED = '7'; // 'Pool addresses provider is not registered'
string public constant INVALID_ADDRESSES_PROVIDER_ID = '8'; // 'Invalid id for the pool addresses provider'
string public constant NOT_CONTRACT = '9'; // 'Address is not a contract'
string public constant CALLER_NOT_POOL_CONFIGURATOR = '10'; // 'The caller of the function is not the pool configurator'
string public constant CALLER_NOT_ATOKEN = '11'; // 'The caller of the function is not an AToken'
string public constant INVALID_ADDRESSES_PROVIDER = '12'; // 'The address of the pool addresses provider is invalid'
string public constant INVALID_FLASHLOAN_EXECUTOR_RETURN = '13'; // 'Invalid return value of the flashloan executor function'
string public constant RESERVE_ALREADY_ADDED = '14'; // 'Reserve has already been added to reserve list'
string public constant NO_MORE_RESERVES_ALLOWED = '15'; // 'Maximum amount of reserves in the pool reached'
string public constant EMODE_CATEGORY_RESERVED = '16'; // 'Zero eMode category is reserved for volatile heterogeneous assets'
string public constant INVALID_EMODE_CATEGORY_ASSIGNMENT = '17'; // 'Invalid eMode category assignment to asset'
string public constant RESERVE_LIQUIDITY_NOT_ZERO = '18'; // 'The liquidity of the reserve needs to be 0'
string public constant FLASHLOAN_PREMIUM_INVALID = '19'; // 'Invalid flashloan premium'
string public constant INVALID_RESERVE_PARAMS = '20'; // 'Invalid risk parameters for the reserve'
string public constant INVALID_EMODE_CATEGORY_PARAMS = '21'; // 'Invalid risk parameters for the eMode category'
string public constant BRIDGE_PROTOCOL_FEE_INVALID = '22'; // 'Invalid bridge protocol fee'
string public constant CALLER_MUST_BE_POOL = '23'; // 'The caller of this function must be a pool'
string public constant INVALID_MINT_AMOUNT = '24'; // 'Invalid amount to mint'
string public constant INVALID_BURN_AMOUNT = '25'; // 'Invalid amount to burn'
string public constant INVALID_AMOUNT = '26'; // 'Amount must be greater than 0'
string public constant RESERVE_INACTIVE = '27'; // 'Action requires an active reserve'
string public constant RESERVE_FROZEN = '28'; // 'Action cannot be performed because the reserve is frozen'
string public constant RESERVE_PAUSED = '29'; // 'Action cannot be performed because the reserve is paused'
string public constant BORROWING_NOT_ENABLED = '30'; // 'Borrowing is not enabled'
string public constant STABLE_BORROWING_NOT_ENABLED = '31'; // 'Stable borrowing is not enabled'
string public constant NOT_ENOUGH_AVAILABLE_USER_BALANCE = '32'; // 'User cannot withdraw more than the available balance'
string public constant INVALID_INTEREST_RATE_MODE_SELECTED = '33'; // 'Invalid interest rate mode selected'
string public constant COLLATERAL_BALANCE_IS_ZERO = '34'; // 'The collateral balance is 0'
string public constant HEALTH_FACTOR_LOWER_THAN_LIQUIDATION_THRESHOLD = '35'; // 'Health factor is lesser than the liquidation threshold'
string public constant COLLATERAL_CANNOT_COVER_NEW_BORROW = '36'; // 'There is not enough collateral to cover a new borrow'
string public constant COLLATERAL_SAME_AS_BORROWING_CURRENCY = '37'; // 'Collateral is (mostly) the same currency that is being borrowed'
string public constant AMOUNT_BIGGER_THAN_MAX_LOAN_SIZE_STABLE = '38'; // 'The requested amount is greater than the max loan size in stable rate mode'
string public constant NO_DEBT_OF_SELECTED_TYPE = '39'; // 'For repayment of a specific type of debt, the user needs to have debt that type'
string public constant NO_EXPLICIT_AMOUNT_TO_REPAY_ON_BEHALF = '40'; // 'To repay on behalf of a user an explicit amount to repay is needed'
string public constant NO_OUTSTANDING_STABLE_DEBT = '41'; // 'User does not have outstanding stable rate debt on this reserve'
string public constant NO_OUTSTANDING_VARIABLE_DEBT = '42'; // 'User does not have outstanding variable rate debt on this reserve'
string public constant UNDERLYING_BALANCE_ZERO = '43'; // 'The underlying balance needs to be greater than 0'
string public constant INTEREST_RATE_REBALANCE_CONDITIONS_NOT_MET = '44'; // 'Interest rate rebalance conditions were not met'
string public constant HEALTH_FACTOR_NOT_BELOW_THRESHOLD = '45'; // 'Health factor is not below the threshold'
string public constant COLLATERAL_CANNOT_BE_LIQUIDATED = '46'; // 'The collateral chosen cannot be liquidated'
string public constant SPECIFIED_CURRENCY_NOT_BORROWED_BY_USER = '47'; // 'User did not borrow the specified currency'
string public constant SAME_BLOCK_BORROW_REPAY = '48'; // 'Borrow and repay in same block is not allowed'
string public constant INCONSISTENT_FLASHLOAN_PARAMS = '49'; // 'Inconsistent flashloan parameters'
string public constant BORROW_CAP_EXCEEDED = '50'; // 'Borrow cap is exceeded'
string public constant SUPPLY_CAP_EXCEEDED = '51'; // 'Supply cap is exceeded'
string public constant UNBACKED_MINT_CAP_EXCEEDED = '52'; // 'Unbacked mint cap is exceeded'
string public constant DEBT_CEILING_EXCEEDED = '53'; // 'Debt ceiling is exceeded'
string public constant ATOKEN_SUPPLY_NOT_ZERO = '54'; // 'AToken supply is not zero'
string public constant STABLE_DEBT_NOT_ZERO = '55'; // 'Stable debt supply is not zero'
string public constant VARIABLE_DEBT_SUPPLY_NOT_ZERO = '56'; // 'Variable debt supply is not zero'
string public constant LTV_VALIDATION_FAILED = '57'; // 'Ltv validation failed'
string public constant INCONSISTENT_EMODE_CATEGORY = '58'; // 'Inconsistent eMode category'
string public constant PRICE_ORACLE_SENTINEL_CHECK_FAILED = '59'; // 'Price oracle sentinel validation failed'
string public constant ASSET_NOT_BORROWABLE_IN_ISOLATION = '60'; // 'Asset is not borrowable in isolation mode'
string public constant RESERVE_ALREADY_INITIALIZED = '61'; // 'Reserve has already been initialized'
string public constant USER_IN_ISOLATION_MODE = '62'; // 'User is in isolation mode'
string public constant INVALID_LTV = '63'; // 'Invalid ltv parameter for the reserve'
string public constant INVALID_LIQ_THRESHOLD = '64'; // 'Invalid liquidity threshold parameter for the reserve'
string public constant INVALID_LIQ_BONUS = '65'; // 'Invalid liquidity bonus parameter for the reserve'
string public constant INVALID_DECIMALS = '66'; // 'Invalid decimals parameter of the underlying asset of the reserve'
string public constant INVALID_RESERVE_FACTOR = '67'; // 'Invalid reserve factor parameter for the reserve'
string public constant INVALID_BORROW_CAP = '68'; // 'Invalid borrow cap for the reserve'
string public constant INVALID_SUPPLY_CAP = '69'; // 'Invalid supply cap for the reserve'
string public constant INVALID_LIQUIDATION_PROTOCOL_FEE = '70'; // 'Invalid liquidation protocol fee for the reserve'
string public constant INVALID_EMODE_CATEGORY = '71'; // 'Invalid eMode category for the reserve'
string public constant INVALID_UNBACKED_MINT_CAP = '72'; // 'Invalid unbacked mint cap for the reserve'
string public constant INVALID_DEBT_CEILING = '73'; // 'Invalid debt ceiling for the reserve
string public constant INVALID_RESERVE_INDEX = '74'; // 'Invalid reserve index'
string public constant ACL_ADMIN_CANNOT_BE_ZERO = '75'; // 'ACL admin cannot be set to the zero address'
string public constant INCONSISTENT_PARAMS_LENGTH = '76'; // 'Array parameters that should be equal length are not'
string public constant ZERO_ADDRESS_NOT_VALID = '77'; // 'Zero address not valid'
string public constant INVALID_EXPIRATION = '78'; // 'Invalid expiration'
string public constant INVALID_SIGNATURE = '79'; // 'Invalid signature'
string public constant OPERATION_NOT_SUPPORTED = '80'; // 'Operation not supported'
string public constant DEBT_CEILING_NOT_ZERO = '81'; // 'Debt ceiling is not zero'
string public constant ASSET_NOT_LISTED = '82'; // 'Asset is not listed'
string public constant INVALID_OPTIMAL_USAGE_RATIO = '83'; // 'Invalid optimal usage ratio'
string public constant INVALID_OPTIMAL_STABLE_TO_TOTAL_DEBT_RATIO = '84'; // 'Invalid optimal stable to total debt ratio'
string public constant UNDERLYING_CANNOT_BE_RESCUED = '85'; // 'The underlying asset cannot be rescued'
string public constant ADDRESSES_PROVIDER_ALREADY_ADDED = '86'; // 'Reserve has already been added to reserve list'
string public constant POOL_ADDRESSES_DO_NOT_MATCH = '87'; // 'The token implementation pool address and the pool address provided by the initializing pool do not match'
string public constant STABLE_BORROWING_ENABLED = '88'; // 'Stable borrowing is enabled'
string public constant SILOED_BORROWING_VIOLATION = '89'; // 'User is trying to borrow multiple assets including a siloed one'
string public constant RESERVE_DEBT_NOT_ZERO = '90'; // the total debt of the reserve needs to be 0
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {DataTypes} from '../types/DataTypes.sol';
/**
* @title Helpers library
* @author Aave
*/
library Helpers {
/**
* @notice Fetches the user current stable and variable debt balances
* @param user The user address
* @param reserveCache The reserve cache data object
* @return The stable debt balance
* @return The variable debt balance
**/
function getUserCurrentDebt(address user, DataTypes.ReserveCache memory reserveCache)
internal
view
returns (uint256, uint256)
{
return (
IERC20(reserveCache.stableDebtTokenAddress).balanceOf(user),
IERC20(reserveCache.variableDebtTokenAddress).balanceOf(user)
);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {SafeCast} from '../../../dependencies/openzeppelin/contracts/SafeCast.sol';
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {IStableDebtToken} from '../../../interfaces/IStableDebtToken.sol';
import {IVariableDebtToken} from '../../../interfaces/IVariableDebtToken.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {Helpers} from '../helpers/Helpers.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {ReserveLogic} from './ReserveLogic.sol';
import {IsolationModeLogic} from './IsolationModeLogic.sol';
/**
* @title BorrowLogic library
* @author Aave
* @notice Implements the base logic for all the actions related to borrowing
*/
library BorrowLogic {
using ReserveLogic for DataTypes.ReserveCache;
using ReserveLogic for DataTypes.ReserveData;
using GPv2SafeERC20 for IERC20;
using UserConfiguration for DataTypes.UserConfigurationMap;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using SafeCast for uint256;
// See `IPool` for descriptions
event Borrow(
address indexed reserve,
address user,
address indexed onBehalfOf,
uint256 amount,
DataTypes.InterestRateMode interestRateMode,
uint256 borrowRate,
uint16 indexed referralCode
);
event Repay(
address indexed reserve,
address indexed user,
address indexed repayer,
uint256 amount,
bool useATokens
);
event RebalanceStableBorrowRate(address indexed reserve, address indexed user);
event SwapBorrowRateMode(
address indexed reserve,
address indexed user,
DataTypes.InterestRateMode interestRateMode
);
event IsolationModeTotalDebtUpdated(address indexed asset, uint256 totalDebt);
/**
* @notice Implements the borrow feature. Borrowing allows users that provided collateral to draw liquidity from the
* Aave protocol proportionally to their collateralization power. For isolated positions, it also increases the
* isolated debt.
* @dev Emits the `Borrow()` event
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param params The additional parameters needed to execute the borrow function
*/
function executeBorrow(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ExecuteBorrowParams memory params
) public {
DataTypes.ReserveData storage reserve = reservesData[params.asset];
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
(
bool isolationModeActive,
address isolationModeCollateralAddress,
uint256 isolationModeDebtCeiling
) = userConfig.getIsolationModeState(reservesData, reservesList);
ValidationLogic.validateBorrow(
reservesData,
reservesList,
eModeCategories,
DataTypes.ValidateBorrowParams({
reserveCache: reserveCache,
userConfig: userConfig,
asset: params.asset,
userAddress: params.onBehalfOf,
amount: params.amount,
interestRateMode: params.interestRateMode,
maxStableLoanPercent: params.maxStableRateBorrowSizePercent,
reservesCount: params.reservesCount,
oracle: params.oracle,
userEModeCategory: params.userEModeCategory,
priceOracleSentinel: params.priceOracleSentinel,
isolationModeActive: isolationModeActive,
isolationModeCollateralAddress: isolationModeCollateralAddress,
isolationModeDebtCeiling: isolationModeDebtCeiling
})
);
uint256 currentStableRate = 0;
bool isFirstBorrowing = false;
if (params.interestRateMode == DataTypes.InterestRateMode.STABLE) {
currentStableRate = reserve.currentStableBorrowRate;
(
isFirstBorrowing,
reserveCache.nextTotalStableDebt,
reserveCache.nextAvgStableBorrowRate
) = IStableDebtToken(reserveCache.stableDebtTokenAddress).mint(
params.user,
params.onBehalfOf,
params.amount,
currentStableRate
);
} else {
(isFirstBorrowing, reserveCache.nextScaledVariableDebt) = IVariableDebtToken(
reserveCache.variableDebtTokenAddress
).mint(params.user, params.onBehalfOf, params.amount, reserveCache.nextVariableBorrowIndex);
}
if (isFirstBorrowing) {
userConfig.setBorrowing(reserve.id, true);
}
if (isolationModeActive) {
uint256 nextIsolationModeTotalDebt = reservesData[isolationModeCollateralAddress]
.isolationModeTotalDebt += (params.amount /
10 **
(reserveCache.reserveConfiguration.getDecimals() -
ReserveConfiguration.DEBT_CEILING_DECIMALS)).toUint128();
emit IsolationModeTotalDebtUpdated(
isolationModeCollateralAddress,
nextIsolationModeTotalDebt
);
}
reserve.updateInterestRates(
reserveCache,
params.asset,
0,
params.releaseUnderlying ? params.amount : 0
);
if (params.releaseUnderlying) {
IAToken(reserveCache.aTokenAddress).transferUnderlyingTo(params.user, params.amount);
}
emit Borrow(
params.asset,
params.user,
params.onBehalfOf,
params.amount,
params.interestRateMode,
params.interestRateMode == DataTypes.InterestRateMode.STABLE
? currentStableRate
: reserve.currentVariableBorrowRate,
params.referralCode
);
}
/**
* @notice Implements the repay feature. Repaying transfers the underlying back to the aToken and clears the
* equivalent amount of debt for the user by burning the corresponding debt token. For isolated positions, it also
* reduces the isolated debt.
* @dev Emits the `Repay()` event
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param params The additional parameters needed to execute the repay function
* @return The actual amount being repaid
*/
function executeRepay(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ExecuteRepayParams memory params
) external returns (uint256) {
DataTypes.ReserveData storage reserve = reservesData[params.asset];
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
(uint256 stableDebt, uint256 variableDebt) = Helpers.getUserCurrentDebt(
params.onBehalfOf,
reserveCache
);
ValidationLogic.validateRepay(
reserveCache,
params.amount,
params.interestRateMode,
params.onBehalfOf,
stableDebt,
variableDebt
);
uint256 paybackAmount = params.interestRateMode == DataTypes.InterestRateMode.STABLE
? stableDebt
: variableDebt;
// Allows a user to repay with aTokens without leaving dust from interest.
if (params.useATokens && params.amount == type(uint256).max) {
params.amount = IAToken(reserveCache.aTokenAddress).balanceOf(msg.sender);
}
if (params.amount < paybackAmount) {
paybackAmount = params.amount;
}
if (params.interestRateMode == DataTypes.InterestRateMode.STABLE) {
(reserveCache.nextTotalStableDebt, reserveCache.nextAvgStableBorrowRate) = IStableDebtToken(
reserveCache.stableDebtTokenAddress
).burn(params.onBehalfOf, paybackAmount);
} else {
reserveCache.nextScaledVariableDebt = IVariableDebtToken(
reserveCache.variableDebtTokenAddress
).burn(params.onBehalfOf, paybackAmount, reserveCache.nextVariableBorrowIndex);
}
reserve.updateInterestRates(
reserveCache,
params.asset,
params.useATokens ? 0 : paybackAmount,
0
);
if (stableDebt + variableDebt - paybackAmount == 0) {
userConfig.setBorrowing(reserve.id, false);
}
IsolationModeLogic.updateIsolatedDebtIfIsolated(
reservesData,
reservesList,
userConfig,
reserveCache,
paybackAmount
);
if (params.useATokens) {
IAToken(reserveCache.aTokenAddress).burn(
msg.sender,
reserveCache.aTokenAddress,
paybackAmount,
reserveCache.nextLiquidityIndex
);
} else {
IERC20(params.asset).safeTransferFrom(msg.sender, reserveCache.aTokenAddress, paybackAmount);
IAToken(reserveCache.aTokenAddress).handleRepayment(msg.sender, paybackAmount);
}
emit Repay(params.asset, params.onBehalfOf, msg.sender, paybackAmount, params.useATokens);
return paybackAmount;
}
/**
* @notice Implements the rebalance stable borrow rate feature. In case of liquidity crunches on the protocol, stable
* rate borrows might need to be rebalanced to bring back equilibrium between the borrow and supply APYs.
* @dev The rules that define if a position can be rebalanced are implemented in `ValidationLogic.validateRebalanceStableBorrowRate()`
* @dev Emits the `RebalanceStableBorrowRate()` event
* @param reserve The state of the reserve of the asset being repaid
* @param asset The asset of the position being rebalanced
* @param user The user being rebalanced
*/
function executeRebalanceStableBorrowRate(
DataTypes.ReserveData storage reserve,
address asset,
address user
) external {
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
ValidationLogic.validateRebalanceStableBorrowRate(reserve, reserveCache, asset);
IStableDebtToken stableDebtToken = IStableDebtToken(reserveCache.stableDebtTokenAddress);
uint256 stableDebt = IERC20(address(stableDebtToken)).balanceOf(user);
stableDebtToken.burn(user, stableDebt);
(, reserveCache.nextTotalStableDebt, reserveCache.nextAvgStableBorrowRate) = stableDebtToken
.mint(user, user, stableDebt, reserve.currentStableBorrowRate);
reserve.updateInterestRates(reserveCache, asset, 0, 0);
emit RebalanceStableBorrowRate(asset, user);
}
/**
* @notice Implements the swap borrow rate feature. Borrowers can swap from variable to stable positions at any time.
* @dev Emits the `Swap()` event
* @param reserve The of the reserve of the asset being repaid
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param asset The asset of the position being swapped
* @param interestRateMode The current interest rate mode of the position being swapped
*/
function executeSwapBorrowRateMode(
DataTypes.ReserveData storage reserve,
DataTypes.UserConfigurationMap storage userConfig,
address asset,
DataTypes.InterestRateMode interestRateMode
) external {
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
(uint256 stableDebt, uint256 variableDebt) = Helpers.getUserCurrentDebt(
msg.sender,
reserveCache
);
ValidationLogic.validateSwapRateMode(
reserve,
reserveCache,
userConfig,
stableDebt,
variableDebt,
interestRateMode
);
if (interestRateMode == DataTypes.InterestRateMode.STABLE) {
(reserveCache.nextTotalStableDebt, reserveCache.nextAvgStableBorrowRate) = IStableDebtToken(
reserveCache.stableDebtTokenAddress
).burn(msg.sender, stableDebt);
(, reserveCache.nextScaledVariableDebt) = IVariableDebtToken(
reserveCache.variableDebtTokenAddress
).mint(msg.sender, msg.sender, stableDebt, reserveCache.nextVariableBorrowIndex);
} else {
reserveCache.nextScaledVariableDebt = IVariableDebtToken(
reserveCache.variableDebtTokenAddress
).burn(msg.sender, variableDebt, reserveCache.nextVariableBorrowIndex);
(, reserveCache.nextTotalStableDebt, reserveCache.nextAvgStableBorrowRate) = IStableDebtToken(
reserveCache.stableDebtTokenAddress
).mint(msg.sender, msg.sender, variableDebt, reserve.currentStableBorrowRate);
}
reserve.updateInterestRates(reserveCache, asset, 0, 0);
emit SwapBorrowRateMode(asset, msg.sender, interestRateMode);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {SafeCast} from '../../../dependencies/openzeppelin/contracts/SafeCast.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {Errors} from '../helpers/Errors.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {ReserveLogic} from './ReserveLogic.sol';
library BridgeLogic {
using ReserveLogic for DataTypes.ReserveCache;
using ReserveLogic for DataTypes.ReserveData;
using UserConfiguration for DataTypes.UserConfigurationMap;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using WadRayMath for uint256;
using PercentageMath for uint256;
using SafeCast for uint256;
using GPv2SafeERC20 for IERC20;
// See `IPool` for descriptions
event ReserveUsedAsCollateralEnabled(address indexed reserve, address indexed user);
event MintUnbacked(
address indexed reserve,
address user,
address indexed onBehalfOf,
uint256 amount,
uint16 indexed referralCode
);
event BackUnbacked(address indexed reserve, address indexed backer, uint256 amount, uint256 fee);
/**
* @notice Mint unbacked aTokens to a user and updates the unbacked for the reserve.
