Documentation ¶
Index ¶
- Constants
- Variables
- func CalculateLiquidationPriceWithSlippageFactors(sizePosition int64, buyOrders, sellOrders []*OrderInfo, ...) (liquidationPriceForOpenVolume, liquidationPriceWithBuyOrders, ... num.Decimal, ...)
- func CalculateMaintenanceMarginWithSlippageFactors(sizePosition int64, buyOrders, sellOrders []*OrderInfo, ...) num.Decimal
- type AuctionState
- type Broker
- type Config
- type Engine
- func (e *Engine) CalcOrderMarginsForClosedOutParty(orders []*types.Order, marginFactor num.Decimal) *num.Uint
- func (e *Engine) CalculateRiskFactorsForTest()
- func (e *Engine) CheckMarginInvariants(ctx context.Context, evt events.Margin, marketObservable *num.Uint, ...) (events.Risk, error)
- func (e *Engine) ExpectMargins(evts []events.Margin, markPrice *num.Uint, increment num.Decimal) (okMargins []events.Margin, distressedPositions []events.Margin)
- func (e *Engine) FlushMarginLevelsEvents()
- func (e *Engine) GetRiskFactors() *types.RiskFactor
- func (e *Engine) IsRiskFactorInitialised() bool
- func (e *Engine) OnMarginScalingFactorsUpdate(sf *types.ScalingFactors) error
- func (e *Engine) ReleaseExcessMarginAfterAuctionUncrossing(ctx context.Context, m events.Margin, marketObservable *num.Uint, ...) events.Risk
- func (e *Engine) ReloadConf(cfg Config)
- func (e *Engine) SwitchFromIsolatedMargin(ctx context.Context, evt events.Margin, marketObservable *num.Uint, ...) events.Risk
- func (e *Engine) SwitchToIsolatedMargin(ctx context.Context, evt events.Margin, marketObservable *num.Uint, ...) ([]events.Risk, error)
- func (e *Engine) UpdateIsolatedMarginOnAggressor(ctx context.Context, evt events.Margin, marketObservable *num.Uint, ...) (events.Risk, error)
- func (e *Engine) UpdateIsolatedMarginOnOrder(ctx context.Context, evt events.Margin, orders []*types.Order, ...) (events.Risk, error)
- func (e *Engine) UpdateIsolatedMarginsOnPositionChange(ctx context.Context, evt events.Margin, marketObservable *num.Uint, ...) ([]events.Risk, error)
- func (e *Engine) UpdateMarginAuction(ctx context.Context, evts []events.Margin, price *num.Uint, ...) ([]events.Risk, []events.Margin)
- func (e *Engine) UpdateMarginOnNewOrder(ctx context.Context, evt events.Margin, markPrice *num.Uint, ...) (events.Risk, events.Margin, error)
- func (e *Engine) UpdateMarginsOnSettlement(ctx context.Context, evts []events.Margin, markPrice *num.Uint, ...) []events.Risk
- func (e *Engine) UpdateModel(stateVarEngine StateVarEngine, calculator *types.MarginCalculator, model Model, ...)
- type FactorConverter
- type Model
- type OrderInfo
- type Orderbook
- type StateVarEngine
- type TimeService
Constants ¶
const RiskFactorStateVarName = "risk-factors"
Variables ¶
var ( ErrInsufficientFundsForInitialMargin = errors.New("insufficient funds for initial margin") ErrInsufficientFundsForMaintenanceMargin = errors.New("insufficient funds for maintenance margin") ErrInsufficientFundsForOrderMargin = errors.New("insufficient funds for order margin") ErrInsufficientFundsForMarginInGeneralAccount = errors.New("insufficient funds to cover margin in general margin") ErrRiskFactorsNotAvailableForAsset = errors.New("risk factors not available for the specified asset") )
var ( // ErrNilRiskModel ... ErrNilRiskModel = errors.New("nil risk model") // ErrUnimplementedRiskModel ... ErrUnimplementedRiskModel = errors.New("unimplemented risk model") )
Functions ¶
func CalculateLiquidationPriceWithSlippageFactors ¶ added in v0.71.0
func CalculateLiquidationPriceWithSlippageFactors(sizePosition int64, buyOrders, sellOrders []*OrderInfo, currentPrice, collateralAvailable num.Decimal, positionFactor, linearSlippageFactor, quadraticSlippageFactor, riskFactorLong, riskFactorShort, fundingPaymentPerUnitPosition num.Decimal) (liquidationPriceForOpenVolume, liquidationPriceWithBuyOrders, liquidationPriceWithSellOrders num.Decimal, err error)
func CalculateMaintenanceMarginWithSlippageFactors ¶ added in v0.71.0
Types ¶
type AuctionState ¶
AuctionState represents the current auction state of the market, previously we got this information from the matching engine, but really... that's not its job.
