replace endTime type

This commit is contained in:
rhuairahrighairigh 2019-12-12 00:02:06 +00:00
parent d8a428e1d8
commit 231aa75774
3 changed files with 46 additions and 179 deletions

View File

@ -3,6 +3,7 @@ package keeper
import (
"bytes"
"fmt"
"time"
"github.com/cosmos/cosmos-sdk/codec"
sdk "github.com/cosmos/cosmos-sdk/types"
@ -21,7 +22,7 @@ type Keeper struct {
}
// NewKeeper returns a new auction keeper.
func NewKeeper(cdc *codec.Codec, storeKey sdk.StoreKey, bankKeeper types.BankKeeper, supplyKeeper types.SupplyKeeper, paramstore subspace.Subspace) Keeper {
func NewKeeper(cdc *codec.Codec, storeKey sdk.StoreKey, supplyKeeper types.SupplyKeeper, paramstore subspace.Subspace) Keeper {
return Keeper{
supplyKeeper: supplyKeeper,
storeKey: storeKey,
@ -33,7 +34,7 @@ func NewKeeper(cdc *codec.Codec, storeKey sdk.StoreKey, bankKeeper types.BankKee
// StartForwardAuction starts a normal auction. Known as flap in maker.
func (k Keeper) StartForwardAuction(ctx sdk.Context, seller string, lot sdk.Coin, bidDenom string) (types.ID, sdk.Error) {
// create auction
auction := types.NewForwardAuction(seller, lot, bidDenom, types.EndTime(ctx.BlockHeight())+types.DefaultMaxAuctionDuration)
auction := types.NewForwardAuction(seller, lot, bidDenom, ctx.BlockTime().Add(types.DefaultMaxAuctionDuration))
// take coins from module account
err := k.supplyKeeper.SendCoinsFromModuleToModule(ctx, seller, types.ModuleName, sdk.NewCoins(lot))
@ -41,7 +42,7 @@ func (k Keeper) StartForwardAuction(ctx sdk.Context, seller string, lot sdk.Coin
return 0, err
}
// store the auction
auctionID, err := k.storeNewAuction(ctx, auction) // TODO does this need to be a pointer to satisfy the interface
auctionID, err := k.storeNewAuction(ctx, auction) // TODO does this need to be a pointer to satisfy the interface?
if err != nil {
return 0, err
}
@ -51,7 +52,7 @@ func (k Keeper) StartForwardAuction(ctx sdk.Context, seller string, lot sdk.Coin
// StartReverseAuction starts an auction where sellers compete by offering decreasing prices. Known as flop in maker.
func (k Keeper) StartReverseAuction(ctx sdk.Context, buyer string, bid sdk.Coin, initialLot sdk.Coin) (types.ID, sdk.Error) {
// create auction
auction := types.NewReverseAuction(buyer, bid, initialLot, types.EndTime(ctx.BlockHeight())+types.DefaultMaxAuctionDuration)
auction := types.NewReverseAuction(buyer, bid, initialLot, ctx.BlockTime().Add(types.DefaultMaxAuctionDuration))
// This auction type mints coins at close. Need to check module account has minting privileges to avoid potential err in endblocker.
macc := k.supplyKeeper.GetModuleAccount(ctx, buyer)
@ -69,7 +70,7 @@ func (k Keeper) StartReverseAuction(ctx sdk.Context, buyer string, bid sdk.Coin,
// StartForwardReverseAuction starts an auction where bidders bid up to a maxBid, then switch to bidding down on price. Known as flip in maker.
func (k Keeper) StartForwardReverseAuction(ctx sdk.Context, seller string, lot sdk.Coin, maxBid sdk.Coin, otherPerson sdk.AccAddress) (types.ID, sdk.Error) {
// create auction
auction := types.NewForwardReverseAuction(seller, lot, types.EndTime(ctx.BlockHeight())+types.DefaultMaxAuctionDuration, maxBid, otherPerson)
auction := types.NewForwardReverseAuction(seller, lot, ctx.BlockTime().Add(types.DefaultMaxAuctionDuration), maxBid, otherPerson)
// take coins from module account
err := k.supplyKeeper.SendCoinsFromModuleToModule(ctx, seller, types.ModuleName, sdk.Coins{lot})
@ -100,8 +101,6 @@ func (k Keeper) storeNewAuction(ctx sdk.Context, auction types.Auction) (types.I
return newAuctionID, nil
}
// ==============================================================================================================================
// PlaceBid places a bid on any auction.
