Use sdk.Coin in cdp module (#466)

* Use sdk.Coin in cdp module
Co-authored-by: Federico Kunze <federico.kunze94@gmail.com>
Co-authored-by: Federico Kunze <31522760+fedekunze@users.noreply.github.com>
Co-authored-by: Denali Marsh <denali@kava.io>
Co-authored-by: John Maheswaran <john@noreply>
This commit is contained in:
Kevin Davis 2020-04-27 10:40:34 -04:00 committed by GitHub
parent b969a0ea33
commit ae4aee46ff
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
46 changed files with 1609 additions and 1028 deletions

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@ -126,8 +126,8 @@ func sendBtcCdp() {
// sender, collateral, principal
msg := cdp.NewMsgCreateCDP(
addr,
sdk.NewCoins(sdk.NewInt64Coin("btc", 200000000)),
sdk.NewCoins(sdk.NewInt64Coin("usdx", 10000000)),
sdk.NewInt64Coin("btc", 200000000),
sdk.NewInt64Coin("usdx", 10000000),
)
// helper methods for transactions
@ -159,8 +159,8 @@ func sendXrpCdp() {
// sender, collateral, principal
msg := cdp.NewMsgCreateCDP(
addr,
sdk.NewCoins(sdk.NewInt64Coin("xrp", 200000000)),
sdk.NewCoins(sdk.NewInt64Coin("usdx", 10000000)),
sdk.NewInt64Coin("xrp", 200000000),
sdk.NewInt64Coin("usdx", 10000000),
)
// helper methods for transactions

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@ -56,8 +56,7 @@ func BeginBlocker(ctx sdk.Context, req abci.RequestBeginBlock, k Keeper) {
}
distTimeElapsed := sdk.NewInt(ctx.BlockTime().Unix() - previousDistTime.Unix())
if distTimeElapsed.GTE(sdk.NewInt(int64(params.SavingsDistributionFrequency.Seconds()))) {
for _, dp := range params.DebtParams {
err := k.DistributeSavingsRate(ctx, dp.Denom)
err := k.DistributeSavingsRate(ctx, params.DebtParam.Denom)
if err != nil {
ctx.EventManager().EmitEvent(
sdk.NewEvent(
@ -67,7 +66,6 @@ func BeginBlocker(ctx sdk.Context, req abci.RequestBeginBlock, k Keeper) {
),
)
}
}
k.SetPreviousSavingsDistribution(ctx, ctx.BlockTime())
}
return

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@ -100,7 +100,7 @@ func (suite *ModuleTestSuite) createCdps() {
tracker.debt += int64(debt)
}
}
suite.Nil(suite.keeper.AddCdp(suite.ctx, addrs[j], cs(c(collateral, int64(amount))), cs(c("usdx", int64(debt)))))
suite.Nil(suite.keeper.AddCdp(suite.ctx, addrs[j], c(collateral, int64(amount)), c("usdx", int64(debt))))
c, f := suite.keeper.GetCDP(suite.ctx, collateral, uint64(j+1))
suite.True(f)
cdps[j] = c
@ -150,7 +150,7 @@ func (suite *ModuleTestSuite) TestBeginBlock() {
}
func (suite *ModuleTestSuite) TestSeizeSingleCdpWithFees() {
err := suite.keeper.AddCdp(suite.ctx, suite.addrs[0], cs(c("xrp", 10000000000)), cs(c("usdx", 1000000000)))
err := suite.keeper.AddCdp(suite.ctx, suite.addrs[0], c("xrp", 10000000000), c("usdx", 1000000000))
suite.NoError(err)
suite.Equal(i(1000000000), suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "usdx"))
sk := suite.app.GetSupplyKeeper()

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@ -50,22 +50,6 @@ var (
NewAugmentedCDP = types.NewAugmentedCDP
RegisterCodec = types.RegisterCodec
NewDeposit = types.NewDeposit
ErrCdpAlreadyExists = types.ErrCdpAlreadyExists
ErrInvalidCollateralLength = types.ErrInvalidCollateralLength
ErrCollateralNotSupported = types.ErrCollateralNotSupported
ErrDebtNotSupported = types.ErrDebtNotSupported
ErrExceedsDebtLimit = types.ErrExceedsDebtLimit
ErrInvalidCollateralRatio = types.ErrInvalidCollateralRatio
ErrCdpNotFound = types.ErrCdpNotFound
ErrDepositNotFound = types.ErrDepositNotFound
ErrInvalidDeposit = types.ErrInvalidDeposit
ErrInvalidPayment = types.ErrInvalidPayment
ErrDepositNotAvailable = types.ErrDepositNotAvailable
ErrInvalidCollateral = types.ErrInvalidCollateral
ErrInvalidWithdrawAmount = types.ErrInvalidWithdrawAmount
ErrCdpNotAvailable = types.ErrCdpNotAvailable
ErrBelowDebtFloor = types.ErrBelowDebtFloor
ErrLoadingAugmentedCDP = types.ErrLoadingAugmentedCDP
NewGenesisState = types.NewGenesisState
DefaultGenesisState = types.DefaultGenesisState
GetCdpIDBytes = types.GetCdpIDBytes
@ -102,6 +86,23 @@ var (
// variable aliases
ModuleCdc = types.ModuleCdc
ErrCdpAlreadyExists = types.ErrCdpAlreadyExists
ErrInvalidCollateralLength = types.ErrInvalidCollateralLength
ErrCollateralNotSupported = types.ErrCollateralNotSupported
ErrDebtNotSupported = types.ErrDebtNotSupported
ErrExceedsDebtLimit = types.ErrExceedsDebtLimit
ErrInvalidCollateralRatio = types.ErrInvalidCollateralRatio
ErrCdpNotFound = types.ErrCdpNotFound
ErrDepositNotFound = types.ErrDepositNotFound
ErrInvalidDeposit = types.ErrInvalidDeposit
ErrInvalidPayment = types.ErrInvalidPayment
ErrDepositNotAvailable = types.ErrDepositNotAvailable
ErrInvalidWithdrawAmount = types.ErrInvalidWithdrawAmount
ErrCdpNotAvailable = types.ErrCdpNotAvailable
ErrBelowDebtFloor = types.ErrBelowDebtFloor
ErrLoadingAugmentedCDP = types.ErrLoadingAugmentedCDP
ErrInvalidDebtRequest = types.ErrInvalidDebtRequest
ErrDenomPrefixNotFound = types.ErrDenomPrefixNotFound
CdpIDKeyPrefix = types.CdpIDKeyPrefix
CdpKeyPrefix = types.CdpKeyPrefix
CollateralRatioIndexPrefix = types.CollateralRatioIndexPrefix
@ -113,7 +114,7 @@ var (
PreviousDistributionTimeKey = types.PreviousDistributionTimeKey
KeyGlobalDebtLimit = types.KeyGlobalDebtLimit
KeyCollateralParams = types.KeyCollateralParams
KeyDebtParams = types.KeyDebtParams
KeyDebtParam = types.KeyDebtParam
KeyDistributionFrequency = types.KeyDistributionFrequency
KeyCircuitBreaker = types.KeyCircuitBreaker
KeyDebtThreshold = types.KeyDebtThreshold
@ -121,10 +122,11 @@ var (
DefaultGlobalDebt = types.DefaultGlobalDebt
DefaultCircuitBreaker = types.DefaultCircuitBreaker
DefaultCollateralParams = types.DefaultCollateralParams
DefaultDebtParams = types.DefaultDebtParams
DefaultDebtParam = types.DefaultDebtParam
DefaultCdpStartingID = types.DefaultCdpStartingID
DefaultDebtDenom = types.DefaultDebtDenom
DefaultGovDenom = types.DefaultGovDenom
DefaultStableDenom = types.DefaultStableDenom
DefaultSurplusThreshold = types.DefaultSurplusThreshold
DefaultDebtThreshold = types.DefaultDebtThreshold
DefaultPreviousDistributionTime = types.DefaultPreviousDistributionTime

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@ -53,11 +53,11 @@ $ %s tx %s create 10000000uatom 1000usdx --from myKeyName
cliCtx := context.NewCLIContext().WithCodec(cdc)
txBldr := auth.NewTxBuilderFromCLI(inBuf).WithTxEncoder(utils.GetTxEncoder(cdc))
collateral, err := sdk.ParseCoins(args[0])
collateral, err := sdk.ParseCoin(args[0])
if err != nil {
return err
}
debt, err := sdk.ParseCoins(args[1])
debt, err := sdk.ParseCoin(args[1])
if err != nil {
return err
}
@ -88,7 +88,7 @@ $ %s tx %s deposit kava15qdefkmwswysgg4qxgqpqr35k3m49pkx2jdfnw 10000000uatom --f
cliCtx := context.NewCLIContext().WithCodec(cdc)
txBldr := auth.NewTxBuilderFromCLI(inBuf).WithTxEncoder(utils.GetTxEncoder(cdc))
collateral, err := sdk.ParseCoins(args[1])
collateral, err := sdk.ParseCoin(args[1])
if err != nil {
return err
}
@ -123,7 +123,7 @@ $ %s tx %s withdraw kava15qdefkmwswysgg4qxgqpqr35k3m49pkx2jdfnw 10000000uatom --
cliCtx := context.NewCLIContext().WithCodec(cdc)
txBldr := auth.NewTxBuilderFromCLI(inBuf).WithTxEncoder(utils.GetTxEncoder(cdc))
collateral, err := sdk.ParseCoins(args[1])
collateral, err := sdk.ParseCoin(args[1])
if err != nil {
return err
}
@ -158,7 +158,7 @@ $ %s tx %s draw uatom 1000usdx --from myKeyName
cliCtx := context.NewCLIContext().WithCodec(cdc)
txBldr := auth.NewTxBuilderFromCLI(inBuf).WithTxEncoder(utils.GetTxEncoder(cdc))
debt, err := sdk.ParseCoins(args[1])
debt, err := sdk.ParseCoin(args[1])
if err != nil {
return err
}
@ -189,7 +189,7 @@ $ %s tx %s repay uatom 1000usdx --from myKeyName
cliCtx := context.NewCLIContext().WithCodec(cdc)
txBldr := auth.NewTxBuilderFromCLI(inBuf).WithTxEncoder(utils.GetTxEncoder(cdc))
payment, err := sdk.ParseCoins(args[1])
payment, err := sdk.ParseCoin(args[1])
if err != nil {
return err
}

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@ -18,8 +18,8 @@ func RegisterRoutes(cliCtx context.CLIContext, r *mux.Router) {
type PostCdpReq struct {
BaseReq rest.BaseReq `json:"base_req" yaml:"base_req"`
Sender sdk.AccAddress `json:"sender" yaml:"sender"`
Collateral sdk.Coins `json:"collateral" yaml:"collateral"`
Principal sdk.Coins `json:"principal" yaml:"principal"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"`
Principal sdk.Coin `json:"principal" yaml:"principal"`
}
// PostDepositReq defines the properties of cdp request's body.
@ -27,7 +27,7 @@ type PostDepositReq struct {
BaseReq rest.BaseReq `json:"base_req" yaml:"base_req"`
Owner sdk.AccAddress `json:"owner" yaml:"owner"`
Depositor sdk.AccAddress `json:"depositor" yaml:"depositor"`
Collateral sdk.Coins `json:"collateral" yaml:"collateral"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"`
}
// PostWithdrawalReq defines the properties of cdp request's body.
@ -35,7 +35,7 @@ type PostWithdrawalReq struct {
BaseReq rest.BaseReq `json:"base_req" yaml:"base_req"`
Owner sdk.AccAddress `json:"owner" yaml:"owner"`
Depositor sdk.AccAddress `json:"depositor" yaml:"depositor"`
Collateral sdk.Coins `json:"collateral" yaml:"collateral"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"`
}
// PostDrawReq defines the properties of cdp request's body.
@ -43,7 +43,7 @@ type PostDrawReq struct {
BaseReq rest.BaseReq `json:"base_req" yaml:"base_req"`
Owner sdk.AccAddress `json:"owner" yaml:"owner"`
Denom string `json:"denom" yaml:"denom"`
Principal sdk.Coins `json:"principal" yaml:"principal"`
Principal sdk.Coin `json:"principal" yaml:"principal"`
}
// PostRepayReq defines the properties of cdp request's body.
@ -51,5 +51,5 @@ type PostRepayReq struct {
BaseReq rest.BaseReq `json:"base_req" yaml:"base_req"`
Owner sdk.AccAddress `json:"owner" yaml:"owner"`
Denom string `json:"denom" yaml:"denom"`
Payment sdk.Coins `json:"payment" yaml:"payment"`
Payment sdk.Coin `json:"payment" yaml:"payment"`
}

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@ -46,9 +46,7 @@ func InitGenesis(ctx sdk.Context, k Keeper, pk PricefeedKeeper, sk SupplyKeeper,
// set the per second fee rate for each collateral type
for _, cp := range gs.Params.CollateralParams {
for _, dp := range gs.Params.DebtParams {
k.SetTotalPrincipal(ctx, cp.Denom, dp.Denom, sdk.ZeroInt())
}
k.SetTotalPrincipal(ctx, cp.Denom, gs.Params.DebtParam.Denom, sdk.ZeroInt())
}
// add cdps
@ -56,11 +54,14 @@ func InitGenesis(ctx sdk.Context, k Keeper, pk PricefeedKeeper, sk SupplyKeeper,
if cdp.ID == gs.StartingCdpID {
panic(fmt.Sprintf("starting cdp id is assigned to an existing cdp: %s", cdp))
}
k.SetCDP(ctx, cdp)
err := k.SetCDP(ctx, cdp)
if err != nil {
panic(fmt.Sprintf("error setting cdp: %v", err))
}
k.IndexCdpByOwner(ctx, cdp)
ratio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.IndexCdpByCollateralRatio(ctx, cdp.Collateral[0].Denom, cdp.ID, ratio)
k.IncrementTotalPrincipal(ctx, cdp.Collateral[0].Denom, cdp.Principal)
ratio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
k.IndexCdpByCollateralRatio(ctx, cdp.Collateral.Denom, cdp.ID, ratio)
k.IncrementTotalPrincipal(ctx, cdp.Collateral.Denom, cdp.Principal)
}
k.SetNextCdpID(ctx, gs.StartingCdpID)

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@ -1,12 +1,13 @@
package cdp_test
import (
"strings"
"testing"
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/kava-labs/kava/app"
"github.com/kava-labs/kava/x/cdp"
"github.com/stretchr/testify/suite"
)
@ -18,16 +19,86 @@ type GenesisTestSuite struct {
}
func (suite *GenesisTestSuite) TestInvalidGenState() {
tApp := app.NewTestApp()
for _, gs := range badGenStates() {
appGS := app.GenesisState{"cdp": cdp.ModuleCdc.MustMarshalJSON(gs.Genesis)}
suite.Panics(func() {
tApp.InitializeFromGenesisStates(
NewPricefeedGenStateMulti(),
appGS,
)
}, gs.Reason)
type args struct {
params cdp.Params
cdps cdp.CDPs
deposits cdp.Deposits
startingID uint64
debtDenom string
govDenom string
prevDistTime time.Time
}
type errArgs struct {
expectPass bool
contains string
}
type genesisTest struct {
name string
args args
errArgs errArgs
}
testCases := []struct {
name string
args args
errArgs errArgs
}{
{
name: "empty debt denom",
args: args{
params: cdp.DefaultParams(),
cdps: cdp.CDPs{},
deposits: cdp.Deposits{},
debtDenom: "",
govDenom: cdp.DefaultGovDenom,
prevDistTime: cdp.DefaultPreviousDistributionTime,
},
errArgs: errArgs{
expectPass: false,
contains: "debt denom invalid",
},
},
{
name: "empty gov denom",
args: args{
params: cdp.DefaultParams(),
cdps: cdp.CDPs{},
deposits: cdp.Deposits{},
debtDenom: cdp.DefaultDebtDenom,
govDenom: "",
prevDistTime: cdp.DefaultPreviousDistributionTime,
},
errArgs: errArgs{
expectPass: false,
contains: "gov denom invalid",
},
},
{
name: "empty distribution time",
args: args{
params: cdp.DefaultParams(),
cdps: cdp.CDPs{},
deposits: cdp.Deposits{},
debtDenom: cdp.DefaultDebtDenom,
govDenom: cdp.DefaultGovDenom,
prevDistTime: time.Time{},
},
errArgs: errArgs{
expectPass: false,
contains: "previous distribution time not set",
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
gs := cdp.NewGenesisState(tc.args.params, tc.args.cdps, tc.args.deposits, tc.args.startingID, tc.args.debtDenom, tc.args.govDenom, tc.args.prevDistTime)
err := gs.Validate()
if tc.errArgs.expectPass {
suite.Require().NoError(err)
} else {
suite.Require().Error(err)
suite.Require().True(strings.Contains(err.Error(), tc.errArgs.contains))
}
})
}
}

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@ -38,7 +38,7 @@ func handleMsgCreateCDP(ctx sdk.Context, k Keeper, msg MsgCreateCDP) (*sdk.Resul
sdk.NewAttribute(sdk.AttributeKeySender, msg.Sender.String()),
),
)
id, _ := k.GetCdpID(ctx, msg.Sender, msg.Collateral[0].Denom)
id, _ := k.GetCdpID(ctx, msg.Sender, msg.Collateral.Denom)
return &sdk.Result{
Data: GetCdpIDBytes(id),

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@ -43,8 +43,8 @@ func (suite *HandlerTestSuite) TestMsgCreateCdp() {
ak.SetAccount(suite.ctx, acc)
msg := cdp.NewMsgCreateCDP(
addrs[0],
cs(c("xrp", 200000000)),
cs(c("usdx", 10000000)),
c("xrp", 200000000),
c("usdx", 10000000),
)
res, err := suite.handler(suite.ctx, msg)
suite.Require().NoError(err)

