dsa-governance/contracts/payloads/IGP30/PayloadIGP30.sol

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2024-06-30 20:17:33 +00:00
pragma solidity ^0.7.0;
pragma experimental ABIEncoderV2;
import {BigMathMinified} from "./libraries/bigMathMinified.sol";
import {LiquiditySlotsLink} from "./libraries/liquiditySlotsLink.sol";
import {LiquidityCalcs} from "./libraries/liquidityCalcs.sol";
interface IGovernorBravo {
function _acceptAdmin() external;
function _setVotingDelay(uint newVotingDelay) external;
function _setVotingPeriod(uint newVotingPeriod) external;
function _acceptAdminOnTimelock() external;
function _setImplementation(address implementation_) external;
function propose(
address[] memory targets,
uint[] memory values,
string[] memory signatures,
bytes[] memory calldatas,
string memory description
) external returns (uint);
function admin() external view returns (address);
function pendingAdmin() external view returns (address);
function timelock() external view returns (address);
function votingDelay() external view returns (uint256);
function votingPeriod() external view returns (uint256);
}
interface ITimelock {
function acceptAdmin() external;
function setDelay(uint delay_) external;
function setPendingAdmin(address pendingAdmin_) external;
function queueTransaction(
address target,
uint value,
string memory signature,
bytes memory data,
uint eta
) external returns (bytes32);
function executeTransaction(
address target,
uint value,
string memory signature,
bytes memory data,
uint eta
) external payable returns (bytes memory);
function pendingAdmin() external view returns (address);
function admin() external view returns (address);
function delay() external view returns (uint256);
}
interface AdminModuleStructs {
struct AddressBool {
address addr;
bool value;
}
struct AddressUint256 {
address addr;
uint256 value;
}
struct RateDataV1Params {
address token;
uint256 kink;
uint256 rateAtUtilizationZero;
uint256 rateAtUtilizationKink;
uint256 rateAtUtilizationMax;
}
struct RateDataV2Params {
address token;
uint256 kink1;
uint256 kink2;
uint256 rateAtUtilizationZero;
uint256 rateAtUtilizationKink1;
uint256 rateAtUtilizationKink2;
uint256 rateAtUtilizationMax;
}
struct TokenConfig {
address token;
uint256 fee;
uint256 threshold;
uint256 maxUtilization;
}
struct UserSupplyConfig {
address user;
address token;
uint8 mode;
uint256 expandPercent;
uint256 expandDuration;
uint256 baseWithdrawalLimit;
}
struct UserBorrowConfig {
address user;
address token;
uint8 mode;
uint256 expandPercent;
uint256 expandDuration;
uint256 baseDebtCeiling;
uint256 maxDebtCeiling;
}
}
interface IProxy {
function setAdmin(address newAdmin_) external;
function setDummyImplementation(address newDummyImplementation_) external;
function addImplementation(
address implementation_,
bytes4[] calldata sigs_
) external;
function removeImplementation(address implementation_) external;
function getAdmin() external view returns (address);
function getDummyImplementation() external view returns (address);
function getImplementationSigs(
address impl_
) external view returns (bytes4[] memory);
function getSigsImplementation(bytes4 sig_) external view returns (address);
function readFromStorage(
bytes32 slot_
) external view returns (uint256 result_);
}
interface IFluidLiquidityAdmin {
/// @notice adds/removes auths. Auths generally could be contracts which can have restricted actions defined on contract.
/// auths can be helpful in reducing governance overhead where it's not needed.
/// @param authsStatus_ array of structs setting allowed status for an address.
/// status true => add auth, false => remove auth
function updateAuths(
AdminModuleStructs.AddressBool[] calldata authsStatus_
) external;
/// @notice adds/removes guardians. Only callable by Governance.
/// @param guardiansStatus_ array of structs setting allowed status for an address.