* @dev Essentially a supply without transferring the underlying.
* @dev Emits the `MintUnbacked` event
* @dev Emits the `ReserveUsedAsCollateralEnabled` if asset is set as collateral
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param asset The address of the underlying asset to mint aTokens of
* @param amount The amount to mint
* @param onBehalfOf The address that will receive the aTokens
* @param referralCode Code used to register the integrator originating the operation, for potential rewards.
* 0 if the action is executed directly by the user, without any middle-man
**/
function executeMintUnbacked(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
DataTypes.UserConfigurationMap storage userConfig,
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) external {
DataTypes.ReserveData storage reserve = reservesData[asset];
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
ValidationLogic.validateSupply(reserveCache, amount);
uint256 unbackedMintCap = reserveCache.reserveConfiguration.getUnbackedMintCap();
uint256 reserveDecimals = reserveCache.reserveConfiguration.getDecimals();
uint256 unbacked = reserve.unbacked += amount.toUint128();
require(unbacked <= unbackedMintCap * (10**reserveDecimals), Errors.UNBACKED_MINT_CAP_EXCEEDED);
reserve.updateInterestRates(reserveCache, asset, 0, 0);
bool isFirstSupply = IAToken(reserveCache.aTokenAddress).mint(
msg.sender,
onBehalfOf,
amount,
reserveCache.nextLiquidityIndex
);
if (isFirstSupply) {
if (
ValidationLogic.validateUseAsCollateral(
reservesData,
reservesList,
userConfig,
reserveCache.reserveConfiguration
)
) {
userConfig.setUsingAsCollateral(reserve.id, true);
emit ReserveUsedAsCollateralEnabled(asset, onBehalfOf);
}
}
emit MintUnbacked(asset, msg.sender, onBehalfOf, amount, referralCode);
}
/**
* @notice Back the current unbacked with `amount` and pay `fee`.
* @dev Emits the `BackUnbacked` event
* @param reserve The reserve to back unbacked for
* @param asset The address of the underlying asset to repay
* @param amount The amount to back
* @param fee The amount paid in fees
* @param protocolFeeBps The fraction of fees in basis points paid to the protocol
**/
function executeBackUnbacked(
DataTypes.ReserveData storage reserve,
address asset,
uint256 amount,
uint256 fee,
uint256 protocolFeeBps
) external {
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
uint256 backingAmount = (amount < reserve.unbacked) ? amount : reserve.unbacked;
uint256 feeToProtocol = fee.percentMul(protocolFeeBps);
uint256 feeToLP = fee - feeToProtocol;
uint256 added = backingAmount + fee;
reserveCache.nextLiquidityIndex = reserve.cumulateToLiquidityIndex(
IERC20(reserveCache.aTokenAddress).totalSupply(),
feeToLP
);
reserve.accruedToTreasury += feeToProtocol.rayDiv(reserveCache.nextLiquidityIndex).toUint128();
reserve.unbacked -= backingAmount.toUint128();
reserve.updateInterestRates(reserveCache, asset, added, 0);
IERC20(asset).safeTransferFrom(msg.sender, reserveCache.aTokenAddress, added);
emit BackUnbacked(asset, msg.sender, backingAmount, fee);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
/**
* @title CalldataLogic library
* @author Aave
* @notice Library to decode calldata, used to optimize calldata size in L2Pool for transaction cost reduction
*/
library CalldataLogic {
/**
* @notice Decodes compressed supply params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed supply params
* @return The address of the underlying reserve
* @return The amount to supply
* @return The referralCode
*/
function decodeSupplyParams(mapping(uint256 => address) storage reservesList, bytes32 args)
internal
view
returns (
address,
uint256,
uint16
)
{
uint16 assetId;
uint256 amount;
uint16 referralCode;
assembly {
assetId := and(args, 0xFFFF)
amount := and(shr(16, args), 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
referralCode := and(shr(144, args), 0xFFFF)
}
return (reservesList[assetId], amount, referralCode);
}
/**
* @notice Decodes compressed supply params to standard params along with permit params
* @param reservesList The addresses of all the active reserves
* @param args The packed supply with permit params
* @return The address of the underlying reserve
* @return The amount to supply
* @return The referralCode
* @return The deadline of the permit
* @return The V value of the permit signature
*/
function decodeSupplyWithPermitParams(
mapping(uint256 => address) storage reservesList,
bytes32 args
)
internal
view
returns (
address,
uint256,
uint16,
uint256,
uint8
)
{
uint256 deadline;
uint8 permitV;
assembly {
deadline := and(shr(160, args), 0xFFFFFFFF)
permitV := and(shr(192, args), 0xFF)
}
(address asset, uint256 amount, uint16 referralCode) = decodeSupplyParams(reservesList, args);
return (asset, amount, referralCode, deadline, permitV);
}
/**
* @notice Decodes compressed withdraw params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed withdraw params
* @return The address of the underlying reserve
* @return The amount to withdraw
*/
function decodeWithdrawParams(mapping(uint256 => address) storage reservesList, bytes32 args)
internal
view
returns (address, uint256)
{
uint16 assetId;
uint256 amount;
assembly {
assetId := and(args, 0xFFFF)
amount := and(shr(16, args), 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
}
if (amount == type(uint128).max) {
amount = type(uint256).max;
}
return (reservesList[assetId], amount);
}
/**
* @notice Decodes compressed borrow params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed borrow params
* @return The address of the underlying reserve
* @return The amount to borrow
* @return The interestRateMode, 1 for stable or 2 for variable debt
* @return The referralCode
*/
function decodeBorrowParams(mapping(uint256 => address) storage reservesList, bytes32 args)
internal
view
returns (
address,
uint256,
uint256,
uint16
)
{
uint16 assetId;
uint256 amount;
uint256 interestRateMode;
uint16 referralCode;
assembly {
assetId := and(args, 0xFFFF)
amount := and(shr(16, args), 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
interestRateMode := and(shr(144, args), 0xFF)
referralCode := and(shr(152, args), 0xFFFF)
}
return (reservesList[assetId], amount, interestRateMode, referralCode);
}
/**
* @notice Decodes compressed repay params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed repay params
* @return The address of the underlying reserve
* @return The amount to repay
* @return The interestRateMode, 1 for stable or 2 for variable debt
*/
function decodeRepayParams(mapping(uint256 => address) storage reservesList, bytes32 args)
internal
view
returns (
address,
uint256,
uint256
)
{
uint16 assetId;
uint256 amount;
uint256 interestRateMode;
assembly {
assetId := and(args, 0xFFFF)
amount := and(shr(16, args), 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
interestRateMode := and(shr(144, args), 0xFF)
}
if (amount == type(uint128).max) {
amount = type(uint256).max;
}
return (reservesList[assetId], amount, interestRateMode);
}
/**
* @notice Decodes compressed repay params to standard params along with permit params
* @param reservesList The addresses of all the active reserves
* @param args The packed repay with permit params
* @return The address of the underlying reserve
* @return The amount to repay
* @return The interestRateMode, 1 for stable or 2 for variable debt
* @return The deadline of the permit
* @return The V value of the permit signature
*/
function decodeRepayWithPermitParams(
mapping(uint256 => address) storage reservesList,
bytes32 args
)
internal
view
returns (
address,
uint256,
uint256,
uint256,
uint8
)
{
uint256 deadline;
uint8 permitV;
(address asset, uint256 amount, uint256 interestRateMode) = decodeRepayParams(
reservesList,
args
);
assembly {
deadline := and(shr(152, args), 0xFFFFFFFF)
permitV := and(shr(184, args), 0xFF)
}
return (asset, amount, interestRateMode, deadline, permitV);
}
/**
* @notice Decodes compressed swap borrow rate mode params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed swap borrow rate mode params
* @return The address of the underlying reserve
* @return The interest rate mode, 1 for stable 2 for variable debt
*/
function decodeSwapBorrowRateModeParams(
mapping(uint256 => address) storage reservesList,
bytes32 args
) internal view returns (address, uint256) {
uint16 assetId;
uint256 interestRateMode;
assembly {
assetId := and(args, 0xFFFF)
interestRateMode := and(shr(16, args), 0xFF)
}
return (reservesList[assetId], interestRateMode);
}
/**
* @notice Decodes compressed rebalance stable borrow rate params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed rabalance stable borrow rate params
* @return The address of the underlying reserve
* @return The address of the user to rebalance
*/
function decodeRebalanceStableBorrowRateParams(
mapping(uint256 => address) storage reservesList,
bytes32 args
) internal view returns (address, address) {
uint16 assetId;
address user;
assembly {
assetId := and(args, 0xFFFF)
user := and(shr(16, args), 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
}
return (reservesList[assetId], user);
}
/**
* @notice Decodes compressed set user use reserve as collateral params to standard params
* @param reservesList The addresses of all the active reserves
* @param args The packed set user use reserve as collateral params
* @return The address of the underlying reserve
* @return True if to set using as collateral, false otherwise
*/
function decodeSetUserUseReserveAsCollateralParams(
mapping(uint256 => address) storage reservesList,
bytes32 args
) internal view returns (address, bool) {
uint16 assetId;
bool useAsCollateral;
assembly {
assetId := and(args, 0xFFFF)
useAsCollateral := and(shr(16, args), 0x1)
}
return (reservesList[assetId], useAsCollateral);
}
/**
* @notice Decodes compressed liquidation call params to standard params
* @param reservesList The addresses of all the active reserves
* @param args1 The first half of packed liquidation call params
* @param args2 The second half of the packed liquidation call params
* @return The address of the underlying collateral asset
* @return The address of the underlying debt asset
* @return The address of the user to liquidate
* @return The amount of debt to cover
* @return True if receiving aTokens, false otherwise
*/
function decodeLiquidationCallParams(
mapping(uint256 => address) storage reservesList,
bytes32 args1,
bytes32 args2
)
internal
view
returns (
address,
address,
address,
uint256,
bool
)
{
uint16 collateralAssetId;
uint16 debtAssetId;
address user;
uint256 debtToCover;
bool receiveAToken;
assembly {
collateralAssetId := and(args1, 0xFFFF)
debtAssetId := and(shr(16, args1), 0xFFFF)
user := and(shr(32, args1), 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
debtToCover := and(args2, 0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF)
receiveAToken := and(shr(128, args2), 0x1)
}
if (debtToCover == type(uint128).max) {
debtToCover = type(uint256).max;
}
return (
reservesList[collateralAssetId],
reservesList[debtAssetId],
user,
debtToCover,
receiveAToken
);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {IPriceOracleGetter} from '../../../interfaces/IPriceOracleGetter.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {Errors} from '../helpers/Errors.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {ReserveLogic} from './ReserveLogic.sol';
/**
* @title EModeLogic library
* @author Aave
* @notice Implements the base logic for all the actions related to the eMode
*/
library EModeLogic {
using ReserveLogic for DataTypes.ReserveCache;
using ReserveLogic for DataTypes.ReserveData;
using GPv2SafeERC20 for IERC20;
using UserConfiguration for DataTypes.UserConfigurationMap;
using WadRayMath for uint256;
using PercentageMath for uint256;
// See `IPool` for descriptions
event UserEModeSet(address indexed user, uint8 categoryId);
/**
* @notice Updates the user efficiency mode category
* @dev Will revert if user is borrowing non-compatible asset or change will drop HF < HEALTH_FACTOR_LIQUIDATION_THRESHOLD
* @dev Emits the `UserEModeSet` event
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param usersEModeCategory The state of all users efficiency mode category
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param params The additional parameters needed to execute the setUserEMode function
*/
function executeSetUserEMode(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
mapping(address => uint8) storage usersEModeCategory,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ExecuteSetUserEModeParams memory params
) external {
ValidationLogic.validateSetUserEMode(
reservesData,
reservesList,
eModeCategories,
userConfig,
params.reservesCount,
params.categoryId
);
uint8 prevCategoryId = usersEModeCategory[msg.sender];
usersEModeCategory[msg.sender] = params.categoryId;
if (prevCategoryId != 0) {
ValidationLogic.validateHealthFactor(
reservesData,
reservesList,
eModeCategories,
userConfig,
msg.sender,
params.categoryId,
params.reservesCount,
params.oracle
);
}
emit UserEModeSet(msg.sender, params.categoryId);
}
/**
* @notice Gets the eMode configuration and calculates the eMode asset price if a custom oracle is configured
* @dev The eMode asset price returned is 0 if no oracle is specified
* @param category The user eMode category
* @param oracle The price oracle
* @return The eMode ltv
* @return The eMode liquidation threshold
* @return The eMode asset price
**/
function getEModeConfiguration(
DataTypes.EModeCategory storage category,
IPriceOracleGetter oracle
)
internal
view
returns (
uint256,
uint256,
uint256
)
{
uint256 eModeAssetPrice = 0;
address eModePriceSource = category.priceSource;
if (eModePriceSource != address(0)) {
eModeAssetPrice = oracle.getAssetPrice(eModePriceSource);
}
return (category.ltv, category.liquidationThreshold, eModeAssetPrice);
}
/**
* @notice Checks if eMode is active for a user and if yes, if the asset belongs to the eMode category chosen
* @param eModeUserCategory The user eMode category
* @param eModeAssetCategory The asset eMode category
* @return True if eMode is active and the asset belongs to the eMode category chosen by the user, false otherwise
**/
function isInEModeCategory(uint256 eModeUserCategory, uint256 eModeAssetCategory)
internal
pure
returns (bool)
{
return (eModeUserCategory != 0 && eModeAssetCategory == eModeUserCategory);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {SafeCast} from '../../../dependencies/openzeppelin/contracts/SafeCast.sol';
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {IFlashLoanReceiver} from '../../../flashloan/interfaces/IFlashLoanReceiver.sol';
import {IFlashLoanSimpleReceiver} from '../../../flashloan/interfaces/IFlashLoanSimpleReceiver.sol';
import {IPoolAddressesProvider} from '../../../interfaces/IPoolAddressesProvider.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {Errors} from '../helpers/Errors.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {BorrowLogic} from './BorrowLogic.sol';
import {ReserveLogic} from './ReserveLogic.sol';
/**
* @title FlashLoanLogic library
* @author Aave
* @notice Implements the logic for the flash loans
*/
library FlashLoanLogic {
using ReserveLogic for DataTypes.ReserveCache;
using ReserveLogic for DataTypes.ReserveData;
using GPv2SafeERC20 for IERC20;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using WadRayMath for uint256;
using PercentageMath for uint256;
using SafeCast for uint256;
// See `IPool` for descriptions
event FlashLoan(
address indexed target,
address initiator,
address indexed asset,
uint256 amount,
DataTypes.InterestRateMode interestRateMode,
uint256 premium,
uint16 indexed referralCode
);
// Helper struct for internal variables used in the `executeFlashLoan` function
struct FlashLoanLocalVars {
IFlashLoanReceiver receiver;
uint256 i;
address currentAsset;
uint256 currentAmount;
uint256[] totalPremiums;
uint256 flashloanPremiumTotal;
uint256 flashloanPremiumToProtocol;
}
/**
* @notice Implements the flashloan feature that allow users to access liquidity of the pool for one transaction
* as long as the amount taken plus fee is returned or debt is opened.
* @dev For authorized flashborrowers the fee is waived
* @dev At the end of the transaction the pool will pull amount borrowed + fee from the receiver,
* if the receiver have not approved the pool the transaction will revert.
* @dev Emits the `FlashLoan()` event
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param params The additional parameters needed to execute the flashloan function
*/
function executeFlashLoan(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.FlashloanParams memory params
) external {
// The usual action flow (cache -> updateState -> validation -> changeState -> updateRates)
// is altered to (validation -> user payload -> cache -> updateState -> changeState -> updateRates) for flashloans.
// This is done to protect against reentrance and rate manipulation within the user specified payload.
ValidationLogic.validateFlashloan(reservesData, params.assets, params.amounts);
FlashLoanLocalVars memory vars;
vars.totalPremiums = new uint256[](params.assets.length);
vars.receiver = IFlashLoanReceiver(params.receiverAddress);
(vars.flashloanPremiumTotal, vars.flashloanPremiumToProtocol) = params.isAuthorizedFlashBorrower
? (0, 0)
: (params.flashLoanPremiumTotal, params.flashLoanPremiumToProtocol);
for (vars.i = 0; vars.i < params.assets.length; vars.i++) {
vars.currentAmount = params.amounts[vars.i];
vars.totalPremiums[vars.i] = vars.currentAmount.percentMul(vars.flashloanPremiumTotal);
IAToken(reservesData[params.assets[vars.i]].aTokenAddress).transferUnderlyingTo(
params.receiverAddress,
vars.currentAmount
);
}
require(
vars.receiver.executeOperation(
params.assets,
params.amounts,
vars.totalPremiums,
msg.sender,
params.params
),
Errors.INVALID_FLASHLOAN_EXECUTOR_RETURN
);
for (vars.i = 0; vars.i < params.assets.length; vars.i++) {
vars.currentAsset = params.assets[vars.i];
vars.currentAmount = params.amounts[vars.i];
if (
DataTypes.InterestRateMode(params.interestRateModes[vars.i]) ==
DataTypes.InterestRateMode.NONE
) {
_handleFlashLoanRepayment(
reservesData[vars.currentAsset],
DataTypes.FlashLoanRepaymentParams({
asset: vars.currentAsset,
receiverAddress: params.receiverAddress,
amount: vars.currentAmount,
totalPremium: vars.totalPremiums[vars.i],
flashLoanPremiumToProtocol: vars.flashloanPremiumToProtocol,
referralCode: params.referralCode
})
);
} else {
// If the user chose to not return the funds, the system checks if there is enough collateral and
// eventually opens a debt position
BorrowLogic.executeBorrow(
reservesData,
reservesList,
eModeCategories,
userConfig,
DataTypes.ExecuteBorrowParams({
asset: vars.currentAsset,
user: msg.sender,
onBehalfOf: params.onBehalfOf,
amount: vars.currentAmount,
interestRateMode: DataTypes.InterestRateMode(params.interestRateModes[vars.i]),
referralCode: params.referralCode,
releaseUnderlying: false,
maxStableRateBorrowSizePercent: params.maxStableRateBorrowSizePercent,
reservesCount: params.reservesCount,
oracle: IPoolAddressesProvider(params.addressesProvider).getPriceOracle(),
userEModeCategory: params.userEModeCategory,
priceOracleSentinel: IPoolAddressesProvider(params.addressesProvider)
.getPriceOracleSentinel()
})
);
// no premium is paid when taking on the flashloan as debt
emit FlashLoan(
params.receiverAddress,
msg.sender,
vars.currentAsset,
vars.currentAmount,
DataTypes.InterestRateMode(params.interestRateModes[vars.i]),
0,
params.referralCode
);
}
}
}
/**
* @notice Implements the simple flashloan feature that allow users to access liquidity of ONE reserve for one
* transaction as long as the amount taken plus fee is returned.
* @dev Does not waive fee for approved flashborrowers nor allow taking on debt instead of repaying to save gas
* @dev At the end of the transaction the pool will pull amount borrowed + fee from the receiver,
* if the receiver have not approved the pool the transaction will revert.
* @dev Emits the `FlashLoan()` event
* @param reserve The state of the flashloaned reserve
* @param params The additional parameters needed to execute the simple flashloan function
*/
function executeFlashLoanSimple(
DataTypes.ReserveData storage reserve,
DataTypes.FlashloanSimpleParams memory params
) external {
// The usual action flow (cache -> updateState -> validation -> changeState -> updateRates)
// is altered to (validation -> user payload -> cache -> updateState -> changeState -> updateRates) for flashloans.
// This is done to protect against reentrance and rate manipulation within the user specified payload.
ValidationLogic.validateFlashloanSimple(reserve);
IFlashLoanSimpleReceiver receiver = IFlashLoanSimpleReceiver(params.receiverAddress);
uint256 totalPremium = params.amount.percentMul(params.flashLoanPremiumTotal);
IAToken(reserve.aTokenAddress).transferUnderlyingTo(params.receiverAddress, params.amount);
require(
receiver.executeOperation(
params.asset,
params.amount,
totalPremium,
msg.sender,
params.params
),
Errors.INVALID_FLASHLOAN_EXECUTOR_RETURN
);
_handleFlashLoanRepayment(
reserve,
DataTypes.FlashLoanRepaymentParams({
asset: params.asset,
receiverAddress: params.receiverAddress,
amount: params.amount,
totalPremium: totalPremium,
flashLoanPremiumToProtocol: params.flashLoanPremiumToProtocol,
referralCode: params.referralCode
})
);
}
/**
* @notice Handles repayment of flashloaned assets + premium
* @dev Will pull the amount + premium from the receiver, so must have approved pool
* @param reserve The state of the flashloaned reserve
* @param params The additional parameters needed to execute the repayment function
*/
function _handleFlashLoanRepayment(
DataTypes.ReserveData storage reserve,
DataTypes.FlashLoanRepaymentParams memory params
) internal {
uint256 premiumToProtocol = params.totalPremium.percentMul(params.flashLoanPremiumToProtocol);
uint256 premiumToLP = params.totalPremium - premiumToProtocol;
uint256 amountPlusPremium = params.amount + params.totalPremium;
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
reserveCache.nextLiquidityIndex = reserve.cumulateToLiquidityIndex(
IERC20(reserveCache.aTokenAddress).totalSupply(),
premiumToLP
);
reserve.accruedToTreasury += premiumToProtocol
.rayDiv(reserveCache.nextLiquidityIndex)
.toUint128();
reserve.updateInterestRates(reserveCache, params.asset, amountPlusPremium, 0);
IERC20(params.asset).safeTransferFrom(
params.receiverAddress,
reserveCache.aTokenAddress,
amountPlusPremium
);
IAToken(reserveCache.aTokenAddress).handleRepayment(params.receiverAddress, amountPlusPremium);
emit FlashLoan(
params.receiverAddress,
msg.sender,
params.asset,
params.amount,
DataTypes.InterestRateMode(0),
params.totalPremium,
params.referralCode
);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {IScaledBalanceToken} from '../../../interfaces/IScaledBalanceToken.sol';
import {IPriceOracleGetter} from '../../../interfaces/IPriceOracleGetter.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ReserveLogic} from './ReserveLogic.sol';
import {EModeLogic} from './EModeLogic.sol';
/**
* @title GenericLogic library
* @author Aave
* @notice Implements protocol-level logic to calculate and validate the state of a user
*/
library GenericLogic {
using ReserveLogic for DataTypes.ReserveData;
using WadRayMath for uint256;
using PercentageMath for uint256;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using UserConfiguration for DataTypes.UserConfigurationMap;
struct CalculateUserAccountDataVars {
uint256 assetPrice;
uint256 assetUnit;
uint256 userBalanceInBaseCurrency;
uint256 decimals;
uint256 ltv;
uint256 liquidationThreshold;
uint256 i;
uint256 healthFactor;
uint256 totalCollateralInBaseCurrency;
uint256 totalDebtInBaseCurrency;
uint256 avgLtv;
uint256 avgLiquidationThreshold;
uint256 eModeAssetPrice;
uint256 eModeLtv;
uint256 eModeLiqThreshold;
uint256 eModeAssetCategory;
address currentReserveAddress;
bool hasZeroLtvCollateral;
bool isInEModeCategory;
}
/**
* @notice Calculates the user data across the reserves.