func (k Keeper) PlaceBid(ctx sdk.Context, auctionID types.ID, bidder sdk.AccAddress, bid sdk.Coin, lot sdk.Coin) sdk.Error {
@ -112,7 +111,7 @@ func (k Keeper) PlaceBid(ctx sdk.Context, auctionID types.ID, bidder sdk.AccAddr
}
// check end time
if ctx.BlockHeight() > auction.GetEndTime() {
if ctx.BlockTime().After(auction.GetEndTime()) {
return sdk.ErrInternal("auction has closed")
}
@ -139,7 +138,7 @@ func (k Keeper) PlaceBid(ctx sdk.Context, auctionID types.ID, bidder sdk.AccAddr
}
// store updated auction
k.SetAuction(ctx, a) // maybe move into above funcs
k.SetAuction(ctx, a) // TODO maybe move into above funcs
return nil
}
@ -180,7 +179,7 @@ func (k Keeper) PlaceBidForward(ctx sdk.Context, a types.ForwardAuction, bidder
a.Bidder = bidder
a.Bid = bid
// increment timeout
a.EndTime = EndTime(min(int64(ctx.BlockHeight()+types.DefaultMaxBidDuration), int64(a.MaxEndTime)))
a.EndTime = earliestTime(ctx.BlockTime().Add(types.DefaultMaxBidDuration), a.MaxEndTime) // TODO write a min func for time types
return a, nil
}
@ -242,7 +241,7 @@ func (k Keeper) PlaceBidForwardReverse(ctx sdk.Context, a types.ForwardReverseAu
a.Lot = lot
a.Bid = bid
// increment timeout
a.EndTime = EndTime(min(int64(currentBlockHeight+DefaultMaxBidDuration), int64(a.MaxEndTime)))
a.EndTime = earliestTime(ctx.BlockTime().Add(types.DefaultMaxBidDuration), a.MaxEndTime)
return types.ForwardReverseAuction{}, nil
}
@ -276,13 +275,11 @@ func (k Keeper) PlaceBidReverse(ctx sdk.Context, a types.ReverseAuction, bidder
a.Bidder = bidder
a.Lot = lot
// increment timeout
a.EndTime = EndTime(min(int64(ctx.BlockHeight()+types.DefaultMaxBidDuration), int64(a.MaxEndTime)))
a.EndTime = earliestTime(ctx.BlockTime().Add(types.DefaultMaxBidDuration), a.MaxEndTime)
return a, nil
}
// ==========================================================================================================
// CloseAuction closes an auction and distributes funds to the highest bidder.
func (k Keeper) CloseAuction(ctx sdk.Context, auctionID types.ID) sdk.Error {
@ -292,8 +289,8 @@ func (k Keeper) CloseAuction(ctx sdk.Context, auctionID types.ID) sdk.Error {
return sdk.ErrInternal("auction doesn't exist")
}
// error if auction has not reached the end time
if ctx.BlockHeight() < int64(auction.GetEndTime()) {
return sdk.ErrInternal(fmt.Sprintf("auction can't be closed as curent block height (%v) is under auction end time (%v)", ctx.BlockHeight(), auction.GetEndTime()))
if ctx.BlockTime().Before(auction.GetEndTime()) {
return sdk.ErrInternal(fmt.Sprintf("auction can't be closed as curent block time (%v) is under auction end time (%v)", ctx.BlockTime(), auction.GetEndTime()))
}
// payout to the last bidder
@ -330,19 +327,18 @@ func (k Keeper) MintAndPayoutAuctionLot(ctx sdk.Context, a types.ReverseAuction)
return nil
}
func (k Keeper) PayoutAuctionLot(ctx sdk.Context, a types.Auction) sdk.Error {
err := k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, a.GetBid(), sdk.NewCoins(a.GetLot()))
err := k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, a.GetBidder(), sdk.NewCoins(a.GetLot()))
if err != nil {
return err
}
return nil
}
// =====================================================================================================================
// ---------- Store methods ----------
// Use these to add and remove auction from the store.