type Config ¶
type Config struct { Level encoding.LogLevel `long:"log-level"` StreamMarginLevelsVerbose encoding.Bool `long:"log-margin-update"` }
Config represent the configuration of the Risk engine.
func NewDefaultConfig ¶
func NewDefaultConfig() Config
NewDefaultConfig creates an instance of the package specific configuration, given a pointer to a logger instance to be used for logging within the package.
type Engine ¶
type Engine struct { Config // contains filtered or unexported fields }
Engine is the risk engine.
func NewEngine ¶
func NewEngine(log *logging.Logger, config Config, marginCalculator *types.MarginCalculator, model Model, ob Orderbook, as AuctionState, timeSvc TimeService, broker Broker, mktID string, asset string, stateVarEngine StateVarEngine, positionFactor num.Decimal, riskFactorsInitialised bool, initialisedRiskFactors *types.RiskFactor, linearSlippageFactor num.Decimal, quadraticSlippageFactor num.Decimal, ) *Engine
NewEngine instantiate a new risk engine.
func (*Engine) CalcOrderMarginsForClosedOutParty ¶ added in v0.74.0
func (*Engine) CalculateRiskFactorsForTest ¶
func (e *Engine) CalculateRiskFactorsForTest()
CalculateRiskFactorsForTest is a hack for testing for setting directly the risk factors for a market.
func (*Engine) CheckMarginInvariants ¶ added in v0.74.0
func (*Engine) ExpectMargins ¶
func (e *Engine) ExpectMargins(evts []events.Margin, markPrice *num.Uint, increment num.Decimal) (okMargins []events.Margin, distressedPositions []events.Margin)
ExpectMargins is used in the case some parties are in a distressed positions in this situation we will only check if the party margin is > to the maintenance margin.
func (*Engine) FlushMarginLevelsEvents ¶ added in v0.68.0
func (e *Engine) FlushMarginLevelsEvents()
func (*Engine) GetRiskFactors ¶
func (e *Engine) GetRiskFactors() *types.RiskFactor
GetRiskFactors returns risk factors per specified asset.
func (*Engine) IsRiskFactorInitialised ¶
func (*Engine) OnMarginScalingFactorsUpdate ¶
func (e *Engine) OnMarginScalingFactorsUpdate(sf *types.ScalingFactors) error
func (*Engine) ReleaseExcessMarginAfterAuctionUncrossing ¶ added in v0.74.0
func (e *Engine) ReleaseExcessMarginAfterAuctionUncrossing(ctx context.Context, m events.Margin, marketObservable *num.Uint, increment num.Decimal, marginFactor num.Decimal, orders []*types.Order) events.Risk
ReleaseExcessMarginAfterAuctionUncrossing is called after auction uncrossing to release excess order margin due to orders placed during an auction when the price used for order margin is the auction price rather than the order price.
func (*Engine) ReloadConf ¶
ReloadConf update the internal configuration of the risk engine.
func (*Engine) SwitchFromIsolatedMargin ¶ added in v0.74.0
func (e *Engine) SwitchFromIsolatedMargin(ctx context.Context, evt events.Margin, marketObservable *num.Uint, inc num.Decimal) events.Risk
SwitchFromIsolatedMargin switches the party from isolated margin mode to cross margin mode. This includes: 1. recalcualtion of the required margin in cross margin mode + margin levels are buffered 2. return a transfer of all the balance from order margin account to margin account NB: cannot fail.
func (*Engine) SwitchToIsolatedMargin ¶ added in v0.74.0
func (e *Engine) SwitchToIsolatedMargin(ctx context.Context, evt events.Margin, marketObservable *num.Uint, inc num.Decimal, orders []*types.Order, marginFactor num.Decimal, auctionPrice *num.Uint) ([]events.Risk, error)
SwitchToIsolatedMargin attempts to switch the party from cross margin mode to isolated mode. Error can be returned if it is not possible for the party to switch at this moment. If successful the new margin levels are buffered and the required margin level, margin balances, and transfers (aka events.risk) is returned.
func (*Engine) UpdateIsolatedMarginOnAggressor ¶ added in v0.74.0
func (e *Engine) UpdateIsolatedMarginOnAggressor(ctx context.Context, evt events.Margin, marketObservable *num.Uint, increment num.Decimal, orders []*types.Order, trades []*types.Trade, marginFactor num.Decimal, traderSide types.Side) (events.Risk, error)
UpdateIsolatedMarginOnAggressor is called when a new order comes in and is matched immediately. NB: evt has the position after the trades + orders need to include the new order with the updated remaining. returns an error if the new margin is invalid or if the margin account cannot be topped up from general account. if successful it updates the margin level and returns the transfer that is needed for the topup of the margin account or release from the margin account excess.