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@ -39,7 +39,7 @@ func NewPricefeedGenState(asset string, price sdk.Dec) app.GenesisState {
func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
cdpGenesis := cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
@ -47,7 +47,7 @@ func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
{
Denom: asset,
LiquidationRatio: liquidationRatio,
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
LiquidationPenalty: d("0.05"),
AuctionSize: i(1000000000),
@ -56,8 +56,7 @@ func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
MarketID: asset + ":usd",
},
},
DebtParams: cdp.DebtParams{
{
DebtParam: cdp.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
@ -65,7 +64,6 @@ func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
SavingsRate: d("0.95"),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
GovDenom: cdp.DefaultGovDenom,
@ -103,7 +101,7 @@ func NewPricefeedGenStateMulti() app.GenesisState {
func NewCDPGenStateMulti() app.GenesisState {
cdpGenesis := cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000), sdk.NewInt64Coin("susd", 1000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
@ -111,7 +109,7 @@ func NewCDPGenStateMulti() app.GenesisState {
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("2.0"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("susd", 500000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 500000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
LiquidationPenalty: d("0.05"),
AuctionSize: i(7000000000),
@ -122,7 +120,7 @@ func NewCDPGenStateMulti() app.GenesisState {
{
Denom: "btc",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("susd", 500000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 500000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000000782997609"), // %2.5 apr
LiquidationPenalty: d("0.025"),
AuctionSize: i(10000000),
@ -131,22 +129,13 @@ func NewCDPGenStateMulti() app.GenesisState {
ConversionFactor: i(8),
},
},
DebtParams: cdp.DebtParams{
{
DebtParam: cdp.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
SavingsRate: d("0.95"),
},
{
Denom: "susd",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
SavingsRate: d("0.95"),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
@ -159,121 +148,10 @@ func NewCDPGenStateMulti() app.GenesisState {
func cdps() (cdps cdp.CDPs) {
_, addrs := app.GeneratePrivKeyAddressPairs(3)
c1 := cdp.NewCDP(uint64(1), addrs[0], sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(100000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(8000000))), tmtime.Canonical(time.Now()))
c2 := cdp.NewCDP(uint64(2), addrs[1], sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(100000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10000000))), tmtime.Canonical(time.Now()))
c3 := cdp.NewCDP(uint64(3), addrs[1], sdk.NewCoins(sdk.NewCoin("btc", sdk.NewInt(1000000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10000000))), tmtime.Canonical(time.Now()))
c4 := cdp.NewCDP(uint64(4), addrs[2], sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(1000000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(50000000))), tmtime.Canonical(time.Now()))
c1 := cdp.NewCDP(uint64(1), addrs[0], sdk.NewCoin("xrp", sdk.NewInt(100000000)), sdk.NewCoin("usdx", sdk.NewInt(8000000)), tmtime.Canonical(time.Now()))
c2 := cdp.NewCDP(uint64(2), addrs[1], sdk.NewCoin("xrp", sdk.NewInt(100000000)), sdk.NewCoin("usdx", sdk.NewInt(10000000)), tmtime.Canonical(time.Now()))
c3 := cdp.NewCDP(uint64(3), addrs[1], sdk.NewCoin("btc", sdk.NewInt(1000000000)), sdk.NewCoin("usdx", sdk.NewInt(10000000)), tmtime.Canonical(time.Now()))
c4 := cdp.NewCDP(uint64(4), addrs[2], sdk.NewCoin("xrp", sdk.NewInt(1000000000)), sdk.NewCoin("usdx", sdk.NewInt(50000000)), tmtime.Canonical(time.Now()))
cdps = append(cdps, c1, c2, c3, c4)
return
}
type badGenState struct {
Genesis cdp.GenesisState
Reason string
}
func badGenStates() []badGenState {
g1 := baseGenState()
g1.Params.CollateralParams[0].Denom = "btc"
g2 := baseGenState()
g2.Params.CollateralParams[0].Prefix = 0x21
g3 := baseGenState()
g3.Params.CollateralParams[0].DebtLimit = sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("lol", 500000000000))
g4 := baseGenState()
g4.Params.CollateralParams[0].DebtLimit = sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000001))
g5 := baseGenState()
g5.Params.CollateralParams[0].DebtLimit = sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000001), sdk.NewInt64Coin("susd", 500000000000))
g6 := baseGenState()
g6.Params.DebtParams[0].Denom = "susd"
g8 := baseGenState()
g8.Params.DebtParams = append(g8.Params.DebtParams, cdp.DebtParam{
Denom: "lol",
ReferenceAsset: "usd",
})
g9 := baseGenState()
g9.DebtDenom = ""
g10 := baseGenState()
g10.Params.CollateralParams[0].AuctionSize = i(-10)
g11 := baseGenState()
g11.Params.CollateralParams[0].LiquidationPenalty = d("5.0")
g12 := baseGenState()
g12.GovDenom = ""
g13 := baseGenState()
g13.Params.DebtParams[0].SavingsRate = d("4.0")
return []badGenState{
badGenState{Genesis: g1, Reason: "duplicate collateral denom"},
badGenState{Genesis: g2, Reason: "duplicate collateral prefix"},
badGenState{Genesis: g3, Reason: "invalid debt limit"},
badGenState{Genesis: g4, Reason: "single collateral exceeds debt limit"},
badGenState{Genesis: g5, Reason: "combined collateral exceeds debt limit"},
badGenState{Genesis: g6, Reason: "duplicate debt denom"},
badGenState{Genesis: g8, Reason: "debt param not found in global debt limit"},
badGenState{Genesis: g9, Reason: "debt denom not set"},
badGenState{Genesis: g10, Reason: "negative auction size"},
badGenState{Genesis: g11, Reason: "invalid liquidation penalty"},
badGenState{Genesis: g12, Reason: "gov denom not set"},
badGenState{Genesis: g13, Reason: "invalid savings rate"},
}
}
func baseGenState() cdp.GenesisState {
return cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000), sdk.NewInt64Coin("susd", 1000000000000)),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
CollateralParams: cdp.CollateralParams{
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("2.0"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("susd", 500000000000)),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
Prefix: 0x20,
MarketID: "xrp:usd",
ConversionFactor: i(6),
},
{
Denom: "btc",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("susd", 500000000000)),
StabilityFee: sdk.MustNewDecFromStr("1.000000000782997609"), // %2.5 apr
Prefix: 0x21,
MarketID: "btc:usd",
ConversionFactor: i(8),
},
},
DebtParams: cdp.DebtParams{
{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
},
{
Denom: "susd",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
GovDenom: cdp.DefaultGovDenom,
CDPs: cdp.CDPs{},
PreviousDistributionTime: cdp.DefaultPreviousDistributionTime,
}
}

View File

@ -12,11 +12,11 @@ const (
type partialDeposit struct {
Depositor sdk.AccAddress
Amount sdk.Coins
Amount sdk.Coin
DebtShare sdk.Int
}
func newPartialDeposit(depositor sdk.AccAddress, amount sdk.Coins, ds sdk.Int) partialDeposit {
func newPartialDeposit(depositor sdk.AccAddress, amount sdk.Coin, ds sdk.Int) partialDeposit {
return partialDeposit{
Depositor: depositor,
Amount: amount,
@ -29,7 +29,7 @@ type partialDeposits []partialDeposit
func (pd partialDeposits) SumCollateral() (sum sdk.Int) {
sum = sdk.ZeroInt()
for _, d := range pd {
sum = sum.Add(d.Amount[0].Amount)
sum = sum.Add(d.Amount.Amount)
}
return
}
@ -44,7 +44,7 @@ func (pd partialDeposits) SumDebt() (sum sdk.Int) {
// AuctionCollateral creates auctions from the input deposits which attempt to raise the corresponding amount of debt
func (k Keeper) AuctionCollateral(ctx sdk.Context, deposits types.Deposits, debt sdk.Int, bidDenom string) error {
auctionSize := k.getAuctionSize(ctx, deposits[0].Amount[0].Denom)
auctionSize := k.getAuctionSize(ctx, deposits[0].Amount.Denom)
partialAuctionDeposits := partialDeposits{}
totalCollateral := deposits.SumCollateral()
for totalCollateral.GT(sdk.ZeroInt()) {
@ -52,8 +52,8 @@ func (k Keeper) AuctionCollateral(ctx sdk.Context, deposits types.Deposits, debt
if dep.Amount.IsZero() {
continue
}
collateralAmount := dep.Amount[0].Amount
collateralDenom := dep.Amount[0].Denom
collateralAmount := dep.Amount.Amount
collateralDenom := dep.Amount.Denom
// create auctions from individual deposits that are larger than the auction size
debtChange, collateralChange, err := k.CreateAuctionsFromDeposit(ctx, dep, debt, totalCollateral, auctionSize, bidDenom)
if err != nil {
@ -61,7 +61,7 @@ func (k Keeper) AuctionCollateral(ctx sdk.Context, deposits types.Deposits, debt
}
debt = debt.Sub(debtChange)
totalCollateral = totalCollateral.Sub(collateralChange)
dep.Amount = sdk.NewCoins(sdk.NewCoin(collateralDenom, collateralAmount.Sub(collateralChange)))
dep.Amount = sdk.NewCoin(collateralDenom, collateralAmount.Sub(collateralChange))
collateralAmount = collateralAmount.Sub(collateralChange)
// if there is leftover collateral that is less than a lot
if !dep.Amount.IsZero() {
@ -73,11 +73,11 @@ func (k Keeper) AuctionCollateral(ctx sdk.Context, deposits types.Deposits, debt
// append the deposit to the partial deposits and zero out the deposit
pd := newPartialDeposit(dep.Depositor, dep.Amount, debtCoveredByDeposit)
partialAuctionDeposits = append(partialAuctionDeposits, pd)
dep.Amount = sdk.NewCoins(sdk.NewCoin(collateralDenom, sdk.ZeroInt()))
dep.Amount = sdk.NewCoin(collateralDenom, sdk.ZeroInt())
} else {
// if the sum of partial deposits now makes a lot
partialCollateral := sdk.NewCoins(sdk.NewCoin(collateralDenom, auctionSize.Sub(partialAuctionDeposits.SumCollateral())))
partialAmount := partialCollateral[0].Amount
partialCollateral := sdk.NewCoin(collateralDenom, auctionSize.Sub(partialAuctionDeposits.SumCollateral()))
partialAmount := partialCollateral.Amount
partialDebt := (partialAmount.Quo(collateralAmount)).Mul(debtCoveredByDeposit)
// create a partial deposit from the deposit
@ -93,7 +93,7 @@ func (k Keeper) AuctionCollateral(ctx sdk.Context, deposits types.Deposits, debt
totalCollateral = totalCollateral.Sub(collateralChange)
// reset partial deposits and update the deposit amount
partialAuctionDeposits = partialDeposits{}
dep.Amount = sdk.NewCoins(sdk.NewCoin(collateralDenom, collateralAmount.Sub(partialAmount)))
dep.Amount = sdk.NewCoin(collateralDenom, collateralAmount.Sub(partialAmount))
}
}
deposits[i] = dep
@ -110,11 +110,13 @@ func (k Keeper) AuctionCollateral(ctx sdk.Context, deposits types.Deposits, debt
}
// CreateAuctionsFromDeposit creates auctions from the input deposit until there is less than auctionSize left on the deposit
func (k Keeper) CreateAuctionsFromDeposit(ctx sdk.Context, dep types.Deposit, debt sdk.Int, totalCollateral sdk.Int, auctionSize sdk.Int, principalDenom string) (debtChange sdk.Int, collateralChange sdk.Int, err error) {
func (k Keeper) CreateAuctionsFromDeposit(
ctx sdk.Context, dep types.Deposit, debt sdk.Int, totalCollateral sdk.Int, auctionSize sdk.Int,
principalDenom string) (debtChange sdk.Int, collateralChange sdk.Int, err error) {
debtChange = sdk.ZeroInt()
collateralChange = sdk.ZeroInt()
depositAmount := dep.Amount[0].Amount
depositDenom := dep.Amount[0].Denom
depositAmount := dep.Amount.Amount
depositDenom := dep.Amount.Denom
for depositAmount.GTE(auctionSize) {
// figure out how much debt is covered by one lots worth of collateral
depositDebtAmount := (sdk.NewDecFromInt(auctionSize).Quo(sdk.NewDecFromInt(totalCollateral))).Mul(sdk.NewDecFromInt(debt)).RoundInt()
@ -142,13 +144,13 @@ func (k Keeper) CreateAuctionFromPartialDeposits(ctx sdk.Context, partialDeps pa
returnAddrs := []sdk.AccAddress{}
returnWeights := []sdk.Int{}
depositDenom := partialDeps[0].Amount[0].Denom
depositDenom := partialDeps[0].Amount.Denom
for _, pd := range partialDeps {
returnAddrs = append(returnAddrs, pd.Depositor)
returnWeights = append(returnWeights, pd.DebtShare)
}
penalty := k.ApplyLiquidationPenalty(ctx, depositDenom, partialDeps.SumDebt())
_, err = k.auctionKeeper.StartCollateralAuction(ctx, types.LiquidatorMacc, sdk.NewCoin(partialDeps[0].Amount[0].Denom, auctionSize), sdk.NewCoin(bidDenom, partialDeps.SumDebt().Add(penalty)), returnAddrs, returnWeights, sdk.NewCoin(k.GetDebtDenom(ctx), partialDeps.SumDebt()))
_, err = k.auctionKeeper.StartCollateralAuction(ctx, types.LiquidatorMacc, sdk.NewCoin(partialDeps[0].Amount.Denom, auctionSize), sdk.NewCoin(bidDenom, partialDeps.SumDebt().Add(penalty)), returnAddrs, returnWeights, sdk.NewCoin(k.GetDebtDenom(ctx), partialDeps.SumDebt()))
if err != nil {
return sdk.ZeroInt(), sdk.ZeroInt(), err
}
@ -166,28 +168,25 @@ func (k Keeper) NetSurplusAndDebt(ctx sdk.Context) error {
if netAmount.IsZero() {
return nil
}
// burn debt coins equal to netAmount
err := k.supplyKeeper.BurnCoins(ctx, types.LiquidatorMacc, sdk.NewCoins(sdk.NewCoin(k.GetDebtDenom(ctx), netAmount)))
if err != nil {
return err
}
for netAmount.GT(sdk.ZeroInt()) {
for _, dp := range k.GetParams(ctx).DebtParams {
// burn stable coins equal to netAmount
dp := k.GetParams(ctx).DebtParam
balance := k.supplyKeeper.GetModuleAccount(ctx, types.LiquidatorMacc).GetCoins().AmountOf(dp.Denom)
if balance.LT(netAmount) {
err = k.supplyKeeper.BurnCoins(ctx, types.LiquidatorMacc, sdk.NewCoins(sdk.NewCoin(dp.Denom, balance)))
if err != nil {
return err
}
netAmount = netAmount.Sub(balance)
} else {
return nil
}
err = k.supplyKeeper.BurnCoins(ctx, types.LiquidatorMacc, sdk.NewCoins(sdk.NewCoin(dp.Denom, netAmount)))
if err != nil {
return err
}
netAmount = sdk.ZeroInt()
}
}
}
return nil
}
@ -195,10 +194,9 @@ func (k Keeper) NetSurplusAndDebt(ctx sdk.Context) error {
func (k Keeper) GetTotalSurplus(ctx sdk.Context, accountName string) sdk.Int {
acc := k.supplyKeeper.GetModuleAccount(ctx, accountName)
totalSurplus := sdk.ZeroInt()
for _, dp := range k.GetParams(ctx).DebtParams {
dp := k.GetParams(ctx).DebtParam
surplus := acc.GetCoins().AmountOf(dp.Denom)
totalSurplus = totalSurplus.Add(surplus)
}
return totalSurplus
}
@ -221,15 +219,13 @@ func (k Keeper) RunSurplusAndDebtAuctions(ctx sdk.Context) error {
}
}
for _, dp := range params.DebtParams {
surplus := k.supplyKeeper.GetModuleAccount(ctx, types.LiquidatorMacc).GetCoins().AmountOf(dp.Denom)
surplus := k.supplyKeeper.GetModuleAccount(ctx, types.LiquidatorMacc).GetCoins().AmountOf(params.DebtParam.Denom)
if surplus.GTE(params.SurplusAuctionThreshold) {
surplusLot := sdk.NewCoin(dp.Denom, surplus)
surplusLot := sdk.NewCoin(params.DebtParam.Denom, surplus)
_, err := k.auctionKeeper.StartSurplusAuction(ctx, types.LiquidatorMacc, surplusLot, k.GetGovDenom(ctx))
if err != nil {
return err
}
}
}
return nil
}