* @dev It includes the total liquidity/collateral/borrow balances in the base currency used by the price feed,
* the average Loan To Value, the average Liquidation Ratio, and the Health factor.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param params Additional parameters needed for the calculation
* @return The total collateral of the user in the base currency used by the price feed
* @return The total debt of the user in the base currency used by the price feed
* @return The average ltv of the user
* @return The average liquidation threshold of the user
* @return The health factor of the user
* @return True if the ltv is zero, false otherwise
**/
function calculateUserAccountData(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.CalculateUserAccountDataParams memory params
)
internal
view
returns (
uint256,
uint256,
uint256,
uint256,
uint256,
bool
)
{
if (params.userConfig.isEmpty()) {
return (0, 0, 0, 0, type(uint256).max, false);
}
CalculateUserAccountDataVars memory vars;
if (params.userEModeCategory != 0) {
(vars.eModeLtv, vars.eModeLiqThreshold, vars.eModeAssetPrice) = EModeLogic
.getEModeConfiguration(
eModeCategories[params.userEModeCategory],
IPriceOracleGetter(params.oracle)
);
}
while (vars.i < params.reservesCount) {
if (!params.userConfig.isUsingAsCollateralOrBorrowing(vars.i)) {
unchecked {
++vars.i;
}
continue;
}
vars.currentReserveAddress = reservesList[vars.i];
if (vars.currentReserveAddress == address(0)) {
unchecked {
++vars.i;
}
continue;
}
DataTypes.ReserveData storage currentReserve = reservesData[vars.currentReserveAddress];
(
vars.ltv,
vars.liquidationThreshold,
,
vars.decimals,
,
vars.eModeAssetCategory
) = currentReserve.configuration.getParams();
unchecked {
vars.assetUnit = 10**vars.decimals;
}
vars.assetPrice = vars.eModeAssetPrice != 0 &&
params.userEModeCategory == vars.eModeAssetCategory
? vars.eModeAssetPrice
: IPriceOracleGetter(params.oracle).getAssetPrice(vars.currentReserveAddress);
if (vars.liquidationThreshold != 0 && params.userConfig.isUsingAsCollateral(vars.i)) {
vars.userBalanceInBaseCurrency = _getUserBalanceInBaseCurrency(
params.user,
currentReserve,
vars.assetPrice,
vars.assetUnit
);
vars.totalCollateralInBaseCurrency += vars.userBalanceInBaseCurrency;
vars.isInEModeCategory = EModeLogic.isInEModeCategory(
params.userEModeCategory,
vars.eModeAssetCategory
);
if (vars.ltv != 0) {
vars.avgLtv +=
vars.userBalanceInBaseCurrency *
(vars.isInEModeCategory ? vars.eModeLtv : vars.ltv);
} else {
vars.hasZeroLtvCollateral = true;
}
vars.avgLiquidationThreshold +=
vars.userBalanceInBaseCurrency *
(vars.isInEModeCategory ? vars.eModeLiqThreshold : vars.liquidationThreshold);
}
if (params.userConfig.isBorrowing(vars.i)) {
vars.totalDebtInBaseCurrency += _getUserDebtInBaseCurrency(
params.user,
currentReserve,
vars.assetPrice,
vars.assetUnit
);
}
unchecked {
++vars.i;
}
}
unchecked {
vars.avgLtv = vars.totalCollateralInBaseCurrency != 0
? vars.avgLtv / vars.totalCollateralInBaseCurrency
: 0;
vars.avgLiquidationThreshold = vars.totalCollateralInBaseCurrency != 0
? vars.avgLiquidationThreshold / vars.totalCollateralInBaseCurrency
: 0;
}
vars.healthFactor = (vars.totalDebtInBaseCurrency == 0)
? type(uint256).max
: (vars.totalCollateralInBaseCurrency.percentMul(vars.avgLiquidationThreshold)).wadDiv(
vars.totalDebtInBaseCurrency
);
return (
vars.totalCollateralInBaseCurrency,
vars.totalDebtInBaseCurrency,
vars.avgLtv,
vars.avgLiquidationThreshold,
vars.healthFactor,
vars.hasZeroLtvCollateral
);
}
/**
* @notice Calculates the maximum amount that can be borrowed depending on the available collateral, the total debt
* and the average Loan To Value
* @param totalCollateralInBaseCurrency The total collateral in the base currency used by the price feed
* @param totalDebtInBaseCurrency The total borrow balance in the base currency used by the price feed
* @param ltv The average loan to value
* @return The amount available to borrow in the base currency of the used by the price feed
**/
function calculateAvailableBorrows(
uint256 totalCollateralInBaseCurrency,
uint256 totalDebtInBaseCurrency,
uint256 ltv
) internal pure returns (uint256) {
uint256 availableBorrowsInBaseCurrency = totalCollateralInBaseCurrency.percentMul(ltv);
if (availableBorrowsInBaseCurrency < totalDebtInBaseCurrency) {
return 0;
}
availableBorrowsInBaseCurrency = availableBorrowsInBaseCurrency - totalDebtInBaseCurrency;
return availableBorrowsInBaseCurrency;
}
/**
* @notice Calculates total debt of the user in the based currency used to normalize the values of the assets
* @dev This fetches the `balanceOf` of the stable and variable debt tokens for the user. For gas reasons, the
* variable debt balance is calculated by fetching `scaledBalancesOf` normalized debt, which is cheaper than
* fetching `balanceOf`
* @param user The address of the user
* @param reserve The data of the reserve for which the total debt of the user is being calculated
* @param assetPrice The price of the asset for which the total debt of the user is being calculated
* @param assetUnit The value representing one full unit of the asset (10^decimals)
* @return The total debt of the user normalized to the base currency
**/
function _getUserDebtInBaseCurrency(
address user,
DataTypes.ReserveData storage reserve,
uint256 assetPrice,
uint256 assetUnit
) private view returns (uint256) {
// fetching variable debt
uint256 userTotalDebt = IScaledBalanceToken(reserve.variableDebtTokenAddress).scaledBalanceOf(
user
);
if (userTotalDebt != 0) {
userTotalDebt = userTotalDebt.rayMul(reserve.getNormalizedDebt());
}
userTotalDebt = userTotalDebt + IERC20(reserve.stableDebtTokenAddress).balanceOf(user);
userTotalDebt = assetPrice * userTotalDebt;
unchecked {
return userTotalDebt / assetUnit;
}
}
/**
* @notice Calculates total aToken balance of the user in the based currency used by the price oracle
* @dev For gas reasons, the aToken balance is calculated by fetching `scaledBalancesOf` normalized debt, which
* is cheaper than fetching `balanceOf`
* @param user The address of the user
* @param reserve The data of the reserve for which the total aToken balance of the user is being calculated
* @param assetPrice The price of the asset for which the total aToken balance of the user is being calculated
* @param assetUnit The value representing one full unit of the asset (10^decimals)
* @return The total aToken balance of the user normalized to the base currency of the price oracle
**/
function _getUserBalanceInBaseCurrency(
address user,
DataTypes.ReserveData storage reserve,
uint256 assetPrice,
uint256 assetUnit
) private view returns (uint256) {
uint256 normalizedIncome = reserve.getNormalizedIncome();
uint256 balance = (
IScaledBalanceToken(reserve.aTokenAddress).scaledBalanceOf(user).rayMul(normalizedIncome)
) * assetPrice;
unchecked {
return balance / assetUnit;
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {DataTypes} from '../types/DataTypes.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {SafeCast} from '../../../dependencies/openzeppelin/contracts/SafeCast.sol';
/**
* @title IsolationModeLogic library
* @author Aave
* @notice Implements the base logic for handling repayments for assets borrowed in isolation mode
*/
library IsolationModeLogic {
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using UserConfiguration for DataTypes.UserConfigurationMap;
using SafeCast for uint256;
// See `IPool` for descriptions
event IsolationModeTotalDebtUpdated(address indexed asset, uint256 totalDebt);
/**
* @notice updated the isolated debt whenever a position collateralized by an isolated asset is repaid or liquidated
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param userConfig The user configuration mapping
* @param reserveCache The cached data of the reserve
* @param repayAmount The amount being repaid
*/
function updateIsolatedDebtIfIsolated(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ReserveCache memory reserveCache,
uint256 repayAmount
) internal {
(bool isolationModeActive, address isolationModeCollateralAddress, ) = userConfig
.getIsolationModeState(reservesData, reservesList);
if (isolationModeActive) {
uint128 isolationModeTotalDebt = reservesData[isolationModeCollateralAddress]
.isolationModeTotalDebt;
uint128 isolatedDebtRepaid = (repayAmount /
10 **
(reserveCache.reserveConfiguration.getDecimals() -
ReserveConfiguration.DEBT_CEILING_DECIMALS)).toUint128();
// since the debt ceiling does not take into account the interest accrued, it might happen that amount
// repaid > debt in isolation mode
if (isolationModeTotalDebt <= isolatedDebtRepaid) {
reservesData[isolationModeCollateralAddress].isolationModeTotalDebt = 0;
emit IsolationModeTotalDebtUpdated(isolationModeCollateralAddress, 0);
} else {
uint256 nextIsolationModeTotalDebt = reservesData[isolationModeCollateralAddress]
.isolationModeTotalDebt = isolationModeTotalDebt - isolatedDebtRepaid;
emit IsolationModeTotalDebtUpdated(
isolationModeCollateralAddress,
nextIsolationModeTotalDebt
);
}
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts//IERC20.sol';
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {PercentageMath} from '../../libraries/math/PercentageMath.sol';
import {WadRayMath} from '../../libraries/math/WadRayMath.sol';
import {Helpers} from '../../libraries/helpers/Helpers.sol';
import {DataTypes} from '../../libraries/types/DataTypes.sol';
import {ReserveLogic} from './ReserveLogic.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {GenericLogic} from './GenericLogic.sol';
import {IsolationModeLogic} from './IsolationModeLogic.sol';
import {EModeLogic} from './EModeLogic.sol';
import {UserConfiguration} from '../../libraries/configuration/UserConfiguration.sol';
import {ReserveConfiguration} from '../../libraries/configuration/ReserveConfiguration.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {IStableDebtToken} from '../../../interfaces/IStableDebtToken.sol';
import {IVariableDebtToken} from '../../../interfaces/IVariableDebtToken.sol';
import {IPriceOracleGetter} from '../../../interfaces/IPriceOracleGetter.sol';
/**
* @title LiquidationLogic library
* @author Aave
* @notice Implements actions involving management of collateral in the protocol, the main one being the liquidations
**/
library LiquidationLogic {
using WadRayMath for uint256;
using PercentageMath for uint256;
using ReserveLogic for DataTypes.ReserveCache;
using ReserveLogic for DataTypes.ReserveData;
using UserConfiguration for DataTypes.UserConfigurationMap;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using GPv2SafeERC20 for IERC20;
// See `IPool` for descriptions
event ReserveUsedAsCollateralEnabled(address indexed reserve, address indexed user);
event ReserveUsedAsCollateralDisabled(address indexed reserve, address indexed user);
event LiquidationCall(
address indexed collateralAsset,
address indexed debtAsset,
address indexed user,
uint256 debtToCover,
uint256 liquidatedCollateralAmount,
address liquidator,
bool receiveAToken
);
/**
* @dev Default percentage of borrower's debt to be repaid in a liquidation.
* @dev Percentage applied when the users health factor is above `CLOSE_FACTOR_HF_THRESHOLD`
* Expressed in bps, a value of 0.5e4 results in 50.00%
*/
uint256 internal constant DEFAULT_LIQUIDATION_CLOSE_FACTOR = 0.5e4;
/**
* @dev Maximum percentage of borrower's debt to be repaid in a liquidation
* @dev Percentage applied when the users health factor is below `CLOSE_FACTOR_HF_THRESHOLD`
* Expressed in bps, a value of 1e4 results in 100.00%
*/
uint256 public constant MAX_LIQUIDATION_CLOSE_FACTOR = 1e4;
/**
* @dev This constant represents below which health factor value it is possible to liquidate
* an amount of debt corresponding to `MAX_LIQUIDATION_CLOSE_FACTOR`.
* A value of 0.95e18 results in 0.95
*/
uint256 public constant CLOSE_FACTOR_HF_THRESHOLD = 0.95e18;
struct LiquidationCallLocalVars {
uint256 userCollateralBalance;
uint256 userVariableDebt;
uint256 userTotalDebt;
uint256 actualDebtToLiquidate;
uint256 actualCollateralToLiquidate;
uint256 liquidationBonus;
uint256 healthFactor;
uint256 liquidationProtocolFeeAmount;
address collateralPriceSource;
address debtPriceSource;
IAToken collateralAToken;
DataTypes.ReserveCache debtReserveCache;
}
/**
* @notice Function to liquidate a position if its Health Factor drops below 1. The caller (liquidator)
* covers `debtToCover` amount of debt of the user getting liquidated, and receives
* a proportional amount of the `collateralAsset` plus a bonus to cover market risk
* @dev Emits the `LiquidationCall()` event
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param usersConfig The users configuration mapping that track the supplied/borrowed assets
* @param eModeCategories The configuration of all the efficiency mode categories
* @param params The additional parameters needed to execute the liquidation function
**/
function executeLiquidationCall(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(address => DataTypes.UserConfigurationMap) storage usersConfig,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.ExecuteLiquidationCallParams memory params
) external {
LiquidationCallLocalVars memory vars;
DataTypes.ReserveData storage collateralReserve = reservesData[params.collateralAsset];
DataTypes.ReserveData storage debtReserve = reservesData[params.debtAsset];
DataTypes.UserConfigurationMap storage userConfig = usersConfig[params.user];
vars.debtReserveCache = debtReserve.cache();
debtReserve.updateState(vars.debtReserveCache);
(, , , , vars.healthFactor, ) = GenericLogic.calculateUserAccountData(
reservesData,
reservesList,
eModeCategories,
DataTypes.CalculateUserAccountDataParams({
userConfig: userConfig,
reservesCount: params.reservesCount,
user: params.user,
oracle: params.priceOracle,
userEModeCategory: params.userEModeCategory
})
);
(vars.userVariableDebt, vars.userTotalDebt, vars.actualDebtToLiquidate) = _calculateDebt(
vars.debtReserveCache,
params,
vars.healthFactor
);
ValidationLogic.validateLiquidationCall(
userConfig,
collateralReserve,
DataTypes.ValidateLiquidationCallParams({
debtReserveCache: vars.debtReserveCache,
totalDebt: vars.userTotalDebt,
healthFactor: vars.healthFactor,
priceOracleSentinel: params.priceOracleSentinel
})
);
(
vars.collateralAToken,
vars.collateralPriceSource,
vars.debtPriceSource,
vars.liquidationBonus
) = _getConfigurationData(eModeCategories, collateralReserve, params);
vars.userCollateralBalance = vars.collateralAToken.balanceOf(params.user);
(
vars.actualCollateralToLiquidate,
vars.actualDebtToLiquidate,
vars.liquidationProtocolFeeAmount
) = _calculateAvailableCollateralToLiquidate(
collateralReserve,
vars.debtReserveCache,
vars.collateralPriceSource,
vars.debtPriceSource,
vars.actualDebtToLiquidate,
vars.userCollateralBalance,
vars.liquidationBonus,
IPriceOracleGetter(params.priceOracle)
);
if (vars.userTotalDebt == vars.actualDebtToLiquidate) {
userConfig.setBorrowing(debtReserve.id, false);
}
_burnDebtTokens(params, vars);
debtReserve.updateInterestRates(
vars.debtReserveCache,
params.debtAsset,
vars.actualDebtToLiquidate,
0
);
IsolationModeLogic.updateIsolatedDebtIfIsolated(
reservesData,
reservesList,
userConfig,
vars.debtReserveCache,
vars.actualDebtToLiquidate
);
if (params.receiveAToken) {
_liquidateATokens(reservesData, reservesList, usersConfig, collateralReserve, params, vars);
} else {
_burnCollateralATokens(collateralReserve, params, vars);
}
// Transfer fee to treasury if it is non-zero
if (vars.liquidationProtocolFeeAmount != 0) {
vars.collateralAToken.transferOnLiquidation(
params.user,
vars.collateralAToken.RESERVE_TREASURY_ADDRESS(),
vars.liquidationProtocolFeeAmount
);
}
// If the collateral being liquidated is equal to the user balance,
// we set the currency as not being used as collateral anymore
if (vars.actualCollateralToLiquidate == vars.userCollateralBalance) {
userConfig.setUsingAsCollateral(collateralReserve.id, false);
emit ReserveUsedAsCollateralDisabled(params.collateralAsset, params.user);
}
// Transfers the debt asset being repaid to the aToken, where the liquidity is kept
IERC20(params.debtAsset).safeTransferFrom(
msg.sender,
vars.debtReserveCache.aTokenAddress,
vars.actualDebtToLiquidate
);
IAToken(vars.debtReserveCache.aTokenAddress).handleRepayment(
msg.sender,
vars.actualDebtToLiquidate
);
emit LiquidationCall(
params.collateralAsset,
params.debtAsset,
params.user,
vars.actualDebtToLiquidate,
vars.actualCollateralToLiquidate,
msg.sender,
params.receiveAToken
);
}
/**
* @notice Burns the collateral aTokens and transfers the underlying to the liquidator.
* @dev The function also updates the state and the interest rate of the collateral reserve.
* @param collateralReserve The data of the collateral reserve
* @param params The additional parameters needed to execute the liquidation function
* @param vars The executeLiquidationCall() function local vars
*/
function _burnCollateralATokens(
DataTypes.ReserveData storage collateralReserve,
DataTypes.ExecuteLiquidationCallParams memory params,
LiquidationCallLocalVars memory vars
) internal {
DataTypes.ReserveCache memory collateralReserveCache = collateralReserve.cache();
collateralReserve.updateState(collateralReserveCache);
collateralReserve.updateInterestRates(
collateralReserveCache,
params.collateralAsset,
0,
vars.actualCollateralToLiquidate
);
// Burn the equivalent amount of aToken, sending the underlying to the liquidator
vars.collateralAToken.burn(
params.user,
msg.sender,
vars.actualCollateralToLiquidate,
collateralReserveCache.nextLiquidityIndex
);
}
/**
* @notice Liquidates the user aTokens by transferring them to the liquidator.
* @dev The function also checks the state of the liquidator and activates the aToken as collateral
* as in standard transfers if the isolation mode constraints are respected.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param usersConfig The users configuration mapping that track the supplied/borrowed assets
* @param collateralReserve The data of the collateral reserve
* @param params The additional parameters needed to execute the liquidation function
* @param vars The executeLiquidationCall() function local vars
*/
function _liquidateATokens(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(address => DataTypes.UserConfigurationMap) storage usersConfig,
DataTypes.ReserveData storage collateralReserve,
DataTypes.ExecuteLiquidationCallParams memory params,
LiquidationCallLocalVars memory vars
) internal {
uint256 liquidatorPreviousATokenBalance = IERC20(vars.collateralAToken).balanceOf(msg.sender);
vars.collateralAToken.transferOnLiquidation(
params.user,
msg.sender,
vars.actualCollateralToLiquidate
);
if (liquidatorPreviousATokenBalance == 0) {
DataTypes.UserConfigurationMap storage liquidatorConfig = usersConfig[msg.sender];
if (
ValidationLogic.validateUseAsCollateral(
reservesData,
reservesList,
liquidatorConfig,
collateralReserve.configuration
)
) {
liquidatorConfig.setUsingAsCollateral(collateralReserve.id, true);
emit ReserveUsedAsCollateralEnabled(params.collateralAsset, msg.sender);
}
}
}
/**
* @notice Burns the debt tokens of the user up to the amount being repaid by the liquidator.
* @dev The function alters the `debtReserveCache` state in `vars` to update the debt related data.
