0g-chain/x/hard/keeper/liquidation_test.go
Denali Marsh 58494fe357
Hard: fix liquidation engine (#771)
* initial

* liquidation debugging

* max lot == macc coin balance

* add print statements

* add test for pricefeed liquidation scenarios

* skip zero lot

* add insolvency liquidation test scenario

* remove debugging statements

* fix tests after rebase

Co-authored-by: karzak <kjydavis3@gmail.com>
2021-02-01 14:13:17 -07:00

1838 lines
77 KiB
Go

package keeper_test
import (
"strings"
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
abci "github.com/tendermint/tendermint/abci/types"
"github.com/tendermint/tendermint/crypto"
tmtime "github.com/tendermint/tendermint/types/time"
"github.com/kava-labs/kava/app"
auctypes "github.com/kava-labs/kava/x/auction/types"
"github.com/kava-labs/kava/x/hard"
"github.com/kava-labs/kava/x/hard/types"
"github.com/kava-labs/kava/x/pricefeed"
)
func (suite *KeeperTestSuite) TestIndexLiquidation() {
type args struct {
borrower sdk.AccAddress
initialModuleCoins sdk.Coins
initialBorrowerCoins sdk.Coins
depositCoins sdk.Coins
borrowCoins sdk.Coins
beginBlockerTime int64
ltvIndexCount int
expectedBorrowerCoins sdk.Coins // additional coins (if any) the borrower address should have after successfully liquidating position
expectedAuctions auctypes.Auctions // the auctions we should expect to find have been started
}
type errArgs struct {
expectLiquidate bool
contains string
}
type liqTest struct {
name string
args args
errArgs errArgs
}
// Set up test constants
model := types.NewInterestRateModel(sdk.MustNewDecFromStr("0"), sdk.MustNewDecFromStr("0.1"), sdk.MustNewDecFromStr("0.8"), sdk.MustNewDecFromStr("0.5"))
reserveFactor := sdk.MustNewDecFromStr("0.05")
oneMonthInSeconds := int64(2592000)
borrower := sdk.AccAddress(crypto.AddressHash([]byte("randomaddr")))
// Set up auction constants
layout := "2006-01-02T15:04:05.000Z"
endTimeStr := "9000-01-01T00:00:00.000Z"
endTime, _ := time.Parse(layout, endTimeStr)
lotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{borrower}, []sdk.Int{sdk.NewInt(100)})
testCases := []liqTest{
{
"valid: LTV index liquidates borrow",
args{
borrower: borrower,
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98*KAVA_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 10000411),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8004765),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
contains: "",
},
},
{
"valid: HARD module account starts with no coins",
args{
borrower: borrower,
initialModuleCoins: sdk.Coins{},
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98*KAVA_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 2000000),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8050763),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
contains: "",
},
},
{
"valid: LTV index liquidates borrow with multiple coin types",
args{
borrower: borrower,
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(100*BNB_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(10*BNB_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(8*BNB_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98.000001*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(98*BNB_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("bnb", 200000000),
Bidder: nil,
Bid: sdk.NewInt64Coin("bnb", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("bnb", 804948248),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 8004),
Bidder: nil,
Bid: sdk.NewInt64Coin("bnb", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("bnb", 128242),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 3,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 9992406),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8004766),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
contains: "",
},
},
{
"valid: HARD module account starts with no coins, LTV index liquidates borrow with multiple coin types",
args{
borrower: borrower,
initialModuleCoins: sdk.Coins{},
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(100*BNB_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(10*BNB_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(8*BNB_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(98*BNB_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("bnb", 200000000),
Bidder: nil,
Bid: sdk.NewInt64Coin("bnb", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("bnb", 805076483),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 2000000),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8050764),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
contains: "",
},
},
{
"invalid: borrow not over limit, LTV index does not liquidate",
args{
borrower: borrower,
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(7*KAVA_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(97*KAVA_CF))), // initial - deposit + borrow
expectedAuctions: auctypes.Auctions{},
},
errArgs{
expectLiquidate: false,
contains: "",
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
// Initialize test app and set context
tApp := app.NewTestApp()
ctx := tApp.NewContext(true, abci.Header{Height: 1, Time: tmtime.Now()})
// Auth module genesis state
authGS := app.NewAuthGenState(
[]sdk.AccAddress{tc.args.borrower},
[]sdk.Coins{tc.args.initialBorrowerCoins},
)
// Hard module genesis state
hardGS := types.NewGenesisState(types.NewParams(
types.MoneyMarkets{
types.NewMoneyMarket("usdx",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdx:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("usdt",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdt:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("usdc",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdc:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("dai",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"dai:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("ukava",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"kava:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("bnb",
types.NewBorrowLimit(false, sdk.NewDec(100000000*BNB_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"bnb:usd", // Market ID
sdk.NewInt(BNB_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("btc",
types.NewBorrowLimit(false, sdk.NewDec(100000000*BTCB_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"btc:usd", // Market ID
sdk.NewInt(BTCB_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
},