/// status true => add guardian, false => remove guardian
function updateGuardians(
AdminModuleStructs.AddressBool[] calldata guardiansStatus_
) external;
/// @notice changes the revenue collector address (contract that is sent revenue). Only callable by Governance.
/// @param revenueCollector_ new revenue collector address
function updateRevenueCollector(address revenueCollector_) external;
/// @notice changes current status, e.g. for pausing or unpausing all user operations. Only callable by Auths.
/// @param newStatus_ new status
/// status = 2 -> pause, status = 1 -> resume.
function changeStatus(uint256 newStatus_) external;
/// @notice update tokens rate data version 1. Only callable by Auths.
/// @param tokensRateData_ array of RateDataV1Params with rate data to set for each token
function updateRateDataV1s(
AdminModuleStructs.RateDataV1Params[] calldata tokensRateData_
) external;
/// @notice update tokens rate data version 2. Only callable by Auths.
/// @param tokensRateData_ array of RateDataV2Params with rate data to set for each token
function updateRateDataV2s(
AdminModuleStructs.RateDataV2Params[] calldata tokensRateData_
) external;
/// @notice updates token configs: fee charge on borrowers interest & storage update utilization threshold.
/// Only callable by Auths.
/// @param tokenConfigs_ contains token address, fee & utilization threshold
function updateTokenConfigs(
AdminModuleStructs.TokenConfig[] calldata tokenConfigs_
) external;
/// @notice updates user classes: 0 is for new protocols, 1 is for established protocols.
/// Only callable by Auths.
/// @param userClasses_ struct array of uint256 value to assign for each user address
function updateUserClasses(
AdminModuleStructs.AddressUint256[] calldata userClasses_
) external;
/// @notice sets user supply configs per token basis. Eg: with interest or interest-free and automated limits.
/// Only callable by Auths.
/// @param userSupplyConfigs_ struct array containing user supply config, see `UserSupplyConfig` struct for more info
function updateUserSupplyConfigs(
AdminModuleStructs.UserSupplyConfig[] memory userSupplyConfigs_
) external;
/// @notice setting user borrow configs per token basis. Eg: with interest or interest-free and automated limits.
/// Only callable by Auths.
/// @param userBorrowConfigs_ struct array containing user borrow config, see `UserBorrowConfig` struct for more info
function updateUserBorrowConfigs(
AdminModuleStructs.UserBorrowConfig[] memory userBorrowConfigs_
) external;
/// @notice pause operations for a particular user in class 0 (class 1 users can't be paused by guardians).
/// Only callable by Guardians.
/// @param user_ address of user to pause operations for
/// @param supplyTokens_ token addresses to pause withdrawals for
/// @param borrowTokens_ token addresses to pause borrowings for
function pauseUser(
address user_,
address[] calldata supplyTokens_,
address[] calldata borrowTokens_
) external;
/// @notice unpause operations for a particular user in class 0 (class 1 users can't be paused by guardians).
/// Only callable by Guardians.
/// @param user_ address of user to unpause operations for
/// @param supplyTokens_ token addresses to unpause withdrawals for
/// @param borrowTokens_ token addresses to unpause borrowings for
function unpauseUser(
address user_,
address[] calldata supplyTokens_,
address[] calldata borrowTokens_
) external;
/// @notice collects revenue for tokens to configured revenueCollector address.
/// @param tokens_ array of tokens to collect revenue for
/// @dev Note that this can revert if token balance is < revenueAmount (utilization > 100%)
function collectRevenue(address[] calldata tokens_) external;
/// @notice gets the current updated exchange prices for n tokens and updates all prices, rates related data in storage.
/// @param tokens_ tokens to update exchange prices for
/// @return supplyExchangePrices_ new supply rates of overall system for each token
/// @return borrowExchangePrices_ new borrow rates of overall system for each token
function updateExchangePrices(
address[] calldata tokens_
)
external
returns (
uint256[] memory supplyExchangePrices_,
uint256[] memory borrowExchangePrices_
);
}
interface IFluidVaultT1 {
/// @notice updates the Vault oracle to `newOracle_`. Must implement the FluidOracle interface.
function updateOracle(address newOracle_) external;
/// @notice updates the all Vault core settings according to input params.