* @param params The additional parameters needed to execute the liquidation function
* @param vars the executeLiquidationCall() function local vars
*/
function _burnDebtTokens(
DataTypes.ExecuteLiquidationCallParams memory params,
LiquidationCallLocalVars memory vars
) internal {
if (vars.userVariableDebt >= vars.actualDebtToLiquidate) {
vars.debtReserveCache.nextScaledVariableDebt = IVariableDebtToken(
vars.debtReserveCache.variableDebtTokenAddress
).burn(
params.user,
vars.actualDebtToLiquidate,
vars.debtReserveCache.nextVariableBorrowIndex
);
} else {
// If the user doesn't have variable debt, no need to try to burn variable debt tokens
if (vars.userVariableDebt != 0) {
vars.debtReserveCache.nextScaledVariableDebt = IVariableDebtToken(
vars.debtReserveCache.variableDebtTokenAddress
).burn(params.user, vars.userVariableDebt, vars.debtReserveCache.nextVariableBorrowIndex);
}
(
vars.debtReserveCache.nextTotalStableDebt,
vars.debtReserveCache.nextAvgStableBorrowRate
) = IStableDebtToken(vars.debtReserveCache.stableDebtTokenAddress).burn(
params.user,
vars.actualDebtToLiquidate - vars.userVariableDebt
);
}
}
/**
* @notice Calculates the total debt of the user and the actual amount to liquidate depending on the health factor
* and corresponding close factor.
* @dev If the Health Factor is below CLOSE_FACTOR_HF_THRESHOLD, the close factor is increased to MAX_LIQUIDATION_CLOSE_FACTOR
* @param debtReserveCache The reserve cache data object of the debt reserve
* @param params The additional parameters needed to execute the liquidation function
* @param healthFactor The health factor of the position
* @return The variable debt of the user
* @return The total debt of the user
* @return The actual debt to liquidate as a function of the closeFactor
*/
function _calculateDebt(
DataTypes.ReserveCache memory debtReserveCache,
DataTypes.ExecuteLiquidationCallParams memory params,
uint256 healthFactor
)
internal
view
returns (
uint256,
uint256,
uint256
)
{
(uint256 userStableDebt, uint256 userVariableDebt) = Helpers.getUserCurrentDebt(
params.user,
debtReserveCache
);
uint256 userTotalDebt = userStableDebt + userVariableDebt;
uint256 closeFactor = healthFactor > CLOSE_FACTOR_HF_THRESHOLD
? DEFAULT_LIQUIDATION_CLOSE_FACTOR
: MAX_LIQUIDATION_CLOSE_FACTOR;
uint256 maxLiquidatableDebt = userTotalDebt.percentMul(closeFactor);
uint256 actualDebtToLiquidate = params.debtToCover > maxLiquidatableDebt
? maxLiquidatableDebt
: params.debtToCover;
return (userVariableDebt, userTotalDebt, actualDebtToLiquidate);
}
/**
* @notice Returns the configuration data for the debt and the collateral reserves.
* @param eModeCategories The configuration of all the efficiency mode categories
* @param collateralReserve The data of the collateral reserve
* @param params The additional parameters needed to execute the liquidation function
* @return The collateral aToken
* @return The address to use as price source for the collateral
* @return The address to use as price source for the debt
* @return The liquidation bonus to apply to the collateral
*/
function _getConfigurationData(
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.ReserveData storage collateralReserve,
DataTypes.ExecuteLiquidationCallParams memory params
)
internal
view
returns (
IAToken,
address,
address,
uint256
)
{
IAToken collateralAToken = IAToken(collateralReserve.aTokenAddress);
uint256 liquidationBonus = collateralReserve.configuration.getLiquidationBonus();
address collateralPriceSource = params.collateralAsset;
address debtPriceSource = params.debtAsset;
if (params.userEModeCategory != 0) {
address eModePriceSource = eModeCategories[params.userEModeCategory].priceSource;
if (
EModeLogic.isInEModeCategory(
params.userEModeCategory,
collateralReserve.configuration.getEModeCategory()
)
) {
liquidationBonus = eModeCategories[params.userEModeCategory].liquidationBonus;
if (eModePriceSource != address(0)) {
collateralPriceSource = eModePriceSource;
}
}
// when in eMode, debt will always be in the same eMode category, can skip matching category check
if (eModePriceSource != address(0)) {
debtPriceSource = eModePriceSource;
}
}
return (collateralAToken, collateralPriceSource, debtPriceSource, liquidationBonus);
}
struct AvailableCollateralToLiquidateLocalVars {
uint256 collateralPrice;
uint256 debtAssetPrice;
uint256 maxCollateralToLiquidate;
uint256 baseCollateral;
uint256 bonusCollateral;
uint256 debtAssetDecimals;
uint256 collateralDecimals;
uint256 collateralAssetUnit;
uint256 debtAssetUnit;
uint256 collateralAmount;
uint256 debtAmountNeeded;
uint256 liquidationProtocolFeePercentage;
uint256 liquidationProtocolFee;
}
/**
* @notice Calculates how much of a specific collateral can be liquidated, given
* a certain amount of debt asset.
* @dev This function needs to be called after all the checks to validate the liquidation have been performed,
* otherwise it might fail.
* @param collateralReserve The data of the collateral reserve
* @param debtReserveCache The cached data of the debt reserve
* @param collateralAsset The address of the underlying asset used as collateral, to receive as result of the liquidation
* @param debtAsset The address of the underlying borrowed asset to be repaid with the liquidation
* @param debtToCover The debt amount of borrowed `asset` the liquidator wants to cover
* @param userCollateralBalance The collateral balance for the specific `collateralAsset` of the user being liquidated
* @param liquidationBonus The collateral bonus percentage to receive as result of the liquidation
* @return The maximum amount that is possible to liquidate given all the liquidation constraints (user balance, close factor)
* @return The amount to repay with the liquidation
* @return The fee taken from the liquidation bonus amount to be paid to the protocol
**/
function _calculateAvailableCollateralToLiquidate(
DataTypes.ReserveData storage collateralReserve,
DataTypes.ReserveCache memory debtReserveCache,
address collateralAsset,
address debtAsset,
uint256 debtToCover,
uint256 userCollateralBalance,
uint256 liquidationBonus,
IPriceOracleGetter oracle
)
internal
view
returns (
uint256,
uint256,
uint256
)
{
AvailableCollateralToLiquidateLocalVars memory vars;
vars.collateralPrice = oracle.getAssetPrice(collateralAsset);
vars.debtAssetPrice = oracle.getAssetPrice(debtAsset);
vars.collateralDecimals = collateralReserve.configuration.getDecimals();
vars.debtAssetDecimals = debtReserveCache.reserveConfiguration.getDecimals();
unchecked {
vars.collateralAssetUnit = 10**vars.collateralDecimals;
vars.debtAssetUnit = 10**vars.debtAssetDecimals;
}
vars.liquidationProtocolFeePercentage = collateralReserve
.configuration
.getLiquidationProtocolFee();
// This is the base collateral to liquidate based on the given debt to cover
vars.baseCollateral =
((vars.debtAssetPrice * debtToCover * vars.collateralAssetUnit)) /
(vars.collateralPrice * vars.debtAssetUnit);
vars.maxCollateralToLiquidate = vars.baseCollateral.percentMul(liquidationBonus);
if (vars.maxCollateralToLiquidate > userCollateralBalance) {
vars.collateralAmount = userCollateralBalance;
vars.debtAmountNeeded = ((vars.collateralPrice * vars.collateralAmount * vars.debtAssetUnit) /
(vars.debtAssetPrice * vars.collateralAssetUnit)).percentDiv(liquidationBonus);
} else {
vars.collateralAmount = vars.maxCollateralToLiquidate;
vars.debtAmountNeeded = debtToCover;
}
if (vars.liquidationProtocolFeePercentage != 0) {
vars.bonusCollateral =
vars.collateralAmount -
vars.collateralAmount.percentDiv(liquidationBonus);
vars.liquidationProtocolFee = vars.bonusCollateral.percentMul(
vars.liquidationProtocolFeePercentage
);
return (
vars.collateralAmount - vars.liquidationProtocolFee,
vars.debtAmountNeeded,
vars.liquidationProtocolFee
);
} else {
return (vars.collateralAmount, vars.debtAmountNeeded, 0);
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {Address} from '../../../dependencies/openzeppelin/contracts/Address.sol';
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {Errors} from '../helpers/Errors.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ReserveLogic} from './ReserveLogic.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {GenericLogic} from './GenericLogic.sol';
/**
* @title PoolLogic library
* @author Aave
* @notice Implements the logic for Pool specific functions
*/
library PoolLogic {
using GPv2SafeERC20 for IERC20;
using WadRayMath for uint256;
using ReserveLogic for DataTypes.ReserveData;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
// See `IPool` for descriptions
event MintedToTreasury(address indexed reserve, uint256 amountMinted);
event IsolationModeTotalDebtUpdated(address indexed asset, uint256 totalDebt);
/**
* @notice Initialize an asset reserve and add the reserve to the list of reserves
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param params Additional parameters needed for initiation
* @return true if appended, false if inserted at existing empty spot
**/
function executeInitReserve(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
DataTypes.InitReserveParams memory params
) external returns (bool) {
require(Address.isContract(params.asset), Errors.NOT_CONTRACT);
reservesData[params.asset].init(
params.aTokenAddress,
params.stableDebtAddress,
params.variableDebtAddress,
params.interestRateStrategyAddress
);
bool reserveAlreadyAdded = reservesData[params.asset].id != 0 ||
reservesList[0] == params.asset;
require(!reserveAlreadyAdded, Errors.RESERVE_ALREADY_ADDED);
for (uint16 i = 0; i < params.reservesCount; i++) {
if (reservesList[i] == address(0)) {
reservesData[params.asset].id = i;
reservesList[i] = params.asset;
return false;
}
}
require(params.reservesCount < params.maxNumberReserves, Errors.NO_MORE_RESERVES_ALLOWED);
reservesData[params.asset].id = params.reservesCount;
reservesList[params.reservesCount] = params.asset;
return true;
}
/**
* @notice Rescue and transfer tokens locked in this contract
* @param token The address of the token
* @param to The address of the recipient
* @param amount The amount of token to transfer
*/
function executeRescueTokens(
address token,
address to,
uint256 amount
) external {
IERC20(token).safeTransfer(to, amount);
}
/**
* @notice Mints the assets accrued through the reserve factor to the treasury in the form of aTokens
* @param reservesData The state of all the reserves
* @param assets The list of reserves for which the minting needs to be executed
**/
function executeMintToTreasury(
mapping(address => DataTypes.ReserveData) storage reservesData,
address[] calldata assets
) external {
for (uint256 i = 0; i < assets.length; i++) {
address assetAddress = assets[i];
DataTypes.ReserveData storage reserve = reservesData[assetAddress];
// this cover both inactive reserves and invalid reserves since the flag will be 0 for both
if (!reserve.configuration.getActive()) {
continue;
}
uint256 accruedToTreasury = reserve.accruedToTreasury;
if (accruedToTreasury != 0) {
reserve.accruedToTreasury = 0;
uint256 normalizedIncome = reserve.getNormalizedIncome();
uint256 amountToMint = accruedToTreasury.rayMul(normalizedIncome);
IAToken(reserve.aTokenAddress).mintToTreasury(amountToMint, normalizedIncome);
emit MintedToTreasury(assetAddress, amountToMint);
}
}
}
/**
* @notice Resets the isolation mode total debt of the given asset to zero
* @dev It requires the given asset has zero debt ceiling
* @param reservesData The state of all the reserves
* @param asset The address of the underlying asset to reset the isolationModeTotalDebt
*/
function executeResetIsolationModeTotalDebt(
mapping(address => DataTypes.ReserveData) storage reservesData,
address asset
) external {
require(reservesData[asset].configuration.getDebtCeiling() == 0, Errors.DEBT_CEILING_NOT_ZERO);
reservesData[asset].isolationModeTotalDebt = 0;
emit IsolationModeTotalDebtUpdated(asset, 0);
}
/**
* @notice Drop a reserve
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param asset The address of the underlying asset of the reserve
**/
function executeDropReserve(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
address asset
) external {
DataTypes.ReserveData storage reserve = reservesData[asset];
ValidationLogic.validateDropReserve(reservesList, reserve, asset);
reservesList[reservesData[asset].id] = address(0);
delete reservesData[asset];
}
/**
* @notice Returns the user account data across all the reserves
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param params Additional params needed for the calculation
* @return totalCollateralBase The total collateral of the user in the base currency used by the price feed
* @return totalDebtBase The total debt of the user in the base currency used by the price feed
* @return availableBorrowsBase The borrowing power left of the user in the base currency used by the price feed
* @return currentLiquidationThreshold The liquidation threshold of the user
* @return ltv The loan to value of The user
* @return healthFactor The current health factor of the user
**/
function executeGetUserAccountData(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.CalculateUserAccountDataParams memory params
)
external
view
returns (
uint256 totalCollateralBase,
uint256 totalDebtBase,
uint256 availableBorrowsBase,
uint256 currentLiquidationThreshold,
uint256 ltv,
uint256 healthFactor
)
{
(
totalCollateralBase,
totalDebtBase,
ltv,
currentLiquidationThreshold,
healthFactor,
) = GenericLogic.calculateUserAccountData(reservesData, reservesList, eModeCategories, params);
availableBorrowsBase = GenericLogic.calculateAvailableBorrows(
totalCollateralBase,
totalDebtBase,
ltv
);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {IStableDebtToken} from '../../../interfaces/IStableDebtToken.sol';
import {IVariableDebtToken} from '../../../interfaces/IVariableDebtToken.sol';
import {IReserveInterestRateStrategy} from '../../../interfaces/IReserveInterestRateStrategy.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {MathUtils} from '../math/MathUtils.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {Errors} from '../helpers/Errors.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {SafeCast} from '../../../dependencies/openzeppelin/contracts/SafeCast.sol';
/**
* @title ReserveLogic library
* @author Aave
* @notice Implements the logic to update the reserves state
*/
library ReserveLogic {
using WadRayMath for uint256;
using PercentageMath for uint256;
using SafeCast for uint256;
using GPv2SafeERC20 for IERC20;
using ReserveLogic for DataTypes.ReserveData;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
// See `IPool` for descriptions
event ReserveDataUpdated(
address indexed reserve,
uint256 liquidityRate,
uint256 stableBorrowRate,
uint256 variableBorrowRate,
uint256 liquidityIndex,
uint256 variableBorrowIndex
);
/**
* @notice Returns the ongoing normalized income for the reserve.
* @dev A value of 1e27 means there is no income. As time passes, the income is accrued
* @dev A value of 2*1e27 means for each unit of asset one unit of income has been accrued
* @param reserve The reserve object
* @return The normalized income, expressed in ray
**/
function getNormalizedIncome(DataTypes.ReserveData storage reserve)
internal
view
returns (uint256)
{
uint40 timestamp = reserve.lastUpdateTimestamp;
//solium-disable-next-line
if (timestamp == block.timestamp) {
//if the index was updated in the same block, no need to perform any calculation
return reserve.liquidityIndex;
} else {
return
MathUtils.calculateLinearInterest(reserve.currentLiquidityRate, timestamp).rayMul(
reserve.liquidityIndex
);
}
}
/**
* @notice Returns the ongoing normalized variable debt for the reserve.
* @dev A value of 1e27 means there is no debt. As time passes, the debt is accrued
* @dev A value of 2*1e27 means that for each unit of debt, one unit worth of interest has been accumulated
* @param reserve The reserve object
* @return The normalized variable debt, expressed in ray
**/
function getNormalizedDebt(DataTypes.ReserveData storage reserve)
internal
view
returns (uint256)
{
uint40 timestamp = reserve.lastUpdateTimestamp;
//solium-disable-next-line
if (timestamp == block.timestamp) {
//if the index was updated in the same block, no need to perform any calculation
return reserve.variableBorrowIndex;
} else {
return
MathUtils.calculateCompoundedInterest(reserve.currentVariableBorrowRate, timestamp).rayMul(
reserve.variableBorrowIndex
);
}
}
/**
* @notice Updates the liquidity cumulative index and the variable borrow index.
* @param reserve The reserve object
* @param reserveCache The caching layer for the reserve data
**/
function updateState(
DataTypes.ReserveData storage reserve,
DataTypes.ReserveCache memory reserveCache
) internal {
_updateIndexes(reserve, reserveCache);
_accrueToTreasury(reserve, reserveCache);
}
/**
* @notice Accumulates a predefined amount of asset to the reserve as a fixed, instantaneous income. Used for example
* to accumulate the flashloan fee to the reserve, and spread it between all the suppliers.
* @param reserve The reserve object
* @param totalLiquidity The total liquidity available in the reserve
* @param amount The amount to accumulate
* @return The next liquidity index of the reserve
**/
function cumulateToLiquidityIndex(
DataTypes.ReserveData storage reserve,
uint256 totalLiquidity,
uint256 amount
) internal returns (uint256) {
//next liquidity index is calculated this way: `((amount / totalLiquidity) + 1) * liquidityIndex`
//division `amount / totalLiquidity` done in ray for precision
uint256 result = (amount.wadToRay().rayDiv(totalLiquidity.wadToRay()) + WadRayMath.RAY).rayMul(
reserve.liquidityIndex
);
reserve.liquidityIndex = result.toUint128();
return result;
}
/**
* @notice Initializes a reserve.
* @param reserve The reserve object
* @param aTokenAddress The address of the overlying atoken contract
* @param stableDebtTokenAddress The address of the overlying stable debt token contract
* @param variableDebtTokenAddress The address of the overlying variable debt token contract
* @param interestRateStrategyAddress The address of the interest rate strategy contract
**/
function init(
DataTypes.ReserveData storage reserve,
address aTokenAddress,
address stableDebtTokenAddress,
address variableDebtTokenAddress,
address interestRateStrategyAddress
) internal {
require(reserve.aTokenAddress == address(0), Errors.RESERVE_ALREADY_INITIALIZED);
reserve.liquidityIndex = uint128(WadRayMath.RAY);
reserve.variableBorrowIndex = uint128(WadRayMath.RAY);
reserve.aTokenAddress = aTokenAddress;
reserve.stableDebtTokenAddress = stableDebtTokenAddress;
reserve.variableDebtTokenAddress = variableDebtTokenAddress;
reserve.interestRateStrategyAddress = interestRateStrategyAddress;
}
struct UpdateInterestRatesLocalVars {
uint256 nextLiquidityRate;
uint256 nextStableRate;
uint256 nextVariableRate;
uint256 totalVariableDebt;
}
/**
* @notice Updates the reserve current stable borrow rate, the current variable borrow rate and the current liquidity rate.
* @param reserve The reserve reserve to be updated
* @param reserveCache The caching layer for the reserve data
* @param reserveAddress The address of the reserve to be updated
* @param liquidityAdded The amount of liquidity added to the protocol (supply or repay) in the previous action
* @param liquidityTaken The amount of liquidity taken from the protocol (redeem or borrow)
**/
function updateInterestRates(
DataTypes.ReserveData storage reserve,
DataTypes.ReserveCache memory reserveCache,
address reserveAddress,
uint256 liquidityAdded,
uint256 liquidityTaken
) internal {
UpdateInterestRatesLocalVars memory vars;
vars.totalVariableDebt = reserveCache.nextScaledVariableDebt.rayMul(
reserveCache.nextVariableBorrowIndex
);
(
vars.nextLiquidityRate,
vars.nextStableRate,
vars.nextVariableRate
) = IReserveInterestRateStrategy(reserve.interestRateStrategyAddress).calculateInterestRates(
DataTypes.CalculateInterestRatesParams({
unbacked: reserveCache.reserveConfiguration.getUnbackedMintCap() != 0
? reserve.unbacked
: 0,
liquidityAdded: liquidityAdded,
liquidityTaken: liquidityTaken,
totalStableDebt: reserveCache.nextTotalStableDebt,
totalVariableDebt: vars.totalVariableDebt,
averageStableBorrowRate: reserveCache.nextAvgStableBorrowRate,
reserveFactor: reserveCache.reserveFactor,
reserve: reserveAddress,
aToken: reserveCache.aTokenAddress
})
);
reserve.currentLiquidityRate = vars.nextLiquidityRate.toUint128();
reserve.currentStableBorrowRate = vars.nextStableRate.toUint128();
reserve.currentVariableBorrowRate = vars.nextVariableRate.toUint128();
emit ReserveDataUpdated(
reserveAddress,
vars.nextLiquidityRate,
vars.nextStableRate,
vars.nextVariableRate,
reserveCache.nextLiquidityIndex,
reserveCache.nextVariableBorrowIndex
);
}
struct AccrueToTreasuryLocalVars {
uint256 prevTotalStableDebt;
uint256 prevTotalVariableDebt;
uint256 currTotalVariableDebt;
uint256 cumulatedStableInterest;
uint256 totalDebtAccrued;
uint256 amountToMint;
}
/**
* @notice Mints part of the repaid interest to the reserve treasury as a function of the reserve factor for the
* specific asset.
* @param reserve The reserve to be updated
* @param reserveCache The caching layer for the reserve data
**/
function _accrueToTreasury(
DataTypes.ReserveData storage reserve,
DataTypes.ReserveCache memory reserveCache
) internal {
AccrueToTreasuryLocalVars memory vars;
if (reserveCache.reserveFactor == 0) {
return;
}
//calculate the total variable debt at moment of the last interaction
vars.prevTotalVariableDebt = reserveCache.currScaledVariableDebt.rayMul(
reserveCache.currVariableBorrowIndex
);
//calculate the new total variable debt after accumulation of the interest on the index
vars.currTotalVariableDebt = reserveCache.currScaledVariableDebt.rayMul(
reserveCache.nextVariableBorrowIndex
);
//calculate the stable debt until the last timestamp update
vars.cumulatedStableInterest = MathUtils.calculateCompoundedInterest(
reserveCache.currAvgStableBorrowRate,
reserveCache.stableDebtLastUpdateTimestamp,
reserveCache.reserveLastUpdateTimestamp
);
vars.prevTotalStableDebt = reserveCache.currPrincipalStableDebt.rayMul(
vars.cumulatedStableInterest
);
//debt accrued is the sum of the current debt minus the sum of the debt at the last update
vars.totalDebtAccrued =
vars.currTotalVariableDebt +
reserveCache.currTotalStableDebt -
vars.prevTotalVariableDebt -
vars.prevTotalStableDebt;
vars.amountToMint = vars.totalDebtAccrued.percentMul(reserveCache.reserveFactor);
if (vars.amountToMint != 0) {
reserve.accruedToTreasury += vars
.amountToMint
.rayDiv(reserveCache.nextLiquidityIndex)
.toUint128();
}
}
/**
* @notice Updates the reserve indexes and the timestamp of the update.