tc.args.ltvIndexCount, // LTV counter
), types.DefaultAccumulationTimes, types.DefaultDeposits, types.DefaultBorrows,
types.DefaultTotalSupplied, types.DefaultTotalBorrowed, types.DefaultTotalReserves,
)
// Pricefeed module genesis state
pricefeedGS := pricefeed.GenesisState{
Params: pricefeed.Params{
Markets: []pricefeed.Market{
{MarketID: "usdx:usd", BaseAsset: "usdx", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "usdt:usd", BaseAsset: "usdt", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "usdc:usd", BaseAsset: "usdc", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "dai:usd", BaseAsset: "dai", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "kava:usd", BaseAsset: "kava", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "bnb:usd", BaseAsset: "bnb", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "btc:usd", BaseAsset: "btc", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
},
},
PostedPrices: []pricefeed.PostedPrice{
{
MarketID: "usdx:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "usdt:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "usdc:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "dai:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "kava:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("2.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "bnb:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("10.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "btc:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("100.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
},
}
// Initialize test application
tApp.InitializeFromGenesisStates(authGS,
app.GenesisState{pricefeed.ModuleName: pricefeed.ModuleCdc.MustMarshalJSON(pricefeedGS)},
app.GenesisState{types.ModuleName: types.ModuleCdc.MustMarshalJSON(hardGS)})
// Mint coins to Hard module account
supplyKeeper := tApp.GetSupplyKeeper()
supplyKeeper.MintCoins(ctx, types.ModuleAccountName, tc.args.initialModuleCoins)
auctionKeeper := tApp.GetAuctionKeeper()
keeper := tApp.GetHardKeeper()
suite.app = tApp
suite.ctx = ctx
suite.keeper = keeper
suite.auctionKeeper = auctionKeeper
var err error
// Run begin blocker to set up state
hard.BeginBlocker(suite.ctx, suite.keeper)
// Deposit coins
err = suite.keeper.Deposit(suite.ctx, tc.args.borrower, tc.args.depositCoins)
suite.Require().NoError(err)
// Borrow coins
err = suite.keeper.Borrow(suite.ctx, tc.args.borrower, tc.args.borrowCoins)
suite.Require().NoError(err)
// Check borrow exists before liquidation
_, foundBorrowBefore := suite.keeper.GetBorrow(suite.ctx, tc.args.borrower)
suite.Require().True(foundBorrowBefore)
// Check that the user's deposits exist before liquidation
_, foundDepositBefore := suite.keeper.GetDeposit(suite.ctx, tc.args.borrower)
suite.Require().True(foundDepositBefore)
// Liquidate the borrow by running begin blocker
runAtTime := time.Unix(suite.ctx.BlockTime().Unix()+(tc.args.beginBlockerTime), 0)
liqCtx := suite.ctx.WithBlockTime(runAtTime)
hard.BeginBlocker(liqCtx, suite.keeper)
if tc.errArgs.expectLiquidate {
// Check borrow does not exist after liquidation
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().False(foundBorrowAfter)
// Check deposits do not exist after liquidation
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().False(foundDepositAfter)
// Check that borrower's balance contains the expected coins
accBorrower := suite.getAccountAtCtx(tc.args.borrower, liqCtx)
suite.Require().Equal(tc.args.expectedBorrowerCoins, accBorrower.GetCoins())
// Check that the expected auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(liqCtx)
suite.Require().True(len(auctions) > 0)
suite.Require().Equal(tc.args.expectedAuctions, auctions)
} else {
// Check that the user's borrow exists
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().True(foundBorrowAfter)
// Check that the user's deposits exist
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().True(foundDepositAfter)
// Check that no auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(liqCtx)
suite.Require().True(len(auctions) == 0)
}
})
}
}
func (suite *KeeperTestSuite) TestPricefeedLiquidation() {
type step struct {
action string
moveTimeForward int64 // Seconds to increase blocktime before taking action
sender sdk.AccAddress
coins sdk.Coins
}
type args struct {
users []sdk.AccAddress
initialUserCoins []sdk.Coins
steps []step
liquidateUser sdk.AccAddress
oracle sdk.AccAddress
pricefeedMarket string
pricefeedPrice sdk.Dec
expectedUserCoins sdk.Coins // additional coins (if any) the borrower address should have after successfully liquidating position
expectedAuctions auctypes.Auctions // the auctions we should expect to find have been started
}
type errArgs struct {
expectLiquidate bool
contains string
}
type liqTest struct {
name string
args args
errArgs errArgs
}
// Set up test constants
model := types.NewInterestRateModel(sdk.MustNewDecFromStr("0"), sdk.MustNewDecFromStr("0.1"), sdk.MustNewDecFromStr("0.8"), sdk.MustNewDecFromStr("0.5"))
reserveFactor := sdk.MustNewDecFromStr("0.05")
oracle := sdk.AccAddress(crypto.AddressHash([]byte("oracleaddr")))
userOne := sdk.AccAddress(crypto.AddressHash([]byte("useraddrone")))
userTwo := sdk.AccAddress(crypto.AddressHash([]byte("useraddrtwo")))
userThree := sdk.AccAddress(crypto.AddressHash([]byte("useraddrthree")))
users := []sdk.AccAddress{userOne, userTwo, userThree}
// All users start with 100 KAVA, 100 USDX, 100 HARD
initialCoins := sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("hard", sdk.NewInt(100*KAVA_CF)))
initialUserCoins := []sdk.Coins{initialCoins, initialCoins, initialCoins}
// Set up auction constants
layout := "2006-01-02T15:04:05.000Z"
endTimeStr := "9000-01-01T00:00:00.000Z"
endTime, _ := time.Parse(layout, endTimeStr)
lotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{userOne}, []sdk.Int{sdk.NewInt(100)})
testCases := []liqTest{
{
"scenario 1: solvent",
args{
users: users,
initialUserCoins: initialUserCoins,
steps: []step{
{ // User one deposits 10 KAVA
action: "deposit",
moveTimeForward: 0,
sender: userOne,
coins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))),
},
{ // User two deposits 10 USDX
action: "deposit",
moveTimeForward: 0,
sender: userTwo,
coins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10*KAVA_CF))),
},
{ // User one borrows 8 USDX
action: "borrow",
moveTimeForward: 0,
sender: userOne,