/// All input values are expected in 1e2 (1% = 100, 100% = 10_000).
function updateCoreSettings(
uint256 supplyRateMagnifier_,
uint256 borrowRateMagnifier_,
uint256 collateralFactor_,
uint256 liquidationThreshold_,
uint256 liquidationMaxLimit_,
uint256 withdrawGap_,
uint256 liquidationPenalty_,
uint256 borrowFee_
) external;
/// @notice updates the allowed rebalancer to `newRebalancer_`.
function updateRebalancer(address newRebalancer_) external;
/// @notice updates the supply rate magnifier to `supplyRateMagnifier_`. Input in 1e2 (1% = 100, 100% = 10_000).
function updateSupplyRateMagnifier(uint supplyRateMagnifier_) external;
/// @notice updates the collateral factor to `collateralFactor_`. Input in 1e2 (1% = 100, 100% = 10_000).
function updateCollateralFactor(uint collateralFactor_) external;
}
interface IFluidVaultT1Factory {
function deployVault(
address vaultDeploymentLogic_,
bytes calldata vaultDeploymentData_
) external returns (address vault_);
function setVaultAuth(
address vault_,
address vaultAuth_,
bool allowed_
) external;
}
interface IFluidVaultT1DeploymentLogic {
function vaultT1(address supplyToken_, address borrowToken_) external;
}
contract PayloadIGP30 {
uint256 public constant PROPOSAL_ID = 30;
address public constant PROPOSER =
0xA45f7bD6A5Ff45D31aaCE6bCD3d426D9328cea01;
address public constant PROPOSER_AVO_MULTISIG =
0x059A94A72951c0ae1cc1CE3BF0dB52421bbE8210;
address public constant PROPOSER_AVO_MULTISIG_2 =
0x9efdE135CA4832AbF0408c44c6f5f370eB0f35e8;
IGovernorBravo public constant GOVERNOR =
IGovernorBravo(0x0204Cd037B2ec03605CFdFe482D8e257C765fA1B);
ITimelock public immutable TIMELOCK =
ITimelock(0x2386DC45AdDed673317eF068992F19421B481F4c);
address public immutable ADDRESS_THIS;
address public constant TEAM_MULTISIG =
0x4F6F977aCDD1177DCD81aB83074855EcB9C2D49e;
IFluidLiquidityAdmin public constant LIQUIDITY =
IFluidLiquidityAdmin(0x52Aa899454998Be5b000Ad077a46Bbe360F4e497);
IFluidVaultT1Factory public constant VAULT_T1_FACTORY =
IFluidVaultT1Factory(0x324c5Dc1fC42c7a4D43d92df1eBA58a54d13Bf2d);
IFluidVaultT1DeploymentLogic public constant VAULT_T1_DEPLOYMENT_LOGIC =
IFluidVaultT1DeploymentLogic(
0x2Cc710218F2e3a82CcC77Cc4B3B93Ee6Ba9451CD
);
address public constant ETH_ADDRESS =
0xEeeeeEeeeEeEeeEeEeEeeEEEeeeeEeeeeeeeEEeE;
address public constant wstETH_ADDRESS =
0x7f39C581F595B53c5cb19bD0b3f8dA6c935E2Ca0;
address public constant weETH_ADDRESS =
0xCd5fE23C85820F7B72D0926FC9b05b43E359b7ee;
address public constant wBTC_ADDRESS =
0x2260FAC5E5542a773Aa44fBCfeDf7C193bc2C599;
address public constant USDC_ADDRESS =
0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48;
address public constant USDT_ADDRESS =
0xdAC17F958D2ee523a2206206994597C13D831ec7;
uint256 internal constant X8 = 0xff;
uint256 internal constant X10 = 0x3ff;
uint256 internal constant X14 = 0x3fff;