// getNextAuctionID gets the next available global AuctionID
func (k Keeper) getNextAuctionID(ctx sdk.Context) (types.ID, sdk.Error) { // TODO don't need error return here
func (k Keeper) getNextAuctionID(ctx sdk.Context) (types.ID, sdk.Error) {
// get next ID from store
store := ctx.KVStore(k.storeKey)
bz := store.Get(k.getNextAuctionIDKey())
@ -433,7 +429,7 @@ func (k Keeper) getAuctionKey(auctionID types.ID) []byte {
}
// Inserts a AuctionID into the queue at endTime
func (k Keeper) InsertIntoQueue(ctx sdk.Context, endTime types.EndTime, auctionID types.ID) {
func (k Keeper) InsertIntoQueue(ctx sdk.Context, endTime time.Time, auctionID types.ID) {
// get the store
store := ctx.KVStore(k.storeKey)
// marshal thing to be inserted
@ -446,13 +442,13 @@ func (k Keeper) InsertIntoQueue(ctx sdk.Context, endTime types.EndTime, auctionI
}
// removes an auctionID from the queue
func (k Keeper) removeFromQueue(ctx sdk.Context, endTime types.EndTime, auctionID types.ID) {
func (k Keeper) removeFromQueue(ctx sdk.Context, endTime time.Time, auctionID types.ID) {
store := ctx.KVStore(k.storeKey)
store.Delete(getQueueElementKey(endTime, auctionID))
}
// Returns an iterator for all the auctions in the queue that expire by endTime
func (k Keeper) GetQueueIterator(ctx sdk.Context, endTime types.EndTime) sdk.Iterator { // TODO rename to "getAuctionsByExpiry" ?
func (k Keeper) GetQueueIterator(ctx sdk.Context, endTime time.Time) sdk.Iterator { // TODO rename to "getAuctionsByExpiry" ?
// get store
store := ctx.KVStore(k.storeKey)
// get an interator
@ -472,7 +468,7 @@ var queueKeyPrefix = []byte("queue")
var keyDelimiter = []byte(":")
// Returns half a key for an auctionID in the queue, it missed the id off the end
func getQueueElementKeyPrefix(endTime types.EndTime) []byte {
func getQueueElementKeyPrefix(endTime time.Time) []byte {
return bytes.Join([][]byte{
queueKeyPrefix,
sdk.Uint64ToBigEndian(uint64(endTime)), // TODO check this gives correct ordering
@ -480,7 +476,7 @@ func getQueueElementKeyPrefix(endTime types.EndTime) []byte {
}
// Returns the key for an auctionID in the queue
func getQueueElementKey(endTime types.EndTime, auctionID types.ID) []byte {
func getQueueElementKey(endTime time.Time, auctionID types.ID) []byte {
return bytes.Join([][]byte{
queueKeyPrefix,
sdk.Uint64ToBigEndian(uint64(endTime)), // TODO check this gives correct ordering

View File

@ -3,6 +3,7 @@ package types
import (
"fmt"
"strconv"
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/x/supply"
@ -12,9 +13,9 @@ import (
type Auction interface {
GetID() ID
SetID(ID)
// PlaceBid(currentBlockHeight EndTime, bidder sdk.AccAddress, lot sdk.Coin, bid sdk.Coin) ([]BankOutput, []BankInput, sdk.Error)
GetEndTime() EndTime // auctions close at the end of the block with blockheight EndTime (ie bids placed in that block are valid)
// GetPayout() BankInput
GetBidder() sdk.AccAddress
GetLot() sdk.Coin
GetEndTime() time.Time
}
// BaseAuction type shared by all Auctions
@ -24,8 +25,8 @@ type BaseAuction struct {
Lot sdk.Coin // Amount of coins up being given by initiator (FA - amount for sale by seller, RA - cost of good by buyer (bid))
Bidder sdk.AccAddress // Person who bids in the auction. Receiver of Lot. (aka buyer in forward auction, seller in RA)
Bid sdk.Coin // Amount of coins being given by the bidder (FA - bid, RA - amount being sold)
EndTime EndTime // Block height at which the auction closes. It closes at the end of this block // TODO change to time type
MaxEndTime EndTime // Maximum closing time. Auctions can close before this but never after.
EndTime time.Time // Auction closing time. Triggers at the end of the block with time ≥ endTime (bids placed in that block are valid) // TODO ensure everything is consistent with this
MaxEndTime time.Time // Maximum closing time. Auctions can close before this but never after.