coins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(8*KAVA_CF))),
},
},
liquidateUser: userOne,
oracle: oracle,
pricefeedMarket: "kava:usd",
pricefeedPrice: sdk.MustNewDecFromStr("0.99"),
expectedUserCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(90.000001*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(108*KAVA_CF)), sdk.NewCoin("hard", sdk.NewInt(100*KAVA_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{ // Expect: lot = 10 KAVA, max bid = 8 USDX
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 9999999),
Bidder: nil,
Bid: sdk.NewInt64Coin("usdx", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("usdx", 8*KAVA_CF),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
contains: "",
},
},
{
"scenario 2: insolvent",
args{
users: users,
initialUserCoins: initialUserCoins,
steps: []step{
{ // User one deposits 10 KAVA
action: "deposit",
moveTimeForward: 0,
sender: userOne,
coins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))),
},
{ // User two deposits 10 USDX
action: "deposit",
moveTimeForward: 0,
sender: userTwo,
coins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10*KAVA_CF))),
},
{ // User one borrows 8 USDX
action: "borrow",
moveTimeForward: 0,
sender: userOne,
coins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(8*KAVA_CF))),
},
{ // User three deposits 20 HARD
action: "deposit",
moveTimeForward: 0,
sender: userThree,
coins: sdk.NewCoins(sdk.NewCoin("hard", sdk.NewInt(20*KAVA_CF))),
},
{ // User three borrows 8 KAVA
action: "borrow",
moveTimeForward: 0,
sender: userThree,
coins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
},
},
liquidateUser: userOne,
oracle: oracle,
pricefeedMarket: "kava:usd",
pricefeedPrice: sdk.MustNewDecFromStr("0.99"),
expectedUserCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(90.000000*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(108*KAVA_CF)), sdk.NewCoin("hard", sdk.NewInt(100*KAVA_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{ // Expect: lot = 2 KAVA, max bid = 8 USDX
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 2*KAVA_CF),
Bidder: nil,
Bid: sdk.NewInt64Coin("usdx", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("usdx", 8*KAVA_CF),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
contains: "",
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
// Initialize test app and set context
tApp := app.NewTestApp()
ctx := tApp.NewContext(true, abci.Header{Height: 1, Time: tmtime.Now()})
// Auth module genesis state
authGS := app.NewAuthGenState(users, initialUserCoins)
// Hard module genesis state
hardGS := types.NewGenesisState(types.NewParams(
types.MoneyMarkets{
types.NewMoneyMarket("usdx",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"usdx:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("ukava",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"kava:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("hard",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"hard:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
},
10, // LTV counter
), types.DefaultAccumulationTimes, types.DefaultDeposits, types.DefaultBorrows, types.DefaultTotalSupplied, types.DefaultTotalBorrowed, types.DefaultTotalReserves)
// Pricefeed module genesis state
pricefeedGS := pricefeed.GenesisState{
Params: pricefeed.Params{
Markets: []pricefeed.Market{
{MarketID: "usdx:usd", BaseAsset: "usdx", QuoteAsset: "usd", Oracles: []sdk.AccAddress{oracle}, Active: true},
{MarketID: "kava:usd", BaseAsset: "kava", QuoteAsset: "usd", Oracles: []sdk.AccAddress{oracle}, Active: true},
{MarketID: "hard:usd", BaseAsset: "hard", QuoteAsset: "usd", Oracles: []sdk.AccAddress{oracle}, Active: true},
},
},
PostedPrices: []pricefeed.PostedPrice{
{
MarketID: "usdx:usd",
OracleAddress: oracle,
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "kava:usd",
OracleAddress: oracle,
Price: sdk.MustNewDecFromStr("2.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "hard:usd",
OracleAddress: oracle,
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
},
}
// Initialize test application
tApp.InitializeFromGenesisStates(authGS,
app.GenesisState{pricefeed.ModuleName: pricefeed.ModuleCdc.MustMarshalJSON(pricefeedGS)},
app.GenesisState{types.ModuleName: types.ModuleCdc.MustMarshalJSON(hardGS)})
// Load keepers
auctionKeeper := tApp.GetAuctionKeeper()
pricefeedKeeper := tApp.GetPriceFeedKeeper()
keeper := tApp.GetHardKeeper()
// Set test suite globals
suite.app = tApp
suite.ctx = ctx
suite.keeper = keeper
suite.auctionKeeper = auctionKeeper
suite.pricefeedKeeper = pricefeedKeeper
var err error
// Run begin blocker to set up state
hard.BeginBlocker(suite.ctx, suite.keeper)
currCtx := suite.ctx
for _, step := range tc.args.steps {
currCtx = currCtx.WithBlockTime(time.Unix(currCtx.BlockTime().Unix()+(step.moveTimeForward), 0))
switch step.action {
case "deposit":
err = suite.keeper.Deposit(currCtx, step.sender, step.coins)
suite.Require().NoError(err)
case "borrow":
err = suite.keeper.Borrow(currCtx, step.sender, step.coins)
suite.Require().NoError(err)
default:
suite.Fail("each define action for each step")
}
}
// Update asset's price in price feed
expiryTime := currCtx.BlockTime().Add(100 * time.Hour)
_, err = suite.pricefeedKeeper.SetPrice(currCtx, tc.args.oracle, tc.args.pricefeedMarket, tc.args.pricefeedPrice, expiryTime)
suite.Require().NoError(err)
err = suite.pricefeedKeeper.SetCurrentPrices(currCtx, tc.args.pricefeedMarket)
suite.Require().NoError(err)
priceInfo, err := suite.pricefeedKeeper.GetCurrentPrice(ctx, tc.args.pricefeedMarket)
suite.Require().NoError(err)
suite.Require().Equal(tc.args.pricefeedPrice, priceInfo.Price)
// Liquidate the borrow by running begin blocker
hard.BeginBlocker(currCtx, suite.keeper)
if tc.errArgs.expectLiquidate {
// Check borrow does not exist after liquidation
_, foundBorrowAfter := suite.keeper.GetBorrow(currCtx, tc.args.liquidateUser)
suite.Require().False(foundBorrowAfter)
// Check deposits do not exist after liquidation
_, foundDepositAfter := suite.keeper.GetDeposit(currCtx, tc.args.liquidateUser)
suite.Require().False(foundDepositAfter)
// Check that borrower's balance contains the expected coins
accBorrower := suite.getAccountAtCtx(tc.args.liquidateUser, currCtx)
suite.Require().Equal(tc.args.expectedUserCoins, accBorrower.GetCoins())
// Check that the expected auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(currCtx)
suite.Require().True(len(auctions) > 0)