View File

@ -14,26 +14,26 @@ import (
const BaseDigitFactor = 1000000000000000000
// AddCdp adds a cdp for a specific owner and collateral type
func (k Keeper) AddCdp(ctx sdk.Context, owner sdk.AccAddress, collateral sdk.Coins, principal sdk.Coins) error {
func (k Keeper) AddCdp(ctx sdk.Context, owner sdk.AccAddress, collateral sdk.Coin, principal sdk.Coin) error {
// validation
err := k.ValidateCollateral(ctx, collateral)
if err != nil {
return err
}
_, found := k.GetCdpByOwnerAndDenom(ctx, owner, collateral[0].Denom)
_, found := k.GetCdpByOwnerAndDenom(ctx, owner, collateral.Denom)
if found {
return sdkerrors.Wrapf(types.ErrCdpAlreadyExists, "owner %s, denom %s", owner, collateral[0].Denom)
return sdkerrors.Wrapf(types.ErrCdpAlreadyExists, "owner %s, denom %s", owner, collateral.Denom)
}
err = k.ValidatePrincipalAdd(ctx, principal)
if err != nil {
return err
}
err = k.ValidateDebtLimit(ctx, collateral[0].Denom, principal)
err = k.ValidateDebtLimit(ctx, collateral.Denom, principal)
if err != nil {
return err
}
err = k.ValidateCollateralizationRatio(ctx, collateral, principal, sdk.NewCoins())
err = k.ValidateCollateralizationRatio(ctx, collateral, principal, sdk.NewCoin(principal.Denom, sdk.ZeroInt()))
if err != nil {
return err
}
@ -42,17 +42,17 @@ func (k Keeper) AddCdp(ctx sdk.Context, owner sdk.AccAddress, collateral sdk.Coi
id := k.GetNextCdpID(ctx)
cdp := types.NewCDP(id, owner, collateral, principal, ctx.BlockHeader().Time)
deposit := types.NewDeposit(cdp.ID, owner, collateral)
err = k.supplyKeeper.SendCoinsFromAccountToModule(ctx, owner, types.ModuleName, collateral)
err = k.supplyKeeper.SendCoinsFromAccountToModule(ctx, owner, types.ModuleName, sdk.NewCoins(collateral))
if err != nil {
return err
}
// mint the principal and send to the owners account
err = k.supplyKeeper.MintCoins(ctx, types.ModuleName, principal)
err = k.supplyKeeper.MintCoins(ctx, types.ModuleName, sdk.NewCoins(principal))
if err != nil {
panic(err)
}
err = k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, owner, principal)
err = k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, owner, sdk.NewCoins(principal))
if err != nil {
panic(err)
}
@ -86,11 +86,14 @@ func (k Keeper) AddCdp(ctx sdk.Context, owner sdk.AccAddress, collateral sdk.Coi
)
// update total principal for input collateral type
k.IncrementTotalPrincipal(ctx, collateral[0].Denom, principal)
k.IncrementTotalPrincipal(ctx, collateral.Denom, principal)
// set the cdp, deposit, and indexes in the store
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, collateral, principal)
k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
err = k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
if err != nil {
return err
}
k.IndexCdpByOwner(ctx, cdp)
k.SetDeposit(ctx, deposit)
k.SetNextCdpID(ctx, id+1)
@ -98,18 +101,19 @@ func (k Keeper) AddCdp(ctx sdk.Context, owner sdk.AccAddress, collateral sdk.Coi
}
// SetCdpAndCollateralRatioIndex sets the cdp and collateral ratio index in the store
func (k Keeper) SetCdpAndCollateralRatioIndex(ctx sdk.Context, cdp types.CDP, ratio sdk.Dec) {
k.SetCDP(ctx, cdp)
k.IndexCdpByCollateralRatio(ctx, cdp.Collateral[0].Denom, cdp.ID, ratio)
func (k Keeper) SetCdpAndCollateralRatioIndex(ctx sdk.Context, cdp types.CDP, ratio sdk.Dec) error {
err := k.SetCDP(ctx, cdp)
if err != nil {
return err
}
k.IndexCdpByCollateralRatio(ctx, cdp.Collateral.Denom, cdp.ID, ratio)
return nil
}
// MintDebtCoins mints debt coins in the cdp module account
func (k Keeper) MintDebtCoins(ctx sdk.Context, moduleAccount string, denom string, principalCoins sdk.Coins) error {
coinsToMint := sdk.NewCoins()
for _, sc := range principalCoins {
coinsToMint = coinsToMint.Add(sdk.NewCoin(denom, sc.Amount))
}
err := k.supplyKeeper.MintCoins(ctx, moduleAccount, coinsToMint)
func (k Keeper) MintDebtCoins(ctx sdk.Context, moduleAccount string, denom string, principalCoins sdk.Coin) error {
debtCoins := sdk.NewCoins(sdk.NewCoin(denom, principalCoins.Amount))
err := k.supplyKeeper.MintCoins(ctx, moduleAccount, debtCoins)
if err != nil {
return err
}
@ -117,12 +121,9 @@ func (k Keeper) MintDebtCoins(ctx sdk.Context, moduleAccount string, denom strin
}
// BurnDebtCoins burns debt coins from the cdp module account
func (k Keeper) BurnDebtCoins(ctx sdk.Context, moduleAccount string, denom string, paymentCoins sdk.Coins) error {
coinsToBurn := sdk.NewCoins()
for _, pc := range paymentCoins {
coinsToBurn = coinsToBurn.Add(sdk.NewCoin(denom, pc.Amount))
}
err := k.supplyKeeper.BurnCoins(ctx, moduleAccount, coinsToBurn)
func (k Keeper) BurnDebtCoins(ctx sdk.Context, moduleAccount string, denom string, paymentCoins sdk.Coin) error {
debtCoins := sdk.NewCoins(sdk.NewCoin(denom, paymentCoins.Amount))
err := k.supplyKeeper.BurnCoins(ctx, moduleAccount, debtCoins)
if err != nil {
return err
}
@ -178,7 +179,10 @@ func (k Keeper) GetCdpByOwnerAndDenom(ctx sdk.Context, owner sdk.AccAddress, den
func (k Keeper) GetCDP(ctx sdk.Context, collateralDenom string, cdpID uint64) (types.CDP, bool) {
// get store
store := prefix.NewStore(ctx.KVStore(k.key), types.CdpKeyPrefix)
db, _ := k.GetDenomPrefix(ctx, collateralDenom)
db, found := k.GetDenomPrefix(ctx, collateralDenom)
if !found {
return types.CDP{}, false
}
// get CDP
bz := store.Get(types.CdpKey(db, cdpID))
// unmarshal
@ -191,19 +195,26 @@ func (k Keeper) GetCDP(ctx sdk.Context, collateralDenom string, cdpID uint64) (t
}
// SetCDP sets a cdp in the store
func (k Keeper) SetCDP(ctx sdk.Context, cdp types.CDP) {
func (k Keeper) SetCDP(ctx sdk.Context, cdp types.CDP) error {
store := prefix.NewStore(ctx.KVStore(k.key), types.CdpKeyPrefix)
db, _ := k.GetDenomPrefix(ctx, cdp.Collateral[0].Denom)
db, found := k.GetDenomPrefix(ctx, cdp.Collateral.Denom)
if !found {
sdkerrors.Wrapf(types.ErrDenomPrefixNotFound, "%s", cdp.Collateral.Denom)
}
bz := k.cdc.MustMarshalBinaryLengthPrefixed(cdp)
store.Set(types.CdpKey(db, cdp.ID), bz)
return
return nil
}
// DeleteCDP deletes a cdp from the store
func (k Keeper) DeleteCDP(ctx sdk.Context, cdp types.CDP) {
func (k Keeper) DeleteCDP(ctx sdk.Context, cdp types.CDP) error {
store := prefix.NewStore(ctx.KVStore(k.key), types.CdpKeyPrefix)
db, _ := k.GetDenomPrefix(ctx, cdp.Collateral[0].Denom)
db, found := k.GetDenomPrefix(ctx, cdp.Collateral.Denom)
if !found {
sdkerrors.Wrapf(types.ErrDenomPrefixNotFound, "%s", cdp.Collateral.Denom)
}
store.Delete(types.CdpKey(db, cdp.ID))
return nil
}
@ -341,118 +352,99 @@ func (k Keeper) SetGovDenom(ctx sdk.Context, denom string) {
}
// ValidateCollateral validates that a collateral is valid for use in cdps
func (k Keeper) ValidateCollateral(ctx sdk.Context, collateral sdk.Coins) error {
if len(collateral) != 1 {
return sdkerrors.Wrapf(types.ErrInvalidCollateralLength, "%d", len(collateral))
}
_, found := k.GetCollateral(ctx, collateral[0].Denom)
func (k Keeper) ValidateCollateral(ctx sdk.Context, collateral sdk.Coin) error {
_, found := k.GetCollateral(ctx, collateral.Denom)
if !found {
return sdkerrors.Wrap(types.ErrCollateralNotSupported, collateral[0].Denom)
return sdkerrors.Wrap(types.ErrCollateralNotSupported, collateral.Denom)
}
return nil
}
// ValidatePrincipalAdd validates that an asset is valid for use as debt when creating a new cdp
func (k Keeper) ValidatePrincipalAdd(ctx sdk.Context, principal sdk.Coins) error {
for _, dc := range principal {
dp, found := k.GetDebtParam(ctx, dc.Denom)
func (k Keeper) ValidatePrincipalAdd(ctx sdk.Context, principal sdk.Coin) error {
dp, found := k.GetDebtParam(ctx, principal.Denom)
if !found {
return sdkerrors.Wrap(types.ErrDebtNotSupported, dc.Denom)
}
if dc.Amount.LT(dp.DebtFloor) {
return sdkerrors.Wrapf(types.ErrBelowDebtFloor, "proposed %s < minimum %s", dc, dp.DebtFloor)
return sdkerrors.Wrap(types.ErrDebtNotSupported, principal.Denom)
}
if principal.Amount.LT(dp.DebtFloor) {
return sdkerrors.Wrapf(types.ErrBelowDebtFloor, "proposed %s < minimum %s", principal, dp.DebtFloor)
}
return nil
}
// ValidatePrincipalDraw validates that an asset is valid for use as debt when drawing debt off an existing cdp
func (k Keeper) ValidatePrincipalDraw(ctx sdk.Context, principal sdk.Coins) error {
for _, dc := range principal {
_, found := k.GetDebtParam(ctx, dc.Denom)
if !found {
return sdkerrors.Wrap(types.ErrDebtNotSupported, dc.Denom)
func (k Keeper) ValidatePrincipalDraw(ctx sdk.Context, principal sdk.Coin, expectedDenom string) error {
if principal.Denom != expectedDenom {
return sdkerrors.Wrapf(types.ErrInvalidDebtRequest, "proposed %s, expected %s", principal.Denom, expectedDenom)
}
_, found := k.GetDebtParam(ctx, principal.Denom)
if !found {
return sdkerrors.Wrap(types.ErrDebtNotSupported, principal.Denom)
}
return nil
}
// ValidateDebtLimit validates that the input debt amount does not exceed the global debt limit or the debt limit for that collateral
func (k Keeper) ValidateDebtLimit(ctx sdk.Context, collateralDenom string, principal sdk.Coins) error {
func (k Keeper) ValidateDebtLimit(ctx sdk.Context, collateralDenom string, principal sdk.Coin) error {
cp, found := k.GetCollateral(ctx, collateralDenom)
if !found {
return sdkerrors.Wrap(types.ErrCollateralNotSupported, collateralDenom)
}
for _, dc := range principal {
totalPrincipal := k.GetTotalPrincipal(ctx, collateralDenom, dc.Denom).Add(dc.Amount)
collateralLimit := cp.DebtLimit.AmountOf(dc.Denom)
totalPrincipal := k.GetTotalPrincipal(ctx, collateralDenom, principal.Denom).Add(principal.Amount)
collateralLimit := cp.DebtLimit.Amount
if totalPrincipal.GT(collateralLimit) {
return sdkerrors.Wrapf(types.ErrExceedsDebtLimit, "debt increase %s > collateral debt limit %s", sdk.NewCoins(sdk.NewCoin(dc.Denom, totalPrincipal)), sdk.NewCoins(sdk.NewCoin(dc.Denom, collateralLimit)))
return sdkerrors.Wrapf(types.ErrExceedsDebtLimit, "debt increase %s > collateral debt limit %s", sdk.NewCoins(sdk.NewCoin(principal.Denom, totalPrincipal)), sdk.NewCoins(sdk.NewCoin(principal.Denom, collateralLimit)))
}
globalLimit := k.GetParams(ctx).GlobalDebtLimit.AmountOf(dc.Denom)
globalLimit := k.GetParams(ctx).GlobalDebtLimit.Amount
if totalPrincipal.GT(globalLimit) {
return sdkerrors.Wrapf(types.ErrExceedsDebtLimit, "debt increase %s > global debt limit %s", sdk.NewCoin(dc.Denom, totalPrincipal), sdk.NewCoin(dc.Denom, globalLimit))
}
return sdkerrors.Wrapf(types.ErrExceedsDebtLimit, "debt increase %s > global debt limit %s", sdk.NewCoin(principal.Denom, totalPrincipal), sdk.NewCoin(principal.Denom, globalLimit))
}
return nil
}
// ValidateCollateralizationRatio validate that adding the input principal doesn't put the cdp below the liquidation ratio
func (k Keeper) ValidateCollateralizationRatio(ctx sdk.Context, collateral sdk.Coins, principal sdk.Coins, fees sdk.Coins) error {
func (k Keeper) ValidateCollateralizationRatio(ctx sdk.Context, collateral sdk.Coin, principal sdk.Coin, fees sdk.Coin) error {
//
collateralizationRatio, err := k.CalculateCollateralizationRatio(ctx, collateral, principal, fees)
if err != nil {
return err
}
liquidationRatio := k.getLiquidationRatio(ctx, collateral[0].Denom)
liquidationRatio := k.getLiquidationRatio(ctx, collateral.Denom)
if collateralizationRatio.LT(liquidationRatio) {
return sdkerrors.Wrapf(types.ErrInvalidCollateralRatio, "collateral %s, collateral ratio %s, liquidation ratio %s", collateral[0].Denom, collateralizationRatio, liquidationRatio)
return sdkerrors.Wrapf(types.ErrInvalidCollateralRatio, "collateral %s, collateral ratio %s, liquidation ratio %s", collateral.Denom, collateralizationRatio, liquidationRatio)
}
return nil
}
// CalculateCollateralToDebtRatio returns the collateral to debt ratio of the input collateral and debt amounts
func (k Keeper) CalculateCollateralToDebtRatio(ctx sdk.Context, collateral sdk.Coins, debt sdk.Coins) sdk.Dec {
debtTotal := sdk.ZeroDec()
for _, dc := range debt {
debtBaseUnits := k.convertDebtToBaseUnits(ctx, dc)
debtTotal = debtTotal.Add(debtBaseUnits)
}
func (k Keeper) CalculateCollateralToDebtRatio(ctx sdk.Context, collateral sdk.Coin, debt sdk.Coin) sdk.Dec {
debtTotal := k.convertDebtToBaseUnits(ctx, debt)
if debtTotal.IsZero() || debtTotal.GTE(types.MaxSortableDec) {
return types.MaxSortableDec.Sub(sdk.SmallestDec())
}
collateralBaseUnits := k.convertCollateralToBaseUnits(ctx, collateral[0])
collateralBaseUnits := k.convertCollateralToBaseUnits(ctx, collateral)
return collateralBaseUnits.Quo(debtTotal)
}
// LoadAugmentedCDP creates a new augmented CDP from an existing CDP
func (k Keeper) LoadAugmentedCDP(ctx sdk.Context, cdp types.CDP) (types.AugmentedCDP, error) {
// calculate additional fees
periods := sdk.NewInt(ctx.BlockTime().Unix()).Sub(sdk.NewInt(cdp.FeesUpdated.Unix()))
fees := k.CalculateFees(ctx, cdp.Principal.Add(cdp.AccumulatedFees...), periods, cdp.Collateral[0].Denom)
totalFees := cdp.AccumulatedFees.Add(fees...)
// calculate collateralization ratio
collateralizationRatio, err := k.CalculateCollateralizationRatio(ctx, cdp.Collateral, cdp.Principal, totalFees)
collateralizationRatio, err := k.CalculateCollateralizationRatio(ctx, cdp.Collateral, cdp.Principal, cdp.AccumulatedFees)
if err != nil {
return types.AugmentedCDP{}, err
}
// total debt is the sum of all oustanding principal and fees
var totalDebt int64
for _, principalCoin := range cdp.Principal {
totalDebt += principalCoin.Amount.Int64()
}
for _, feeCoin := range cdp.AccumulatedFees.Add(fees...) {
totalDebt += feeCoin.Amount.Int64()
}
totalDebt += cdp.Principal.Amount.Int64()
totalDebt += cdp.AccumulatedFees.Amount.Int64()
// convert collateral value to debt coin
debtBaseAdjusted := sdk.NewDec(totalDebt).QuoInt64(BaseDigitFactor)
collateralValueInDebtDenom := collateralizationRatio.Mul(debtBaseAdjusted)
collateralValueInDebt := sdk.NewInt64Coin(cdp.Principal[0].Denom, collateralValueInDebtDenom.Int64())
collateralValueInDebt := sdk.NewInt64Coin(cdp.Principal.Denom, collateralValueInDebtDenom.Int64())
// create new augmuented cdp
augmentedCDP := types.NewAugmentedCDP(cdp, collateralValueInDebt, collateralizationRatio)
@ -460,27 +452,23 @@ func (k Keeper) LoadAugmentedCDP(ctx sdk.Context, cdp types.CDP) (types.Augmente
}
// CalculateCollateralizationRatio returns the collateralization ratio of the input collateral to the input debt plus fees
func (k Keeper) CalculateCollateralizationRatio(ctx sdk.Context, collateral sdk.Coins, principal sdk.Coins, fees sdk.Coins) (sdk.Dec, error) {
func (k Keeper) CalculateCollateralizationRatio(ctx sdk.Context, collateral sdk.Coin, principal sdk.Coin, fees sdk.Coin) (sdk.Dec, error) {
if collateral.IsZero() {
return sdk.ZeroDec(), nil
}
marketID := k.getMarketID(ctx, collateral[0].Denom)
marketID := k.getMarketID(ctx, collateral.Denom)
price, err := k.pricefeedKeeper.GetCurrentPrice(ctx, marketID)
if err != nil {
return sdk.Dec{}, err
}
collateralBaseUnits := k.convertCollateralToBaseUnits(ctx, collateral[0])
collateralBaseUnits := k.convertCollateralToBaseUnits(ctx, collateral)
collateralValue := collateralBaseUnits.Mul(price.Price)
principalTotal := sdk.ZeroDec()
for _, pc := range principal {
prinicpalBaseUnits := k.convertDebtToBaseUnits(ctx, pc)
principalTotal = principalTotal.Add(prinicpalBaseUnits)
}
for _, fc := range fees {
feeBaseUnits := k.convertDebtToBaseUnits(ctx, fc)
prinicpalBaseUnits := k.convertDebtToBaseUnits(ctx, principal)
principalTotal := prinicpalBaseUnits
feeBaseUnits := k.convertDebtToBaseUnits(ctx, fees)
principalTotal = principalTotal.Add(feeBaseUnits)
}
collateralRatio := collateralValue.Quo(principalTotal)
return collateralRatio, nil
}