}
// ID type for auction IDs
@ -40,21 +41,6 @@ func NewIDFromString(s string) (ID, error) {
return ID(n), nil
}
// EndTime type for end time of auctions
type EndTime int64 // TODO rename to Blockheight or don't define custom type
// BankInput the input and output types from the bank module where used here. But they use sdk.Coins instad of sdk.Coin. So it caused a lot of type conversion as auction mainly uses sdk.Coin.
type BankInput struct {
Address sdk.AccAddress
Coin sdk.Coin
}
// BankOutput output type for auction bids
type BankOutput struct {
Address sdk.AccAddress
Coin sdk.Coin
}
// GetID getter for auction ID
func (a *BaseAuction) GetID() ID { return a.ID }
@ -62,22 +48,13 @@ func (a *BaseAuction) GetID() ID { return a.ID }
func (a *BaseAuction) SetID(id ID) { a.ID = id }
// GetBid getter for auction bid
func (a *BaseAuction) GetBid() sdk.Coin { return a.Bid }
func (a *BaseAuction) GetBidder() sdk.AccAddress { return a.Bidder }
// GetLot getter for auction lot
func (a *BaseAuction) GetLot() sdk.Coin { return a.Lot }
// GetEndTime getter for auction end time
func (a *BaseAuction) GetEndTime() EndTime { return a.EndTime }
// GetPayout implements Auction
// func (a BaseAuction) GetPayout() BankInput {
// return BankInput{a.Bidder, a.Lot}
// }
func (e EndTime) String() string {
return string(e)
}
func (a *BaseAuction) GetEndTime() time.Time { return a.EndTime }
func (a *BaseAuction) String() string {
return fmt.Sprintf(`Auction %d:
@ -99,7 +76,7 @@ type ForwardAuction struct {
}
// NewForwardAuction creates a new forward auction
func NewForwardAuction(seller string, lot sdk.Coin, bidDenom string, EndTime EndTime) ForwardAuction {
func NewForwardAuction(seller string, lot sdk.Coin, bidDenom string, EndTime time.Time) ForwardAuction {
auction := ForwardAuction{&BaseAuction{
// no ID
Initiator: seller,
@ -113,42 +90,17 @@ func NewForwardAuction(seller string, lot sdk.Coin, bidDenom string, EndTime End
return auction
}
// PlaceBid implements Auction
// func (a *ForwardAuction) PlaceBid(currentBlockHeight EndTime, bidder sdk.AccAddress, lot sdk.Coin, bid sdk.Coin) ([]BankOutput, []BankInput, sdk.Error) {
// // TODO check lot size matches lot?
// // check auction has not closed
// if currentBlockHeight > a.EndTime {
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("auction has closed")
// }
// // check bid is greater than last bid
// if !a.Bid.IsLT(bid) { // TODO add minimum bid size
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("bid not greater than last bid")
// }
// // calculate coin movements
// outputs := []BankOutput{{bidder, bid}} // new bidder pays bid now
// inputs := []BankInput{{a.Bidder, a.Bid}, {a.Initiator, bid.Sub(a.Bid)}} // old bidder is paid back, extra goes to seller
// // update auction
// a.Bidder = bidder
// a.Bid = bid
// // increment timeout // TODO into keeper?
// a.EndTime = EndTime(min(int64(currentBlockHeight+DefaultMaxBidDuration), int64(a.MaxEndTime))) // TODO is there a better way to structure these types?
// return outputs, inputs, nil
// }
// ReverseAuction type for reverse auctions
// TODO when exporting state and initializing a new genesis, we'll need a way to differentiate forward from reverse auctions
type ReverseAuction struct {
*BaseAuction
}
// NewReverseAuction creates a new reverse auction
func NewReverseAuction(buyerModAccName string, bid sdk.Coin, initialLot sdk.Coin, EndTime EndTime) ReverseAuction {
// Bidder set here receives the proceeds from the first bid placed. This is set to the address of the module account.
// When this happens it uses supply.SendCoinsFromModuleToAccount, rather than SendCoinsFromModuleToModule.
// Currently not a problem but if extra checks are added to module accounts this will skip them.