uint256 internal constant X15 = 0x7fff;
uint256 internal constant X16 = 0xffff;
uint256 internal constant X18 = 0x3ffff;
uint256 internal constant X24 = 0xffffff;
uint256 internal constant X64 = 0xffffffffffffffff;
uint256 internal constant DEFAULT_EXPONENT_SIZE = 8;
uint256 internal constant DEFAULT_EXPONENT_MASK = 0xff;
constructor() {
ADDRESS_THIS = address(this);
}
function propose(string memory description) external {
require(
msg.sender == PROPOSER ||
msg.sender == TEAM_MULTISIG ||
address(this) == PROPOSER_AVO_MULTISIG ||
address(this) == PROPOSER_AVO_MULTISIG_2,
"msg.sender-not-allowed"
);
uint256 totalActions = 1;
address[] memory targets = new address[](totalActions);
uint256[] memory values = new uint256[](totalActions);
string[] memory signatures = new string[](totalActions);
bytes[] memory calldatas = new bytes[](totalActions);
// Action 1: call executePayload on timelock contract to execute payload related to Fluid
targets[0] = address(TIMELOCK);
values[0] = 0;
signatures[0] = "executePayload(address,string,bytes)";
calldatas[0] = abi.encode(ADDRESS_THIS, "execute()", abi.encode());
uint256 proposedId = GOVERNOR.propose(
targets,
values,
signatures,
calldatas,
description
);
require(proposedId == PROPOSAL_ID, "PROPOSAL_IS_NOT_SAME");
}
function execute() external {
require(address(this) == address(TIMELOCK), "not-valid-caller");
/// Action 1: Set wBTC token config and market rate curve on liquidity.
action1();
/// Action 2: Deploy wBTC/USDC and wBTC/USDT vaults.
action2();
/// Action 3: Deploy wBTC/ETH and ETH/wBTC vaults.
action3();
/// Action 4: Deploy wstETH/wBTC and weETH/wBTC vaults.
action4();
/// Action 5: Clone from old vault config to new vault
action5();
}
function verifyProposal() external view {}
/***********************************|
| Proposal Payload Actions |
|__________________________________*/
/// @notice Action 1: Set wBTC token config and market rate curve on liquidity.
function action1() internal {
{
AdminModuleStructs.RateDataV1Params[]
memory params_ = new AdminModuleStructs.RateDataV1Params[](1);
params_[0] = AdminModuleStructs.RateDataV1Params({
token: wBTC_ADDRESS, // wBTC
kink: 80 * 1e2, // 80%
rateAtUtilizationZero: 0, // 0%
rateAtUtilizationKink: 5 * 1e2, // 5%
rateAtUtilizationMax: 100 * 1e2 // 100%
});
LIQUIDITY.updateRateDataV1s(params_);
}
{
AdminModuleStructs.TokenConfig[]
memory params_ = new AdminModuleStructs.TokenConfig[](1);
params_[0] = AdminModuleStructs.TokenConfig({
token: wBTC_ADDRESS, // wBTC
threshold: 0.3 * 1e2, // 0.3
fee: 10 * 1e2, // 10%
maxUtilization: 100
});
LIQUIDITY.updateTokenConfigs(params_);
}
}
/// @notice Action 2: Deploy wBTC/USDC and wBTC/USDT vaults.
function action2() internal {
VaultConfig memory vaultConfig = VaultConfig({
// user supply config for the vault on Liquidity Layer.