View File

@ -44,27 +44,29 @@ func (suite *CdpTestSuite) TestAddCdp() {
acc := ak.NewAccountWithAddress(suite.ctx, addrs[0])
acc.SetCoins(cs(c("xrp", 200000000), c("btc", 500000000)))
ak.SetAccount(suite.ctx, acc)
err := suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 200000000)), cs(c("usdx", 26000000)))
err := suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 200000000), c("usdx", 26000000))
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralRatio))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 500000000)), cs(c("usdx", 26000000)))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 500000000), c("usdx", 26000000))
suite.Error(err) // insufficient balance
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 200000000)), cs(c("xusd", 10000000)))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 200000000), c("xusd", 10000000))
suite.Require().True(errors.Is(err, types.ErrDebtNotSupported))
acc2 := ak.NewAccountWithAddress(suite.ctx, addrs[1])
acc2.SetCoins(cs(c("btc", 500000000000)))
ak.SetAccount(suite.ctx, acc2)
err = suite.keeper.AddCdp(suite.ctx, addrs[1], cs(c("btc", 500000000000)), cs(c("usdx", 500000000001)))
err = suite.keeper.AddCdp(suite.ctx, addrs[1], c("btc", 500000000000), c("usdx", 500000000001))
suite.Require().True(errors.Is(err, types.ErrExceedsDebtLimit))
ctx := suite.ctx.WithBlockTime(suite.ctx.BlockTime().Add(time.Hour * 2))
pk := suite.app.GetPriceFeedKeeper()
_ = pk.SetCurrentPrices(ctx, "xrp:usd")
err = suite.keeper.AddCdp(ctx, addrs[0], cs(c("xrp", 100000000)), cs(c("usdx", 10000000)))
err = pk.SetCurrentPrices(ctx, "xrp:usd")
suite.Error(err)
err = suite.keeper.AddCdp(ctx, addrs[0], c("xrp", 100000000), c("usdx", 10000000))
suite.Error(err) // no prices in pricefeed
_ = pk.SetCurrentPrices(suite.ctx, "xrp:usd")
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 100000000)), cs(c("usdx", 10000000)))
err = pk.SetCurrentPrices(suite.ctx, "xrp:usd")
suite.NoError(err)
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 100000000), c("usdx", 10000000))
suite.NoError(err)
id := suite.keeper.GetNextCdpID(suite.ctx)
suite.Equal(uint64(2), id)
@ -76,10 +78,10 @@ func (suite *CdpTestSuite) TestAddCdp() {
acc = ak.GetAccount(suite.ctx, addrs[0])
suite.Equal(cs(c("usdx", 10000000), c("xrp", 100000000), c("btc", 500000000)), acc.GetCoins())
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("btc", 500000000)), cs(c("usdx", 26667000000)))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("btc", 500000000), c("usdx", 26667000000))
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralRatio))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("btc", 500000000)), cs(c("usdx", 100000000)))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("btc", 500000000), c("usdx", 100000000))
suite.NoError(err)
id = suite.keeper.GetNextCdpID(suite.ctx)
suite.Equal(uint64(3), id)
@ -90,9 +92,9 @@ func (suite *CdpTestSuite) TestAddCdp() {
acc = ak.GetAccount(suite.ctx, addrs[0])
suite.Equal(cs(c("usdx", 110000000), c("xrp", 100000000)), acc.GetCoins())
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("lol", 100)), cs(c("usdx", 10)))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("lol", 100), c("usdx", 10))
suite.Require().True(errors.Is(err, types.ErrCollateralNotSupported))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 100)), cs(c("usdx", 10)))
err = suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 100), c("usdx", 10))
suite.Require().True(errors.Is(err, types.ErrCdpAlreadyExists))
}
@ -120,8 +122,9 @@ func (suite *CdpTestSuite) TestGetNextCdpID() {
func (suite *CdpTestSuite) TestGetSetCdp() {
_, addrs := app.GeneratePrivKeyAddressPairs(1)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 1)), cs(c("usdx", 1)), tmtime.Canonical(time.Now()))
suite.keeper.SetCDP(suite.ctx, cdp)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], c("xrp", 1), c("usdx", 1), tmtime.Canonical(time.Now()))
err := suite.keeper.SetCDP(suite.ctx, cdp)
suite.NoError(err)
t, found := suite.keeper.GetCDP(suite.ctx, "xrp", types.DefaultCdpStartingID)
suite.True(found)
@ -135,8 +138,9 @@ func (suite *CdpTestSuite) TestGetSetCdp() {
func (suite *CdpTestSuite) TestGetSetCdpId() {
_, addrs := app.GeneratePrivKeyAddressPairs(2)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 1)), cs(c("usdx", 1)), tmtime.Canonical(time.Now()))
suite.keeper.SetCDP(suite.ctx, cdp)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], c("xrp", 1), c("usdx", 1), tmtime.Canonical(time.Now()))
err := suite.keeper.SetCDP(suite.ctx, cdp)
suite.NoError(err)
suite.keeper.IndexCdpByOwner(suite.ctx, cdp)
id, found := suite.keeper.GetCdpID(suite.ctx, addrs[0], "xrp")
suite.True(found)
@ -149,8 +153,9 @@ func (suite *CdpTestSuite) TestGetSetCdpId() {
func (suite *CdpTestSuite) TestGetSetCdpByOwnerAndDenom() {
_, addrs := app.GeneratePrivKeyAddressPairs(2)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 1)), cs(c("usdx", 1)), tmtime.Canonical(time.Now()))
suite.keeper.SetCDP(suite.ctx, cdp)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], c("xrp", 1), c("usdx", 1), tmtime.Canonical(time.Now()))
err := suite.keeper.SetCDP(suite.ctx, cdp)
suite.NoError(err)
suite.keeper.IndexCdpByOwner(suite.ctx, cdp)
t, found := suite.keeper.GetCdpByOwnerAndDenom(suite.ctx, addrs[0], "xrp")
suite.True(found)
@ -164,31 +169,29 @@ func (suite *CdpTestSuite) TestGetSetCdpByOwnerAndDenom() {
func (suite *CdpTestSuite) TestCalculateCollateralToDebtRatio() {
_, addrs := app.GeneratePrivKeyAddressPairs(1)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 3)), cs(c("usdx", 1)), tmtime.Canonical(time.Now()))
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], c("xrp", 3), c("usdx", 1), tmtime.Canonical(time.Now()))
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, cdp.Collateral, cdp.Principal)
suite.Equal(sdk.MustNewDecFromStr("3.0"), cr)
cdp = types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 1)), cs(c("usdx", 2)), tmtime.Canonical(time.Now()))
cdp = types.NewCDP(types.DefaultCdpStartingID, addrs[0], c("xrp", 1), c("usdx", 2), tmtime.Canonical(time.Now()))
cr = suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, cdp.Collateral, cdp.Principal)
suite.Equal(sdk.MustNewDecFromStr("0.5"), cr)
cdp = types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 3)), cs(c("usdx", 1), c("susd", 2)), tmtime.Canonical(time.Now()))
cr = suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, cdp.Collateral, cdp.Principal)
suite.Equal(sdk.MustNewDecFromStr("1"), cr)
}
func (suite *CdpTestSuite) TestSetCdpByCollateralRatio() {
_, addrs := app.GeneratePrivKeyAddressPairs(1)
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], cs(c("xrp", 3)), cs(c("usdx", 1)), tmtime.Canonical(time.Now()))
cdp := types.NewCDP(types.DefaultCdpStartingID, addrs[0], c("xrp", 3), c("usdx", 1), tmtime.Canonical(time.Now()))
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, cdp.Collateral, cdp.Principal)
suite.NotPanics(func() { suite.keeper.IndexCdpByCollateralRatio(suite.ctx, cdp.Collateral[0].Denom, cdp.ID, cr) })
suite.NotPanics(func() { suite.keeper.IndexCdpByCollateralRatio(suite.ctx, cdp.Collateral.Denom, cdp.ID, cr) })
}
func (suite *CdpTestSuite) TestIterateCdps() {
cdps := cdps()
for _, c := range cdps {
suite.keeper.SetCDP(suite.ctx, c)
err := suite.keeper.SetCDP(suite.ctx, c)
suite.NoError(err)
suite.keeper.IndexCdpByOwner(suite.ctx, c)
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, c.Collateral, c.Principal)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral[0].Denom, c.ID, cr)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral.Denom, c.ID, cr)
}
t := suite.keeper.GetAllCdps(suite.ctx)
suite.Equal(4, len(t))
@ -197,10 +200,11 @@ func (suite *CdpTestSuite) TestIterateCdps() {
func (suite *CdpTestSuite) TestIterateCdpsByDenom() {
cdps := cdps()
for _, c := range cdps {
suite.keeper.SetCDP(suite.ctx, c)
err := suite.keeper.SetCDP(suite.ctx, c)
suite.NoError(err)
suite.keeper.IndexCdpByOwner(suite.ctx, c)
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, c.Collateral, c.Principal)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral[0].Denom, c.ID, cr)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral.Denom, c.ID, cr)
}
xrpCdps := suite.keeper.GetAllCdpsByDenom(suite.ctx, "xrp")
suite.Equal(3, len(xrpCdps))
@ -221,10 +225,11 @@ func (suite *CdpTestSuite) TestIterateCdpsByDenom() {
func (suite *CdpTestSuite) TestIterateCdpsByCollateralRatio() {
cdps := cdps()
for _, c := range cdps {
suite.keeper.SetCDP(suite.ctx, c)
err := suite.keeper.SetCDP(suite.ctx, c)
suite.NoError(err)
suite.keeper.IndexCdpByOwner(suite.ctx, c)
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, c.Collateral, c.Principal)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral[0].Denom, c.ID, cr)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral.Denom, c.ID, cr)
}
xrpCdps := suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("1.25"))
suite.Equal(0, len(xrpCdps))
@ -237,51 +242,46 @@ func (suite *CdpTestSuite) TestIterateCdpsByCollateralRatio() {
suite.keeper.DeleteCDP(suite.ctx, cdps[0])
suite.keeper.RemoveCdpOwnerIndex(suite.ctx, cdps[0])
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, cdps[0].Collateral, cdps[0].Principal)
suite.keeper.RemoveCdpCollateralRatioIndex(suite.ctx, cdps[0].Collateral[0].Denom, cdps[0].ID, cr)
suite.keeper.RemoveCdpCollateralRatioIndex(suite.ctx, cdps[0].Collateral.Denom, cdps[0].ID, cr)
xrpCdps = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("2.0").Add(sdk.SmallestDec()))
suite.Equal(1, len(xrpCdps))
}
func (suite *CdpTestSuite) TestValidateCollateral() {
c := sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(1)))
c := sdk.NewCoin("xrp", sdk.NewInt(1))
err := suite.keeper.ValidateCollateral(suite.ctx, c)
suite.NoError(err)
c = sdk.NewCoins(sdk.NewCoin("lol", sdk.NewInt(1)))
c = sdk.NewCoin("lol", sdk.NewInt(1))
err = suite.keeper.ValidateCollateral(suite.ctx, c)
suite.Require().True(errors.Is(err, types.ErrCollateralNotSupported))
c = sdk.NewCoins(sdk.NewCoin(sdk.DefaultBondDenom, sdk.NewInt(1)), sdk.NewCoin("xrp", sdk.NewInt(1)))
err = suite.keeper.ValidateCollateral(suite.ctx, c)
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralLength))
}
func (suite *CdpTestSuite) TestValidatePrincipal() {
d := sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10000000)))
d := sdk.NewCoin("usdx", sdk.NewInt(10000000))
err := suite.keeper.ValidatePrincipalAdd(suite.ctx, d)
suite.NoError(err)
d = sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10000000)), sdk.NewCoin("susd", sdk.NewInt(10000000)))
err = suite.keeper.ValidatePrincipalAdd(suite.ctx, d)
suite.NoError(err)
d = sdk.NewCoins(sdk.NewCoin("xusd", sdk.NewInt(1)))
d = sdk.NewCoin("xusd", sdk.NewInt(1))
err = suite.keeper.ValidatePrincipalAdd(suite.ctx, d)
suite.Require().True(errors.Is(err, types.ErrDebtNotSupported))
d = sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(1000000000001)))
d = sdk.NewCoin("usdx", sdk.NewInt(1000000000001))
err = suite.keeper.ValidateDebtLimit(suite.ctx, "xrp", d)
suite.Require().True(errors.Is(err, types.ErrExceedsDebtLimit))
d = sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(100000000)))
d = sdk.NewCoin("usdx", sdk.NewInt(100000000))
err = suite.keeper.ValidateDebtLimit(suite.ctx, "xrp", d)
suite.NoError(err)
}
func (suite *CdpTestSuite) TestCalculateCollateralizationRatio() {
c := cdps()[1]
suite.keeper.SetCDP(suite.ctx, c)
err := suite.keeper.SetCDP(suite.ctx, c)
suite.NoError(err)
suite.keeper.IndexCdpByOwner(suite.ctx, c)
cr := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, c.Collateral, c.Principal)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral[0].Denom, c.ID, cr)
cr, err := suite.keeper.CalculateCollateralizationRatio(suite.ctx, c.Collateral, c.Principal, c.AccumulatedFees)
suite.keeper.IndexCdpByCollateralRatio(suite.ctx, c.Collateral.Denom, c.ID, cr)
cr, err = suite.keeper.CalculateCollateralizationRatio(suite.ctx, c.Collateral, c.Principal, c.AccumulatedFees)
suite.NoError(err)
suite.Equal(d("2.5"), cr)
c.AccumulatedFees = sdk.NewCoins(sdk.NewCoin("usdx", i(10000000)))
c.AccumulatedFees = sdk.NewCoin("usdx", i(10000000))
cr, err = suite.keeper.CalculateCollateralizationRatio(suite.ctx, c.Collateral, c.Principal, c.AccumulatedFees)
suite.NoError(err)
suite.Equal(d("1.25"), cr)

View File

@ -10,23 +10,23 @@ import (
)
// DepositCollateral adds collateral to a cdp
func (k Keeper) DepositCollateral(ctx sdk.Context, owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coins) error {
func (k Keeper) DepositCollateral(ctx sdk.Context, owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coin) error {
err := k.ValidateCollateral(ctx, collateral)
if err != nil {
return err
}
cdp, found := k.GetCdpByOwnerAndDenom(ctx, owner, collateral[0].Denom)
cdp, found := k.GetCdpByOwnerAndDenom(ctx, owner, collateral.Denom)
if !found {
return sdkerrors.Wrapf(types.ErrCdpNotFound, "owner %s, collateral %s", owner, collateral[0].Denom)
return sdkerrors.Wrapf(types.ErrCdpNotFound, "owner %s, collateral %s", owner, collateral.Denom)
}
deposit, found := k.GetDeposit(ctx, cdp.ID, depositor)
if found {
deposit.Amount = deposit.Amount.Add(collateral...)
deposit.Amount = deposit.Amount.Add(collateral)
} else {
deposit = types.NewDeposit(cdp.ID, depositor, collateral)
}
err = k.supplyKeeper.SendCoinsFromAccountToModule(ctx, depositor, types.ModuleName, collateral)
err = k.supplyKeeper.SendCoinsFromAccountToModule(ctx, depositor, types.ModuleName, sdk.NewCoins(collateral))
if err != nil {
return err
}
@ -40,31 +40,33 @@ func (k Keeper) DepositCollateral(ctx sdk.Context, owner sdk.AccAddress, deposit
k.SetDeposit(ctx, deposit)
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral[0].Denom, cdp.ID, oldCollateralToDebtRatio)
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral.Denom, cdp.ID, oldCollateralToDebtRatio)
cdp.FeesUpdated = ctx.BlockTime()
cdp.Collateral = cdp.Collateral.Add(collateral...)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
cdp.Collateral = cdp.Collateral.Add(collateral)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
err = k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
if err != nil {
return err
}
return nil
}
// WithdrawCollateral removes collateral from a cdp if it does not put the cdp below the liquidation ratio
func (k Keeper) WithdrawCollateral(ctx sdk.Context, owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coins) error {
func (k Keeper) WithdrawCollateral(ctx sdk.Context, owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coin) error {
err := k.ValidateCollateral(ctx, collateral)
if err != nil {
return err
}
cdp, found := k.GetCdpByOwnerAndDenom(ctx, owner, collateral[0].Denom)
cdp, found := k.GetCdpByOwnerAndDenom(ctx, owner, collateral.Denom)
if !found {
return sdkerrors.Wrapf(types.ErrCdpNotFound, "owner %s, collateral %s", owner, collateral[0].Denom)
return sdkerrors.Wrapf(types.ErrCdpNotFound, "owner %s, collateral %s", owner, collateral.Denom)
}
deposit, found := k.GetDeposit(ctx, cdp.ID, depositor)
if !found {
return sdkerrors.Wrapf(types.ErrDepositNotFound, "depositor %s, collateral %s", depositor, collateral[0].Denom)
return sdkerrors.Wrapf(types.ErrDepositNotFound, "depositor %s, collateral %s", depositor, collateral.Denom)
}
if collateral.IsAnyGT(deposit.Amount) {
if collateral.Amount.GT(deposit.Amount.Amount) {
return sdkerrors.Wrapf(types.ErrInvalidWithdrawAmount, "collateral %s, deposit %s", collateral, deposit.Amount)
}
@ -72,9 +74,9 @@ func (k Keeper) WithdrawCollateral(ctx sdk.Context, owner sdk.AccAddress, deposi
if err != nil {
return err
}
liquidationRatio := k.getLiquidationRatio(ctx, collateral[0].Denom)
liquidationRatio := k.getLiquidationRatio(ctx, collateral.Denom)
if collateralizationRatio.LT(liquidationRatio) {
return sdkerrors.Wrapf(types.ErrInvalidCollateralRatio, "collateral %s, collateral ratio %s, liquidation ration %s", collateral[0].Denom, collateralizationRatio, liquidationRatio)
return sdkerrors.Wrapf(types.ErrInvalidCollateralRatio, "collateral %s, collateral ratio %s, liquidation ration %s", collateral.Denom, collateralizationRatio, liquidationRatio)
}
ctx.EventManager().EmitEvent(
sdk.NewEvent(
@ -84,17 +86,19 @@ func (k Keeper) WithdrawCollateral(ctx sdk.Context, owner sdk.AccAddress, deposi
),
)
err = k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, depositor, collateral)
err = k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, depositor, sdk.NewCoins(collateral))
if err != nil {
panic(err)
}
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral[0].Denom, cdp.ID, oldCollateralToDebtRatio)
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral.Denom, cdp.ID, oldCollateralToDebtRatio)
cdp.FeesUpdated = ctx.BlockTime()
cdp.Collateral = cdp.Collateral.Sub(collateral)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
err = k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
if err != nil {
return err
}
deposit.Amount = deposit.Amount.Sub(collateral)
if deposit.Amount.IsZero() {

View File

@ -41,14 +41,14 @@ func (suite *DepositTestSuite) SetupTest() {
suite.keeper = keeper
suite.ctx = ctx
suite.addrs = addrs
err := suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 400000000)), cs(c("usdx", 10000000)))
err := suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 400000000), c("usdx", 10000000))
suite.NoError(err)
}
func (suite *DepositTestSuite) TestGetSetDeposit() {
d, found := suite.keeper.GetDeposit(suite.ctx, uint64(1), suite.addrs[0])
suite.True(found)
td := types.NewDeposit(uint64(1), suite.addrs[0], cs(c("xrp", 400000000)))
td := types.NewDeposit(uint64(1), suite.addrs[0], c("xrp", 400000000))
suite.True(d.Equals(td))
ds := suite.keeper.GetDeposits(suite.ctx, uint64(1))
suite.Equal(1, len(ds))
@ -61,32 +61,32 @@ func (suite *DepositTestSuite) TestGetSetDeposit() {
}
func (suite *DepositTestSuite) TestDepositCollateral() {
err := suite.keeper.DepositCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], cs(c("xrp", 10000000)))
err := suite.keeper.DepositCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], c("xrp", 10000000))
suite.NoError(err)
d, found := suite.keeper.GetDeposit(suite.ctx, uint64(1), suite.addrs[0])
suite.True(found)
td := types.NewDeposit(uint64(1), suite.addrs[0], cs(c("xrp", 410000000)))
td := types.NewDeposit(uint64(1), suite.addrs[0], c("xrp", 410000000))
suite.True(d.Equals(td))
ds := suite.keeper.GetDeposits(suite.ctx, uint64(1))
suite.Equal(1, len(ds))
suite.True(ds[0].Equals(td))
cd, _ := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.Equal(cs(c("xrp", 410000000)), cd.Collateral)
suite.Equal(c("xrp", 410000000), cd.Collateral)
ak := suite.app.GetAccountKeeper()
acc := ak.GetAccount(suite.ctx, suite.addrs[0])
suite.Equal(i(90000000), acc.GetCoins().AmountOf("xrp"))
err = suite.keeper.DepositCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], cs(c("btc", 1)))
err = suite.keeper.DepositCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], c("btc", 1))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
err = suite.keeper.DepositCollateral(suite.ctx, suite.addrs[1], suite.addrs[0], cs(c("xrp", 1)))
err = suite.keeper.DepositCollateral(suite.ctx, suite.addrs[1], suite.addrs[0], c("xrp", 1))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
err = suite.keeper.DepositCollateral(suite.ctx, suite.addrs[0], suite.addrs[1], cs(c("xrp", 10000000)))
err = suite.keeper.DepositCollateral(suite.ctx, suite.addrs[0], suite.addrs[1], c("xrp", 10000000))
suite.NoError(err)
d, found = suite.keeper.GetDeposit(suite.ctx, uint64(1), suite.addrs[1])
suite.True(found)
td = types.NewDeposit(uint64(1), suite.addrs[1], cs(c("xrp", 10000000)))
td = types.NewDeposit(uint64(1), suite.addrs[1], c("xrp", 10000000))
suite.True(d.Equals(td))
ds = suite.keeper.GetDeposits(suite.ctx, uint64(1))
suite.Equal(2, len(ds))
@ -94,29 +94,30 @@ func (suite *DepositTestSuite) TestDepositCollateral() {
}
func (suite *DepositTestSuite) TestWithdrawCollateral() {
err := suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], cs(c("xrp", 400000000)))
err := suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], c("xrp", 400000000))
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralRatio))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], cs(c("xrp", 321000000)))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], c("xrp", 321000000))
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralRatio))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[1], suite.addrs[0], cs(c("xrp", 10000000)))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[1], suite.addrs[0], c("xrp", 10000000))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
cd, _ := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
cd.AccumulatedFees = cs(c("usdx", 1))
suite.keeper.SetCDP(suite.ctx, cd)
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], cs(c("xrp", 320000000)))
cd.AccumulatedFees = c("usdx", 1)
err = suite.keeper.SetCDP(suite.ctx, cd)
suite.NoError(err)
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], c("xrp", 320000000))
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralRatio))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], cs(c("xrp", 10000000)))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[0], c("xrp", 10000000))
suite.NoError(err)
dep, _ := suite.keeper.GetDeposit(suite.ctx, uint64(1), suite.addrs[0])
td := types.NewDeposit(uint64(1), suite.addrs[0], cs(c("xrp", 390000000)))
td := types.NewDeposit(uint64(1), suite.addrs[0], c("xrp", 390000000))
suite.True(dep.Equals(td))
ak := suite.app.GetAccountKeeper()
acc := ak.GetAccount(suite.ctx, suite.addrs[0])
suite.Equal(i(110000000), acc.GetCoins().AmountOf("xrp"))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[1], cs(c("xrp", 10000000)))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[0], suite.addrs[1], c("xrp", 10000000))
suite.Require().True(errors.Is(err, types.ErrDepositNotFound))
}