suite.Require().Equal(tc.args.expectedAuctions, auctions)
} else {
// Check that the user's borrow exists
_, foundBorrowAfter := suite.keeper.GetBorrow(currCtx, tc.args.liquidateUser)
suite.Require().True(foundBorrowAfter)
// Check that the user's deposits exist
_, foundDepositAfter := suite.keeper.GetDeposit(currCtx, tc.args.liquidateUser)
suite.Require().True(foundDepositAfter)
// Check that no auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(currCtx)
suite.Require().True(len(auctions) == 0)
}
})
}
}
func (suite *KeeperTestSuite) TestFullIndexLiquidation() {
type args struct {
borrower sdk.AccAddress
otherBorrowers []sdk.AccAddress
initialModuleCoins sdk.Coins
initialBorrowerCoins sdk.Coins
depositCoins []sdk.Coin
borrowCoins sdk.Coins
otherBorrowCoins sdk.Coins
beginBlockerTime int64
ltvIndexCount int
expectedBorrowerCoins sdk.Coins // additional coins (if any) the borrower address should have after successfully liquidating position
expectedAuctions auctypes.Auctions // the auctions we should expect to find have been started
}
type errArgs struct {
expectLiquidate bool
expectLiquidateOtherBorrowers bool
contains string
}
type liqTest struct {
name string
args args
errArgs errArgs
}
// Set up test constants
model := types.NewInterestRateModel(sdk.MustNewDecFromStr("0"), sdk.MustNewDecFromStr("0.1"), sdk.MustNewDecFromStr("0.8"), sdk.MustNewDecFromStr("0.5"))
reserveFactor := sdk.MustNewDecFromStr("0.05")
oneMonthInSeconds := int64(2592000)
borrower := sdk.AccAddress(crypto.AddressHash([]byte("randomaddr")))
otherBorrower1 := sdk.AccAddress(crypto.AddressHash([]byte("AotherBorrower1")))
otherBorrower2 := sdk.AccAddress(crypto.AddressHash([]byte("BotherBorrower2")))
otherBorrower3 := sdk.AccAddress(crypto.AddressHash([]byte("CotherBorrower3")))
otherBorrower4 := sdk.AccAddress(crypto.AddressHash([]byte("DotherBorrower4")))
otherBorrower5 := sdk.AccAddress(crypto.AddressHash([]byte("EotherBorrower5")))
otherBorrower6 := sdk.AccAddress(crypto.AddressHash([]byte("FotherBorrower6")))
otherBorrower7 := sdk.AccAddress(crypto.AddressHash([]byte("GotherBorrower7")))
otherBorrower8 := sdk.AccAddress(crypto.AddressHash([]byte("HotherBorrower8")))
otherBorrower9 := sdk.AccAddress(crypto.AddressHash([]byte("IotherBorrower9")))
otherBorrower10 := sdk.AccAddress(crypto.AddressHash([]byte("JotherBorrower10")))
// Set up auction constants
layout := "2006-01-02T15:04:05.000Z"
endTimeStr := "9000-01-01T00:00:00.000Z"
endTime, _ := time.Parse(layout, endTimeStr)
lotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{borrower}, []sdk.Int{sdk.NewInt(100)})
otherBorrower1LotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{otherBorrower1}, []sdk.Int{sdk.NewInt(100)})
otherBorrower2LotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{otherBorrower2}, []sdk.Int{sdk.NewInt(100)})
otherBorrower3LotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{otherBorrower3}, []sdk.Int{sdk.NewInt(100)})
testCases := []liqTest{
{
"valid: LTV index only liquidates positions over LTV",
args{
borrower: borrower,
otherBorrowers: []sdk.AccAddress{otherBorrower1, otherBorrower2, otherBorrower3},
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: []sdk.Coin{sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))},
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
otherBorrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(7*KAVA_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98000001))), // initial - (deposit + borrow) + liquidation leftovers + supply interest
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 10003317),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8013492),
LotReturns: lotReturns,
},
},
},
errArgs{
expectLiquidate: true,
expectLiquidateOtherBorrowers: false,
contains: "",
},
},
{
"valid: LTV liquidates multiple positions over LTV",
args{
borrower: borrower,
otherBorrowers: []sdk.AccAddress{otherBorrower1, otherBorrower2, otherBorrower3},
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: []sdk.Coin{sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))},
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
otherBorrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98*KAVA_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 10004037),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8014872),
LotReturns: otherBorrower3LotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 10004037),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8014872),
LotReturns: otherBorrower2LotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 3,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 10004037),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8014872),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 4,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 10004037),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8014872),
LotReturns: otherBorrower1LotReturns,
},
},
},
errArgs{
expectLiquidate: true,
expectLiquidateOtherBorrowers: true,
contains: "",
},
},
{
"valid: LTV index doesn't liquidate over limit positions outside of top 10",
args{
borrower: borrower,
otherBorrowers: []sdk.AccAddress{otherBorrower1, otherBorrower2, otherBorrower3, otherBorrower4, otherBorrower5, otherBorrower6, otherBorrower7, otherBorrower8, otherBorrower9, otherBorrower10},
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: []sdk.Coin{sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))},
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(7.99*KAVA_CF))),
otherBorrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
beginBlockerTime: oneMonthInSeconds,
ltvIndexCount: int(10),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98*KAVA_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{}, // Ignoring other borrower auctions for this test
},
errArgs{
expectLiquidate: false,
expectLiquidateOtherBorrowers: true,
contains: "",
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
// Initialize test app and set context
tApp := app.NewTestApp()
ctx := tApp.NewContext(true, abci.Header{Height: 1, Time: tmtime.Now()})
otherBorrowersCoins := make([]sdk.Coins, len(tc.args.otherBorrowers))
i := 0
for i < len(tc.args.otherBorrowers) {
otherBorrowersCoins[i] = tc.args.initialBorrowerCoins
i++
}
appCoins := append([]sdk.Coins{tc.args.initialBorrowerCoins}, otherBorrowersCoins...)
appAddrs := append([]sdk.AccAddress{tc.args.borrower}, tc.args.otherBorrowers...)