* @param reserve The reserve reserve to be updated
* @param reserveCache The cache layer holding the cached protocol data
**/
function _updateIndexes(
DataTypes.ReserveData storage reserve,
DataTypes.ReserveCache memory reserveCache
) internal {
reserveCache.nextLiquidityIndex = reserveCache.currLiquidityIndex;
reserveCache.nextVariableBorrowIndex = reserveCache.currVariableBorrowIndex;
//only cumulating if there is any income being produced
if (reserveCache.currLiquidityRate != 0) {
uint256 cumulatedLiquidityInterest = MathUtils.calculateLinearInterest(
reserveCache.currLiquidityRate,
reserveCache.reserveLastUpdateTimestamp
);
reserveCache.nextLiquidityIndex = cumulatedLiquidityInterest.rayMul(
reserveCache.currLiquidityIndex
);
reserve.liquidityIndex = reserveCache.nextLiquidityIndex.toUint128();
//as the liquidity rate might come only from stable rate loans, we need to ensure
//that there is actual variable debt before accumulating
if (reserveCache.currScaledVariableDebt != 0) {
uint256 cumulatedVariableBorrowInterest = MathUtils.calculateCompoundedInterest(
reserveCache.currVariableBorrowRate,
reserveCache.reserveLastUpdateTimestamp
);
reserveCache.nextVariableBorrowIndex = cumulatedVariableBorrowInterest.rayMul(
reserveCache.currVariableBorrowIndex
);
reserve.variableBorrowIndex = reserveCache.nextVariableBorrowIndex.toUint128();
}
}
//solium-disable-next-line
reserve.lastUpdateTimestamp = uint40(block.timestamp);
}
/**
* @notice Creates a cache object to avoid repeated storage reads and external contract calls when updating state and
* interest rates.
* @param reserve The reserve object for which the cache will be filled
* @return The cache object
*/
function cache(DataTypes.ReserveData storage reserve)
internal
view
returns (DataTypes.ReserveCache memory)
{
DataTypes.ReserveCache memory reserveCache;
reserveCache.reserveConfiguration = reserve.configuration;
reserveCache.reserveFactor = reserveCache.reserveConfiguration.getReserveFactor();
reserveCache.currLiquidityIndex = reserve.liquidityIndex;
reserveCache.currVariableBorrowIndex = reserve.variableBorrowIndex;
reserveCache.currLiquidityRate = reserve.currentLiquidityRate;
reserveCache.currVariableBorrowRate = reserve.currentVariableBorrowRate;
reserveCache.aTokenAddress = reserve.aTokenAddress;
reserveCache.stableDebtTokenAddress = reserve.stableDebtTokenAddress;
reserveCache.variableDebtTokenAddress = reserve.variableDebtTokenAddress;
reserveCache.reserveLastUpdateTimestamp = reserve.lastUpdateTimestamp;
reserveCache.currScaledVariableDebt = reserveCache.nextScaledVariableDebt = IVariableDebtToken(
reserveCache.variableDebtTokenAddress
).scaledTotalSupply();
(
reserveCache.currPrincipalStableDebt,
reserveCache.currTotalStableDebt,
reserveCache.currAvgStableBorrowRate,
reserveCache.stableDebtLastUpdateTimestamp
) = IStableDebtToken(reserveCache.stableDebtTokenAddress).getSupplyData();
// by default the actions are considered as not affecting the debt balances.
// if the action involves mint/burn of debt, the cache needs to be updated
reserveCache.nextTotalStableDebt = reserveCache.currTotalStableDebt;
reserveCache.nextAvgStableBorrowRate = reserveCache.currAvgStableBorrowRate;
return reserveCache;
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {Errors} from '../helpers/Errors.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {ValidationLogic} from './ValidationLogic.sol';
import {ReserveLogic} from './ReserveLogic.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
/**
* @title SupplyLogic library
* @author Aave
* @notice Implements the base logic for supply/withdraw
*/
library SupplyLogic {
using ReserveLogic for DataTypes.ReserveCache;
using ReserveLogic for DataTypes.ReserveData;
using GPv2SafeERC20 for IERC20;
using UserConfiguration for DataTypes.UserConfigurationMap;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using WadRayMath for uint256;
using PercentageMath for uint256;
// See `IPool` for descriptions
event ReserveUsedAsCollateralEnabled(address indexed reserve, address indexed user);
event ReserveUsedAsCollateralDisabled(address indexed reserve, address indexed user);
event Withdraw(address indexed reserve, address indexed user, address indexed to, uint256 amount);
event Supply(
address indexed reserve,
address user,
address indexed onBehalfOf,
uint256 amount,
uint16 indexed referralCode
);
/**
* @notice Implements the supply feature. Through `supply()`, users supply assets to the Aave protocol.
* @dev Emits the `Supply()` event.
* @dev In the first supply action, `ReserveUsedAsCollateralEnabled()` is emitted, if the asset can be enabled as
* collateral.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param params The additional parameters needed to execute the supply function
*/
function executeSupply(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ExecuteSupplyParams memory params
) external {
DataTypes.ReserveData storage reserve = reservesData[params.asset];
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
ValidationLogic.validateSupply(reserveCache, params.amount);
reserve.updateInterestRates(reserveCache, params.asset, params.amount, 0);
IERC20(params.asset).safeTransferFrom(msg.sender, reserveCache.aTokenAddress, params.amount);
bool isFirstSupply = IAToken(reserveCache.aTokenAddress).mint(
msg.sender,
params.onBehalfOf,
params.amount,
reserveCache.nextLiquidityIndex
);
if (isFirstSupply) {
if (
ValidationLogic.validateUseAsCollateral(
reservesData,
reservesList,
userConfig,
reserveCache.reserveConfiguration
)
) {
userConfig.setUsingAsCollateral(reserve.id, true);
emit ReserveUsedAsCollateralEnabled(params.asset, params.onBehalfOf);
}
}
emit Supply(params.asset, msg.sender, params.onBehalfOf, params.amount, params.referralCode);
}
/**
* @notice Implements the withdraw feature. Through `withdraw()`, users redeem their aTokens for the underlying asset
* previously supplied in the Aave protocol.
* @dev Emits the `Withdraw()` event.
* @dev If the user withdraws everything, `ReserveUsedAsCollateralDisabled()` is emitted.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param userConfig The user configuration mapping that tracks the supplied/borrowed assets
* @param params The additional parameters needed to execute the withdraw function
* @return The actual amount withdrawn
*/
function executeWithdraw(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ExecuteWithdrawParams memory params
) external returns (uint256) {
DataTypes.ReserveData storage reserve = reservesData[params.asset];
DataTypes.ReserveCache memory reserveCache = reserve.cache();
reserve.updateState(reserveCache);
uint256 userBalance = IAToken(reserveCache.aTokenAddress).scaledBalanceOf(msg.sender).rayMul(
reserveCache.nextLiquidityIndex
);
uint256 amountToWithdraw = params.amount;
if (params.amount == type(uint256).max) {
amountToWithdraw = userBalance;
}
ValidationLogic.validateWithdraw(reserveCache, amountToWithdraw, userBalance);
reserve.updateInterestRates(reserveCache, params.asset, 0, amountToWithdraw);
IAToken(reserveCache.aTokenAddress).burn(
msg.sender,
params.to,
amountToWithdraw,
reserveCache.nextLiquidityIndex
);
if (userConfig.isUsingAsCollateral(reserve.id)) {
if (userConfig.isBorrowingAny()) {
ValidationLogic.validateHFAndLtv(
reservesData,
reservesList,
eModeCategories,
userConfig,
params.asset,
msg.sender,
params.reservesCount,
params.oracle,
params.userEModeCategory
);
}
if (amountToWithdraw == userBalance) {
userConfig.setUsingAsCollateral(reserve.id, false);
emit ReserveUsedAsCollateralDisabled(params.asset, msg.sender);
}
}
emit Withdraw(params.asset, msg.sender, params.to, amountToWithdraw);
return amountToWithdraw;
}
/**
* @notice Validates a transfer of aTokens. The sender is subjected to health factor validation to avoid
* collateralization constraints violation.
* @dev Emits the `ReserveUsedAsCollateralEnabled()` event for the `to` account, if the asset is being activated as
* collateral.
* @dev In case the `from` user transfers everything, `ReserveUsedAsCollateralDisabled()` is emitted for `from`.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param usersConfig The users configuration mapping that track the supplied/borrowed assets
* @param params The additional parameters needed to execute the finalizeTransfer function
*/
function executeFinalizeTransfer(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
mapping(address => DataTypes.UserConfigurationMap) storage usersConfig,
DataTypes.FinalizeTransferParams memory params
) external {
DataTypes.ReserveData storage reserve = reservesData[params.asset];
ValidationLogic.validateTransfer(reserve);
uint256 reserveId = reserve.id;
if (params.from != params.to && params.amount != 0) {
DataTypes.UserConfigurationMap storage fromConfig = usersConfig[params.from];
if (fromConfig.isUsingAsCollateral(reserveId)) {
if (fromConfig.isBorrowingAny()) {
ValidationLogic.validateHFAndLtv(
reservesData,
reservesList,
eModeCategories,
usersConfig[params.from],
params.asset,
params.from,
params.reservesCount,
params.oracle,
params.fromEModeCategory
);
}
if (params.balanceFromBefore == params.amount) {
fromConfig.setUsingAsCollateral(reserveId, false);
emit ReserveUsedAsCollateralDisabled(params.asset, params.from);
}
}
if (params.balanceToBefore == 0) {
DataTypes.UserConfigurationMap storage toConfig = usersConfig[params.to];
if (
ValidationLogic.validateUseAsCollateral(
reservesData,
reservesList,
toConfig,
reserve.configuration
)
) {
toConfig.setUsingAsCollateral(reserveId, true);
emit ReserveUsedAsCollateralEnabled(params.asset, params.to);
}
}
}
}
/**
* @notice Executes the 'set as collateral' feature. A user can choose to activate or deactivate an asset as
* collateral at any point in time. Deactivating an asset as collateral is subjected to the usual health factor
* checks to ensure collateralization.
* @dev Emits the `ReserveUsedAsCollateralEnabled()` event if the asset can be activated as collateral.
* @dev In case the asset is being deactivated as collateral, `ReserveUsedAsCollateralDisabled()` is emitted.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param userConfig The users configuration mapping that track the supplied/borrowed assets
* @param asset The address of the asset being configured as collateral
* @param useAsCollateral True if the user wants to set the asset as collateral, false otherwise
* @param reservesCount The number of initialized reserves
* @param priceOracle The address of the price oracle
* @param userEModeCategory The eMode category chosen by the user
*/
function executeUseReserveAsCollateral(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap storage userConfig,
address asset,
bool useAsCollateral,
uint256 reservesCount,
address priceOracle,
uint8 userEModeCategory
) external {
DataTypes.ReserveData storage reserve = reservesData[asset];
DataTypes.ReserveCache memory reserveCache = reserve.cache();
uint256 userBalance = IERC20(reserveCache.aTokenAddress).balanceOf(msg.sender);
ValidationLogic.validateSetUseReserveAsCollateral(reserveCache, userBalance);
if (useAsCollateral == userConfig.isUsingAsCollateral(reserve.id)) return;
if (useAsCollateral) {
require(
ValidationLogic.validateUseAsCollateral(reservesData, reservesList, userConfig, reserveCache.reserveConfiguration),
Errors.USER_IN_ISOLATION_MODE
);
userConfig.setUsingAsCollateral(reserve.id, true);
emit ReserveUsedAsCollateralEnabled(asset, msg.sender);
} else {
userConfig.setUsingAsCollateral(reserve.id, false);
ValidationLogic.validateHFAndLtv(
reservesData,
reservesList,
eModeCategories,
userConfig,
asset,
msg.sender,
reservesCount,
priceOracle,
userEModeCategory
);
emit ReserveUsedAsCollateralDisabled(asset, msg.sender);
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {IERC20} from '../../../dependencies/openzeppelin/contracts/IERC20.sol';
import {Address} from '../../../dependencies/openzeppelin/contracts/Address.sol';
import {GPv2SafeERC20} from '../../../dependencies/gnosis/contracts/GPv2SafeERC20.sol';
import {IReserveInterestRateStrategy} from '../../../interfaces/IReserveInterestRateStrategy.sol';
import {IStableDebtToken} from '../../../interfaces/IStableDebtToken.sol';
import {IScaledBalanceToken} from '../../../interfaces/IScaledBalanceToken.sol';
import {IPriceOracleGetter} from '../../../interfaces/IPriceOracleGetter.sol';
import {IAToken} from '../../../interfaces/IAToken.sol';
import {IPriceOracleSentinel} from '../../../interfaces/IPriceOracleSentinel.sol';
import {ReserveConfiguration} from '../configuration/ReserveConfiguration.sol';
import {UserConfiguration} from '../configuration/UserConfiguration.sol';
import {Errors} from '../helpers/Errors.sol';
import {WadRayMath} from '../math/WadRayMath.sol';
import {PercentageMath} from '../math/PercentageMath.sol';
import {DataTypes} from '../types/DataTypes.sol';
import {ReserveLogic} from './ReserveLogic.sol';
import {GenericLogic} from './GenericLogic.sol';
import {SafeCast} from '../../../dependencies/openzeppelin/contracts/SafeCast.sol';
/**
* @title ReserveLogic library
* @author Aave
* @notice Implements functions to validate the different actions of the protocol
*/
library ValidationLogic {
using ReserveLogic for DataTypes.ReserveData;
using WadRayMath for uint256;
using PercentageMath for uint256;
using SafeCast for uint256;
using GPv2SafeERC20 for IERC20;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using UserConfiguration for DataTypes.UserConfigurationMap;
using Address for address;
// Factor to apply to "only-variable-debt" liquidity rate to get threshold for rebalancing, expressed in bps
// A value of 0.9e4 results in 90%
uint256 public constant REBALANCE_UP_LIQUIDITY_RATE_THRESHOLD = 0.9e4;
// Minimum health factor allowed under any circumstance
// A value of 0.95e18 results in 0.95
uint256 public constant MINIMUM_HEALTH_FACTOR_LIQUIDATION_THRESHOLD = 0.95e18;
/**
* @dev Minimum health factor to consider a user position healthy
* A value of 1e18 results in 1
*/
uint256 public constant HEALTH_FACTOR_LIQUIDATION_THRESHOLD = 1e18;
/**
* @notice Validates a supply action.
* @param reserveCache The cached data of the reserve
* @param amount The amount to be supplied
*/
function validateSupply(DataTypes.ReserveCache memory reserveCache, uint256 amount)
internal
view
{
require(amount != 0, Errors.INVALID_AMOUNT);
(bool isActive, bool isFrozen, , , bool isPaused) = reserveCache
.reserveConfiguration
.getFlags();
require(isActive, Errors.RESERVE_INACTIVE);
require(!isPaused, Errors.RESERVE_PAUSED);
require(!isFrozen, Errors.RESERVE_FROZEN);
uint256 supplyCap = reserveCache.reserveConfiguration.getSupplyCap();
require(
supplyCap == 0 ||
(IAToken(reserveCache.aTokenAddress).scaledTotalSupply().rayMul(
reserveCache.nextLiquidityIndex
) + amount) <=
supplyCap * (10**reserveCache.reserveConfiguration.getDecimals()),
Errors.SUPPLY_CAP_EXCEEDED
);
}
/**
* @notice Validates a withdraw action.
* @param reserveCache The cached data of the reserve
* @param amount The amount to be withdrawn
* @param userBalance The balance of the user
*/
function validateWithdraw(
DataTypes.ReserveCache memory reserveCache,
uint256 amount,
uint256 userBalance
) internal pure {
require(amount != 0, Errors.INVALID_AMOUNT);
require(amount <= userBalance, Errors.NOT_ENOUGH_AVAILABLE_USER_BALANCE);
(bool isActive, , , , bool isPaused) = reserveCache.reserveConfiguration.getFlags();
require(isActive, Errors.RESERVE_INACTIVE);
require(!isPaused, Errors.RESERVE_PAUSED);
}
struct ValidateBorrowLocalVars {
uint256 currentLtv;
uint256 collateralNeededInBaseCurrency;
uint256 userCollateralInBaseCurrency;
uint256 userDebtInBaseCurrency;
uint256 availableLiquidity;
uint256 healthFactor;
uint256 totalDebt;
uint256 totalSupplyVariableDebt;
uint256 reserveDecimals;
uint256 borrowCap;
uint256 amountInBaseCurrency;
uint256 assetUnit;
address eModePriceSource;
address siloedBorrowingAddress;
bool isActive;
bool isFrozen;
bool isPaused;
bool borrowingEnabled;
bool stableRateBorrowingEnabled;
bool siloedBorrowingEnabled;
}
/**
* @notice Validates a borrow action.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param params Additional params needed for the validation
*/
function validateBorrow(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.ValidateBorrowParams memory params
) internal view {
require(params.amount != 0, Errors.INVALID_AMOUNT);
ValidateBorrowLocalVars memory vars;
(
vars.isActive,
vars.isFrozen,
vars.borrowingEnabled,
vars.stableRateBorrowingEnabled,
vars.isPaused
) = params.reserveCache.reserveConfiguration.getFlags();
require(vars.isActive, Errors.RESERVE_INACTIVE);
require(!vars.isPaused, Errors.RESERVE_PAUSED);
require(!vars.isFrozen, Errors.RESERVE_FROZEN);
require(vars.borrowingEnabled, Errors.BORROWING_NOT_ENABLED);
require(
params.priceOracleSentinel == address(0) ||
IPriceOracleSentinel(params.priceOracleSentinel).isBorrowAllowed(),
Errors.PRICE_ORACLE_SENTINEL_CHECK_FAILED
);
//validate interest rate mode
require(
params.interestRateMode == DataTypes.InterestRateMode.VARIABLE ||
params.interestRateMode == DataTypes.InterestRateMode.STABLE,
Errors.INVALID_INTEREST_RATE_MODE_SELECTED
);
vars.reserveDecimals = params.reserveCache.reserveConfiguration.getDecimals();
vars.borrowCap = params.reserveCache.reserveConfiguration.getBorrowCap();
unchecked {
vars.assetUnit = 10**vars.reserveDecimals;
}
if (vars.borrowCap != 0) {
vars.totalSupplyVariableDebt = params.reserveCache.currScaledVariableDebt.rayMul(
params.reserveCache.nextVariableBorrowIndex
);
vars.totalDebt =
params.reserveCache.currTotalStableDebt +
vars.totalSupplyVariableDebt +
params.amount;
unchecked {
require(vars.totalDebt <= vars.borrowCap * vars.assetUnit, Errors.BORROW_CAP_EXCEEDED);
}
}
if (params.isolationModeActive) {
// check that the asset being borrowed is borrowable in isolation mode AND
// the total exposure is no bigger than the collateral debt ceiling
require(
params.reserveCache.reserveConfiguration.getBorrowableInIsolation(),
Errors.ASSET_NOT_BORROWABLE_IN_ISOLATION
);
require(
reservesData[params.isolationModeCollateralAddress].isolationModeTotalDebt +
(params.amount / 10**(vars.reserveDecimals - ReserveConfiguration.DEBT_CEILING_DECIMALS))
.toUint128() <=
params.isolationModeDebtCeiling,
Errors.DEBT_CEILING_EXCEEDED
);
}
if (params.userEModeCategory != 0) {
require(
params.reserveCache.reserveConfiguration.getEModeCategory() == params.userEModeCategory,
Errors.INCONSISTENT_EMODE_CATEGORY
);
vars.eModePriceSource = eModeCategories[params.userEModeCategory].priceSource;
}
(
vars.userCollateralInBaseCurrency,
vars.userDebtInBaseCurrency,
vars.currentLtv,
,
vars.healthFactor,
) = GenericLogic.calculateUserAccountData(
reservesData,
reservesList,
eModeCategories,
DataTypes.CalculateUserAccountDataParams({
userConfig: params.userConfig,
reservesCount: params.reservesCount,
user: params.userAddress,
oracle: params.oracle,
userEModeCategory: params.userEModeCategory
})
);
require(vars.userCollateralInBaseCurrency != 0, Errors.COLLATERAL_BALANCE_IS_ZERO);
require(vars.currentLtv != 0, Errors.LTV_VALIDATION_FAILED);
require(
vars.healthFactor > HEALTH_FACTOR_LIQUIDATION_THRESHOLD,
Errors.HEALTH_FACTOR_LOWER_THAN_LIQUIDATION_THRESHOLD
);
vars.amountInBaseCurrency =
IPriceOracleGetter(params.oracle).getAssetPrice(
vars.eModePriceSource != address(0) ? vars.eModePriceSource : params.asset
) *
params.amount;
unchecked {
vars.amountInBaseCurrency /= vars.assetUnit;
}
//add the current already borrowed amount to the amount requested to calculate the total collateral needed.
vars.collateralNeededInBaseCurrency = (vars.userDebtInBaseCurrency + vars.amountInBaseCurrency)
.percentDiv(vars.currentLtv); //LTV is calculated in percentage
require(
vars.collateralNeededInBaseCurrency <= vars.userCollateralInBaseCurrency,
Errors.COLLATERAL_CANNOT_COVER_NEW_BORROW
);
/**
* Following conditions need to be met if the user is borrowing at a stable rate:
* 1. Reserve must be enabled for stable rate borrowing
* 2. Users cannot borrow from the reserve if their collateral is (mostly) the same currency
* they are borrowing, to prevent abuses.