View File

@ -9,33 +9,33 @@ import (
)
// AddPrincipal adds debt to a cdp if the additional debt does not put the cdp below the liquidation ratio
func (k Keeper) AddPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom string, principal sdk.Coins) error {
func (k Keeper) AddPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom string, principal sdk.Coin) error {
// validation
cdp, found := k.GetCdpByOwnerAndDenom(ctx, owner, denom)
if !found {
return sdkerrors.Wrapf(types.ErrCdpNotFound, "owner %s, denom %s", owner, denom)
}
err := k.ValidatePrincipalDraw(ctx, principal)
err := k.ValidatePrincipalDraw(ctx, principal, cdp.Principal.Denom)
if err != nil {
return err
}
err = k.ValidateDebtLimit(ctx, cdp.Collateral[0].Denom, principal)
err = k.ValidateDebtLimit(ctx, cdp.Collateral.Denom, principal)
if err != nil {
return err
}
err = k.ValidateCollateralizationRatio(ctx, cdp.Collateral, cdp.Principal.Add(principal...), cdp.AccumulatedFees)
err = k.ValidateCollateralizationRatio(ctx, cdp.Collateral, cdp.Principal.Add(principal), cdp.AccumulatedFees)
if err != nil {
return err
}
// mint the principal and send it to the cdp owner
err = k.supplyKeeper.MintCoins(ctx, types.ModuleName, principal)
err = k.supplyKeeper.MintCoins(ctx, types.ModuleName, sdk.NewCoins(principal))
if err != nil {
panic(err)
}
err = k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, owner, principal)
err = k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, owner, sdk.NewCoins(principal))
if err != nil {
panic(err)
}
@ -56,61 +56,59 @@ func (k Keeper) AddPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom string
)
// remove old collateral:debt index
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
k.RemoveCdpCollateralRatioIndex(ctx, denom, cdp.ID, oldCollateralToDebtRatio)
// update cdp state
cdp.Principal = cdp.Principal.Add(principal...)
cdp.FeesUpdated = ctx.BlockTime()
cdp.Principal = cdp.Principal.Add(principal)
// increment total principal for the input collateral type
k.IncrementTotalPrincipal(ctx, cdp.Collateral[0].Denom, principal)
k.IncrementTotalPrincipal(ctx, cdp.Collateral.Denom, principal)
// set cdp state and indexes in the store
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
err = k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
if err != nil {
return err
}
return nil
}
// RepayPrincipal removes debt from the cdp
// If all debt is repaid, the collateral is returned to depositors and the cdp is removed from the store
func (k Keeper) RepayPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom string, payment sdk.Coins) error {
func (k Keeper) RepayPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom string, payment sdk.Coin) error {
// validation
cdp, found := k.GetCdpByOwnerAndDenom(ctx, owner, denom)
if !found {
return sdkerrors.Wrapf(types.ErrCdpNotFound, "owner %s, denom %s", owner, denom)
}
err := k.ValidatePaymentCoins(ctx, cdp, payment, cdp.Principal.Add(cdp.AccumulatedFees...))
err := k.ValidatePaymentCoins(ctx, cdp, payment, cdp.Principal.Add(cdp.AccumulatedFees))
if err != nil {
return err
}
// calculate fee and principal payment
feePayment, principalPayment := k.calculatePayment(ctx, cdp.Principal.Add(cdp.AccumulatedFees...), cdp.AccumulatedFees, payment)
feePayment, principalPayment := k.calculatePayment(ctx, cdp.Principal.Add(cdp.AccumulatedFees), cdp.AccumulatedFees, payment)
// send the payment from the sender to the cpd module
err = k.supplyKeeper.SendCoinsFromAccountToModule(ctx, owner, types.ModuleName, feePayment.Add(principalPayment...))
err = k.supplyKeeper.SendCoinsFromAccountToModule(ctx, owner, types.ModuleName, sdk.NewCoins(feePayment.Add(principalPayment)))
if err != nil {
return err
}
// burn the payment coins
err = k.supplyKeeper.BurnCoins(ctx, types.ModuleName, feePayment.Add(principalPayment...))
err = k.supplyKeeper.BurnCoins(ctx, types.ModuleName, sdk.NewCoins(feePayment.Add(principalPayment)))
if err != nil {
panic(err)
}
// burn the corresponding amount of debt coins
cdpDebt := k.getModAccountDebt(ctx, types.ModuleName)
paymentAmount := sdk.ZeroInt()
for _, c := range feePayment.Add(principalPayment...) {
paymentAmount = paymentAmount.Add(c.Amount)
}
coinsToBurn := sdk.NewCoins(sdk.NewCoin(k.GetDebtDenom(ctx), paymentAmount))
paymentAmount := feePayment.Amount.Add(principalPayment.Amount)
coinsToBurn := sdk.NewCoin(k.GetDebtDenom(ctx), paymentAmount)
if paymentAmount.GT(cdpDebt) {
coinsToBurn = sdk.NewCoins(sdk.NewCoin(k.GetDebtDenom(ctx), cdpDebt))
coinsToBurn = sdk.NewCoin(k.GetDebtDenom(ctx), cdpDebt)
}
err = k.BurnDebtCoins(ctx, types.ModuleName, k.GetDebtDenom(ctx), coinsToBurn)
if err != nil {
@ -121,13 +119,13 @@ func (k Keeper) RepayPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom stri
ctx.EventManager().EmitEvent(
sdk.NewEvent(
types.EventTypeCdpRepay,
sdk.NewAttribute(sdk.AttributeKeyAmount, feePayment.Add(principalPayment...).String()),
sdk.NewAttribute(sdk.AttributeKeyAmount, feePayment.Add(principalPayment).String()),
sdk.NewAttribute(types.AttributeKeyCdpID, fmt.Sprintf("%d", cdp.ID)),
),
)
// remove the old collateral:debt ratio index
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
k.RemoveCdpCollateralRatioIndex(ctx, denom, cdp.ID, oldCollateralToDebtRatio)
// update cdp state
@ -135,10 +133,9 @@ func (k Keeper) RepayPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom stri
cdp.Principal = cdp.Principal.Sub(principalPayment)
}
cdp.AccumulatedFees = cdp.AccumulatedFees.Sub(feePayment)
cdp.FeesUpdated = ctx.BlockTime()
// decrement the total principal for the input collateral type
k.DecrementTotalPrincipal(ctx, denom, feePayment.Add(principalPayment...))
k.DecrementTotalPrincipal(ctx, denom, feePayment.Add(principalPayment))
// if the debt is fully paid, return collateral to depositors,
// and remove the cdp and indexes from the store
@ -158,31 +155,26 @@ func (k Keeper) RepayPrincipal(ctx sdk.Context, owner sdk.AccAddress, denom stri
}
// set cdp state and update indexes
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
err = k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
if err != nil {
return err
}
return nil
}
// ValidatePaymentCoins validates that the input coins are valid for repaying debt
func (k Keeper) ValidatePaymentCoins(ctx sdk.Context, cdp types.CDP, payment sdk.Coins, debt sdk.Coins) error {
subset := payment.DenomsSubsetOf(cdp.Principal)
if !subset {
var paymentDenoms []string
var principalDenoms []string
for _, pc := range cdp.Principal {
principalDenoms = append(principalDenoms, pc.Denom)
func (k Keeper) ValidatePaymentCoins(ctx sdk.Context, cdp types.CDP, payment sdk.Coin, debt sdk.Coin) error {
if payment.Denom != debt.Denom {
return sdkerrors.Wrapf(types.ErrInvalidPayment, "cdp %d: expected %s, got %s", cdp.ID, debt.Denom, payment.Denom)
}
for _, pc := range payment {
paymentDenoms = append(paymentDenoms, pc.Denom)
dp, found := k.GetDebtParam(ctx, payment.Denom)
if !found {
return sdkerrors.Wrapf(types.ErrInvalidPayment, "payment denom %s not found", payment.Denom)
}
return sdkerrors.Wrapf(types.ErrInvalidPayment, "cdp %d: expected %s, got %s", cdp.ID, principalDenoms, paymentDenoms)
}
for _, dc := range payment {
dp, _ := k.GetDebtParam(ctx, dc.Denom)
proposedBalance := cdp.Principal.AmountOf(dc.Denom).Sub(dc.Amount)
proposedBalance := cdp.Principal.Amount.Sub(payment.Amount)
if proposedBalance.GT(sdk.ZeroInt()) && proposedBalance.LT(dp.DebtFloor) {
return sdkerrors.Wrapf(types.ErrBelowDebtFloor, "proposed %s < minimum %s", sdk.NewCoins(sdk.NewCoin(dc.Denom, proposedBalance)), dp.DebtFloor)
}
return sdkerrors.Wrapf(types.ErrBelowDebtFloor, "proposed %s < minimum %s", sdk.NewCoin(payment.Denom, proposedBalance), dp.DebtFloor)
}
return nil
}
@ -191,7 +183,7 @@ func (k Keeper) ValidatePaymentCoins(ctx sdk.Context, cdp types.CDP, payment sdk
func (k Keeper) ReturnCollateral(ctx sdk.Context, cdp types.CDP) {
deposits := k.GetDeposits(ctx, cdp.ID)
for _, deposit := range deposits {
err := k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, deposit.Depositor, deposit.Amount)
err := k.supplyKeeper.SendCoinsFromModuleToAccount(ctx, types.ModuleName, deposit.Depositor, sdk.NewCoins(deposit.Amount))
if err != nil {
panic(err)
}
@ -199,31 +191,30 @@ func (k Keeper) ReturnCollateral(ctx sdk.Context, cdp types.CDP) {
}
}
func (k Keeper) calculatePayment(ctx sdk.Context, owed sdk.Coins, fees sdk.Coins, payment sdk.Coins) (sdk.Coins, sdk.Coins) {
func (k Keeper) calculatePayment(ctx sdk.Context, owed sdk.Coin, fees sdk.Coin, payment sdk.Coin) (sdk.Coin, sdk.Coin) {
// divides repayment into principal and fee components, with fee payment applied first.
feePayment := sdk.NewCoins()
principalPayment := sdk.NewCoins()
overpayment := sdk.NewCoins()
// TODO must compare denoms directly if there are multiple principal denoms
if payment.IsAllGT(owed) {
feePayment := sdk.NewCoin(payment.Denom, sdk.ZeroInt())
principalPayment := sdk.NewCoin(payment.Denom, sdk.ZeroInt())
overpayment := sdk.NewCoin(payment.Denom, sdk.ZeroInt())
if !payment.Amount.IsPositive() {
return feePayment, principalPayment
}
// check for over payment
if payment.Amount.GT(owed.Amount) {
overpayment = payment.Sub(owed)
payment = payment.Sub(overpayment)
}
// if no fees, 100% of payment is principal payment
if fees.IsZero() {
return sdk.NewCoins(), payment
return feePayment, payment
}
for _, fc := range fees {
if payment.AmountOf(fc.Denom).IsPositive() {
if payment.AmountOf(fc.Denom).GT(fc.Amount) {
feePayment = feePayment.Add(fc)
pc := sdk.NewCoin(fc.Denom, payment.AmountOf(fc.Denom).Sub(fc.Amount))
principalPayment = principalPayment.Add(pc)
// pay fees before repaying principal
if payment.Amount.GT(fees.Amount) {
feePayment = fees
principalPayment = payment.Sub(fees)
} else {
fc := sdk.NewCoin(fc.Denom, payment.AmountOf(fc.Denom))
feePayment = feePayment.Add(fc)
}
}
feePayment = payment
}
return feePayment, principalPayment
}

View File

@ -43,18 +43,19 @@ func (suite *DrawTestSuite) SetupTest() {
suite.keeper = keeper
suite.ctx = ctx
suite.addrs = addrs
err := suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 400000000)), cs(c("usdx", 10000000)))
err := suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 400000000), c("usdx", 10000000))
suite.NoError(err)
}
func (suite *DrawTestSuite) TestAddRepayPrincipal() {
err := suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("usdx", 10000000)))
err := suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", c("usdx", 10000000))
suite.NoError(err)
t, _ := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.Equal(cs(c("usdx", 20000000)), t.Principal)
ctd := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, t.Collateral, t.Principal.Add(t.AccumulatedFees...))
t, found := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.True(found)
suite.Equal(c("usdx", 20000000), t.Principal)
ctd := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, t.Collateral, t.Principal.Add(t.AccumulatedFees))
suite.Equal(d("20.0"), ctd)
ts := suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("20.0"))
suite.Equal(0, len(ts))
@ -66,74 +67,44 @@ func (suite *DrawTestSuite) TestAddRepayPrincipal() {
acc := sk.GetModuleAccount(suite.ctx, types.ModuleName)
suite.Equal(cs(c("xrp", 400000000), c("debt", 20000000)), acc.GetCoins())
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("susd", 10000000)))
suite.NoError(err)
t, _ = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.Equal(cs(c("usdx", 20000000), c("susd", 10000000)), t.Principal)
ctd = suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, t.Collateral, t.Principal.Add(t.AccumulatedFees...))
suite.Equal(d("400000000").Quo(d("30000000")), ctd)
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("400").Quo(d("30")))
suite.Equal(0, len(ts))
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("400").Quo(d("30")).Add(sdk.SmallestDec()))
suite.Equal(ts[0], t)
tp = suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "susd")
suite.Equal(i(10000000), tp)
sk = suite.app.GetSupplyKeeper()
acc = sk.GetModuleAccount(suite.ctx, types.ModuleName)
suite.Equal(cs(c("xrp", 400000000), c("debt", 30000000)), acc.GetCoins())
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", c("susd", 10000000))
suite.Require().True(errors.Is(err, types.ErrInvalidDebtRequest))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[1], "xrp", cs(c("usdx", 10000000)))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[1], "xrp", c("usdx", 10000000))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("xusd", 10000000)))
suite.Require().True(errors.Is(err, types.ErrDebtNotSupported))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("usdx", 311000000)))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", c("xusd", 10000000))
suite.Require().True(errors.Is(err, types.ErrInvalidDebtRequest))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[0], "xrp", c("usdx", 311000000))
suite.Require().True(errors.Is(err, types.ErrInvalidCollateralRatio))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("usdx", 10000000)))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", c("usdx", 10000000))
suite.NoError(err)
t, _ = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.Equal(cs(c("usdx", 10000000), c("susd", 10000000)), t.Principal)
ctd = suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, t.Collateral, t.Principal.Add(t.AccumulatedFees...))
suite.Equal(d("20.0"), ctd)
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("20.0"))
suite.Equal(0, len(ts))
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("20.0").Add(sdk.SmallestDec()))
suite.Equal(ts[0], t)
tp = suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "usdx")
suite.Equal(i(10000000), tp)
sk = suite.app.GetSupplyKeeper()
acc = sk.GetModuleAccount(suite.ctx, types.ModuleName)
suite.Equal(cs(c("xrp", 400000000), c("debt", 20000000)), acc.GetCoins())
t, found = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.True(found)
suite.Equal(c("usdx", 10000000), t.Principal)
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("susd", 10000000)))
suite.NoError(err)
t, _ = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.Equal(cs(c("usdx", 10000000)), t.Principal)
ctd = suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, t.Collateral, t.Principal.Add(t.AccumulatedFees...))
ctd = suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, t.Collateral, t.Principal.Add(t.AccumulatedFees))
suite.Equal(d("40.0"), ctd)
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("40.0"))
suite.Equal(0, len(ts))
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", d("40.0").Add(sdk.SmallestDec()))
suite.Equal(ts[0], t)
tp = suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "susd")
suite.Equal(i(0), tp)
sk = suite.app.GetSupplyKeeper()
acc = sk.GetModuleAccount(suite.ctx, types.ModuleName)
suite.Equal(cs(c("xrp", 400000000), c("debt", 10000000)), acc.GetCoins())
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("xusd", 10000000)))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", c("xusd", 10000000))
suite.Require().True(errors.Is(err, types.ErrInvalidPayment))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[1], "xrp", cs(c("xusd", 10000000)))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[1], "xrp", c("xusd", 10000000))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("usdx", 9000000)))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", c("usdx", 9000000))
suite.Require().True(errors.Is(err, types.ErrBelowDebtFloor))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("usdx", 10000000)))
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", c("usdx", 10000000))
suite.NoError(err)
_, found := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
_, found = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(1))
suite.False(found)
ts = suite.keeper.GetAllCdpsByDenomAndRatio(suite.ctx, "xrp", types.MaxSortableDec)
suite.Equal(0, len(ts))
@ -146,7 +117,7 @@ func (suite *DrawTestSuite) TestAddRepayPrincipal() {
}
func (suite *DrawTestSuite) TestRepayPrincipalOverpay() {
err := suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", cs(c("usdx", 20000000)))
err := suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[0], "xrp", c("usdx", 20000000))
suite.NoError(err)
ak := suite.app.GetAccountKeeper()
acc := ak.GetAccount(suite.ctx, suite.addrs[0])
@ -156,43 +127,43 @@ func (suite *DrawTestSuite) TestRepayPrincipalOverpay() {
}
func (suite *DrawTestSuite) TestAddRepayPrincipalFees() {
err := suite.keeper.AddCdp(suite.ctx, suite.addrs[2], cs(c("xrp", 1000000000000)), cs(c("usdx", 100000000000)))
err := suite.keeper.AddCdp(suite.ctx, suite.addrs[2], c("xrp", 1000000000000), c("usdx", 100000000000))
suite.NoError(err)
suite.ctx = suite.ctx.WithBlockTime(suite.ctx.BlockTime().Add(time.Minute * 10))
err = suite.keeper.UpdateFeesForAllCdps(suite.ctx, "xrp")
suite.NoError(err)
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[2], "xrp", cs(c("usdx", 10000000)))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[2], "xrp", c("usdx", 10000000))
suite.NoError(err)
t, _ := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
suite.Equal(cs(c("usdx", 92827)), t.AccumulatedFees)
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[2], "xrp", cs(c("usdx", 100)))
suite.Equal(c("usdx", 92827), t.AccumulatedFees)
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[2], "xrp", c("usdx", 100))
suite.NoError(err)
t, _ = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
suite.Equal(cs(c("usdx", 92727)), t.AccumulatedFees)
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[2], "xrp", cs(c("usdx", 100010092727)))
suite.Equal(c("usdx", 92727), t.AccumulatedFees)
err = suite.keeper.RepayPrincipal(suite.ctx, suite.addrs[2], "xrp", c("usdx", 100010092727))
suite.NoError(err)
_, f := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
suite.False(f)
err = suite.keeper.AddCdp(suite.ctx, suite.addrs[2], cs(c("xrp", 1000000000000)), cs(c("usdx", 100000000)))
err = suite.keeper.AddCdp(suite.ctx, suite.addrs[2], c("xrp", 1000000000000), c("usdx", 100000000))
suite.NoError(err)
suite.ctx = suite.ctx.WithBlockTime(suite.ctx.BlockTime().Add(time.Second * 31536000)) // move forward one year in time
err = suite.keeper.UpdateFeesForAllCdps(suite.ctx, "xrp")
suite.NoError(err)
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[2], "xrp", cs(c("usdx", 100000000)))
err = suite.keeper.AddPrincipal(suite.ctx, suite.addrs[2], "xrp", c("usdx", 100000000))
suite.NoError(err)
t, _ = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(3))
suite.Equal(cs(c("usdx", 5000000)), t.AccumulatedFees)
suite.Equal(c("usdx", 5000000), t.AccumulatedFees)
}
func (suite *DrawTestSuite) TestPricefeedFailure() {
ctx := suite.ctx.WithBlockTime(suite.ctx.BlockTime().Add(time.Hour * 2))
pfk := suite.app.GetPriceFeedKeeper()
pfk.SetCurrentPrices(ctx, "xrp:usd")
err := suite.keeper.AddPrincipal(ctx, suite.addrs[0], "xrp", cs(c("usdx", 10000000)))
err := suite.keeper.AddPrincipal(ctx, suite.addrs[0], "xrp", c("usdx", 10000000))
suite.Error(err)
err = suite.keeper.RepayPrincipal(ctx, suite.addrs[0], "xrp", cs(c("usdx", 10000000)))
err = suite.keeper.RepayPrincipal(ctx, suite.addrs[0], "xrp", c("usdx", 10000000))
suite.NoError(err)
}
@ -203,7 +174,7 @@ func (suite *DrawTestSuite) TestModuleAccountFailure() {
acc := sk.GetModuleAccount(ctx, types.ModuleName)
ak := suite.app.GetAccountKeeper()
ak.RemoveAccount(ctx, acc)
_ = suite.keeper.RepayPrincipal(ctx, suite.addrs[0], "xrp", cs(c("usdx", 10000000)))
suite.keeper.RepayPrincipal(ctx, suite.addrs[0], "xrp", c("usdx", 10000000))
})
}