// Auth module genesis state
authGS := app.NewAuthGenState(appAddrs, appCoins)
// Hard module genesis state
hardGS := types.NewGenesisState(types.NewParams(
types.MoneyMarkets{
types.NewMoneyMarket("usdx",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdx:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
types.NewMoneyMarket("ukava",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"kava:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
sdk.NewInt(100000*KAVA_CF), // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
sdk.MustNewDecFromStr("0.05")), // Keeper Reward Percent
},
tc.args.ltvIndexCount, // LTV counter
), types.DefaultAccumulationTimes, types.DefaultDeposits, types.DefaultBorrows,
types.DefaultTotalSupplied, types.DefaultTotalBorrowed, types.DefaultTotalReserves,
)
// Pricefeed module genesis state
pricefeedGS := pricefeed.GenesisState{
Params: pricefeed.Params{
Markets: []pricefeed.Market{
{MarketID: "usdx:usd", BaseAsset: "usdx", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "kava:usd", BaseAsset: "kava", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
},
},
PostedPrices: []pricefeed.PostedPrice{
{
MarketID: "usdx:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "kava:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("2.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
},
}
// Initialize test application
tApp.InitializeFromGenesisStates(authGS,
app.GenesisState{pricefeed.ModuleName: pricefeed.ModuleCdc.MustMarshalJSON(pricefeedGS)},
app.GenesisState{types.ModuleName: types.ModuleCdc.MustMarshalJSON(hardGS)})
// Mint coins to Hard module account
supplyKeeper := tApp.GetSupplyKeeper()
supplyKeeper.MintCoins(ctx, types.ModuleAccountName, tc.args.initialModuleCoins)
auctionKeeper := tApp.GetAuctionKeeper()
keeper := tApp.GetHardKeeper()
suite.app = tApp
suite.ctx = ctx
suite.keeper = keeper
suite.auctionKeeper = auctionKeeper
var err error
// Run begin blocker to set up state
hard.BeginBlocker(suite.ctx, suite.keeper)
// ----------- Users get inserted into the LTV index -----------
// Other borrowers take out positions by depositing and borrowing coins
for _, otherBorrower := range tc.args.otherBorrowers {
err = suite.keeper.Deposit(suite.ctx, otherBorrower, tc.args.depositCoins)
suite.Require().NoError(err)
err = suite.keeper.Borrow(suite.ctx, otherBorrower, tc.args.otherBorrowCoins)
suite.Require().NoError(err)
}
// Primary borrower deposits and borrows
err = suite.keeper.Deposit(suite.ctx, tc.args.borrower, tc.args.depositCoins)
suite.Require().NoError(err)
err = suite.keeper.Borrow(suite.ctx, tc.args.borrower, tc.args.borrowCoins)
suite.Require().NoError(err)
// ----------- Check state before liquidation -----------
// Other borrowers
for _, otherBorrower := range tc.args.otherBorrowers {
_, foundBorrowBefore := suite.keeper.GetBorrow(suite.ctx, otherBorrower)
suite.Require().True(foundBorrowBefore)
_, foundDepositBefore := suite.keeper.GetDeposit(suite.ctx, otherBorrower)
suite.Require().True(foundDepositBefore)
}
// Primary borrower
_, foundBorrowBefore := suite.keeper.GetBorrow(suite.ctx, tc.args.borrower)
suite.Require().True(foundBorrowBefore)
_, foundDepositBefore := suite.keeper.GetDeposit(suite.ctx, tc.args.borrower)
suite.Require().True(foundDepositBefore)
// ----------- Liquidate and check state -----------
// Liquidate the borrow by running begin blocker
runAtTime := time.Unix(suite.ctx.BlockTime().Unix()+(tc.args.beginBlockerTime), 0)
liqCtx := suite.ctx.WithBlockTime(runAtTime)
hard.BeginBlocker(liqCtx, suite.keeper)
if tc.errArgs.expectLiquidate {
// Check borrow does not exist after liquidation
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().False(foundBorrowAfter)
// Check deposits do not exist after liquidation
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().False(foundDepositAfter)
// Check that borrower's balance contains the expected coins
accBorrower := suite.getAccountAtCtx(tc.args.borrower, liqCtx)
suite.Require().Equal(tc.args.expectedBorrowerCoins, accBorrower.GetCoins())
// Check that the expected auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(liqCtx)
suite.Require().True(len(auctions) > 0)
suite.Require().Equal(tc.args.expectedAuctions, auctions)
} else {
// Check that the user's borrow exists
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().True(foundBorrowAfter)
// Check that the user's deposits exist
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().True(foundDepositAfter)
if !tc.errArgs.expectLiquidateOtherBorrowers {
// Check that no auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(liqCtx)
suite.Require().True(len(auctions) == 0)
}
}
// Check other borrowers
if tc.errArgs.expectLiquidateOtherBorrowers {
for _, otherBorrower := range tc.args.otherBorrowers {
// Check borrow does not exist after liquidation
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, otherBorrower)
suite.Require().False(foundBorrowAfter)
// Check deposits do not exist after liquidation
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, otherBorrower)
suite.Require().False(foundDepositAfter)
}
var expectedLtvIndexItemCount int
if tc.errArgs.expectLiquidate {
expectedLtvIndexItemCount = 0
} else {
expectedLtvIndexItemCount = 1
}
indexAddrs := suite.keeper.GetLtvIndexSlice(liqCtx, 1000) // Get all items in the index...