* 3. Users will be able to borrow only a portion of the total available liquidity
**/
if (params.interestRateMode == DataTypes.InterestRateMode.STABLE) {
//check if the borrow mode is stable and if stable rate borrowing is enabled on this reserve
require(vars.stableRateBorrowingEnabled, Errors.STABLE_BORROWING_NOT_ENABLED);
require(
!params.userConfig.isUsingAsCollateral(reservesData[params.asset].id) ||
params.reserveCache.reserveConfiguration.getLtv() == 0 ||
params.amount > IERC20(params.reserveCache.aTokenAddress).balanceOf(params.userAddress),
Errors.COLLATERAL_SAME_AS_BORROWING_CURRENCY
);
vars.availableLiquidity = IERC20(params.asset).balanceOf(params.reserveCache.aTokenAddress);
//calculate the max available loan size in stable rate mode as a percentage of the
//available liquidity
uint256 maxLoanSizeStable = vars.availableLiquidity.percentMul(params.maxStableLoanPercent);
require(params.amount <= maxLoanSizeStable, Errors.AMOUNT_BIGGER_THAN_MAX_LOAN_SIZE_STABLE);
}
if (params.userConfig.isBorrowingAny()) {
(vars.siloedBorrowingEnabled, vars.siloedBorrowingAddress) = params
.userConfig
.getSiloedBorrowingState(reservesData, reservesList);
if (vars.siloedBorrowingEnabled) {
require(vars.siloedBorrowingAddress == params.asset, Errors.SILOED_BORROWING_VIOLATION);
} else {
require(
!params.reserveCache.reserveConfiguration.getSiloedBorrowing(),
Errors.SILOED_BORROWING_VIOLATION
);
}
}
}
/**
* @notice Validates a repay action.
* @param reserveCache The cached data of the reserve
* @param amountSent The amount sent for the repayment. Can be an actual value or uint(-1)
* @param interestRateMode The interest rate mode of the debt being repaid
* @param onBehalfOf The address of the user msg.sender is repaying for
* @param stableDebt The borrow balance of the user
* @param variableDebt The borrow balance of the user
*/
function validateRepay(
DataTypes.ReserveCache memory reserveCache,
uint256 amountSent,
DataTypes.InterestRateMode interestRateMode,
address onBehalfOf,
uint256 stableDebt,
uint256 variableDebt
) internal view {
require(amountSent != 0, Errors.INVALID_AMOUNT);
require(
amountSent != type(uint256).max || msg.sender == onBehalfOf,
Errors.NO_EXPLICIT_AMOUNT_TO_REPAY_ON_BEHALF
);
(bool isActive, , , , bool isPaused) = reserveCache.reserveConfiguration.getFlags();
require(isActive, Errors.RESERVE_INACTIVE);
require(!isPaused, Errors.RESERVE_PAUSED);
uint256 variableDebtPreviousIndex = IScaledBalanceToken(reserveCache.variableDebtTokenAddress)
.getPreviousIndex(onBehalfOf);
uint40 stableRatePreviousTimestamp = IStableDebtToken(reserveCache.stableDebtTokenAddress)
.getUserLastUpdated(onBehalfOf);
require(
(stableRatePreviousTimestamp < uint40(block.timestamp) &&
interestRateMode == DataTypes.InterestRateMode.STABLE) ||
(variableDebtPreviousIndex < reserveCache.nextVariableBorrowIndex &&
interestRateMode == DataTypes.InterestRateMode.VARIABLE),
Errors.SAME_BLOCK_BORROW_REPAY
);
require(
(stableDebt != 0 && interestRateMode == DataTypes.InterestRateMode.STABLE) ||
(variableDebt != 0 && interestRateMode == DataTypes.InterestRateMode.VARIABLE),
Errors.NO_DEBT_OF_SELECTED_TYPE
);
}
/**
* @notice Validates a swap of borrow rate mode.
* @param reserve The reserve state on which the user is swapping the rate
* @param reserveCache The cached data of the reserve
* @param userConfig The user reserves configuration
* @param stableDebt The stable debt of the user
* @param variableDebt The variable debt of the user
* @param currentRateMode The rate mode of the debt being swapped
*/
function validateSwapRateMode(
DataTypes.ReserveData storage reserve,
DataTypes.ReserveCache memory reserveCache,
DataTypes.UserConfigurationMap storage userConfig,
uint256 stableDebt,
uint256 variableDebt,
DataTypes.InterestRateMode currentRateMode
) internal view {
(bool isActive, bool isFrozen, , bool stableRateEnabled, bool isPaused) = reserveCache
.reserveConfiguration
.getFlags();
require(isActive, Errors.RESERVE_INACTIVE);
require(!isPaused, Errors.RESERVE_PAUSED);
require(!isFrozen, Errors.RESERVE_FROZEN);
if (currentRateMode == DataTypes.InterestRateMode.STABLE) {
require(stableDebt != 0, Errors.NO_OUTSTANDING_STABLE_DEBT);
} else if (currentRateMode == DataTypes.InterestRateMode.VARIABLE) {
require(variableDebt != 0, Errors.NO_OUTSTANDING_VARIABLE_DEBT);
/**
* user wants to swap to stable, before swapping we need to ensure that
* 1. stable borrow rate is enabled on the reserve
* 2. user is not trying to abuse the reserve by supplying
* more collateral than he is borrowing, artificially lowering
* the interest rate, borrowing at variable, and switching to stable
**/
require(stableRateEnabled, Errors.STABLE_BORROWING_NOT_ENABLED);
require(
!userConfig.isUsingAsCollateral(reserve.id) ||
reserveCache.reserveConfiguration.getLtv() == 0 ||
stableDebt + variableDebt > IERC20(reserveCache.aTokenAddress).balanceOf(msg.sender),
Errors.COLLATERAL_SAME_AS_BORROWING_CURRENCY
);
} else {
revert(Errors.INVALID_INTEREST_RATE_MODE_SELECTED);
}
}
/**
* @notice Validates a stable borrow rate rebalance action.
* @dev Rebalancing is accepted when depositors are earning <= 90% of their earnings in pure supply/demand market (variable rate only)
* For this to be the case, there has to be quite large stable debt with an interest rate below the current variable rate.
* @param reserve The reserve state on which the user is getting rebalanced
* @param reserveCache The cached state of the reserve
* @param reserveAddress The address of the reserve
*/
function validateRebalanceStableBorrowRate(
DataTypes.ReserveData storage reserve,
DataTypes.ReserveCache memory reserveCache,
address reserveAddress
) internal view {
(bool isActive, , , , bool isPaused) = reserveCache.reserveConfiguration.getFlags();
require(isActive, Errors.RESERVE_INACTIVE);
require(!isPaused, Errors.RESERVE_PAUSED);
uint256 totalDebt = IERC20(reserveCache.stableDebtTokenAddress).totalSupply() +
IERC20(reserveCache.variableDebtTokenAddress).totalSupply();
(uint256 liquidityRateVariableDebtOnly, , ) = IReserveInterestRateStrategy(
reserve.interestRateStrategyAddress
).calculateInterestRates(
DataTypes.CalculateInterestRatesParams({
unbacked: reserve.unbacked,
liquidityAdded: 0,
liquidityTaken: 0,
totalStableDebt: 0,
totalVariableDebt: totalDebt,
averageStableBorrowRate: 0,
reserveFactor: reserveCache.reserveFactor,
reserve: reserveAddress,
aToken: reserveCache.aTokenAddress
})
);
require(
reserveCache.currLiquidityRate <=
liquidityRateVariableDebtOnly.percentMul(REBALANCE_UP_LIQUIDITY_RATE_THRESHOLD),
Errors.INTEREST_RATE_REBALANCE_CONDITIONS_NOT_MET
);
}
/**
* @notice Validates the action of setting an asset as collateral.
* @param reserveCache The cached data of the reserve
* @param userBalance The balance of the user
*/
function validateSetUseReserveAsCollateral(
DataTypes.ReserveCache memory reserveCache,
uint256 userBalance
) internal pure {
require(userBalance != 0, Errors.UNDERLYING_BALANCE_ZERO);
(bool isActive, , , , bool isPaused) = reserveCache.reserveConfiguration.getFlags();
require(isActive, Errors.RESERVE_INACTIVE);
require(!isPaused, Errors.RESERVE_PAUSED);
}
/**
* @notice Validates a flashloan action.
* @param reservesData The state of all the reserves
* @param assets The assets being flash-borrowed
* @param amounts The amounts for each asset being borrowed
*/
function validateFlashloan(
mapping(address => DataTypes.ReserveData) storage reservesData,
address[] memory assets,
uint256[] memory amounts
) internal view {
require(assets.length == amounts.length, Errors.INCONSISTENT_FLASHLOAN_PARAMS);
for (uint256 i = 0; i < assets.length; i++) {
DataTypes.ReserveConfigurationMap memory configuration = reservesData[assets[i]]
.configuration;
require(!configuration.getPaused(), Errors.RESERVE_PAUSED);
require(configuration.getActive(), Errors.RESERVE_INACTIVE);
}
}
/**
* @notice Validates a flashloan action.
* @param reserve The state of the reserve
*/
function validateFlashloanSimple(DataTypes.ReserveData storage reserve) internal view {
DataTypes.ReserveConfigurationMap memory configuration = reserve.configuration;
require(!configuration.getPaused(), Errors.RESERVE_PAUSED);
require(configuration.getActive(), Errors.RESERVE_INACTIVE);
}
struct ValidateLiquidationCallLocalVars {
bool collateralReserveActive;
bool collateralReservePaused;
bool principalReserveActive;
bool principalReservePaused;
bool isCollateralEnabled;
}
/**
* @notice Validates the liquidation action.
* @param userConfig The user configuration mapping
* @param collateralReserve The reserve data of the collateral
* @param params Additional parameters needed for the validation
*/
function validateLiquidationCall(
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ReserveData storage collateralReserve,
DataTypes.ValidateLiquidationCallParams memory params
) internal view {
ValidateLiquidationCallLocalVars memory vars;
(vars.collateralReserveActive, , , , vars.collateralReservePaused) = collateralReserve
.configuration
.getFlags();
(vars.principalReserveActive, , , , vars.principalReservePaused) = params
.debtReserveCache
.reserveConfiguration
.getFlags();
require(vars.collateralReserveActive && vars.principalReserveActive, Errors.RESERVE_INACTIVE);
require(!vars.collateralReservePaused && !vars.principalReservePaused, Errors.RESERVE_PAUSED);
require(
params.priceOracleSentinel == address(0) ||
params.healthFactor < MINIMUM_HEALTH_FACTOR_LIQUIDATION_THRESHOLD ||
IPriceOracleSentinel(params.priceOracleSentinel).isLiquidationAllowed(),
Errors.PRICE_ORACLE_SENTINEL_CHECK_FAILED
);
require(
params.healthFactor < HEALTH_FACTOR_LIQUIDATION_THRESHOLD,
Errors.HEALTH_FACTOR_NOT_BELOW_THRESHOLD
);
vars.isCollateralEnabled =
collateralReserve.configuration.getLiquidationThreshold() != 0 &&
userConfig.isUsingAsCollateral(collateralReserve.id);
//if collateral isn't enabled as collateral by user, it cannot be liquidated
require(vars.isCollateralEnabled, Errors.COLLATERAL_CANNOT_BE_LIQUIDATED);
require(params.totalDebt != 0, Errors.SPECIFIED_CURRENCY_NOT_BORROWED_BY_USER);
}
/**
* @notice Validates the health factor of a user.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param userConfig The state of the user for the specific reserve
* @param user The user to validate health factor of
* @param userEModeCategory The users active efficiency mode category
* @param reservesCount The number of available reserves
* @param oracle The price oracle
*/
function validateHealthFactor(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap memory userConfig,
address user,
uint8 userEModeCategory,
uint256 reservesCount,
address oracle
) internal view returns (uint256, bool) {
(, , , , uint256 healthFactor, bool hasZeroLtvCollateral) = GenericLogic
.calculateUserAccountData(
reservesData,
reservesList,
eModeCategories,
DataTypes.CalculateUserAccountDataParams({
userConfig: userConfig,
reservesCount: reservesCount,
user: user,
oracle: oracle,
userEModeCategory: userEModeCategory
})
);
require(
healthFactor >= HEALTH_FACTOR_LIQUIDATION_THRESHOLD,
Errors.HEALTH_FACTOR_LOWER_THAN_LIQUIDATION_THRESHOLD
);
return (healthFactor, hasZeroLtvCollateral);
}
/**
* @notice Validates the health factor of a user and the ltv of the asset being withdrawn.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories The configuration of all the efficiency mode categories
* @param userConfig The state of the user for the specific reserve
* @param asset The asset for which the ltv will be validated
* @param from The user from which the aTokens are being transferred
* @param reservesCount The number of available reserves
* @param oracle The price oracle
* @param userEModeCategory The users active efficiency mode category
*/
function validateHFAndLtv(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap memory userConfig,
address asset,
address from,
uint256 reservesCount,
address oracle,
uint8 userEModeCategory
) internal view {
DataTypes.ReserveData memory reserve = reservesData[asset];
(, bool hasZeroLtvCollateral) = validateHealthFactor(
reservesData,
reservesList,
eModeCategories,
userConfig,
from,
userEModeCategory,
reservesCount,
oracle
);
require(
!hasZeroLtvCollateral || reserve.configuration.getLtv() == 0,
Errors.LTV_VALIDATION_FAILED
);
}
/**
* @notice Validates a transfer action.
* @param reserve The reserve object
*/
function validateTransfer(DataTypes.ReserveData storage reserve) internal view {
require(!reserve.configuration.getPaused(), Errors.RESERVE_PAUSED);
}
/**
* @notice Validates a drop reserve action.
* @param reservesList The addresses of all the active reserves
* @param reserve The reserve object
* @param asset The address of the reserve's underlying asset
**/
function validateDropReserve(
mapping(uint256 => address) storage reservesList,
DataTypes.ReserveData storage reserve,
address asset
) internal view {
require(asset != address(0), Errors.ZERO_ADDRESS_NOT_VALID);
require(reserve.id != 0 || reservesList[0] == asset, Errors.ASSET_NOT_LISTED);
require(IERC20(reserve.stableDebtTokenAddress).totalSupply() == 0, Errors.STABLE_DEBT_NOT_ZERO);
require(
IERC20(reserve.variableDebtTokenAddress).totalSupply() == 0,
Errors.VARIABLE_DEBT_SUPPLY_NOT_ZERO
);
require(IERC20(reserve.aTokenAddress).totalSupply() == 0, Errors.ATOKEN_SUPPLY_NOT_ZERO);
}
/**
* @notice Validates the action of setting efficiency mode.
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param eModeCategories a mapping storing configurations for all efficiency mode categories
* @param userConfig the user configuration
* @param reservesCount The total number of valid reserves
* @param categoryId The id of the category
**/
function validateSetUserEMode(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
mapping(uint8 => DataTypes.EModeCategory) storage eModeCategories,
DataTypes.UserConfigurationMap memory userConfig,
uint256 reservesCount,
uint8 categoryId
) internal view {
// category is invalid if the liq threshold is not set
require(
categoryId == 0 || eModeCategories[categoryId].liquidationThreshold != 0,
Errors.INCONSISTENT_EMODE_CATEGORY
);
//eMode can always be enabled if the user hasn't supplied anything
if (userConfig.isEmpty()) {
return;
}
// if user is trying to set another category than default we require that
// either the user is not borrowing, or it's borrowing assets of categoryId
if (categoryId != 0) {
unchecked {
for (uint256 i = 0; i < reservesCount; i++) {
if (userConfig.isBorrowing(i)) {
DataTypes.ReserveConfigurationMap memory configuration = reservesData[reservesList[i]]
.configuration;
require(
configuration.getEModeCategory() == categoryId,
Errors.INCONSISTENT_EMODE_CATEGORY
);
}
}
}
}
}
/**
* @notice Validates if an asset can be activated as collateral in the following actions: supply, transfer,
* set as collateral, mint unbacked, and liquidate
* @dev This is used to ensure that the constraints for isolated assets are respected by all the actions that
* generate transfers of aTokens
* @param reservesData The state of all the reserves
* @param reservesList The addresses of all the active reserves
* @param userConfig the user configuration
* @param reserveConfig The reserve configuration
* @return True if the asset can be activated as collateral, false otherwise
**/
function validateUseAsCollateral(
mapping(address => DataTypes.ReserveData) storage reservesData,
mapping(uint256 => address) storage reservesList,
DataTypes.UserConfigurationMap storage userConfig,
DataTypes.ReserveConfigurationMap memory reserveConfig
) internal view returns (bool) {
if (!userConfig.isUsingAsCollateralAny()) {
return true;
}
(bool isolationModeActive, , ) = userConfig.getIsolationModeState(reservesData, reservesList);
return (!isolationModeActive && reserveConfig.getDebtCeiling() == 0);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {WadRayMath} from './WadRayMath.sol';
/**
* @title MathUtils library
* @author Aave
* @notice Provides functions to perform linear and compounded interest calculations
*/
library MathUtils {
using WadRayMath for uint256;
/// @dev Ignoring leap years
uint256 internal constant SECONDS_PER_YEAR = 365 days;
/**
* @dev Function to calculate the interest accumulated using a linear interest rate formula
* @param rate The interest rate, in ray
* @param lastUpdateTimestamp The timestamp of the last update of the interest
* @return The interest rate linearly accumulated during the timeDelta, in ray
**/
function calculateLinearInterest(uint256 rate, uint40 lastUpdateTimestamp)
internal
view
returns (uint256)
{
//solium-disable-next-line
uint256 result = rate * (block.timestamp - uint256(lastUpdateTimestamp));
unchecked {
result = result / SECONDS_PER_YEAR;
}
return WadRayMath.RAY + result;
}
/**
* @dev Function to calculate the interest using a compounded interest rate formula
* To avoid expensive exponentiation, the calculation is performed using a binomial approximation:
*
* (1+x)^n = 1+n*x+[n/2*(n-1)]*x^2+[n/6*(n-1)*(n-2)*x^3...
*
* The approximation slightly underpays liquidity providers and undercharges borrowers, with the advantage of great
* gas cost reductions. The whitepaper contains reference to the approximation and a table showing the margin of
* error per different time periods
*
* @param rate The interest rate, in ray
* @param lastUpdateTimestamp The timestamp of the last update of the interest
* @return The interest rate compounded during the timeDelta, in ray
**/
function calculateCompoundedInterest(
uint256 rate,
uint40 lastUpdateTimestamp,
uint256 currentTimestamp
) internal pure returns (uint256) {
//solium-disable-next-line
uint256 exp = currentTimestamp - uint256(lastUpdateTimestamp);
if (exp == 0) {
return WadRayMath.RAY;
}
uint256 expMinusOne;
uint256 expMinusTwo;
uint256 basePowerTwo;
uint256 basePowerThree;
unchecked {
expMinusOne = exp - 1;
expMinusTwo = exp > 2 ? exp - 2 : 0;
basePowerTwo = rate.rayMul(rate) / (SECONDS_PER_YEAR * SECONDS_PER_YEAR);
basePowerThree = basePowerTwo.rayMul(rate) / SECONDS_PER_YEAR;
}
uint256 secondTerm = exp * expMinusOne * basePowerTwo;
unchecked {
secondTerm /= 2;
}
uint256 thirdTerm = exp * expMinusOne * expMinusTwo * basePowerThree;
unchecked {
thirdTerm /= 6;
}
return WadRayMath.RAY + (rate * exp) / SECONDS_PER_YEAR + secondTerm + thirdTerm;
}
/**
* @dev Calculates the compounded interest between the timestamp of the last update and the current block timestamp
* @param rate The interest rate (in ray)
* @param lastUpdateTimestamp The timestamp from which the interest accumulation needs to be calculated
* @return The interest rate compounded between lastUpdateTimestamp and current block timestamp, in ray
**/
function calculateCompoundedInterest(uint256 rate, uint40 lastUpdateTimestamp)
internal
view
returns (uint256)
{
return calculateCompoundedInterest(rate, lastUpdateTimestamp, block.timestamp);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
/**
* @title PercentageMath library
* @author Aave
* @notice Provides functions to perform percentage calculations
* @dev Percentages are defined by default with 2 decimals of precision (100.00). The precision is indicated by PERCENTAGE_FACTOR
* @dev Operations are rounded. If a value is >=.5, will be rounded up, otherwise rounded down.
**/
library PercentageMath {
// Maximum percentage factor (100.00%)
uint256 internal constant PERCENTAGE_FACTOR = 1e4;
// Half percentage factor (50.00%)
uint256 internal constant HALF_PERCENTAGE_FACTOR = 0.5e4;
/**
* @notice Executes a percentage multiplication
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param value The value of which the percentage needs to be calculated
* @param percentage The percentage of the value to be calculated
* @return result value percentmul percentage
**/
function percentMul(uint256 value, uint256 percentage) internal pure returns (uint256 result) {
// to avoid overflow, value <= (type(uint256).max - HALF_PERCENTAGE_FACTOR) / percentage
assembly {
if iszero(
or(
iszero(percentage),
iszero(gt(value, div(sub(not(0), HALF_PERCENTAGE_FACTOR), percentage)))
)
) {
revert(0, 0)
}
result := div(add(mul(value, percentage), HALF_PERCENTAGE_FACTOR), PERCENTAGE_FACTOR)
}
}
/**
* @notice Executes a percentage division
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param value The value of which the percentage needs to be calculated
* @param percentage The percentage of the value to be calculated
* @return result value percentdiv percentage
**/
function percentDiv(uint256 value, uint256 percentage) internal pure returns (uint256 result) {
// to avoid overflow, value <= (type(uint256).max - halfPercentage) / PERCENTAGE_FACTOR
assembly {
if or(
iszero(percentage),
iszero(iszero(gt(value, div(sub(not(0), div(percentage, 2)), PERCENTAGE_FACTOR))))
) {
revert(0, 0)
}
result := div(add(mul(value, PERCENTAGE_FACTOR), div(percentage, 2)), percentage)
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
/**
* @title WadRayMath library
* @author Aave
* @notice Provides functions to perform calculations with Wad and Ray units
* @dev Provides mul and div function for wads (decimal numbers with 18 digits of precision) and rays (decimal numbers
* with 27 digits of precision)
* @dev Operations are rounded. If a value is >=.5, will be rounded up, otherwise rounded down.