func (*Engine) UpdateIsolatedMarginOnOrder ¶ added in v0.74.0
func (e *Engine) UpdateIsolatedMarginOnOrder(ctx context.Context, evt events.Margin, orders []*types.Order, marketObservable *num.Uint, auctionPrice *num.Uint, increment num.Decimal, marginFactor num.Decimal) (events.Risk, error)
UpdateIsolatedMarginOnOrder checks that the party has sufficient cover for the given orders including the new one. It returns an error if the party doesn't have sufficient cover and the necessary transfers otherwise. NB: auctionPrice should be nil in continuous mode.
func (*Engine) UpdateIsolatedMarginsOnPositionChange ¶ added in v0.74.0
func (e *Engine) UpdateIsolatedMarginsOnPositionChange(ctx context.Context, evt events.Margin, marketObservable *num.Uint, increment num.Decimal, orders []*types.Order, trades []*types.Trade, traderSide types.Side, marginFactor num.Decimal) ([]events.Risk, error)
UpdateIsolatedMarginOnPositionChanged is called upon changes to the position of a party in isolated margin mode. Depending on the nature of the change it checks if it needs to move funds into our out of the margin account from the order margin account or to the general account. At this point we don't enforce any invariants just calculate transfers.
func (*Engine) UpdateMarginAuction ¶
func (*Engine) UpdateMarginOnNewOrder ¶
func (e *Engine) UpdateMarginOnNewOrder(ctx context.Context, evt events.Margin, markPrice *num.Uint, increment num.Decimal) (events.Risk, events.Margin, error)
UpdateMarginOnNewOrder calculate the new margin requirement for a single order this is intended to be used when a new order is created in order to ensure the party margin account is at least at the InitialMargin level before the order is added to the book.
func (*Engine) UpdateMarginsOnSettlement ¶
func (e *Engine) UpdateMarginsOnSettlement(ctx context.Context, evts []events.Margin, markPrice *num.Uint, increment num.Decimal) []events.Risk
UpdateMarginsOnSettlement ensure the margin requirement over all positions. margins updates are based on the following requirement
---------------------------------------------------------------------------------------
| 1 | SearchLevel < CurMargin < InitialMargin | nothing to do / no risk for the network | | 2 | CurMargin < SearchLevel | set margin to InitialLevel | | 3 | CurMargin > ReleaseLevel | release up to the InitialLevel |
---------------------------------------------------------------------------------------
In the case where the CurMargin is smaller to the MaintenanceLevel after trying to move monies later, we'll need to close out the party but that cannot be figured out now only in later when we try to move monies from the general account.
func (*Engine) UpdateModel ¶
func (e *Engine) UpdateModel( stateVarEngine StateVarEngine, calculator *types.MarginCalculator, model Model, linearSlippageFactor num.Decimal, quadraticSlippageFactor num.Decimal, )
type FactorConverter ¶ added in v0.55.0
type FactorConverter struct{}
func (FactorConverter) BundleToInterface ¶ added in v0.55.0
func (FactorConverter) BundleToInterface(kvb *statevar.KeyValueBundle) statevar.StateVariableResult
func (FactorConverter) InterfaceToBundle ¶ added in v0.55.0
func (FactorConverter) InterfaceToBundle(res statevar.StateVariableResult) *statevar.KeyValueBundle
type Model ¶
type Model interface { CalculateRiskFactors() *types.RiskFactor DefaultRiskFactors() *types.RiskFactor PriceRange(price, yearFraction, probability num.Decimal) (minPrice, maxPrice num.Decimal) ProbabilityOfTrading(currentP, orderP, minP, maxP, yFrac num.Decimal, isBid, applyMinMax bool) num.Decimal GetProjectionHorizon() num.Decimal }
Model represents a risk model interface.
type Orderbook ¶
type Orderbook interface { GetCloseoutPrice(volume uint64, side types.Side) (*num.Uint, error) GetIndicativePrice() *num.Uint }
Orderbook represent an abstraction over the orderbook.
type StateVarEngine ¶
type StateVarEngine interface { RegisterStateVariable(asset, market, name string, converter statevar.Converter, startCalculation func(string, statevar.FinaliseCalculation), trigger []statevar.EventType, result func(context.Context, statevar.StateVariableResult) error) error NewEvent(asset, market string, eventType statevar.EventType) }