suite.Require().Equal(expectedLtvIndexItemCount, len(indexAddrs))
} else {
for _, otherBorrower := range tc.args.otherBorrowers {
// Check borrow does not exist after liquidation
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, otherBorrower)
suite.Require().True(foundBorrowAfter)
// Check deposits do not exist after liquidation
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, otherBorrower)
suite.Require().True(foundDepositAfter)
}
var expectedLtvIndexItemCount int
if tc.errArgs.expectLiquidate {
expectedLtvIndexItemCount = len(tc.args.otherBorrowers)
} else {
expectedLtvIndexItemCount = len(tc.args.otherBorrowers) + 1
}
indexAddrs := suite.keeper.GetLtvIndexSlice(liqCtx, tc.args.ltvIndexCount)
suite.Require().Equal(expectedLtvIndexItemCount, len(indexAddrs))
}
})
}
}
func (suite *KeeperTestSuite) TestKeeperLiquidation() {
type args struct {
borrower sdk.AccAddress
keeper sdk.AccAddress
keeperRewardPercent sdk.Dec
initialModuleCoins sdk.Coins
initialBorrowerCoins sdk.Coins
initialKeeperCoins sdk.Coins
depositCoins []sdk.Coin
borrowCoins sdk.Coins
liquidateAfter int64
auctionSize sdk.Int
expectedKeeperCoins sdk.Coins // coins keeper address should have after successfully liquidating position
expectedBorrowerCoins sdk.Coins // additional coins (if any) the borrower address should have after successfully liquidating position
expectedAuctions auctypes.Auctions // the auctions we should expect to find have been started
}
type errArgs struct {
expectPass bool
contains string
}
type liqTest struct {
name string
args args
errArgs errArgs
}
// Set up test constants
model := types.NewInterestRateModel(sdk.MustNewDecFromStr("0"), sdk.MustNewDecFromStr("0.1"), sdk.MustNewDecFromStr("0.8"), sdk.MustNewDecFromStr("0.5"))
reserveFactor := sdk.MustNewDecFromStr("0.05")
oneMonthInSeconds := int64(2592000)
borrower := sdk.AccAddress(crypto.AddressHash([]byte("testborrower")))
keeper := sdk.AccAddress(crypto.AddressHash([]byte("testkeeper")))
// Set up auction constants
layout := "2006-01-02T15:04:05.000Z"
endTimeStr := "9000-01-01T00:00:00.000Z"
endTime, _ := time.Parse(layout, endTimeStr)
lotReturns, _ := auctypes.NewWeightedAddresses([]sdk.AccAddress{borrower}, []sdk.Int{sdk.NewInt(100)})
testCases := []liqTest{
{
"valid: keeper liquidates borrow",
args{
borrower: borrower,
keeper: keeper,
keeperRewardPercent: sdk.MustNewDecFromStr("0.05"),
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(8*KAVA_CF))),
liquidateAfter: oneMonthInSeconds,
auctionSize: sdk.NewInt(KAVA_CF * 1000),
expectedKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100500020))),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(98000001))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 9500390),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 8004766),
LotReturns: lotReturns,
},
},
},
errArgs{
expectPass: true,
contains: "",
},
},
{
"valid: single deposit, multiple borrows",
args{
borrower: borrower,
keeper: keeper,
keeperRewardPercent: sdk.MustNewDecFromStr("0.05"),
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(1000*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(1000*BTCB_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(50*KAVA_CF))), // $100 * 0.8 = $80 borrowable
borrowCoins: sdk.NewCoins(sdk.NewCoin("usdc", sdk.NewInt(20*KAVA_CF)), sdk.NewCoin("ukava", sdk.NewInt(10*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(2*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(0.2*BTCB_CF))), // $20+$20+$20 = $80 borrowed
liquidateAfter: oneMonthInSeconds,
auctionSize: sdk.NewInt(KAVA_CF * 1000),
expectedKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(102500001))),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("usdc", sdk.NewInt(20*KAVA_CF)), sdk.NewCoin("ukava", sdk.NewInt(60000002)), sdk.NewCoin("bnb", sdk.NewInt(2*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(0.2*BTCB_CF))), // initial - deposit + borrow + liquidation leftovers
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 11874430),
Bidder: nil,
Bid: sdk.NewInt64Coin("bnb", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("bnb", 200003287),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 11874254),
Bidder: nil,
Bid: sdk.NewInt64Coin("btc", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("btc", 20000032),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 3,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 11875163),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 10000782),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 4,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 11876185),
Bidder: nil,
Bid: sdk.NewInt64Coin("usdc", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("usdc", 20003284),
LotReturns: lotReturns,
},
},
},
errArgs{
expectPass: true,
contains: "",
},
},
{
"valid: multiple deposits, single borrow",
args{
borrower: borrower,
keeper: keeper,
keeperRewardPercent: sdk.MustNewDecFromStr("0.05"),
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(1000*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(100*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(100*BTCB_CF))),
initialKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(50*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(10*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(1*BTCB_CF))), // $100 + $100 + $100 = $300 * 0.8 = $240 borrowable // $100 * 0.8 = $80 borrowable
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(120*KAVA_CF))), // $240 borrowed
liquidateAfter: oneMonthInSeconds,
auctionSize: sdk.NewInt(KAVA_CF * 1000),
expectedKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(102500253)), sdk.NewCoin("bnb", sdk.NewInt(0.5*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(0.05*BTCB_CF))), // 5% of each seized coin + initial balances
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(170.000001*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(90*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(99*BTCB_CF))),
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("bnb", 950000000),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 40036023),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("btc", 95000000),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 40036023),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 3,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("ukava", 47504818),