// TODO description
func NewReverseAuction(buyerModAccName string, bid sdk.Coin, initialLot sdk.Coin, EndTime time.Time) ReverseAuction {
// TODO setting the bidder here is a bit hacky
// Needs to be set so that when the first bid is placed, it is paid out to the initiator.
// Setting to the module account address bypasses calling supply.SendCoinsFromModuleToModule, instead calls SendCoinsFromModuleToModule. Not a problem currently but if checks/logic regarding modules accounts where added to those methods they would be bypassed.
// Alternative: set address to nil, and catch it in an if statement in place bid
auction := ReverseAuction{&BaseAuction{
// no ID
Initiator: buyerModAccName,
@ -158,35 +110,9 @@ func NewReverseAuction(buyerModAccName string, bid sdk.Coin, initialLot sdk.Coin
EndTime: EndTime,
MaxEndTime: EndTime,
}}
//output := BankOutput{buyer, initialLot}
return auction
}
// PlaceBid implements Auction
// func (a *ReverseAuction) PlaceBid(currentBlockHeight EndTime, bidder sdk.AccAddress, lot sdk.Coin, bid sdk.Coin) ([]BankOutput, []BankInput, sdk.Error) {
// // check bid size matches bid?
// // check auction has not closed
// if currentBlockHeight > a.EndTime {
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("auction has closed")
// }
// // check bid is less than last bid
// if !lot.IsLT(a.Lot) { // TODO add min bid decrements
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("lot not smaller than last lot")
// }
// // calculate coin movements
// outputs := []BankOutput{{bidder, a.Bid}} // new bidder pays bid now
// inputs := []BankInput{{a.Bidder, a.Bid}, {a.Initiator, a.Lot.Sub(lot)}} // old bidder is paid back, decrease in price for goes to buyer
// // update auction
// a.Bidder = bidder
// a.Lot = lot
// // increment timeout // TODO into keeper?
// a.EndTime = EndTime(min(int64(currentBlockHeight+DefaultMaxBidDuration), int64(a.MaxEndTime))) // TODO is there a better way to structure these types?
// return outputs, inputs, nil
// }
// ForwardReverseAuction type for forward reverse auction
type ForwardReverseAuction struct {
*BaseAuction
@ -211,7 +137,7 @@ func (a *ForwardReverseAuction) String() string {
}
// NewForwardReverseAuction creates a new forward reverse auction
func NewForwardReverseAuction(seller string, lot sdk.Coin, EndTime EndTime, maxBid sdk.Coin, otherPerson sdk.AccAddress) ForwardReverseAuction {
func NewForwardReverseAuction(seller string, lot sdk.Coin, EndTime time.Time, maxBid sdk.Coin, otherPerson sdk.AccAddress) ForwardReverseAuction {
auction := ForwardReverseAuction{
BaseAuction: &BaseAuction{
// no ID
@ -227,53 +153,3 @@ func NewForwardReverseAuction(seller string, lot sdk.Coin, EndTime EndTime, maxB
//output := BankOutput{seller, lot}
return auction
}
// PlaceBid implements auction
// func (a *ForwardReverseAuction) PlaceBid(currentBlockHeight EndTime, bidder sdk.AccAddress, lot sdk.Coin, bid sdk.Coin) (outputs []BankOutput, inputs []BankInput, err sdk.Error) {
// // check auction has not closed
// if currentBlockHeight > a.EndTime {
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("auction has closed")
// }
// // determine phase of auction
// switch {
// case a.Bid.IsLT(a.MaxBid) && bid.IsLT(a.MaxBid):
// // Forward auction phase
// if !a.Bid.IsLT(bid) { // TODO add min bid increments
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("bid not greater than last bid")
// }
// outputs = []BankOutput{{bidder, bid}} // new bidder pays bid now
// inputs = []BankInput{{a.Bidder, a.Bid}, {a.Initiator, bid.Sub(a.Bid)}} // old bidder is paid back, extra goes to seller
// case a.Bid.IsLT(a.MaxBid):
// // Switch over phase
// if !bid.IsEqual(a.MaxBid) { // require bid == a.MaxBid
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("bid greater than the max bid")
// }
// outputs = []BankOutput{{bidder, bid}} // new bidder pays bid now
// inputs = []BankInput{
// {a.Bidder, a.Bid}, // old bidder is paid back
// {a.Initiator, bid.Sub(a.Bid)}, // extra goes to seller
// {a.OtherPerson, a.Lot.Sub(lot)}, //decrease in price for goes to original CDP owner
// }
// case a.Bid.IsEqual(a.MaxBid):
// // Reverse auction phase
// if !lot.IsLT(a.Lot) { // TODO add min bid decrements
// return []BankOutput{}, []BankInput{}, sdk.ErrInternal("lot not smaller than last lot")
// }
// outputs = []BankOutput{{bidder, a.Bid}} // new bidder pays bid now
// inputs = []BankInput{{a.Bidder, a.Bid}, {a.OtherPerson, a.Lot.Sub(lot)}} // old bidder is paid back, decrease in price for goes to original CDP owner
// default:
// panic("should never be reached") // TODO
// }
// // update auction
// a.Bidder = bidder
// a.Lot = lot
// a.Bid = bid
// // increment timeout
// // TODO use bid duration param
// a.EndTime = EndTime(min(int64(currentBlockHeight+DefaultMaxBidDuration), int64(a.MaxEndTime))) // TODO is there a better way to structure these types?