View File

@ -8,9 +8,7 @@ import (
// CalculateFees returns the fees accumulated since fees were last calculated based on
// the input amount of outstanding debt (principal) and the number of periods (seconds) that have passed
func (k Keeper) CalculateFees(ctx sdk.Context, principal sdk.Coins, periods sdk.Int, denom string) sdk.Coins {
newFees := sdk.NewCoins()
for _, pc := range principal {
func (k Keeper) CalculateFees(ctx sdk.Context, principal sdk.Coin, periods sdk.Int, denom string) sdk.Coin {
// how fees are calculated:
// feesAccumulated = (outstandingDebt * (feeRate^periods)) - outstandingDebt
// Note that since we can't do x^y using sdk.Decimal, we are converting to int and using RelativePow
@ -18,19 +16,17 @@ func (k Keeper) CalculateFees(ctx sdk.Context, principal sdk.Coins, periods sdk.
scalar := sdk.NewInt(1000000000000000000)
feeRateInt := feePerSecond.Mul(sdk.NewDecFromInt(scalar)).TruncateInt()
accumulator := sdk.NewDecFromInt(types.RelativePow(feeRateInt, periods, scalar)).Mul(sdk.SmallestDec())
feesAccumulated := (sdk.NewDecFromInt(pc.Amount).Mul(accumulator)).Sub(sdk.NewDecFromInt(pc.Amount))
// TODO this will always round down, causing precision loss between the sum of all fees in CDPs and surplus coins in liquidator account
newFees = newFees.Add(sdk.NewCoin(pc.Denom, feesAccumulated.TruncateInt()))
}
feesAccumulated := (sdk.NewDecFromInt(principal.Amount).Mul(accumulator)).Sub(sdk.NewDecFromInt(principal.Amount))
newFees := sdk.NewCoin(principal.Denom, feesAccumulated.TruncateInt())
return newFees
}
// UpdateFeesForAllCdps updates the fees for each of the CDPs
func (k Keeper) UpdateFeesForAllCdps(ctx sdk.Context, collateralDenom string) error {
var iterationErr error
k.IterateCdpsByDenom(ctx, collateralDenom, func(cdp types.CDP) bool {
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
periods := sdk.NewInt(ctx.BlockTime().Unix()).Sub(sdk.NewInt(cdp.FeesUpdated.Unix()))
newFees := k.CalculateFees(ctx, cdp.Principal, periods, collateralDenom)
@ -42,15 +38,14 @@ func (k Keeper) UpdateFeesForAllCdps(ctx sdk.Context, collateralDenom string) er
}
// note - only works if principal length is one
for _, dc := range cdp.Principal {
dp, found := k.GetDebtParam(ctx, dc.Denom)
dp, found := k.GetDebtParam(ctx, cdp.Principal.Denom)
if !found {
return false
}
savingsRate := dp.SavingsRate
newFeesSavings := sdk.NewDecFromInt(newFees.AmountOf(dp.Denom)).Mul(savingsRate).RoundInt()
newFeesSurplus := newFees.AmountOf(dp.Denom).Sub(newFeesSavings)
newFeesSavings := sdk.NewDecFromInt(newFees.Amount).Mul(savingsRate).RoundInt()
newFeesSurplus := newFees.Amount.Sub(newFeesSavings)
// similar to checking for rounding to zero of all fees, but in this case we
// need to handle cases where we expect surplus or savings fees to be zero, namely
@ -62,47 +57,50 @@ func (k Keeper) UpdateFeesForAllCdps(ctx sdk.Context, collateralDenom string) er
// mint debt coins to the cdp account
k.MintDebtCoins(ctx, types.ModuleName, k.GetDebtDenom(ctx), newFees)
previousDebt := k.GetTotalPrincipal(ctx, collateralDenom, dp.Denom)
feeCoins := sdk.NewCoins(sdk.NewCoin(dp.Denom, previousDebt))
k.SetTotalPrincipal(ctx, collateralDenom, dp.Denom, feeCoins.Add(newFees...).AmountOf(dp.Denom))
newDebt := previousDebt.Add(newFees.Amount)
k.SetTotalPrincipal(ctx, collateralDenom, dp.Denom, newDebt)
// mint surplus coins divided between the liquidator and savings module accounts.
k.supplyKeeper.MintCoins(ctx, types.LiquidatorMacc, sdk.NewCoins(sdk.NewCoin(dp.Denom, newFeesSurplus)))
k.supplyKeeper.MintCoins(ctx, types.SavingsRateMacc, sdk.NewCoins(sdk.NewCoin(dp.Denom, newFeesSavings)))
}
// now add the new fees fees to the accumulated fees for the cdp
cdp.AccumulatedFees = cdp.AccumulatedFees.Add(newFees...)
cdp.AccumulatedFees = cdp.AccumulatedFees.Add(newFees)
// and set the fees updated time to the current block time since we just updated it
cdp.FeesUpdated = ctx.BlockTime()
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral[0].Denom, cdp.ID, oldCollateralToDebtRatio)
k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
collateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral.Denom, cdp.ID, oldCollateralToDebtRatio)
err := k.SetCdpAndCollateralRatioIndex(ctx, cdp, collateralToDebtRatio)
if err != nil {
iterationErr = err
return true
}
return false // this returns true when you want to stop iterating. Since we want to iterate through all we return false
})
if iterationErr != nil {
return iterationErr
}
return nil
}
// IncrementTotalPrincipal increments the total amount of debt that has been drawn with that collateral type
func (k Keeper) IncrementTotalPrincipal(ctx sdk.Context, collateralDenom string, principal sdk.Coins) {
for _, pc := range principal {
total := k.GetTotalPrincipal(ctx, collateralDenom, pc.Denom)
total = total.Add(pc.Amount)
k.SetTotalPrincipal(ctx, collateralDenom, pc.Denom, total)
}
func (k Keeper) IncrementTotalPrincipal(ctx sdk.Context, collateralDenom string, principal sdk.Coin) {
total := k.GetTotalPrincipal(ctx, collateralDenom, principal.Denom)
total = total.Add(principal.Amount)
k.SetTotalPrincipal(ctx, collateralDenom, principal.Denom, total)
}
// DecrementTotalPrincipal decrements the total amount of debt that has been drawn for a particular collateral type
func (k Keeper) DecrementTotalPrincipal(ctx sdk.Context, collateralDenom string, principal sdk.Coins) {
for _, pc := range principal {
total := k.GetTotalPrincipal(ctx, collateralDenom, pc.Denom)
total = total.Sub(pc.Amount)
func (k Keeper) DecrementTotalPrincipal(ctx sdk.Context, collateralDenom string, principal sdk.Coin) {
total := k.GetTotalPrincipal(ctx, collateralDenom, principal.Denom)
total = total.Sub(principal.Amount)
if total.IsNegative() {
// can happen in tests due to rounding errors in fee calculation
total = sdk.ZeroInt()
}
k.SetTotalPrincipal(ctx, collateralDenom, pc.Denom, total)
}
k.SetTotalPrincipal(ctx, collateralDenom, principal.Denom, total)
}
// GetTotalPrincipal returns the total amount of principal that has been drawn for a particular collateral

View File

@ -1,12 +1,10 @@
package keeper_test
import (
"math/rand"
"testing"
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/x/simulation"
"github.com/kava-labs/kava/app"
"github.com/kava-labs/kava/x/cdp/keeper"
@ -36,43 +34,6 @@ func (suite *FeeTestSuite) SetupTest() {
suite.keeper = keeper
}
func (suite *FeeTestSuite) TestCalculateFeesPrecisionLoss() {
// Calculates the difference between fees calculated on the total amount of debt,
// versus iterating over all the 1000 randomly generated cdps.
// Assumes 7 second block times, runs simulations for 100, 1000, 10000, 100000, and 1000000
// blocks, where the bulk debt is updated each block, and the cdps are updated once.
coins := []sdk.Coins{}
total := sdk.NewCoins()
for i := 0; i < 1000; i++ {
ri, err := simulation.RandPositiveInt(rand.New(rand.NewSource(int64(i))), sdk.NewInt(100000000000))
suite.NoError(err)
c := sdk.NewCoins(sdk.NewCoin("usdx", ri))
coins = append(coins, c)
total = total.Add(sdk.NewCoin("usdx", ri))
}
numBlocks := []int{100, 1000, 10000, 100000}
for _, nb := range numBlocks {
bulkFees := sdk.NewCoins()
individualFees := sdk.NewCoins()
for x := 0; x < nb; x++ {
fee := suite.keeper.CalculateFees(suite.ctx, total.Add(bulkFees...), i(7), "xrp")
bulkFees = bulkFees.Add(fee...)
}
for _, cns := range coins {
fee := suite.keeper.CalculateFees(suite.ctx, cns, i(int64(nb*7)), "xrp")
individualFees = individualFees.Add(fee...)
}
absError := (sdk.OneDec().Sub(sdk.NewDecFromInt(bulkFees[0].Amount).Quo(sdk.NewDecFromInt(individualFees[0].Amount)))).Abs()
suite.True(d("0.00001").GTE(absError))
}
}
// createCdps is a helper function to create two CDPs each with zero fees
func (suite *FeeTestSuite) createCdps() {
// create 2 accounts in the state and give them some coins
@ -91,11 +52,14 @@ func (suite *FeeTestSuite) createCdps() {
// now create two cdps with the addresses we just created
// use the created account to create a cdp that SHOULD have fees updated
err := suite.keeper.AddCdp(suite.ctx, addrs[0], cs(c("xrp", 200000000)), cs(c("usdx", 24000000)))
// to get a ratio between 100 - 110% of liquidation ratio we can use 200xrp ($50) and 24 usdx (208% collateralization with liquidation ratio of 200%)
// create CDP for the first address
err := suite.keeper.AddCdp(suite.ctx, addrs[0], c("xrp", 200000000), c("usdx", 24000000))
suite.NoError(err) // check that no error was thrown
// use the other account to create a cdp that SHOULD NOT have fees updated
err = suite.keeper.AddCdp(suite.ctx, addrs[1], cs(c("xrp", 200000000)), cs(c("usdx", 10000000)))
// use the other account to create a cdp that SHOULD NOT have fees updated - 500% collateralization
// create CDP for the second address
err = suite.keeper.AddCdp(suite.ctx, addrs[1], c("xrp", 200000000), c("usdx", 10000000))
suite.NoError(err) // check that no error was thrown
}
@ -114,18 +78,19 @@ func (suite *FeeTestSuite) TestUpdateFees() {
suite.NoError(err) // check that we don't have any error
// cdp we expect fees to accumulate for
cdp1, _ := suite.keeper.GetCDP(suite.ctx, "xrp", 1)
cdp1, found := suite.keeper.GetCDP(suite.ctx, "xrp", 1)
suite.True(found)
// check fees are not zero
// check that the fees have been updated
suite.False(cdp1.AccumulatedFees.Empty())
suite.False(cdp1.AccumulatedFees.IsZero())
// now check that we have the correct amount of fees overall (22 USDX for this scenario)
suite.Equal(sdk.NewInt(22), cdp1.AccumulatedFees.AmountOf("usdx"))
suite.Equal(sdk.NewInt(22), cdp1.AccumulatedFees.Amount)
suite.Equal(suite.ctx.BlockTime(), cdp1.FeesUpdated)
// cdp we expect fees to not accumulate for because of rounding to zero
cdp2, _ := suite.keeper.GetCDP(suite.ctx, "xrp", 2)
cdp2, found := suite.keeper.GetCDP(suite.ctx, "xrp", 2)
suite.True(found)
// check fees are zero
suite.True(cdp2.AccumulatedFees.Empty())
suite.True(cdp2.AccumulatedFees.IsZero())
suite.Equal(oldtime, cdp2.FeesUpdated)
}

View File

@ -39,7 +39,7 @@ func NewPricefeedGenState(asset string, price sdk.Dec) app.GenesisState {
func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
cdpGenesis := cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
@ -47,7 +47,7 @@ func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
{
Denom: asset,
LiquidationRatio: liquidationRatio,
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
LiquidationPenalty: d("0.05"),
AuctionSize: i(100),
@ -56,8 +56,7 @@ func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
MarketID: asset + ":usd",
},
},
DebtParams: cdp.DebtParams{
{
DebtParam: cdp.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
@ -65,7 +64,6 @@ func NewCDPGenState(asset string, liquidationRatio sdk.Dec) app.GenesisState {
SavingsRate: d("0.9"),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
GovDenom: cdp.DefaultGovDenom,
@ -103,7 +101,7 @@ func NewPricefeedGenStateMulti() app.GenesisState {
func NewCDPGenStateMulti() app.GenesisState {
cdpGenesis := cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000), sdk.NewInt64Coin("susd", 1000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
@ -111,7 +109,7 @@ func NewCDPGenStateMulti() app.GenesisState {
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("2.0"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("susd", 500000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 500000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
LiquidationPenalty: d("0.05"),
AuctionSize: i(7000000000),
@ -122,7 +120,7 @@ func NewCDPGenStateMulti() app.GenesisState {
{
Denom: "btc",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 500000000000), sdk.NewInt64Coin("susd", 500000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 500000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000000782997609"), // %2.5 apr
LiquidationPenalty: d("0.025"),
AuctionSize: i(10000000),
@ -131,22 +129,13 @@ func NewCDPGenStateMulti() app.GenesisState {
ConversionFactor: i(8),
},
},
DebtParams: cdp.DebtParams{
{
DebtParam: cdp.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
SavingsRate: d("0.95"),
},
{
Denom: "susd",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
SavingsRate: d("0.95"),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
@ -160,7 +149,7 @@ func NewCDPGenStateMulti() app.GenesisState {
func NewCDPGenStateHighDebtLimit() app.GenesisState {
cdpGenesis := cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 100000000000000), sdk.NewInt64Coin("susd", 100000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 100000000000000),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
@ -168,7 +157,7 @@ func NewCDPGenStateHighDebtLimit() app.GenesisState {
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("2.0"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 50000000000000), sdk.NewInt64Coin("susd", 50000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 50000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
LiquidationPenalty: d("0.05"),
AuctionSize: i(7000000000),
@ -179,7 +168,7 @@ func NewCDPGenStateHighDebtLimit() app.GenesisState {
{
Denom: "btc",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 50000000000000), sdk.NewInt64Coin("susd", 50000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 50000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000000782997609"), // %2.5 apr
LiquidationPenalty: d("0.025"),
AuctionSize: i(10000000),
@ -188,22 +177,13 @@ func NewCDPGenStateHighDebtLimit() app.GenesisState {
ConversionFactor: i(8),
},
},
DebtParams: cdp.DebtParams{
{
DebtParam: cdp.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
SavingsRate: d("0.95"),
},
{
Denom: "susd",
ReferenceAsset: "usd",
ConversionFactor: i(6),
DebtFloor: i(10000000),
SavingsRate: d("0.95"),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
@ -216,10 +196,10 @@ func NewCDPGenStateHighDebtLimit() app.GenesisState {
func cdps() (cdps cdp.CDPs) {
_, addrs := app.GeneratePrivKeyAddressPairs(3)
c1 := cdp.NewCDP(uint64(1), addrs[0], sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(10000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(8000000))), tmtime.Canonical(time.Now()))
c2 := cdp.NewCDP(uint64(2), addrs[1], sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(100000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10000000))), tmtime.Canonical(time.Now()))
c3 := cdp.NewCDP(uint64(3), addrs[1], sdk.NewCoins(sdk.NewCoin("btc", sdk.NewInt(1000000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(10000000))), tmtime.Canonical(time.Now()))
c4 := cdp.NewCDP(uint64(4), addrs[2], sdk.NewCoins(sdk.NewCoin("xrp", sdk.NewInt(1000000000))), sdk.NewCoins(sdk.NewCoin("usdx", sdk.NewInt(500000000))), tmtime.Canonical(time.Now()))
c1 := cdp.NewCDP(uint64(1), addrs[0], sdk.NewCoin("xrp", sdk.NewInt(10000000)), sdk.NewCoin("usdx", sdk.NewInt(8000000)), tmtime.Canonical(time.Now()))
c2 := cdp.NewCDP(uint64(2), addrs[1], sdk.NewCoin("xrp", sdk.NewInt(100000000)), sdk.NewCoin("usdx", sdk.NewInt(10000000)), tmtime.Canonical(time.Now()))
c3 := cdp.NewCDP(uint64(3), addrs[1], sdk.NewCoin("btc", sdk.NewInt(1000000000)), sdk.NewCoin("usdx", sdk.NewInt(10000000)), tmtime.Canonical(time.Now()))
c4 := cdp.NewCDP(uint64(4), addrs[2], sdk.NewCoin("xrp", sdk.NewInt(1000000000)), sdk.NewCoin("usdx", sdk.NewInt(500000000)), tmtime.Canonical(time.Now()))
cdps = append(cdps, c1, c2, c3, c4)
return
}