supplyToken: wBTC_ADDRESS,
supplyMode: 1, // Mode 1
supplyExpandPercent: 25 * 1e2, // 25%
supplyExpandDuration: 12 hours, // 12 hours
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supplyBaseLimitInUSD: 5_000_000, // $5M
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borrowToken: address(0),
borrowMode: 1, // Mode 1
borrowExpandPercent: 20 * 1e2, // 20%
borrowExpandDuration: 12 hours, // 12 hours
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borrowBaseLimitInUSD: 7_500_000, // $7.5M
borrowMaxLimitInUSD: 20_000_000, // $20M
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supplyRateMagnifier: 100 * 1e2, // 1x
borrowRateMagnifier: 100 * 1e2, // 1x
collateralFactor: 80 * 1e2, // 80%
liquidationThreshold: 85 * 1e2, // 85%
liquidationMaxLimit: 90 * 1e2, // 90%
withdrawGap: 5 * 1e2, // 5%
liquidationPenalty: 4 * 1e2, // 4%
borrowFee: 0 * 1e2, // 0%
oracle: address(0)
});
{
vaultConfig.borrowToken = USDC_ADDRESS;
// Deploy wBTC/USDC vault.
deployVault(vaultConfig);
}
{
vaultConfig.borrowToken = USDT_ADDRESS;
// Deploy wBTC/USDT vault.
deployVault(vaultConfig);
}
}
/// @notice Action 3: Deploy wBTC/ETH and ETH/wBTC vaults.
function action3() internal {
VaultConfig memory vaultConfig = VaultConfig({
// user supply config for the vault on Liquidity Layer.
supplyToken: address(0),
supplyMode: 1, // Mode 1
supplyExpandPercent: 25 * 1e2, // 25%
supplyExpandDuration: 12 hours, // 12 hours
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supplyBaseLimitInUSD: 5_000_000, // $5M
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borrowToken: address(0),
borrowMode: 1, // Mode 1
borrowExpandPercent: 20 * 1e2, // 20%
borrowExpandDuration: 12 hours, // 12 hours
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borrowBaseLimitInUSD: 7_500_000, // $7.5M
borrowMaxLimitInUSD: 200_000_000, // $200M
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supplyRateMagnifier: 100 * 1e2, // 1x
borrowRateMagnifier: 100 * 1e2, // 1x
collateralFactor: 90 * 1e2, // 90%
liquidationThreshold: 94 * 1e2, // 94%
liquidationMaxLimit: 96 * 1e2, // 96%
withdrawGap: 5 * 1e2, // 5%
liquidationPenalty: 2 * 1e2, // 2%
borrowFee: 0 * 1e2, // 0%
oracle: address(0)
});
{
vaultConfig.supplyToken = wBTC_ADDRESS;
vaultConfig.borrowToken = ETH_ADDRESS;
vaultConfig.oracle = address(0);
// Deploy wBTC/ETH vault.
deployVault(vaultConfig);
}
{
vaultConfig.supplyToken = ETH_ADDRESS;
vaultConfig.borrowToken = wBTC_ADDRESS;
vaultConfig.oracle = address(0);
// Deploy ETH/wBTC vault.
deployVault(vaultConfig);
}
}
/// @notice Action 4: Deploy wstETH/wBTC and weETH/wBTC vaults.
function action4() internal {
// wstETH/wBTC
{
VaultConfig memory vaultConfig = VaultConfig({
// user supply config for the vault on Liquidity Layer.
supplyToken: wstETH_ADDRESS,
supplyMode: 1, // Mode 1
supplyExpandPercent: 25 * 1e2, // 25%
supplyExpandDuration: 12 hours, // 12 hours
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supplyBaseLimitInUSD: 5_000_000, // $5M
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borrowToken: wBTC_ADDRESS,
borrowMode: 1, // Mode 1
borrowExpandPercent: 20 * 1e2, // 20%
borrowExpandDuration: 12 hours, // 12 hours
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borrowBaseLimitInUSD: 7_500_000, // $7.5M
borrowMaxLimitInUSD: 200_000_000, // $200M
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supplyRateMagnifier: 100 * 1e2, // 1x
borrowRateMagnifier: 100 * 1e2, // 1x
collateralFactor: 88 * 1e2, // 88%
liquidationThreshold: 91 * 1e2, // 91%
liquidationMaxLimit: 94 * 1e2, // 94%
withdrawGap: 5 * 1e2, // 5%
liquidationPenalty: 2 * 1e2, // 2%
borrowFee: 0 * 1e2, // 0%
oracle: address(0)
});
// Deploy wstETH/wBTC
deployVault(vaultConfig);
}
// weETH/wBTC
{
VaultConfig memory vaultConfig = VaultConfig({
// user supply config for the vault on Liquidity Layer.