// return outputs, inputs, nil
// }

View File

@ -3,16 +3,17 @@ package types
import (
"bytes"
"fmt"
"time"
"github.com/cosmos/cosmos-sdk/x/params/subspace"
)
// Defaults for auction params
const (
// DefaultMaxAuctionDuration max length of auction, roughly 2 days in blocks
DefaultMaxAuctionDuration EndTime = 2 * 24 * 3600 / 5
// DefaultMaxAuctionDuration max length of auction
DefaultMaxAuctionDuration time.Duration = 2 * 24 * time.Hour
// DefaultBidDuration how long an auction gets extended when someone bids, roughly 3 hours in blocks
DefaultMaxBidDuration EndTime = 3 * 3600 / 5
DefaultMaxBidDuration time.Duration = 3 * time.Hour
// DefaultStartingAuctionID what the id of the first auction will be
DefaultStartingAuctionID ID = ID(0)
)
@ -21,24 +22,24 @@ const (
var (
// ParamStoreKeyAuctionParams Param store key for auction params
KeyAuctionBidDuration = []byte("MaxBidDuration")
KeyAuctionDuration = []byte("MaxAuctionDuration")
KeyAuctionStartingID = []byte("StartingAuctionID")
KeyAuctionDuration = []byte("MaxAuctionDuration")
KeyAuctionStartingID = []byte("StartingAuctionID")
)
var _ subspace.ParamSet = &AuctionParams{}
// AuctionParams governance parameters for auction module
type AuctionParams struct {
MaxAuctionDuration EndTime `json:"max_auction_duration" yaml:"max_auction_duration"` // max length of auction, in blocks
MaxBidDuration EndTime `json:"max_bid_duration" yaml:"max_bid_duration"`
StartingAuctionID ID `json:"starting_auction_id" yaml:"starting_auction_id"`
MaxAuctionDuration time.Duration `json:"max_auction_duration" yaml:"max_auction_duration"` // max length of auction, in blocks
MaxBidDuration time.Duration `json:"max_bid_duration" yaml:"max_bid_duration"`
StartingAuctionID ID `json:"starting_auction_id" yaml:"starting_auction_id"`
}
// NewAuctionParams creates a new AuctionParams object
func NewAuctionParams(maxAuctionDuration EndTime, bidDuration EndTime, startingID ID) AuctionParams {
func NewAuctionParams(maxAuctionDuration time.Duration, bidDuration time.Duration, startingID ID) AuctionParams {
return AuctionParams{
MaxAuctionDuration: maxAuctionDuration,
MaxBidDuration: bidDuration,
MaxBidDuration: bidDuration,
StartingAuctionID: startingID,
}
}
@ -85,12 +86,6 @@ func (ap AuctionParams) String() string {
// Validate checks that the parameters have valid values.
func (ap AuctionParams) Validate() error {
if ap.MaxAuctionDuration <= EndTime(0) {
return fmt.Errorf("max auction duration should be positive, is %s", ap.MaxAuctionDuration)
}
if ap.MaxBidDuration <= EndTime(0) {
return fmt.Errorf("bid duration should be positive, is %s", ap.MaxBidDuration)
}
if ap.StartingAuctionID <= ID(0) {
return fmt.Errorf("starting auction ID should be positive, is %v", ap.StartingAuctionID)
}