View File

@ -14,6 +14,7 @@ import (
// saving the result to a module level variable ensures the compiler doesn't optimize the test away
var coinsResult sdk.Coins
var coinResult sdk.Coin
// Note - the iteration benchmarks take a long time to stabilize, to get stable results use:
// go test -benchmem -bench ^(BenchmarkAccountIteration)$ -benchtime 60s -timeout 2h
@ -83,7 +84,7 @@ func createCdps(n int) (app.TestApp, sdk.Context, keeper.Keeper) {
)
cdpKeeper := tApp.GetCDPKeeper()
for i := 0; i < n; i++ {
err := cdpKeeper.AddCdp(ctx, addrs[i], coins[i], cs(c("usdx", 100000000)))
err := cdpKeeper.AddCdp(ctx, addrs[i], coins[i][0], c("usdx", 100000000))
if err != nil {
panic("failed to create cdp")
}
@ -106,7 +107,7 @@ func BenchmarkCdpIteration(b *testing.B) {
b.ResetTimer()
for i := 0; i < b.N; i++ {
cdpKeeper.IterateAllCdps(ctx, func(c cdp.CDP) (stop bool) {
coinsResult = c.Principal
coinResult = c.Principal
return false
})
}
@ -135,7 +136,7 @@ func BenchmarkCdpCreation(b *testing.B) {
cdpKeeper := tApp.GetCDPKeeper()
b.ResetTimer()
for i := 0; i < b.N; i++ {
err := cdpKeeper.AddCdp(ctx, addrs[i], coins[i], cs(c("usdx", 100000000)))
err := cdpKeeper.AddCdp(ctx, addrs[i], coins[i][0], c("usdx", 100000000))
if err != nil {
b.Error("unexpected error")
}

View File

@ -32,12 +32,10 @@ func (k Keeper) GetCollateral(ctx sdk.Context, denom string) (types.CollateralPa
// GetDebtParam returns the debt param with matching denom
func (k Keeper) GetDebtParam(ctx sdk.Context, denom string) (types.DebtParam, bool) {
params := k.GetParams(ctx)
for _, dp := range params.DebtParams {
dp := k.GetParams(ctx).DebtParam
if dp.Denom == denom {
return dp, true
}
}
return types.DebtParam{}, false
}

View File

@ -42,7 +42,7 @@ func queryGetCdp(ctx sdk.Context, req abci.RequestQuery, keeper Keeper) ([]byte,
_, valid := keeper.GetDenomPrefix(ctx, requestParams.CollateralDenom)
if !valid {
return nil, sdkerrors.Wrap(types.ErrInvalidCollateral, requestParams.CollateralDenom)
return nil, sdkerrors.Wrap(types.ErrCollateralNotSupported, requestParams.CollateralDenom)
}
cdp, found := keeper.GetCdpByOwnerAndDenom(ctx, requestParams.Owner, requestParams.CollateralDenom)
@ -73,7 +73,7 @@ func queryGetDeposits(ctx sdk.Context, req abci.RequestQuery, keeper Keeper) ([]
_, valid := keeper.GetDenomPrefix(ctx, requestParams.CollateralDenom)
if !valid {
return nil, sdkerrors.Wrap(types.ErrInvalidCollateral, requestParams.CollateralDenom)
return nil, sdkerrors.Wrap(types.ErrCollateralNotSupported, requestParams.CollateralDenom)
}
cdp, found := keeper.GetCdpByOwnerAndDenom(ctx, requestParams.Owner, requestParams.CollateralDenom)
@ -100,7 +100,7 @@ func queryGetCdpsByRatio(ctx sdk.Context, req abci.RequestQuery, keeper Keeper)
}
_, valid := keeper.GetDenomPrefix(ctx, requestParams.CollateralDenom)
if !valid {
return nil, sdkerrors.Wrap(types.ErrInvalidCollateral, requestParams.CollateralDenom)
return nil, sdkerrors.Wrap(types.ErrCollateralNotSupported, requestParams.CollateralDenom)
}
ratio, err := keeper.CalculateCollateralizationRatioFromAbsoluteRatio(ctx, requestParams.CollateralDenom, requestParams.Ratio)
@ -133,7 +133,7 @@ func queryGetCdpsByDenom(ctx sdk.Context, req abci.RequestQuery, keeper Keeper)
}
_, valid := keeper.GetDenomPrefix(ctx, requestParams.CollateralDenom)
if !valid {
return nil, sdkerrors.Wrap(types.ErrInvalidCollateral, requestParams.CollateralDenom)
return nil, sdkerrors.Wrap(types.ErrCollateralNotSupported, requestParams.CollateralDenom)
}
cdps := keeper.GetAllCdpsByDenom(ctx, requestParams.CollateralDenom)

View File

@ -93,7 +93,7 @@ func (suite *QuerierTestSuite) SetupTest() {
amount = simulation.RandIntBetween(rand.New(rand.NewSource(int64(j))), 500000000, 5000000000)
debt = simulation.RandIntBetween(rand.New(rand.NewSource(int64(j))), 1000000000, 25000000000)
}
err = suite.keeper.AddCdp(suite.ctx, addrs[j], cs(c(collateral, int64(amount))), cs(c("usdx", int64(debt))))
err = suite.keeper.AddCdp(suite.ctx, addrs[j], c(collateral, int64(amount)), c("usdx", int64(debt)))
suite.NoError(err)
c, f := suite.keeper.GetCDP(suite.ctx, collateral, uint64(j+1))
suite.True(f)
@ -113,7 +113,7 @@ func (suite *QuerierTestSuite) TestQueryCdp() {
ctx := suite.ctx.WithIsCheckTx(false)
query := abci.RequestQuery{
Path: strings.Join([]string{custom, types.QuerierRoute, types.QueryGetCdp}, "/"),
Data: types.ModuleCdc.MustMarshalJSON(types.NewQueryCdpParams(suite.cdps[0].Owner, suite.cdps[0].Collateral[0].Denom)),
Data: types.ModuleCdc.MustMarshalJSON(types.NewQueryCdpParams(suite.cdps[0].Owner, suite.cdps[0].Collateral.Denom)),
}
bz, err := suite.querier(ctx, []string{types.QueryGetCdp}, query)
suite.Nil(err)
@ -154,7 +154,7 @@ func (suite *QuerierTestSuite) TestQueryCdpsByDenom() {
ctx := suite.ctx.WithIsCheckTx(false)
query := abci.RequestQuery{
Path: strings.Join([]string{custom, types.QuerierRoute, types.QueryGetCdps}, "/"),
Data: types.ModuleCdc.MustMarshalJSON(types.NewQueryCdpsParams(suite.cdps[0].Collateral[0].Denom)),
Data: types.ModuleCdc.MustMarshalJSON(types.NewQueryCdpsParams(suite.cdps[0].Collateral.Denom)),
}
bz, err := suite.querier(ctx, []string{types.QueryGetCdps}, query)
suite.Nil(err)
@ -181,9 +181,9 @@ func (suite *QuerierTestSuite) TestQueryCdpsByRatio() {
expectedBtcIds := []int{}
for _, cdp := range suite.cdps {
absoluteRatio := suite.keeper.CalculateCollateralToDebtRatio(suite.ctx, cdp.Collateral, cdp.Principal)
collateralizationRatio, err := suite.keeper.CalculateCollateralizationRatioFromAbsoluteRatio(suite.ctx, cdp.Collateral[0].Denom, absoluteRatio)
collateralizationRatio, err := suite.keeper.CalculateCollateralizationRatioFromAbsoluteRatio(suite.ctx, cdp.Collateral.Denom, absoluteRatio)
suite.Nil(err)
if cdp.Collateral[0].Denom == "xrp" {
if cdp.Collateral.Denom == "xrp" {
if collateralizationRatio.LT(xrpRatio) {
ratioCountXrp += 1
expectedXrpIds = append(expectedXrpIds, int(cdp.ID))
@ -262,7 +262,7 @@ func (suite *QuerierTestSuite) TestQueryDeposits() {
ctx := suite.ctx.WithIsCheckTx(false)
query := abci.RequestQuery{
Path: strings.Join([]string{custom, types.QuerierRoute, types.QueryGetCdpDeposits}, "/"),
Data: types.ModuleCdc.MustMarshalJSON(types.NewQueryCdpDeposits(suite.cdps[0].Owner, suite.cdps[0].Collateral[0].Denom)),
Data: types.ModuleCdc.MustMarshalJSON(types.NewQueryCdpDeposits(suite.cdps[0].Owner, suite.cdps[0].Collateral.Denom)),
}
bz, err := suite.querier(ctx, []string{types.QueryGetCdpDeposits}, query)

View File

@ -17,17 +17,11 @@ import (
// (this is the equivalent of saying that fees are no longer accumulated by a cdp once it gets liquidated)
func (k Keeper) SeizeCollateral(ctx sdk.Context, cdp types.CDP) error {
// Calculate the previous collateral ratio
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees...))
oldCollateralToDebtRatio := k.CalculateCollateralToDebtRatio(ctx, cdp.Collateral, cdp.Principal.Add(cdp.AccumulatedFees))
// Move debt coins from cdp to liquidator account
deposits := k.GetDeposits(ctx, cdp.ID)
debt := sdk.ZeroInt()
for _, pc := range cdp.Principal {
debt = debt.Add(pc.Amount)
}
for _, dc := range cdp.AccumulatedFees {
debt = debt.Add(dc.Amount)
}
debt := cdp.Principal.Amount.Add(cdp.AccumulatedFees.Amount)
modAccountDebt := k.getModAccountDebt(ctx, types.ModuleName)
if modAccountDebt.LT(debt) {
debt = modAccountDebt
@ -48,29 +42,24 @@ func (k Keeper) SeizeCollateral(ctx sdk.Context, cdp types.CDP) error {
sdk.NewAttribute(types.AttributeKeyDepositor, fmt.Sprintf("%s", dep.Depositor)),
),
)
err := k.supplyKeeper.SendCoinsFromModuleToModule(ctx, types.ModuleName, types.LiquidatorMacc, dep.Amount)
err := k.supplyKeeper.SendCoinsFromModuleToModule(ctx, types.ModuleName, types.LiquidatorMacc, sdk.NewCoins(dep.Amount))
if err != nil {
return err
}
k.DeleteDeposit(ctx, dep.CdpID, dep.Depositor)
}
err = k.AuctionCollateral(ctx, deposits, debt, cdp.Principal[0].Denom)
err = k.AuctionCollateral(ctx, deposits, debt, cdp.Principal.Denom)
if err != nil {
return err
}
// Decrement total principal for this collateral type
for _, dc := range cdp.Principal {
feeAmount := cdp.AccumulatedFees.AmountOf(dc.Denom)
coinsToDecrement := sdk.NewCoins(dc)
if feeAmount.IsPositive() {
feeCoins := sdk.NewCoins(sdk.NewCoin(dc.Denom, feeAmount))
coinsToDecrement = coinsToDecrement.Add(feeCoins...)
}
k.DecrementTotalPrincipal(ctx, cdp.Collateral[0].Denom, coinsToDecrement)
}
coinsToDecrement := cdp.Principal.Add(cdp.AccumulatedFees)
k.DecrementTotalPrincipal(ctx, cdp.Collateral.Denom, coinsToDecrement)
// Delete CDP from state
k.RemoveCdpOwnerIndex(ctx, cdp)
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral[0].Denom, cdp.ID, oldCollateralToDebtRatio)
k.RemoveCdpCollateralRatioIndex(ctx, cdp.Collateral.Denom, cdp.ID, oldCollateralToDebtRatio)
k.DeleteCDP(ctx, cdp)
return nil
}

View File

@ -103,7 +103,7 @@ func (suite *SeizeTestSuite) createCdps() {
tracker.debt += int64(debt)
}
}
err := suite.keeper.AddCdp(suite.ctx, addrs[j], cs(c(collateral, int64(amount))), cs(c("usdx", int64(debt))))
err := suite.keeper.AddCdp(suite.ctx, addrs[j], c(collateral, int64(amount)), c("usdx", int64(debt)))
suite.NoError(err)
c, f := suite.keeper.GetCDP(suite.ctx, collateral, uint64(j+1))
suite.True(f)
@ -129,37 +129,40 @@ func (suite *SeizeTestSuite) setPrice(price sdk.Dec, market string) {
func (suite *SeizeTestSuite) TestSeizeCollateral() {
suite.createCdps()
sk := suite.app.GetSupplyKeeper()
cdp, _ := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
p := cdp.Principal[0].Amount
cl := cdp.Collateral[0].Amount
cdp, found := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
suite.True(found)
p := cdp.Principal.Amount
cl := cdp.Collateral.Amount
tpb := suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "usdx")
err := suite.keeper.SeizeCollateral(suite.ctx, cdp)
suite.NoError(err)
tpa := suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "usdx")
suite.Equal(tpb.Sub(tpa), p)
auctionKeeper := suite.app.GetAuctionKeeper()
_, found := auctionKeeper.GetAuction(suite.ctx, auction.DefaultNextAuctionID)
_, found = auctionKeeper.GetAuction(suite.ctx, auction.DefaultNextAuctionID)
suite.True(found)
auctionMacc := sk.GetModuleAccount(suite.ctx, auction.ModuleName)
suite.Equal(cs(c("debt", p.Int64()), c("xrp", cl.Int64())), auctionMacc.GetCoins())
ak := suite.app.GetAccountKeeper()
acc := ak.GetAccount(suite.ctx, suite.addrs[1])
suite.Equal(p.Int64(), acc.GetCoins().AmountOf("usdx").Int64())
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[1], suite.addrs[1], cs(c("xrp", 10)))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[1], suite.addrs[1], c("xrp", 10))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
}
func (suite *SeizeTestSuite) TestSeizeCollateralMultiDeposit() {
suite.createCdps()
sk := suite.app.GetSupplyKeeper()
cdp, _ := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
err := suite.keeper.DepositCollateral(suite.ctx, suite.addrs[1], suite.addrs[0], cs(c("xrp", 6999000000)))
cdp, found := suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
suite.True(found)
err := suite.keeper.DepositCollateral(suite.ctx, suite.addrs[1], suite.addrs[0], c("xrp", 6999000000))
suite.NoError(err)
cdp, _ = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
cdp, found = suite.keeper.GetCDP(suite.ctx, "xrp", uint64(2))
suite.True(found)
deposits := suite.keeper.GetDeposits(suite.ctx, cdp.ID)
suite.Equal(2, len(deposits))
p := cdp.Principal[0].Amount
cl := cdp.Collateral[0].Amount
p := cdp.Principal.Amount
cl := cdp.Collateral.Amount
tpb := suite.keeper.GetTotalPrincipal(suite.ctx, "xrp", "usdx")
err = suite.keeper.SeizeCollateral(suite.ctx, cdp)
suite.NoError(err)
@ -170,7 +173,7 @@ func (suite *SeizeTestSuite) TestSeizeCollateralMultiDeposit() {
ak := suite.app.GetAccountKeeper()
acc := ak.GetAccount(suite.ctx, suite.addrs[1])
suite.Equal(p.Int64(), acc.GetCoins().AmountOf("usdx").Int64())
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[1], suite.addrs[1], cs(c("xrp", 10)))
err = suite.keeper.WithdrawCollateral(suite.ctx, suite.addrs[1], suite.addrs[1], c("xrp", 10))
suite.Require().True(errors.Is(err, types.ErrCdpNotFound))
}
@ -180,7 +183,8 @@ func (suite *SeizeTestSuite) TestLiquidateCdps() {
acc := sk.GetModuleAccount(suite.ctx, types.ModuleName)
originalXrpCollateral := acc.GetCoins().AmountOf("xrp")
suite.setPrice(d("0.2"), "xrp:usd")
p, _ := suite.keeper.GetCollateral(suite.ctx, "xrp")
p, found := suite.keeper.GetCollateral(suite.ctx, "xrp")
suite.True(found)
suite.keeper.LiquidateCdps(suite.ctx, "xrp:usd", "xrp", p.LiquidationRatio)
acc = sk.GetModuleAccount(suite.ctx, types.ModuleName)
finalXrpCollateral := acc.GetCoins().AmountOf("xrp")

View File

@ -27,7 +27,7 @@ func TestDecodeDistributionStore(t *testing.T) {
cdpIds := []uint64{1, 2, 3, 4, 5}
denom := "denom"
oneCoins := sdk.NewCoins(sdk.NewCoin(denom, sdk.OneInt()))
oneCoins := sdk.NewCoin(denom, sdk.OneInt())
deposit := types.Deposit{CdpID: 1, Amount: oneCoins}
principal := sdk.OneInt()
prevDistTime := time.Now().UTC()