supplyToken: weETH_ADDRESS,
supplyMode: 1, // Mode 1
supplyExpandPercent: 25 * 1e2, // 25%
supplyExpandDuration: 12 hours, // 12 hours
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supplyBaseLimitInUSD: 5_000_000, // $5M
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borrowToken: wBTC_ADDRESS,
borrowMode: 1, // Mode 1
borrowExpandPercent: 20 * 1e2, // 20%
borrowExpandDuration: 12 hours, // 12 hours
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borrowBaseLimitInUSD: 7_500_000, // $7.5M
borrowMaxLimitInUSD: 20_000_000, // $20M
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supplyRateMagnifier: 100 * 1e2, // 1x
borrowRateMagnifier: 100 * 1e2, // 1x
collateralFactor: 80 * 1e2, // 80%
liquidationThreshold: 85 * 1e2, // 85%
liquidationMaxLimit: 90 * 1e2, // 90%
withdrawGap: 5 * 1e2, // 5%
liquidationPenalty: 5 * 1e2, // 5%
borrowFee: 0 * 1e2, // 0%
oracle: address(0)
});
// Deploy weETH/wBTC
deployVault(vaultConfig);
}
}
/// @notice Action 5: Clone from old vault config to new vault
function action5() internal {
for (uint oldVaultId = 1; oldVaultId <= 10; oldVaultId++) {
cloneVault(oldVaultId);
}
}
/***********************************|
| Proposal Payload Helpers |
|__________________________________*/
struct VaultConfig {
address supplyToken;
uint8 supplyMode;
uint256 supplyExpandPercent;
uint256 supplyExpandDuration;
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uint256 supplyBaseLimitInUSD;
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address borrowToken;
uint8 borrowMode;
uint256 borrowExpandPercent;
uint256 borrowExpandDuration;
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uint256 borrowBaseLimitInUSD;
uint256 borrowMaxLimitInUSD;
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uint256 supplyRateMagnifier;
uint256 borrowRateMagnifier;
uint256 collateralFactor;
uint256 liquidationThreshold;
uint256 liquidationMaxLimit;
uint256 withdrawGap;
uint256 liquidationPenalty;
uint256 borrowFee;
address oracle;
}
function deployVault(VaultConfig memory vaultConfig) internal {
// Deploy vault.
address vault_ = VAULT_T1_FACTORY.deployVault(
address(VAULT_T1_DEPLOYMENT_LOGIC),
abi.encodeWithSelector(
IFluidVaultT1DeploymentLogic.vaultT1.selector,
vaultConfig.supplyToken,
vaultConfig.borrowToken
)
);
// Set user supply config for the vault on Liquidity Layer.
{
AdminModuleStructs.UserSupplyConfig[]
memory configs_ = new AdminModuleStructs.UserSupplyConfig[](1);
configs_[0] = AdminModuleStructs.UserSupplyConfig({
user: address(vault_),
token: vaultConfig.supplyToken,
mode: vaultConfig.supplyMode,
expandPercent: vaultConfig.supplyExpandPercent,
expandDuration: vaultConfig.supplyExpandDuration,
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baseWithdrawalLimit: getRawAmount(
vaultConfig.supplyToken,
vaultConfig.supplyBaseLimitInUSD,
true
)
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});
LIQUIDITY.updateUserSupplyConfigs(configs_);
}
// Set user borrow config for the vault on Liquidity Layer.