**/
library WadRayMath {
// HALF_WAD and HALF_RAY expressed with extended notation as constant with operations are not supported in Yul assembly
uint256 internal constant WAD = 1e18;
uint256 internal constant HALF_WAD = 0.5e18;
uint256 internal constant RAY = 1e27;
uint256 internal constant HALF_RAY = 0.5e27;
uint256 internal constant WAD_RAY_RATIO = 1e9;
/**
* @dev Multiplies two wad, rounding half up to the nearest wad
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param a Wad
* @param b Wad
* @return c = a*b, in wad
**/
function wadMul(uint256 a, uint256 b) internal pure returns (uint256 c) {
// to avoid overflow, a <= (type(uint256).max - HALF_WAD) / b
assembly {
if iszero(or(iszero(b), iszero(gt(a, div(sub(not(0), HALF_WAD), b))))) {
revert(0, 0)
}
c := div(add(mul(a, b), HALF_WAD), WAD)
}
}
/**
* @dev Divides two wad, rounding half up to the nearest wad
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param a Wad
* @param b Wad
* @return c = a/b, in wad
**/
function wadDiv(uint256 a, uint256 b) internal pure returns (uint256 c) {
// to avoid overflow, a <= (type(uint256).max - halfB) / WAD
assembly {
if or(iszero(b), iszero(iszero(gt(a, div(sub(not(0), div(b, 2)), WAD))))) {
revert(0, 0)
}
c := div(add(mul(a, WAD), div(b, 2)), b)
}
}
/**
* @notice Multiplies two ray, rounding half up to the nearest ray
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param a Ray
* @param b Ray
* @return c = a raymul b
**/
function rayMul(uint256 a, uint256 b) internal pure returns (uint256 c) {
// to avoid overflow, a <= (type(uint256).max - HALF_RAY) / b
assembly {
if iszero(or(iszero(b), iszero(gt(a, div(sub(not(0), HALF_RAY), b))))) {
revert(0, 0)
}
c := div(add(mul(a, b), HALF_RAY), RAY)
}
}
/**
* @notice Divides two ray, rounding half up to the nearest ray
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param a Ray
* @param b Ray
* @return c = a raydiv b
**/
function rayDiv(uint256 a, uint256 b) internal pure returns (uint256 c) {
// to avoid overflow, a <= (type(uint256).max - halfB) / RAY
assembly {
if or(iszero(b), iszero(iszero(gt(a, div(sub(not(0), div(b, 2)), RAY))))) {
revert(0, 0)
}
c := div(add(mul(a, RAY), div(b, 2)), b)
}
}
/**
* @dev Casts ray down to wad
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param a Ray
* @return b = a converted to wad, rounded half up to the nearest wad
**/
function rayToWad(uint256 a) internal pure returns (uint256 b) {
assembly {
b := div(a, WAD_RAY_RATIO)
let remainder := mod(a, WAD_RAY_RATIO)
if iszero(lt(remainder, div(WAD_RAY_RATIO, 2))) {
b := add(b, 1)
}
}
}
/**
* @dev Converts wad up to ray
* @dev assembly optimized for improved gas savings, see https://twitter.com/transmissions11/status/1451131036377571328
* @param a Wad
* @return b = a converted in ray
**/
function wadToRay(uint256 a) internal pure returns (uint256 b) {
// to avoid overflow, b/WAD_RAY_RATIO == a
assembly {
b := mul(a, WAD_RAY_RATIO)
if iszero(eq(div(b, WAD_RAY_RATIO), a)) {
revert(0, 0)
}
}
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
library DataTypes {
struct ReserveData {
//stores the reserve configuration
ReserveConfigurationMap configuration;
//the liquidity index. Expressed in ray
uint128 liquidityIndex;
//the current supply rate. Expressed in ray
uint128 currentLiquidityRate;
//variable borrow index. Expressed in ray
uint128 variableBorrowIndex;
//the current variable borrow rate. Expressed in ray
uint128 currentVariableBorrowRate;
//the current stable borrow rate. Expressed in ray
uint128 currentStableBorrowRate;
//timestamp of last update
uint40 lastUpdateTimestamp;
//the id of the reserve. Represents the position in the list of the active reserves
uint16 id;
//aToken address
address aTokenAddress;
//stableDebtToken address
address stableDebtTokenAddress;
//variableDebtToken address
address variableDebtTokenAddress;
//address of the interest rate strategy
address interestRateStrategyAddress;
//the current treasury balance, scaled
uint128 accruedToTreasury;
//the outstanding unbacked aTokens minted through the bridging feature
uint128 unbacked;
//the outstanding debt borrowed against this asset in isolation mode
uint128 isolationModeTotalDebt;
}
struct ReserveConfigurationMap {
//bit 0-15: LTV
//bit 16-31: Liq. threshold
//bit 32-47: Liq. bonus
//bit 48-55: Decimals
//bit 56: reserve is active
//bit 57: reserve is frozen
//bit 58: borrowing is enabled
//bit 59: stable rate borrowing enabled
//bit 60: asset is paused
//bit 61: borrowing in isolation mode is enabled
//bit 62-63: reserved
//bit 64-79: reserve factor
//bit 80-115 borrow cap in whole tokens, borrowCap == 0 => no cap
//bit 116-151 supply cap in whole tokens, supplyCap == 0 => no cap
//bit 152-167 liquidation protocol fee
//bit 168-175 eMode category
//bit 176-211 unbacked mint cap in whole tokens, unbackedMintCap == 0 => minting disabled
//bit 212-251 debt ceiling for isolation mode with (ReserveConfiguration::DEBT_CEILING_DECIMALS) decimals
//bit 252-255 unused
uint256 data;
}
struct UserConfigurationMap {
/**
* @dev Bitmap of the users collaterals and borrows. It is divided in pairs of bits, one pair per asset.
* The first bit indicates if an asset is used as collateral by the user, the second whether an
* asset is borrowed by the user.
*/
uint256 data;
}
struct EModeCategory {
// each eMode category has a custom ltv and liquidation threshold
uint16 ltv;
uint16 liquidationThreshold;
uint16 liquidationBonus;
// each eMode category may or may not have a custom oracle to override the individual assets price oracles
address priceSource;
string label;
}
enum InterestRateMode {
NONE,
STABLE,
VARIABLE
}
struct ReserveCache {
uint256 currScaledVariableDebt;
uint256 nextScaledVariableDebt;
uint256 currPrincipalStableDebt;
uint256 currAvgStableBorrowRate;
uint256 currTotalStableDebt;
uint256 nextAvgStableBorrowRate;
uint256 nextTotalStableDebt;
uint256 currLiquidityIndex;
uint256 nextLiquidityIndex;
uint256 currVariableBorrowIndex;
uint256 nextVariableBorrowIndex;
uint256 currLiquidityRate;
uint256 currVariableBorrowRate;
uint256 reserveFactor;
ReserveConfigurationMap reserveConfiguration;
address aTokenAddress;
address stableDebtTokenAddress;
address variableDebtTokenAddress;
uint40 reserveLastUpdateTimestamp;
uint40 stableDebtLastUpdateTimestamp;
}
struct ExecuteLiquidationCallParams {
uint256 reservesCount;
uint256 debtToCover;
address collateralAsset;
address debtAsset;
address user;
bool receiveAToken;
address priceOracle;
uint8 userEModeCategory;
address priceOracleSentinel;
}
struct ExecuteSupplyParams {
address asset;
uint256 amount;
address onBehalfOf;
uint16 referralCode;
}
struct ExecuteBorrowParams {
address asset;
address user;
address onBehalfOf;
uint256 amount;
InterestRateMode interestRateMode;
uint16 referralCode;
bool releaseUnderlying;
uint256 maxStableRateBorrowSizePercent;
uint256 reservesCount;
address oracle;
uint8 userEModeCategory;
address priceOracleSentinel;
}
struct ExecuteRepayParams {
address asset;
uint256 amount;
InterestRateMode interestRateMode;
address onBehalfOf;
bool useATokens;
}
struct ExecuteWithdrawParams {
address asset;
uint256 amount;
address to;
uint256 reservesCount;
address oracle;
uint8 userEModeCategory;
}
struct ExecuteSetUserEModeParams {
uint256 reservesCount;
address oracle;
uint8 categoryId;
}
struct FinalizeTransferParams {
address asset;
address from;
address to;
uint256 amount;
uint256 balanceFromBefore;
uint256 balanceToBefore;
uint256 reservesCount;
address oracle;
uint8 fromEModeCategory;
}
struct FlashloanParams {
address receiverAddress;
address[] assets;
uint256[] amounts;
uint256[] interestRateModes;
address onBehalfOf;
bytes params;
uint16 referralCode;
uint256 flashLoanPremiumToProtocol;
uint256 flashLoanPremiumTotal;
uint256 maxStableRateBorrowSizePercent;
uint256 reservesCount;
address addressesProvider;
uint8 userEModeCategory;
bool isAuthorizedFlashBorrower;
}
struct FlashloanSimpleParams {
address receiverAddress;
address asset;
uint256 amount;
bytes params;
uint16 referralCode;
uint256 flashLoanPremiumToProtocol;
uint256 flashLoanPremiumTotal;
}
struct FlashLoanRepaymentParams {
uint256 amount;
uint256 totalPremium;
uint256 flashLoanPremiumToProtocol;
address asset;
address receiverAddress;
uint16 referralCode;
}
struct CalculateUserAccountDataParams {
UserConfigurationMap userConfig;
uint256 reservesCount;
address user;
address oracle;
uint8 userEModeCategory;
}
struct ValidateBorrowParams {
ReserveCache reserveCache;
UserConfigurationMap userConfig;
address asset;
address userAddress;
uint256 amount;
InterestRateMode interestRateMode;
uint256 maxStableLoanPercent;
uint256 reservesCount;
address oracle;
uint8 userEModeCategory;
address priceOracleSentinel;
bool isolationModeActive;
address isolationModeCollateralAddress;
uint256 isolationModeDebtCeiling;
}
struct ValidateLiquidationCallParams {
ReserveCache debtReserveCache;
uint256 totalDebt;
uint256 healthFactor;
address priceOracleSentinel;
}
struct CalculateInterestRatesParams {
uint256 unbacked;
uint256 liquidityAdded;
uint256 liquidityTaken;
uint256 totalStableDebt;
uint256 totalVariableDebt;
uint256 averageStableBorrowRate;
uint256 reserveFactor;
address reserve;
address aToken;
}
struct InitReserveParams {
address asset;
address aTokenAddress;
address stableDebtAddress;
address variableDebtAddress;
address interestRateStrategyAddress;
uint16 reservesCount;
uint16 maxNumberReserves;
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {VersionedInitializable} from '../libraries/aave-upgradeability/VersionedInitializable.sol';
import {Errors} from '../libraries/helpers/Errors.sol';
import {ReserveConfiguration} from '../libraries/configuration/ReserveConfiguration.sol';
import {PoolLogic} from '../libraries/logic/PoolLogic.sol';
import {ReserveLogic} from '../libraries/logic/ReserveLogic.sol';
import {EModeLogic} from '../libraries/logic/EModeLogic.sol';
import {SupplyLogic} from '../libraries/logic/SupplyLogic.sol';
import {FlashLoanLogic} from '../libraries/logic/FlashLoanLogic.sol';
import {BorrowLogic} from '../libraries/logic/BorrowLogic.sol';
import {LiquidationLogic} from '../libraries/logic/LiquidationLogic.sol';
import {DataTypes} from '../libraries/types/DataTypes.sol';
import {BridgeLogic} from '../libraries/logic/BridgeLogic.sol';
import {IERC20WithPermit} from '../../interfaces/IERC20WithPermit.sol';
import {IPoolAddressesProvider} from '../../interfaces/IPoolAddressesProvider.sol';
import {IPool} from '../../interfaces/IPool.sol';
import {IACLManager} from '../../interfaces/IACLManager.sol';
import {PoolStorage} from './PoolStorage.sol';
/**
* @title Pool contract
* @author Aave
* @notice Main point of interaction with an Aave protocol's market
* - Users can:
* # Supply
* # Withdraw
* # Borrow
* # Repay
* # Swap their loans between variable and stable rate
* # Enable/disable their supplied assets as collateral rebalance stable rate borrow positions
* # Liquidate positions
* # Execute Flash Loans
* @dev To be covered by a proxy contract, owned by the PoolAddressesProvider of the specific market
* @dev All admin functions are callable by the PoolConfigurator contract defined also in the
* PoolAddressesProvider
**/
contract Pool is VersionedInitializable, PoolStorage, IPool {
using ReserveLogic for DataTypes.ReserveData;
uint256 public constant POOL_REVISION = 0x1;
IPoolAddressesProvider public immutable ADDRESSES_PROVIDER;
/**
* @dev Only pool configurator can call functions marked by this modifier.
**/
modifier onlyPoolConfigurator() {
_onlyPoolConfigurator();
_;
}
/**
* @dev Only pool admin can call functions marked by this modifier.
**/
modifier onlyPoolAdmin() {
_onlyPoolAdmin();
_;
}
/**
* @dev Only bridge can call functions marked by this modifier.
**/
modifier onlyBridge() {
_onlyBridge();
_;
}
function _onlyPoolConfigurator() internal view virtual {
require(
ADDRESSES_PROVIDER.getPoolConfigurator() == msg.sender,
Errors.CALLER_NOT_POOL_CONFIGURATOR
);
}
function _onlyPoolAdmin() internal view virtual {
require(
IACLManager(ADDRESSES_PROVIDER.getACLManager()).isPoolAdmin(msg.sender),
Errors.CALLER_NOT_POOL_ADMIN
);
}
function _onlyBridge() internal view virtual {
require(
IACLManager(ADDRESSES_PROVIDER.getACLManager()).isBridge(msg.sender),
Errors.CALLER_NOT_BRIDGE
);
}
function getRevision() internal pure virtual override returns (uint256) {
return POOL_REVISION;
}
/**
* @dev Constructor.
* @param provider The address of the PoolAddressesProvider contract
*/
constructor(IPoolAddressesProvider provider) {
ADDRESSES_PROVIDER = provider;
}
/**
* @notice Initializes the Pool.
* @dev Function is invoked by the proxy contract when the Pool contract is added to the
* PoolAddressesProvider of the market.
* @dev Caching the address of the PoolAddressesProvider in order to reduce gas consumption on subsequent operations
* @param provider The address of the PoolAddressesProvider
**/
function initialize(IPoolAddressesProvider provider) external virtual initializer {
require(provider == ADDRESSES_PROVIDER, Errors.INVALID_ADDRESSES_PROVIDER);
_maxStableRateBorrowSizePercent = 0.25e4;
_flashLoanPremiumTotal = 0.0009e4;
_flashLoanPremiumToProtocol = 0;
}
/// @inheritdoc IPool
function mintUnbacked(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) external virtual override onlyBridge {
BridgeLogic.executeMintUnbacked(
_reserves,
_reservesList,
_usersConfig[onBehalfOf],
asset,
amount,
onBehalfOf,
referralCode
);
}
/// @inheritdoc IPool
function backUnbacked(
address asset,
uint256 amount,
uint256 fee
) external virtual override onlyBridge {
BridgeLogic.executeBackUnbacked(_reserves[asset], asset, amount, fee, _bridgeProtocolFee);
}
/// @inheritdoc IPool
function supply(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) public virtual override {
SupplyLogic.executeSupply(
_reserves,
_reservesList,
_usersConfig[onBehalfOf],
DataTypes.ExecuteSupplyParams({
asset: asset,
amount: amount,
onBehalfOf: onBehalfOf,
referralCode: referralCode
})
);
}
/// @inheritdoc IPool
function supplyWithPermit(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode,
uint256 deadline,
uint8 permitV,
bytes32 permitR,
bytes32 permitS
) public virtual override {
IERC20WithPermit(asset).permit(
msg.sender,
address(this),
amount,
deadline,
permitV,
permitR,
permitS
);
SupplyLogic.executeSupply(
_reserves,
_reservesList,
_usersConfig[onBehalfOf],
DataTypes.ExecuteSupplyParams({
asset: asset,
amount: amount,
onBehalfOf: onBehalfOf,
referralCode: referralCode
})
);
}
/// @inheritdoc IPool
function withdraw(
address asset,
uint256 amount,
address to
) public virtual override returns (uint256) {
return
SupplyLogic.executeWithdraw(
_reserves,
_reservesList,
_eModeCategories,
_usersConfig[msg.sender],
DataTypes.ExecuteWithdrawParams({
asset: asset,
amount: amount,
to: to,
reservesCount: _reservesCount,
oracle: ADDRESSES_PROVIDER.getPriceOracle(),
userEModeCategory: _usersEModeCategory[msg.sender]
})
);
}
/// @inheritdoc IPool
function borrow(
address asset,
uint256 amount,
uint256 interestRateMode,
uint16 referralCode,
address onBehalfOf
) public virtual override {
BorrowLogic.executeBorrow(
_reserves,
_reservesList,
_eModeCategories,
_usersConfig[onBehalfOf],
DataTypes.ExecuteBorrowParams({
asset: asset,
user: msg.sender,
onBehalfOf: onBehalfOf,
amount: amount,
interestRateMode: DataTypes.InterestRateMode(interestRateMode),
referralCode: referralCode,
releaseUnderlying: true,
maxStableRateBorrowSizePercent: _maxStableRateBorrowSizePercent,
reservesCount: _reservesCount,
oracle: ADDRESSES_PROVIDER.getPriceOracle(),
userEModeCategory: _usersEModeCategory[onBehalfOf],
priceOracleSentinel: ADDRESSES_PROVIDER.getPriceOracleSentinel()
})
);
}
/// @inheritdoc IPool
function repay(
address asset,
uint256 amount,
uint256 interestRateMode,
address onBehalfOf
) public virtual override returns (uint256) {
return
BorrowLogic.executeRepay(
_reserves,
_reservesList,
_usersConfig[onBehalfOf],
DataTypes.ExecuteRepayParams({
asset: asset,
amount: amount,
interestRateMode: DataTypes.InterestRateMode(interestRateMode),
onBehalfOf: onBehalfOf,
useATokens: false
})
);
}
/// @inheritdoc IPool
function repayWithPermit(
address asset,
uint256 amount,
uint256 interestRateMode,
address onBehalfOf,
uint256 deadline,
uint8 permitV,
bytes32 permitR,
bytes32 permitS
) public virtual override returns (uint256) {
{
IERC20WithPermit(asset).permit(
msg.sender,
address(this),
amount,
deadline,
permitV,
permitR,
permitS
);
}
{
DataTypes.ExecuteRepayParams memory params = DataTypes.ExecuteRepayParams({
asset: asset,
amount: amount,
interestRateMode: DataTypes.InterestRateMode(interestRateMode),
onBehalfOf: onBehalfOf,
useATokens: false
});
return BorrowLogic.executeRepay(_reserves, _reservesList, _usersConfig[onBehalfOf], params);
}
}
/// @inheritdoc IPool
function repayWithATokens(
address asset,
uint256 amount,
uint256 interestRateMode
) public virtual override returns (uint256) {
return
BorrowLogic.executeRepay(
_reserves,
_reservesList,
_usersConfig[msg.sender],
DataTypes.ExecuteRepayParams({
asset: asset,
amount: amount,
interestRateMode: DataTypes.InterestRateMode(interestRateMode),
onBehalfOf: msg.sender,
useATokens: true
})
);
}
/// @inheritdoc IPool
function swapBorrowRateMode(address asset, uint256 interestRateMode) public virtual override {
BorrowLogic.executeSwapBorrowRateMode(
_reserves[asset],
_usersConfig[msg.sender],
asset,
DataTypes.InterestRateMode(interestRateMode)
);
}
/// @inheritdoc IPool
function rebalanceStableBorrowRate(address asset, address user) public virtual override {
BorrowLogic.executeRebalanceStableBorrowRate(_reserves[asset], asset, user);
}
/// @inheritdoc IPool
function setUserUseReserveAsCollateral(address asset, bool useAsCollateral)
public
virtual
override
{
SupplyLogic.executeUseReserveAsCollateral(
_reserves,
_reservesList,
_eModeCategories,
_usersConfig[msg.sender],
asset,
useAsCollateral,
_reservesCount,
ADDRESSES_PROVIDER.getPriceOracle(),
_usersEModeCategory[msg.sender]
);
}
/// @inheritdoc IPool
function liquidationCall(
address collateralAsset,
address debtAsset,
address user,
uint256 debtToCover,
bool receiveAToken
) public virtual override {
LiquidationLogic.executeLiquidationCall(
_reserves,
_reservesList,
_usersConfig,
_eModeCategories,
DataTypes.ExecuteLiquidationCallParams({
reservesCount: _reservesCount,
debtToCover: debtToCover,
collateralAsset: collateralAsset,
debtAsset: debtAsset,
user: user,
receiveAToken: receiveAToken,
priceOracle: ADDRESSES_PROVIDER.getPriceOracle(),
userEModeCategory: _usersEModeCategory[user],
priceOracleSentinel: ADDRESSES_PROVIDER.getPriceOracleSentinel()
})
);
}
/// @inheritdoc IPool
function flashLoan(
address receiverAddress,
address[] calldata assets,
uint256[] calldata amounts,
uint256[] calldata interestRateModes,
address onBehalfOf,
bytes calldata params,
uint16 referralCode
) public virtual override {
DataTypes.FlashloanParams memory flashParams = DataTypes.FlashloanParams({
receiverAddress: receiverAddress,
assets: assets,
amounts: amounts,
interestRateModes: interestRateModes,
onBehalfOf: onBehalfOf,
params: params,
referralCode: referralCode,
flashLoanPremiumToProtocol: _flashLoanPremiumToProtocol,
flashLoanPremiumTotal: _flashLoanPremiumTotal,
maxStableRateBorrowSizePercent: _maxStableRateBorrowSizePercent,
reservesCount: _reservesCount,
addressesProvider: address(ADDRESSES_PROVIDER),
userEModeCategory: _usersEModeCategory[onBehalfOf],
isAuthorizedFlashBorrower: IACLManager(ADDRESSES_PROVIDER.getACLManager()).isFlashBorrower(
msg.sender
)
});
FlashLoanLogic.executeFlashLoan(
_reserves,
_reservesList,
_eModeCategories,
_usersConfig[onBehalfOf],
flashParams
);
}
/// @inheritdoc IPool
function flashLoanSimple(
address receiverAddress,
address asset,
uint256 amount,
bytes calldata params,
uint16 referralCode
) public virtual override {
DataTypes.FlashloanSimpleParams memory flashParams = DataTypes.FlashloanSimpleParams({
receiverAddress: receiverAddress,
asset: asset,
amount: amount,
params: params,
referralCode: referralCode,
flashLoanPremiumToProtocol: _flashLoanPremiumToProtocol,
flashLoanPremiumTotal: _flashLoanPremiumTotal
});
FlashLoanLogic.executeFlashLoanSimple(_reserves[asset], flashParams);