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 40040087),
LotReturns: lotReturns,
},
},
},
errArgs{
expectPass: true,
contains: "",
},
},
{
"valid: mutliple stablecoin deposits, multiple variable coin borrows",
// Auctions: total lot value = $285 ($300 of deposits - $15 keeper reward), total max bid value = $270
args{
borrower: borrower,
keeper: keeper,
keeperRewardPercent: sdk.MustNewDecFromStr("0.05"),
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(1000*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(1000*BTCB_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(100*KAVA_CF))),
initialKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("usdc", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(100*KAVA_CF))), // $100 + $100 + $100 = $300 * 0.9 = $270 borrowable
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(35*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(10*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(1*BTCB_CF))), // $270 borrowed
liquidateAfter: oneMonthInSeconds,
auctionSize: sdk.NewInt(KAVA_CF * 1000),
expectedKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(5*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(5*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(5*KAVA_CF))), // 5% of each seized coin + initial balances
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(135*KAVA_CF)), sdk.NewCoin("bnb", sdk.NewInt(10*BNB_CF)), sdk.NewCoin("btc", sdk.NewInt(1*BTCB_CF)), sdk.NewCoin("usdx", sdk.NewInt(0.000001*KAVA_CF))),
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("usdc", 95000000), // $95.00
Bidder: nil,
Bid: sdk.NewInt64Coin("bnb", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("bnb", 900097134), // $90.00
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("usdt", 10552835), // $10.55
Bidder: nil,
Bid: sdk.NewInt64Coin("bnb", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("bnb", 99985020), // $10.00
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 3,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("usdt", 84447165), // $84.45
Bidder: nil,
Bid: sdk.NewInt64Coin("btc", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("btc", 80011211), // $80.01
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 4,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("usdx", 21097866), // $21.10
Bidder: nil,
Bid: sdk.NewInt64Coin("btc", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("btc", 19989610), // $19.99
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 5,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("usdx", 73902133), //$73.90
Bidder: nil,
Bid: sdk.NewInt64Coin("ukava", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("ukava", 35010052), // $70.02
LotReturns: lotReturns,
},
},
},
errArgs{
expectPass: true,
contains: "",
},
},
{
"valid: multiple stablecoin deposits, multiple stablecoin borrows",
args{
borrower: borrower,
keeper: keeper,
keeperRewardPercent: sdk.MustNewDecFromStr("0.05"),
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("dai", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(1000*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("dai", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(1000*KAVA_CF))),
initialKeeperCoins: sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("dai", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(1000*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("dai", sdk.NewInt(350*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(200*KAVA_CF))),
borrowCoins: sdk.NewCoins(sdk.NewCoin("usdt", sdk.NewInt(250*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(245*KAVA_CF))),
liquidateAfter: oneMonthInSeconds,
auctionSize: sdk.NewInt(KAVA_CF * 100000),
expectedKeeperCoins: sdk.NewCoins(sdk.NewCoin("dai", sdk.NewInt(1017.50*KAVA_CF)), sdk.NewCoin("usdt", sdk.NewInt(1000*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(1010*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(1000*KAVA_CF))),
expectedBorrowerCoins: sdk.NewCoins(sdk.NewCoin("dai", sdk.NewInt(650*KAVA_CF)), sdk.NewCoin("usdc", sdk.NewInt(800000001)), sdk.NewCoin("usdt", sdk.NewInt(1250*KAVA_CF)), sdk.NewCoin("usdx", sdk.NewInt(1245*KAVA_CF))),
expectedAuctions: auctypes.Auctions{
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 1,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("dai", 263894126),
Bidder: nil,
Bid: sdk.NewInt64Coin("usdt", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("usdt", 250507897),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 2,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("dai", 68605874),
Bidder: nil,
Bid: sdk.NewInt64Coin("usdx", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("usdx", 65125788),
LotReturns: lotReturns,
},
auctypes.CollateralAuction{
BaseAuction: auctypes.BaseAuction{
ID: 3,
Initiator: "hard_liquidator",
Lot: sdk.NewInt64Coin("usdc", 189999999),
Bidder: nil,
Bid: sdk.NewInt64Coin("usdx", 0),
HasReceivedBids: false,
EndTime: endTime,
MaxEndTime: endTime,
},
CorrespondingDebt: sdk.NewInt64Coin("debt", 0),
MaxBid: sdk.NewInt64Coin("usdx", 180362106),
LotReturns: lotReturns,
},
},
},
errArgs{
expectPass: true,
contains: "",
},
},
{
"invalid: borrow not liquidatable",
args{
borrower: borrower,
keeper: keeper,
keeperRewardPercent: sdk.MustNewDecFromStr("0.05"),
initialModuleCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialBorrowerCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
initialKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100*KAVA_CF))),
depositCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(20*KAVA_CF))), // Deposit 20 KAVA
borrowCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(5*KAVA_CF))), // Borrow 5 KAVA
liquidateAfter: oneMonthInSeconds,
auctionSize: sdk.NewInt(KAVA_CF * 1000),
expectedKeeperCoins: sdk.NewCoins(sdk.NewCoin("ukava", sdk.NewInt(100.5*KAVA_CF))),
expectedBorrowerCoins: sdk.NewCoins(),
expectedAuctions: auctypes.Auctions{},
},
errArgs{
expectPass: false,
contains: "borrow not liquidatable",
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
// Initialize test app and set context
tApp := app.NewTestApp()
ctx := tApp.NewContext(true, abci.Header{Height: 1, Time: tmtime.Now()})
// Auth module genesis state
authGS := app.NewAuthGenState(