{
AdminModuleStructs.UserBorrowConfig[]
memory configs_ = new AdminModuleStructs.UserBorrowConfig[](1);
configs_[0] = AdminModuleStructs.UserBorrowConfig({
user: address(vault_),
token: vaultConfig.borrowToken,
mode: vaultConfig.borrowMode,
expandPercent: vaultConfig.supplyExpandPercent,
expandDuration: vaultConfig.borrowExpandDuration,
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baseDebtCeiling:getRawAmount(
vaultConfig.borrow,
vaultConfig.borrowBaseLimitInUSD,
false
)
maxDebtCeiling: getRawAmount(
vaultConfig.borrow,
vaultConfig.borrowMaxLimitInUSD,
false
)
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});
LIQUIDITY.updateUserBorrowConfigs(configs_);
}
// Update core settings on vault.
{
IFluidVaultT1(vault_).updateCoreSettings(
vaultConfig.supplyRateMagnifier,
vaultConfig.borrowRateMagnifier,
vaultConfig.collateralFactor,
vaultConfig.liquidationThreshold,
vaultConfig.liquidationMaxLimit,
vaultConfig.withdrawGap,
vaultConfig.liquidationPenalty,
vaultConfig.borrowFee
);
}
// Update oracle on vault.
{
IFluidVaultT1(vault_).updateOracle(vaultConfig.oracle);
}
// Update rebalancer on vault.
{
IFluidVaultT1(vault_).updateRebalancer(
0x264786EF916af64a1DB19F513F24a3681734ce92
);
}
}
function getUserSupplyData(
address token_,
address oldVault_,
address newVault_
)
internal
view
returns (AdminModuleStructs.UserSupplyConfig memory config_)
{
uint256 userSupplyData_ = LIQUIDITY.readFromStorage(
LiquiditySlotsLink.calculateDoubleMappingStorageSlot(
LiquiditySlotsLink.LIQUIDITY_USER_SUPPLY_DOUBLE_MAPPING_SLOT,
oldVault_,
token_
)
);
config_ = AdminModuleStructs.UserSupplyConfig({
user: newVault_,
token: token_,
mode: uint8(userSupplyData_ & 1),
expandPercent: (userSupplyData_ >>
LiquiditySlotsLink.BITS_USER_SUPPLY_EXPAND_PERCENT) & X14,
expandDuration: (userSupplyData_ >>
LiquiditySlotsLink.BITS_USER_SUPPLY_EXPAND_DURATION) & X24,
baseWithdrawalLimit:
BigMathMinified.fromBigNumber(
(userSupplyData_ >> LiquiditySlotsLink.BITS_USER_SUPPLY_BASE_WITHDRAWAL_LIMIT) & X18,
DEFAULT_EXPONENT_SIZE,
DEFAULT_EXPONENT_MASK
)
});
}
function getUserBorrowData(
address token_,
address oldVault_,
address newVault_,
uint256 baseLimit,
uint256 maxLimit
)
internal
view
returns (AdminModuleStructs.UserBorrowConfig memory config_)
{
uint256 userBorrowData_ = LIQUIDITY.readFromStorage(
LiquiditySlotsLink.calculateDoubleMappingStorageSlot(
LiquiditySlotsLink.LIQUIDITY_USER_BORROW_DOUBLE_MAPPING_SLOT,
oldVault_,
token_
)
);
config_ = AdminModuleStructs.UserBorrowConfig({
user: newVault_,
token: token_,
mode: uint8(userBorrowData_ & 1),
expandPercent: (userBorrowData_ >>
LiquiditySlotsLink.BITS_USER_BORROW_EXPAND_PERCENT) & X14,
expandDuration: (userBorrowData_ >>
LiquiditySlotsLink.BITS_USER_BORROW_EXPAND_DURATION) & X24,
baseDebtCeiling:
BigMathMinified.fromBigNumber(