}
/// @inheritdoc IPool
function mintToTreasury(address[] calldata assets) external virtual override {
PoolLogic.executeMintToTreasury(_reserves, assets);
}
/// @inheritdoc IPool
function getReserveData(address asset)
external
view
virtual
override
returns (DataTypes.ReserveData memory)
{
return _reserves[asset];
}
/// @inheritdoc IPool
function getUserAccountData(address user)
external
view
virtual
override
returns (
uint256 totalCollateralBase,
uint256 totalDebtBase,
uint256 availableBorrowsBase,
uint256 currentLiquidationThreshold,
uint256 ltv,
uint256 healthFactor
)
{
return
PoolLogic.executeGetUserAccountData(
_reserves,
_reservesList,
_eModeCategories,
DataTypes.CalculateUserAccountDataParams({
userConfig: _usersConfig[user],
reservesCount: _reservesCount,
user: user,
oracle: ADDRESSES_PROVIDER.getPriceOracle(),
userEModeCategory: _usersEModeCategory[user]
})
);
}
/// @inheritdoc IPool
function getConfiguration(address asset)
external
view
virtual
override
returns (DataTypes.ReserveConfigurationMap memory)
{
return _reserves[asset].configuration;
}
/// @inheritdoc IPool
function getUserConfiguration(address user)
external
view
virtual
override
returns (DataTypes.UserConfigurationMap memory)
{
return _usersConfig[user];
}
/// @inheritdoc IPool
function getReserveNormalizedIncome(address asset)
external
view
virtual
override
returns (uint256)
{
return _reserves[asset].getNormalizedIncome();
}
/// @inheritdoc IPool
function getReserveNormalizedVariableDebt(address asset)
external
view
virtual
override
returns (uint256)
{
return _reserves[asset].getNormalizedDebt();
}
/// @inheritdoc IPool
function getReservesList() external view virtual override returns (address[] memory) {
uint256 reservesListCount = _reservesCount;
uint256 droppedReservesCount = 0;
address[] memory reservesList = new address[](reservesListCount);
for (uint256 i = 0; i < reservesListCount; i++) {
if (_reservesList[i] != address(0)) {
reservesList[i - droppedReservesCount] = _reservesList[i];
} else {
droppedReservesCount++;
}
}
// Reduces the length of the reserves array by `droppedReservesCount`
assembly {
mstore(reservesList, sub(reservesListCount, droppedReservesCount))
}
return reservesList;
}
/// @inheritdoc IPool
function getReserveAddressById(uint16 id) external view returns (address) {
return _reservesList[id];
}
/// @inheritdoc IPool
function MAX_STABLE_RATE_BORROW_SIZE_PERCENT() public view virtual override returns (uint256) {
return _maxStableRateBorrowSizePercent;
}
/// @inheritdoc IPool
function BRIDGE_PROTOCOL_FEE() public view virtual override returns (uint256) {
return _bridgeProtocolFee;
}
/// @inheritdoc IPool
function FLASHLOAN_PREMIUM_TOTAL() public view virtual override returns (uint128) {
return _flashLoanPremiumTotal;
}
/// @inheritdoc IPool
function FLASHLOAN_PREMIUM_TO_PROTOCOL() public view virtual override returns (uint128) {
return _flashLoanPremiumToProtocol;
}
/// @inheritdoc IPool
function MAX_NUMBER_RESERVES() public view virtual override returns (uint16) {
return ReserveConfiguration.MAX_RESERVES_COUNT;
}
/// @inheritdoc IPool
function finalizeTransfer(
address asset,
address from,
address to,
uint256 amount,
uint256 balanceFromBefore,
uint256 balanceToBefore
) external virtual override {
require(msg.sender == _reserves[asset].aTokenAddress, Errors.CALLER_NOT_ATOKEN);
SupplyLogic.executeFinalizeTransfer(
_reserves,
_reservesList,
_eModeCategories,
_usersConfig,
DataTypes.FinalizeTransferParams({
asset: asset,
from: from,
to: to,
amount: amount,
balanceFromBefore: balanceFromBefore,
balanceToBefore: balanceToBefore,
reservesCount: _reservesCount,
oracle: ADDRESSES_PROVIDER.getPriceOracle(),
fromEModeCategory: _usersEModeCategory[from]
})
);
}
/// @inheritdoc IPool
function initReserve(
address asset,
address aTokenAddress,
address stableDebtAddress,
address variableDebtAddress,
address interestRateStrategyAddress
) external virtual override onlyPoolConfigurator {
if (
PoolLogic.executeInitReserve(
_reserves,
_reservesList,
DataTypes.InitReserveParams({
asset: asset,
aTokenAddress: aTokenAddress,
stableDebtAddress: stableDebtAddress,
variableDebtAddress: variableDebtAddress,
interestRateStrategyAddress: interestRateStrategyAddress,
reservesCount: _reservesCount,
maxNumberReserves: MAX_NUMBER_RESERVES()
})
)
) {
_reservesCount++;
}
}
/// @inheritdoc IPool
function dropReserve(address asset) external virtual override onlyPoolConfigurator {
PoolLogic.executeDropReserve(_reserves, _reservesList, asset);
}
/// @inheritdoc IPool
function setReserveInterestRateStrategyAddress(address asset, address rateStrategyAddress)
external
virtual
override
onlyPoolConfigurator
{
require(asset != address(0), Errors.ZERO_ADDRESS_NOT_VALID);
require(_reserves[asset].id != 0 || _reservesList[0] == asset, Errors.ASSET_NOT_LISTED);
_reserves[asset].interestRateStrategyAddress = rateStrategyAddress;
}
/// @inheritdoc IPool
function setConfiguration(address asset, DataTypes.ReserveConfigurationMap calldata configuration)
external
virtual
override
onlyPoolConfigurator
{
require(asset != address(0), Errors.ZERO_ADDRESS_NOT_VALID);
require(_reserves[asset].id != 0 || _reservesList[0] == asset, Errors.ASSET_NOT_LISTED);
_reserves[asset].configuration = configuration;
}
/// @inheritdoc IPool
function updateBridgeProtocolFee(uint256 protocolFee)
external
virtual
override
onlyPoolConfigurator
{
_bridgeProtocolFee = protocolFee;
}
/// @inheritdoc IPool
function updateFlashloanPremiums(
uint128 flashLoanPremiumTotal,
uint128 flashLoanPremiumToProtocol
) external virtual override onlyPoolConfigurator {
_flashLoanPremiumTotal = flashLoanPremiumTotal;
_flashLoanPremiumToProtocol = flashLoanPremiumToProtocol;
}
/// @inheritdoc IPool
function configureEModeCategory(uint8 id, DataTypes.EModeCategory memory category)
external
virtual
override
onlyPoolConfigurator
{
// category 0 is reserved for volatile heterogeneous assets and it's always disabled
require(id != 0, Errors.EMODE_CATEGORY_RESERVED);
_eModeCategories[id] = category;
}
/// @inheritdoc IPool
function getEModeCategoryData(uint8 id)
external
view
virtual
override
returns (DataTypes.EModeCategory memory)
{
return _eModeCategories[id];
}
/// @inheritdoc IPool
function setUserEMode(uint8 categoryId) external virtual override {
EModeLogic.executeSetUserEMode(
_reserves,
_reservesList,
_eModeCategories,
_usersEModeCategory,
_usersConfig[msg.sender],
DataTypes.ExecuteSetUserEModeParams({
reservesCount: _reservesCount,
oracle: ADDRESSES_PROVIDER.getPriceOracle(),
categoryId: categoryId
})
);
}
/// @inheritdoc IPool
function getUserEMode(address user) external view virtual override returns (uint256) {
return _usersEModeCategory[user];
}
/// @inheritdoc IPool
function resetIsolationModeTotalDebt(address asset)
external
virtual
override
onlyPoolConfigurator
{
PoolLogic.executeResetIsolationModeTotalDebt(_reserves, asset);
}
/// @inheritdoc IPool
function rescueTokens(
address token,
address to,
uint256 amount
) external virtual override onlyPoolAdmin {
PoolLogic.executeRescueTokens(token, to, amount);
}
/// @inheritdoc IPool
/// @dev Deprecated: maintained for compatibility purposes
function deposit(
address asset,
uint256 amount,
address onBehalfOf,
uint16 referralCode
) external virtual override {
SupplyLogic.executeSupply(
_reserves,
_reservesList,
_usersConfig[onBehalfOf],
DataTypes.ExecuteSupplyParams({
asset: asset,
amount: amount,
onBehalfOf: onBehalfOf,
referralCode: referralCode
})
);
}
}// SPDX-License-Identifier: BUSL-1.1
pragma solidity 0.8.10;
import {UserConfiguration} from '../libraries/configuration/UserConfiguration.sol';
import {ReserveConfiguration} from '../libraries/configuration/ReserveConfiguration.sol';
import {ReserveLogic} from '../libraries/logic/ReserveLogic.sol';
import {DataTypes} from '../libraries/types/DataTypes.sol';
/**
* @title PoolStorage
* @author Aave
* @notice Contract used as storage of the Pool contract.
* @dev It defines the storage layout of the Pool contract.
*/
contract PoolStorage {
using ReserveLogic for DataTypes.ReserveData;
using ReserveConfiguration for DataTypes.ReserveConfigurationMap;
using UserConfiguration for DataTypes.UserConfigurationMap;
// Map of reserves and their data (underlyingAssetOfReserve => reserveData)
mapping(address => DataTypes.ReserveData) internal _reserves;
// Map of users address and their configuration data (userAddress => userConfiguration)
mapping(address => DataTypes.UserConfigurationMap) internal _usersConfig;
// List of reserves as a map (reserveId => reserve).
// It is structured as a mapping for gas savings reasons, using the reserve id as index
mapping(uint256 => address) internal _reservesList;
// List of eMode categories as a map (eModeCategoryId => eModeCategory).
// It is structured as a mapping for gas savings reasons, using the eModeCategoryId as index
mapping(uint8 => DataTypes.EModeCategory) internal _eModeCategories;
// Map of users address and their eMode category (userAddress => eModeCategoryId)
mapping(address => uint8) internal _usersEModeCategory;
// Fee of the protocol bridge, expressed in bps
uint256 internal _bridgeProtocolFee;
// Total FlashLoan Premium, expressed in bps
uint128 internal _flashLoanPremiumTotal;
// FlashLoan premium paid to protocol treasury, expressed in bps
uint128 internal _flashLoanPremiumToProtocol;
// Available liquidity that can be borrowed at once at stable rate, expressed in bps
uint64 internal _maxStableRateBorrowSizePercent;
// Maximum number of active reserves there have been in the protocol. It is the upper bound of the reserves list
uint16 internal _reservesCount;
}{
"evmVersion": "berlin",
"libraries": {
"@aave/core-v3/contracts/protocol/pool/L2Pool.sol:L2Pool": {
"LiquidationLogic": "0xFb25c4ab3C06cbF49712F81AC497B8C57F5DC40E",
"SupplyLogic": "0xC603A9E957482298738EA65aA24e61b38859B48D",
"EModeLogic": "0xb96f63a4B50fc402C2A3e30a2d88fFBE471D91bE",
"FlashLoanLogic": "0x94Dabf4b7C8e49Edf2C799357E4ecD5e8C11Ce44",
"BorrowLogic": "0xCB26A702fEbF6d95F0790319d2073cd63209FF43",
"BridgeLogic": "0xcC05A1e14fB9CCEAA002482033b01B76D6328bc0",
"PoolLogic": "0x1c78508221B5f2533Df490929D59b7191A2c6E65",
"CalldataLogic": "0xf86C9e87D16A6556F81275D5157Eb46aAd4B6a25"
}
},
"metadata": {
"bytecodeHash": "ipfs",
"useLiteralContent": true
},
"optimizer": {
"enabled": true,
"runs": 100000
},
"remappings": [],
"outputSelection": {
"*": {
"*": [
"evm.bytecode",
"evm.deployedBytecode",
"devdoc",
"userdoc",
"metadata",
"abi"
]
}
}
}Contract Security Audit
- No Contract Security Audit Submitted- Submit Audit Here
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DataTypes.ReserveConfigurationMap","name":"configuration","type":"tuple"},{"internalType":"uint128","name":"liquidityIndex","type":"uint128"},{"internalType":"uint128","name":"currentLiquidityRate","type":"uint128"},{"internalType":"uint128","name":"variableBorrowIndex","type":"uint128"},{"internalType":"uint128","name":"currentVariableBorrowRate","type":"uint128"},{"internalType":"uint128","name":"currentStableBorrowRate","type":"uint128"},{"internalType":"uint40","name":"lastUpdateTimestamp","type":"uint40"},{"internalType":"uint16","name":"id","type":"uint16"},{"internalType":"address","name":"aTokenAddress","type":"address"},{"internalType":"address","name":"stableDebtTokenAddress","type":"address"},{"internalType":"address","name":"variableDebtTokenAddress","type":"address"},{"internalType":"address","name":"interestRateStrategyAddress","type":"address"},{"internalType":"uint128","name":"accruedToTreasury","type":"uint128"},{"internalType":"uint128","name":"unbacked","type":"uint128"},{"internalType":"uint128","name":"isolationModeTotalDebt","type":"uint128"}],"internalType":"struct DataTypes.ReserveData","name":"","type":"tuple"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"}],"name":"getReserveNormalizedIncome","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"}],"name":"getReserveNormalizedVariableDebt","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"view","type":"function"},{"inputs":[],"name":"getReservesList","outputs":[{"internalType":"address[]","name":"","type":"address[]"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address","name":"user","type":"address"}],"name":"getUserAccountData","outputs":[{"internalType":"uint256","name":"totalCollateralBase","type":"uint256"},{"internalType":"uint256","name":"totalDebtBase","type":"uint256"},{"internalType":"uint256","name":"availableBorrowsBase","type":"uint256"},{"internalType":"uint256","name":"currentLiquidationThreshold","type":"uint256"},{"internalType":"uint256","name":"ltv","type":"uint256"},{"internalType":"uint256","name":"healthFactor","type":"uint256"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address","name":"user","type":"address"}],"name":"getUserConfiguration","outputs":[{"components":[{"internalType":"uint256","name":"data","type":"uint256"}],"internalType":"struct DataTypes.UserConfigurationMap","name":"","type":"tuple"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address","name":"user","type":"address"}],"name":"getUserEMode","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"address","name":"aTokenAddress","type":"address"},{"internalType":"address","name":"stableDebtAddress","type":"address"},{"internalType":"address","name":"variableDebtAddress","type":"address"},{"internalType":"address","name":"interestRateStrategyAddress","type":"address"}],"name":"initReserve","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"contract IPoolAddressesProvider","name":"provider","type":"address"}],"name":"initialize","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"collateralAsset","type":"address"},{"internalType":"address","name":"debtAsset","type":"address"},{"internalType":"address","name":"user","type":"address"},{"internalType":"uint256","name":"debtToCover","type":"uint256"},{"internalType":"bool","name":"receiveAToken","type":"bool"}],"name":"liquidationCall","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args1","type":"bytes32"},{"internalType":"bytes32","name":"args2","type":"bytes32"}],"name":"liquidationCall","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address[]","name":"assets","type":"address[]"}],"name":"mintToTreasury","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"address","name":"onBehalfOf","type":"address"},{"internalType":"uint16","name":"referralCode","type":"uint16"}],"name":"mintUnbacked","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"rebalanceStableBorrowRate","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"address","name":"user","type":"address"}],"name":"rebalanceStableBorrowRate","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"repay","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"uint256","name":"interestRateMode","type":"uint256"},{"internalType":"address","name":"onBehalfOf","type":"address"}],"name":"repay","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"uint256","name":"interestRateMode","type":"uint256"}],"name":"repayWithATokens","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"repayWithATokens","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"},{"internalType":"bytes32","name":"r","type":"bytes32"},{"internalType":"bytes32","name":"s","type":"bytes32"}],"name":"repayWithPermit","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"uint256","name":"interestRateMode","type":"uint256"},{"internalType":"address","name":"onBehalfOf","type":"address"},{"internalType":"uint256","name":"deadline","type":"uint256"},{"internalType":"uint8","name":"permitV","type":"uint8"},{"internalType":"bytes32","name":"permitR","type":"bytes32"},{"internalType":"bytes32","name":"permitS","type":"bytes32"}],"name":"repayWithPermit","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"token","type":"address"},{"internalType":"address","name":"to","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"}],"name":"rescueTokens","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"}],"name":"resetIsolationModeTotalDebt","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"components":[{"internalType":"uint256","name":"data","type":"uint256"}],"internalType":"struct DataTypes.ReserveConfigurationMap","name":"configuration","type":"tuple"}],"name":"setConfiguration","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"address","name":"rateStrategyAddress","type":"address"}],"name":"setReserveInterestRateStrategyAddress","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"uint8","name":"categoryId","type":"uint8"}],"name":"setUserEMode","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"setUserUseReserveAsCollateral","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"bool","name":"useAsCollateral","type":"bool"}],"name":"setUserUseReserveAsCollateral","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"address","name":"onBehalfOf","type":"address"},{"internalType":"uint16","name":"referralCode","type":"uint16"}],"name":"supply","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"supply","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"address","name":"onBehalfOf","type":"address"},{"internalType":"uint16","name":"referralCode","type":"uint16"},{"internalType":"uint256","name":"deadline","type":"uint256"},{"internalType":"uint8","name":"permitV","type":"uint8"},{"internalType":"bytes32","name":"permitR","type":"bytes32"},{"internalType":"bytes32","name":"permitS","type":"bytes32"}],"name":"supplyWithPermit","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"},{"internalType":"bytes32","name":"r","type":"bytes32"},{"internalType":"bytes32","name":"s","type":"bytes32"}],"name":"supplyWithPermit","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"swapBorrowRateMode","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"interestRateMode","type":"uint256"}],"name":"swapBorrowRateMode","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"uint256","name":"protocolFee","type":"uint256"}],"name":"updateBridgeProtocolFee","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"uint128","name":"flashLoanPremiumTotal","type":"uint128"},{"internalType":"uint128","name":"flashLoanPremiumToProtocol","type":"uint128"}],"name":"updateFlashloanPremiums","outputs":[],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"address","name":"asset","type":"address"},{"internalType":"uint256","name":"amount","type":"uint256"},{"internalType":"address","name":"to","type":"address"}],"name":"withdraw","outputs":[{"internalType":"uint256","name":"","type":"uint256"}],"stateMutability":"nonpayable","type":"function"},{"inputs":[{"internalType":"bytes32","name":"args","type":"bytes32"}],"name":"withdraw","outputs":[],"stateMutability":"nonpayable","type":"function"}]Contract Creation Code
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Constructor Arguments (ABI-Encoded and is the last bytes of the Contract Creation Code above)
000000000000000000000000a97684ead0e402dc232d5a977953df7ecbab3cdb
-----Decoded View---------------
Arg [0] : provider (address): 0xa97684ead0e402dC232d5A977953DF7ECBaB3CDb
-----Encoded View---------------
1 Constructor Arguments found :
Arg [0] : 000000000000000000000000a97684ead0e402dc232d5a977953df7ecbab3cdb
Library Used
@aave/core-v3/contracts/protocol/libraries/logic/LiquidationLogic.sol : 0xLiquidationLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/SupplyLogic.sol : 0xSupplyLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/EModeLogic.sol : 0xEModeLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/FlashLoanLogic.sol : 0xFlashLoanLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/BorrowLogic.sol : 0xBorrowLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/BridgeLogic.sol : 0xBridgeLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/PoolLogic.sol : 0xPoolLogicUnverified@aave/core-v3/contracts/protocol/libraries/logic/CalldataLogic.sol : 0xCalldataLogicUnverified
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A contract address hosts a smart contract, which is a set of code stored on the blockchain that runs when predetermined conditions are met. Learn more about addresses in our Knowledge Base.