FundingRateApplierTest
FundingRateApplierTest
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Functionsconstructor(bytes32 _fundingRateIdentifier, address _collateralAddress, address _finderAddress, address _configStoreAddress, struct FixedPoint.Unsigned _tokenScaling, address _timerAddress) (public)
calculateEffectiveFundingRate(uint256 paymentPeriodSeconds, struct FixedPoint.Signed fundingRatePerSecond, struct FixedPoint.Unsigned currentCumulativeFundingRateMultiplier) โ struct FixedPoint.Unsigned (public)
_pfc() โ struct FixedPoint.Unsigned currentPfc (internal)
emergencyShutdown() (external)
remargin() (external)
_getTokenAddress() โ address (internal)
applyFundingRate() (public)
This method takes 3 distinct actions:
- Pays out regular fees.
- If possible, resolves the outstanding funding rate proposal, pulling the result in and paying out the rewards.
- Applies the prevailing funding rate over the most recent period.
proposeFundingRate(struct FixedPoint.Signed rate, uint256 timestamp) โ struct FixedPoint.Unsigned totalBond (external)
Proposes a new funding rate. Proposer receives a reward if correct.
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Parameters:- rate: funding rate being proposed.
- timestamp: time at which the funding rate was computed.
_getFundingRateAppliedTokenDebt(struct FixedPoint.Unsigned rawTokenDebt) โ struct FixedPoint.Unsigned tokenDebt (internal)
_getOptimisticOracle() โ contract OptimisticOracleInterface (internal)
_getConfig() โ struct ConfigStoreInterface.ConfigSettings (internal)
_updateFundingRate() (internal)
_validateFundingRate(struct FixedPoint.Signed rate) (internal)
_applyEffectiveFundingRate() (internal)
_calculateEffectiveFundingRate(uint256 paymentPeriodSeconds, struct FixedPoint.Signed fundingRatePerSecond, struct FixedPoint.Unsigned currentCumulativeFundingRateMultiplier) โ struct FixedPoint.Unsigned newCumulativeFundingRateMultiplier (internal)
_getAncillaryData() โ bytes (internal)
We do not need to check that the ancillary data length is less than the hardcoded max length in the OptimisticOracle because the length of the ancillary data is fixed in this function.
payRegularFees() โ struct FixedPoint.Unsigned (public)
Pays UMA DVM regular fees (as a % of the collateral pool) to the Store contract.
These must be paid periodically for the life of the contract. If the contract has not paid its regular fee in a week or more then a late penalty is applied which is sent to the caller. If the amount of fees owed are greater than the pfc, then this will pay as much as possible from the available collateral. An event is only fired if the fees charged are greater than 0.
getOutstandingRegularFees(uint256 time) โ struct FixedPoint.Unsigned regularFee, struct FixedPoint.Unsigned latePenalty, struct FixedPoint.Unsigned totalPaid (public)
Fetch any regular fees that the contract has pending but has not yet paid. If the fees to be paid are more than the total collateral within the contract then the totalPaid returned is full contract collateral amount.
This returns 0 and exit early if there is no pfc, fees were already paid during the current block, or the fee rate is 0.
pfc() โ struct FixedPoint.Unsigned (external)
Gets the current profit from corruption for this contract in terms of the collateral currency.
This is equivalent to the collateral pool available from which to pay fees. Therefore, derived contracts are expected to implement this so that pay-fee methods can correctly compute the owed fees as a % of PfC.
gulp() (external)
Removes excess collateral balance not counted in the PfC by distributing it out pro-rata to all sponsors.
Multiplying the cumulativeFeeMultiplier
by the ratio of non-PfC-collateral :: PfC-collateral effectively
pays all sponsors a pro-rata portion of the excess collateral.
This will revert if PfC is 0 and this contract's collateral balance > 0.
_payFinalFees(address payer, struct FixedPoint.Unsigned amount) (internal)
_gulp() (internal)
_getStore() โ contract StoreInterface (internal)
_computeFinalFees() โ struct FixedPoint.Unsigned finalFees (internal)
_getFeeAdjustedCollateral(struct FixedPoint.Unsigned rawCollateral) โ struct FixedPoint.Unsigned collateral (internal)
_getPendingRegularFeeAdjustedCollateral(struct FixedPoint.Unsigned rawCollateral) โ struct FixedPoint.Unsigned (internal)
_convertToRawCollateral(struct FixedPoint.Unsigned collateral) โ struct FixedPoint.Unsigned rawCollateral (internal)
_removeCollateral(struct FixedPoint.Unsigned rawCollateral, struct FixedPoint.Unsigned collateralToRemove) โ struct FixedPoint.Unsigned removedCollateral (internal)
_addCollateral(struct FixedPoint.Unsigned rawCollateral, struct FixedPoint.Unsigned collateralToAdd) โ struct FixedPoint.Unsigned addedCollateral (internal)
_adjustCumulativeFeeMultiplier(struct FixedPoint.Unsigned amount, struct FixedPoint.Unsigned currentPfc) (internal)
_preEntranceCheck() (internal)
_preEntranceSet() (internal)
_postEntranceReset() (internal)
_startReentrantGuardDisabled() (internal)
_endReentrantGuardDisabled() (internal)
setCurrentTime(uint256 time) (external)
Sets the current time.
Will revert if not running in test mode.
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Parameters:- time: timestamp to set current Testable time to.
getCurrentTime() โ uint256 (public)
Gets the current time. Will return the last time set in setCurrentTime
if running in test mode.
Otherwise, it will return the block timestamp.
_notEmergencyShutdown() (internal)
_isEmergencyShutdown() (internal)
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EventsFundingRateUpdated(int256 newFundingRate, uint256 updateTime, uint256 reward)
RegularFeesPaid(uint256 regularFee, uint256 lateFee)
FinalFeesPaid(uint256 amount)
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Modifiersfees()
paysRegularFees()
nonReentrant()
Prevents a contract from calling itself, directly or indirectly.
Calling a nonReentrant
function from another nonReentrant
function is not supported. It is possible to
prevent this from happening by making the nonReentrant
function external, and making it call a private
function that does the actual state modification.
nonReentrantView()
Designed to prevent a view-only method from being re-entered during a call to a nonReentrant()
state-changing method.
onlyIfTest()
Reverts if not running in test mode.
notEmergencyShutdown()
isEmergencyShutdown()