(userBorrowData_ >> LiquiditySlotsLink.BITS_USER_BORROW_BASE_BORROW_LIMIT) & X18,
DEFAULT_EXPONENT_SIZE,
DEFAULT_EXPONENT_MASK
),
maxDebtCeiling:
BigMathMinified.fromBigNumber(
(userBorrowData_ >> LiquiditySlotsLink.BITS_USER_BORROW_MAX_BORROW_LIMIT) & X18,
DEFAULT_EXPONENT_SIZE,
DEFAULT_EXPONENT_MASK
)
});
}
struct CloneVaultStruct {
address oldVaultAddress;
address newVaultAddress;
}
function configNewVaultWithOldVaultConfigs(uint256 oldVaultId) internal {
CloneVaultStruct memory data;
data.oldVaultAddress = VAULT_T1_FACTORY.getVaultAddress(oldVaultId);
data.newVaultAddress = VAULT_T1_FACTORY.getVaultAddress(
oldVaultId + 10
);
IFluidVaultT1.ConstantViews memory oldConstants = IFluidVaultT1(
data.oldVaultAddress
).constantsView();
IFluidVaultT1.ConstantViews memory newConstants = IFluidVaultT1(
data.newVaultAddress
).constantsView();
{
require(
oldConstants.supplyToken == newConstants.supplyToken,
"not-same-supply-token"
);
require(
oldConstants.borrowToken == newConstants.borrowToken,
"not-same-borrow-token"
);
}
// Set user supply config for the vault on Liquidity Layer.
{
AdminModuleStructs.UserSupplyConfig[]
memory configs_ = new AdminModuleStructs.UserSupplyConfig[](1);
configs_[0] = getUserSupplyData(
newConstants.supplyToken,
data.oldVaultAddress,
data.newVaultAddress,
data.supplyBaseAllowance
);
LIQUIDITY.updateUserSupplyConfigs(configs_);
}
// Set user borrow config for the vault on Liquidity Layer.
{
AdminModuleStructs.UserBorrowConfig[]
memory configs_ = new AdminModuleStructs.UserBorrowConfig[](1);
configs_[0] = getUserBorrowData(
newConstants.borrowToken,
data.oldVaultAddress,
data.newVaultAddress,
data.borrowBaseAllowance,
data.borrowMaxAllowance
);
LIQUIDITY.updateUserBorrowConfigs(configs_);
}
}
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function getRawAmount(address token, uint256 amountInUSD, bool isSupply) public returns(uint256){
uint256 exchangePricesAndConfig =
LIQUIDITY.readFromStorage(
LiquiditySlotsLink.calculateMappingStorageSlot(
LiquiditySlotsLink.LIQUIDITY_EXCHANGE_PRICES_MAPPING_SLOT,
token
)
);
(uint256 supplyExchangePrice, uint256 borrowExchangePrice) = LiquidityCalcs
.calcExchangePrices(exchangePriceAndConfig_);
uint256 usdPrice = 0;
uint256 decimals = 18;
if (token == wBTC_ADDRESS) {
usdPrice = 61_000;
decimals = 8;
} if (token == ETH_ADDRESS) {
usdPrice = 3_400;
decimals = 18;
} if (token == wstETH_ADDRESS) {
usdPrice = 4_000;
decimals = 18;
} if (token == weETH_ADDRESS) {
usdPrice = 3_550;
decimals = 18;
} if (token == USDC_ADDRESS || token == USDT_ADDRESS) {
usdPrice = 1;
decimals = 6;
} else {
revert;
}
uint256 exchangePrice = isSupply ? supplyExchangePrice : borrowExchangePrice;
return (amountInUSD * 1e12 * (10 ** decimals)) / (usdPrice * exchangePrice);
}
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}