[]sdk.AccAddress{tc.args.borrower, tc.args.keeper},
[]sdk.Coins{tc.args.initialBorrowerCoins, tc.args.initialKeeperCoins},
)
// Hard module genesis state
hardGS := types.NewGenesisState(types.NewParams(
types.MoneyMarkets{
types.NewMoneyMarket("usdx",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdx:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
types.NewMoneyMarket("usdt",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdt:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
types.NewMoneyMarket("usdc",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"usdc:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
types.NewMoneyMarket("dai",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.9")), // Borrow Limit
"dai:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
types.NewMoneyMarket("ukava",
types.NewBorrowLimit(false, sdk.NewDec(100000000*KAVA_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"kava:usd", // Market ID
sdk.NewInt(KAVA_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
types.NewMoneyMarket("bnb",
types.NewBorrowLimit(false, sdk.NewDec(100000000*BNB_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"bnb:usd", // Market ID
sdk.NewInt(BNB_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
types.NewMoneyMarket("btc",
types.NewBorrowLimit(false, sdk.NewDec(100000000*BTCB_CF), sdk.MustNewDecFromStr("0.8")), // Borrow Limit
"btc:usd", // Market ID
sdk.NewInt(BTCB_CF), // Conversion Factor
tc.args.auctionSize, // Auction Size
model, // Interest Rate Model
reserveFactor, // Reserve Factor
tc.args.keeperRewardPercent), // Keeper Reward Percent
},
0, // LTV counter
), types.DefaultAccumulationTimes, types.DefaultDeposits, types.DefaultBorrows,
types.DefaultTotalSupplied, types.DefaultTotalBorrowed, types.DefaultTotalReserves,
)
// Pricefeed module genesis state
pricefeedGS := pricefeed.GenesisState{
Params: pricefeed.Params{
Markets: []pricefeed.Market{
{MarketID: "usdx:usd", BaseAsset: "usdx", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "usdt:usd", BaseAsset: "usdt", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "usdc:usd", BaseAsset: "usdc", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "dai:usd", BaseAsset: "dai", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "kava:usd", BaseAsset: "kava", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "bnb:usd", BaseAsset: "bnb", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
{MarketID: "btc:usd", BaseAsset: "btc", QuoteAsset: "usd", Oracles: []sdk.AccAddress{}, Active: true},
},
},
PostedPrices: []pricefeed.PostedPrice{
{
MarketID: "usdx:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "usdt:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "usdc:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "dai:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("1.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "kava:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("2.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "bnb:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("10.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
{
MarketID: "btc:usd",
OracleAddress: sdk.AccAddress{},
Price: sdk.MustNewDecFromStr("100.00"),
Expiry: time.Now().Add(100 * time.Hour),
},
},
}
// Initialize test application
tApp.InitializeFromGenesisStates(authGS,
app.GenesisState{pricefeed.ModuleName: pricefeed.ModuleCdc.MustMarshalJSON(pricefeedGS)},
app.GenesisState{types.ModuleName: types.ModuleCdc.MustMarshalJSON(hardGS)})
// Mint coins to Hard module account
supplyKeeper := tApp.GetSupplyKeeper()
supplyKeeper.MintCoins(ctx, types.ModuleAccountName, tc.args.initialModuleCoins)
auctionKeeper := tApp.GetAuctionKeeper()
keeper := tApp.GetHardKeeper()
suite.app = tApp
suite.ctx = ctx
suite.keeper = keeper
suite.auctionKeeper = auctionKeeper
var err error
// Run begin blocker to set up state
hard.BeginBlocker(suite.ctx, suite.keeper)
// Deposit coins
err = suite.keeper.Deposit(suite.ctx, tc.args.borrower, tc.args.depositCoins)
suite.Require().NoError(err)
// Borrow coins
err = suite.keeper.Borrow(suite.ctx, tc.args.borrower, tc.args.borrowCoins)
suite.Require().NoError(err)
// Set up liquidation chain context and run begin blocker
runAtTime := time.Unix(suite.ctx.BlockTime().Unix()+(tc.args.liquidateAfter), 0)
liqCtx := suite.ctx.WithBlockTime(runAtTime)
hard.BeginBlocker(liqCtx, suite.keeper)
// Check borrow exists before liquidation
_, foundBorrowBefore := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().True(foundBorrowBefore)
// Check that the user's deposit exists before liquidation
_, foundDepositBefore := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().True(foundDepositBefore)
// Attempt to liquidate
err = suite.keeper.AttemptKeeperLiquidation(liqCtx, tc.args.keeper, tc.args.borrower)
if tc.errArgs.expectPass {
suite.Require().NoError(err)
// Check borrow does not exist after liquidation
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().False(foundBorrowAfter)
// Check deposits do not exist after liquidation
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().False(foundDepositAfter)
// Check that the keeper's balance increased by reward % of all the borrowed coins
accKeeper := suite.getAccountAtCtx(tc.args.keeper, liqCtx)
suite.Require().Equal(tc.args.expectedKeeperCoins, accKeeper.GetCoins())
// Check that borrower's balance contains the expected coins
accBorrower := suite.getAccountAtCtx(tc.args.borrower, liqCtx)
suite.Require().Equal(tc.args.expectedBorrowerCoins, accBorrower.GetCoins())
// Check that the expected auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(liqCtx)
suite.Require().True(len(auctions) > 0)
suite.Require().Equal(tc.args.expectedAuctions, auctions)
} else {
suite.Require().Error(err)
suite.Require().True(strings.Contains(err.Error(), tc.errArgs.contains))
// Check that the user's borrow exists
_, foundBorrowAfter := suite.keeper.GetBorrow(liqCtx, tc.args.borrower)
suite.Require().True(foundBorrowAfter)
// Check that the user's deposits exist
_, foundDepositAfter := suite.keeper.GetDeposit(liqCtx, tc.args.borrower)
suite.Require().True(foundDepositAfter)
// Check that no auctions have been created
auctions := suite.auctionKeeper.GetAllAuctions(liqCtx)
suite.Require().True(len(auctions) == 0)
}
})
}
}