View File

@ -69,7 +69,7 @@ func randomCdpGenState(selection int) types.GenesisState {
case 0:
return types.GenesisState{
Params: types.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 100000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 100000000000000),
SurplusAuctionThreshold: types.DefaultSurplusThreshold,
DebtAuctionThreshold: types.DefaultDebtThreshold,
SavingsDistributionFrequency: types.DefaultSavingsDistributionFrequency,
@ -77,7 +77,7 @@ func randomCdpGenState(selection int) types.GenesisState {
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("2.0"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 20000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 20000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000004431822130"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.075"),
AuctionSize: sdk.NewInt(100000000000),
@ -88,7 +88,7 @@ func randomCdpGenState(selection int) types.GenesisState {
{
Denom: "btc",
LiquidationRatio: sdk.MustNewDecFromStr("1.25"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 50000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 50000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000000782997609"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(1000000000),
@ -99,7 +99,7 @@ func randomCdpGenState(selection int) types.GenesisState {
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 30000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 30000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000002293273137"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.15"),
AuctionSize: sdk.NewInt(1000000000000),
@ -108,8 +108,7 @@ func randomCdpGenState(selection int) types.GenesisState {
ConversionFactor: sdk.NewInt(8),
},
},
DebtParams: types.DebtParams{
{
DebtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
@ -117,7 +116,6 @@ func randomCdpGenState(selection int) types.GenesisState {
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
},
},
StartingCdpID: types.DefaultCdpStartingID,
DebtDenom: types.DefaultDebtDenom,
GovDenom: types.DefaultGovDenom,
@ -127,7 +125,7 @@ func randomCdpGenState(selection int) types.GenesisState {
case 1:
return types.GenesisState{
Params: types.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 100000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 100000000000000),
SurplusAuctionThreshold: types.DefaultSurplusThreshold,
DebtAuctionThreshold: types.DefaultDebtThreshold,
SavingsDistributionFrequency: types.DefaultSavingsDistributionFrequency,
@ -135,7 +133,7 @@ func randomCdpGenState(selection int) types.GenesisState {
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 100000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 100000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000002293273137"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.075"),
AuctionSize: sdk.NewInt(10000000000),
@ -144,8 +142,7 @@ func randomCdpGenState(selection int) types.GenesisState {
ConversionFactor: sdk.NewInt(8),
},
},
DebtParams: types.DebtParams{
{
DebtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
@ -153,7 +150,6 @@ func randomCdpGenState(selection int) types.GenesisState {
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
},
},
StartingCdpID: types.DefaultCdpStartingID,
DebtDenom: types.DefaultDebtDenom,
GovDenom: types.DefaultGovDenom,

View File

@ -61,8 +61,7 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
}
randCollateralParam := collateralParams[r.Intn(len(collateralParams))]
randDebtAsset := randCollateralParam.DebtLimit[r.Intn(len(randCollateralParam.DebtLimit))]
randDebtParam, _ := k.GetDebtParam(ctx, randDebtAsset.Denom)
debtParam, _ := k.GetDebtParam(ctx, randCollateralParam.DebtLimit.Denom)
if coins.AmountOf(randCollateralParam.Denom).IsZero() {
return simulation.NoOpMsg(types.ModuleName), nil, nil
}
@ -72,7 +71,7 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
return simulation.NoOpMsg(types.ModuleName), nil, err
}
// convert the price to the same units as the debt param
priceShifted := ShiftDec(price.Price, randDebtParam.ConversionFactor)
priceShifted := ShiftDec(price.Price, debtParam.ConversionFactor)
spendableCoins := acc.SpendableCoins(ctx.BlockTime())
fees, err := simulation.RandomFees(r, ctx, spendableCoins)
@ -85,7 +84,7 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
if !found {
// calculate the minimum amount of collateral that is needed to create a cdp with the debt floor amount of debt and the minimum liquidation ratio
// (debtFloor * liquidationRatio)/priceShifted
minCollateralDeposit := (sdk.NewDecFromInt(randDebtParam.DebtFloor).Mul(randCollateralParam.LiquidationRatio)).Quo(priceShifted)
minCollateralDeposit := (sdk.NewDecFromInt(debtParam.DebtFloor).Mul(randCollateralParam.LiquidationRatio)).Quo(priceShifted)
// convert to proper collateral units
minCollateralDeposit = ShiftDec(minCollateralDeposit, randCollateralParam.ConversionFactor)
// convert to integer and always round up
@ -104,17 +103,17 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
// calculate the max amount of debt that could be drawn for the chosen deposit
maxDebtDraw := collateralDepositValue.Quo(randCollateralParam.LiquidationRatio).TruncateInt()
// check that the debt limit hasn't been reached
availableAssetDebt := randCollateralParam.DebtLimit.AmountOf(randDebtParam.Denom).Sub(k.GetTotalPrincipal(ctx, randCollateralParam.Denom, randDebtParam.Denom))
if availableAssetDebt.LTE(randDebtParam.DebtFloor) {
availableAssetDebt := randCollateralParam.DebtLimit.Amount.Sub(k.GetTotalPrincipal(ctx, randCollateralParam.Denom, debtParam.Denom))
if availableAssetDebt.LTE(debtParam.DebtFloor) {
// debt limit has been reached
return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "debt limit reached, cannot open cdp", false, nil), nil, nil
}
// ensure that the debt draw does not exceed the debt limit
maxDebtDraw = sdk.MinInt(maxDebtDraw, availableAssetDebt)
// randomly select a debt draw amount
debtDraw := sdk.NewInt(int64(simulation.RandIntBetween(r, int(randDebtParam.DebtFloor.Int64()), int(maxDebtDraw.Int64()))))
debtDraw := sdk.NewInt(int64(simulation.RandIntBetween(r, int(debtParam.DebtFloor.Int64()), int(maxDebtDraw.Int64()))))
msg := types.NewMsgCreateCDP(acc.GetAddress(), sdk.NewCoins(sdk.NewCoin(randCollateralParam.Denom, collateralDeposit)), sdk.NewCoins(sdk.NewCoin(randDebtParam.Denom, debtDraw)))
msg := types.NewMsgCreateCDP(acc.GetAddress(), sdk.NewCoin(randCollateralParam.Denom, collateralDeposit), sdk.NewCoin(debtParam.Denom, debtDraw))
tx := helpers.GenTx(
[]sdk.Msg{msg},
@ -136,9 +135,9 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
// a cdp already exists, deposit to it, draw debt from it, or repay debt to it
// close 25% of the time
if canClose(acc, existingCDP, randDebtParam.Denom) && shouldClose(r) {
repaymentAmount := spendableCoins.AmountOf(randDebtParam.Denom)
msg := types.NewMsgRepayDebt(acc.GetAddress(), randCollateralParam.Denom, sdk.NewCoins(sdk.NewCoin(randDebtParam.Denom, repaymentAmount)))
if canClose(acc, existingCDP, debtParam.Denom) && shouldClose(r) {
repaymentAmount := spendableCoins.AmountOf(debtParam.Denom)
msg := types.NewMsgRepayDebt(acc.GetAddress(), randCollateralParam.Denom, sdk.NewCoin(debtParam.Denom, repaymentAmount))
tx := helpers.GenTx(
[]sdk.Msg{msg},
@ -161,7 +160,7 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
// deposit 25% of the time
if hasCoins(acc, randCollateralParam.Denom) && shouldDeposit(r) {
randDepositAmount := sdk.NewInt(int64(simulation.RandIntBetween(r, 1, int(spendableCoins.AmountOf(randCollateralParam.Denom).Int64()))))
msg := types.NewMsgDeposit(acc.GetAddress(), acc.GetAddress(), sdk.NewCoins(sdk.NewCoin(randCollateralParam.Denom, randDepositAmount)))
msg := types.NewMsgDeposit(acc.GetAddress(), acc.GetAddress(), sdk.NewCoin(randCollateralParam.Denom, randDepositAmount))
tx := helpers.GenTx(
[]sdk.Msg{msg},
@ -183,12 +182,12 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
// draw debt 25% of the time
if shouldDraw(r) {
collateralShifted := ShiftDec(sdk.NewDecFromInt(existingCDP.Collateral.AmountOf(randCollateralParam.Denom)), randCollateralParam.ConversionFactor.Neg())
collateralShifted := ShiftDec(sdk.NewDecFromInt(existingCDP.Collateral.Amount), randCollateralParam.ConversionFactor.Neg())
collateralValue := collateralShifted.Mul(priceShifted)
newFeesAccumulated := k.CalculateFees(ctx, existingCDP.Principal, sdk.NewInt(ctx.BlockTime().Unix()-existingCDP.FeesUpdated.Unix()), randCollateralParam.Denom).AmountOf(randDebtParam.Denom)
totalFees := existingCDP.AccumulatedFees.AmountOf(randCollateralParam.Denom).Add(newFeesAccumulated)
newFeesAccumulated := k.CalculateFees(ctx, existingCDP.Principal, sdk.NewInt(ctx.BlockTime().Unix()-existingCDP.FeesUpdated.Unix()), randCollateralParam.Denom).Amount
totalFees := existingCDP.AccumulatedFees.Amount.Add(newFeesAccumulated)
// given the current collateral value, calculate how much debt we could add while maintaining a valid liquidation ratio
debt := existingCDP.Principal.AmountOf(randDebtParam.Denom).Add(totalFees)
debt := existingCDP.Principal.Amount.Add(totalFees)
maxTotalDebt := collateralValue.Quo(randCollateralParam.LiquidationRatio)
maxDebt := (maxTotalDebt.Sub(sdk.NewDecFromInt(debt))).Mul(sdk.MustNewDecFromStr("0.95")).TruncateInt()
if maxDebt.LTE(sdk.OneInt()) {
@ -196,7 +195,7 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "cdp debt maxed out, cannot draw more debt", false, nil), nil, nil
}
// check if the debt limit has been reached
availableAssetDebt := randCollateralParam.DebtLimit.AmountOf(randDebtParam.Denom).Sub(k.GetTotalPrincipal(ctx, randCollateralParam.Denom, randDebtParam.Denom))
availableAssetDebt := randCollateralParam.DebtLimit.Amount.Sub(k.GetTotalPrincipal(ctx, randCollateralParam.Denom, debtParam.Denom))
if availableAssetDebt.LTE(sdk.OneInt()) {
// debt limit has been reached
return simulation.NewOperationMsgBasic(types.ModuleName, "no-operation", "debt limit reached, cannot draw more debt", false, nil), nil, nil
@ -204,7 +203,7 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
maxDraw := sdk.MinInt(maxDebt, availableAssetDebt)
randDrawAmount := sdk.NewInt(int64(simulation.RandIntBetween(r, 1, int(maxDraw.Int64()))))
msg := types.NewMsgDrawDebt(acc.GetAddress(), randCollateralParam.Denom, sdk.NewCoins(sdk.NewCoin(randDebtParam.Denom, randDrawAmount)))
msg := types.NewMsgDrawDebt(acc.GetAddress(), randCollateralParam.Denom, sdk.NewCoin(debtParam.Denom, randDrawAmount))
tx := helpers.GenTx(
[]sdk.Msg{msg},
@ -225,19 +224,19 @@ func SimulateMsgCdp(ak auth.AccountKeeper, k keeper.Keeper, pfk types.PricefeedK
}
// repay debt 25% of the time
if hasCoins(acc, randDebtParam.Denom) {
debt := existingCDP.Principal.AmountOf(randDebtParam.Denom)
maxRepay := spendableCoins.AmountOf(randDebtParam.Denom)
payableDebt := debt.Sub(randDebtParam.DebtFloor)
if hasCoins(acc, debtParam.Denom) {
debt := existingCDP.Principal.Amount
maxRepay := spendableCoins.AmountOf(debtParam.Denom)
payableDebt := debt.Sub(debtParam.DebtFloor)
if maxRepay.GT(payableDebt) {
maxRepay = payableDebt
}
randRepayAmount := sdk.NewInt(int64(simulation.RandIntBetween(r, 1, int(maxRepay.Int64()))))
if debt.Equal(randDebtParam.DebtFloor) && spendableCoins.AmountOf(randDebtParam.Denom).GTE(debt) {
if debt.Equal(debtParam.DebtFloor) && spendableCoins.AmountOf(debtParam.Denom).GTE(debt) {
randRepayAmount = debt
}
msg := types.NewMsgRepayDebt(acc.GetAddress(), randCollateralParam.Denom, sdk.NewCoins(sdk.NewCoin(randDebtParam.Denom, randRepayAmount)))
msg := types.NewMsgRepayDebt(acc.GetAddress(), randCollateralParam.Denom, sdk.NewCoin(debtParam.Denom, randRepayAmount))
tx := helpers.GenTx(
[]sdk.Msg{msg},
@ -284,6 +283,6 @@ func shouldClose(r *rand.Rand) bool {
}
func canClose(acc authexported.Account, c types.CDP, denom string) bool {
repaymentAmount := c.Principal.Add(c.AccumulatedFees...).AmountOf(denom)
repaymentAmount := c.Principal.Add(c.AccumulatedFees).Amount
return acc.GetCoins().AmountOf(denom).GTE(repaymentAmount)
}

View File

@ -4,17 +4,30 @@
CDPs enable the creation of a stable asset by collateralization with another on chain asset.
A CDP is scoped to one collateral type. It has one primary owner, and a set of "depositors". The depositors can deposit and withdraw collateral to the CDP. The owner can draw stable assets (creating debt) and repay them to cancel the debt.
A CDP is scoped to one collateral type. It has one primary owner, and a set of "depositors". The depositors can deposit and withdraw collateral to the CDP. The owner can draw stable assets (creating debt), deposit and withdraw collateral, and repay stable assets to cancel the debt.
Once created stable assets are free to be transferred between users, but a CDP owner must repay their debt to get their collateral back.
Once created, stable assets are free to be transferred between users, but a CDP owner must repay their debt to get their collateral back.
User interactions with this module:
- create a new cdp by depositing some type of coin as collateral
- withdraw newly minted stable coin from this CDP (up to a fraction of the value of the collateral)
- create a new CDP by depositing a supported coin as collateral and minting debt
- deposit to a CDP controlled a different owner address
- withdraw deposited collateral, if it doesn't put the CDP below the liquidation ratio
- issue stable coins from this CDP (up to a fraction of the value of the collateral)
- repay debt by paying back stable coins (including paying any fees accrued)
- remove collateral and close CDP
Module interactions:
- fees for all CDPs are updated each block
- the value of fees (surplus) is divded between users, via the savings rate, and owners of the governance token, via burning governance tokens proportional to surplus
- the value of an asset that is supported for CDPs is determined by querying an external pricefeed
- if the price of an asset puts a CDP below the liquidation ratio, the CDP is liquidated
- liquidated collateral is divided into lots and sent to an external auction module
- collateral that is returned from the auction module is returned to the account that deposited that collateral
- if auctions do not recover the desired amount of debt, debt auctions are triggered after a certain threshold of global debt is reached
- surplus auctions are triggered after a certain threshold of surplus is triggered
## Liquidation & Stability System
In the event of a decrease in the price of the collateral, the total value of all collateral in CDPs may drop below the value of all the issued stable assets. This undesirable event is countered through two mechanisms:
@ -35,13 +48,13 @@ The cdp module uses two module accounts - one to hold debt coins associated with
When a user repays stable asset withdrawn from a CDP, they must also pay a fee.
This is calculated according to the amount of stable asset withdrawn and the time withdrawn for. Like interest on a loan fees grow at a compounding percentage of original debt.
This is calculated according to the amount of stable asset withdrawn and the time withdrawn for. Like interest on a loan, fees grow at a compounding percentage of original debt.
Fees create incentives to open or close CDPs and can be changed by governance to help keep the system functioning through changing market conditions.
A further fee is applied on liquidation of a CDP. Normally when the collateral is sold to cover the debt, any excess not sold is returned to the CDP holder. The liquidation fee reduces the amount of excess collateral returned, representing a cut that the system takes.
Fees accumulate to the system before being automatically sold at auction for governance token. These are then burned, acting as incentive for safe governance of the system.
Fees accumulate to the system and are split between the savings rate and surplus. Fees accumulated by the savings rate are distributed directly to holders of stable coins at a specified frequency. Savings rate distributions are proportional to tokens held. For example, if an account holds 1% of all stable coins, they will receive 1% of the savings rate distribution. Fees accumulated as surplus are automatically sold at auction for governance token once a certain threshold is reached. The governance tokens raised at auction are then burned, acting as incentive for safe governance of the system.
## Governance
@ -52,6 +65,7 @@ Governance is important for actions such as:
- enabling CDPs to be created with new collateral assets
- changing fee rates to incentivize behavior
- increasing the debt ceiling to allow more stable asset to be created
- increasing/decreasing the savings rate to promote stability of the debt asset
## Dependency: supply

View File

@ -22,16 +22,17 @@ The CDP's collateral always equal to the total of the deposits.
type CDP struct {
ID uint64
Owner sdk.AccAddress
Collateral sdk.Coins
Principal sdk.Coins
AccumulatedFees sdk.Coins
Collateral sdk.Coin
Principal sdk.Coin
AccumulatedFees sdk.Coin
FeesUpdated time.Time
}
```
CDPs are stored with a couple of database indexes for faster lookup:
CDPs are stored with three database indexes for faster lookup:
- by collateral ratio - to look up cdps that are close to the liquidation ratio
- by collateral denom - to look up cdps with a particular collateral asset
- by owner index - to look up cdps that an address is the owner of
## Deposit
@ -42,7 +43,7 @@ A Deposit is a struct recording collateral added to a CDP by one address. The ad
type Deposit struct {
CdpID uint64
Depositor sdk.AccAddress
Amount sdk.Coins
Amount sdk.Coin
}
```
@ -58,10 +59,14 @@ A global counter used to create unique CDP ids.
The name of the internal debt coin. Its value can be configured at genesis.
## GovDenom
The name of the internal governance coin. Its value can be configured at genesis.
## Total Principle
Sum of all non seized debt plus accumulated fees. This is used to calculate the new debt created every block due to the fee interest rate.
Sum of all non seized debt plus accumulated fees.
## Previous Block Time
## Previous Savings Distribution Time
A record of the last block time used to calculate fees.
A record of the last block time when the savings rate was distributed

View File

@ -9,8 +9,8 @@ CreateCDP sets up and stores a new CDP, adding collateral from the sender, and d
```go
type MsgCreateCDP struct {
Sender sdk.AccAddress
Collateral sdk.Coins
Principal sdk.Coins
Collateral sdk.Coin
Principal sdk.Coin
}
```
@ -29,7 +29,7 @@ Deposit adds collateral to a CDP in the form of a deposit. Collateral is taken f
type MsgDeposit struct {
Owner sdk.AccAddress
Depositor sdk.AccAddress
Collateral sdk.Coins
Collateral sdk.Coin
}
```
@ -47,15 +47,14 @@ Withdraw removes collateral from a CDP, provided it would not put the CDP under
type MsgWithdraw struct {
Owner sdk.AccAddress
Depositor sdk.AccAddress
Collateral sdk.Coins
Collateral sdk.Coin
}
```
State Changes:
- `Collateral` coins are sent from the cdp module account to `Depositor`
- `Collateral` amount of coins subtracted from the `Deposit` struct
- cdp fees are updated (see below)
- `Collateral` amount of coins subtracted from the `Deposit` struct. If the amount is now zero, the struct is deleted
## DrawDebt
@ -65,7 +64,7 @@ DrawDebt creates debt in a CDP, minting new stable asset which is sent to the se
type MsgDrawDebt struct {
Sender sdk.AccAddress
CdpDenom string
Principal sdk.Coins
Principal sdk.Coin
}
```
@ -74,7 +73,6 @@ State Changes:
- mint `Principal` coins and send them to `Sender`, updating the CDP's `Principal` field
- mint equal amount of internal debt coins and store in the module account
- increment total principal for principal denom
- cdp fees are updated (see below)
## RepayDebt
@ -84,7 +82,7 @@ RepayDebt removes some debt from a CDP and burns the corresponding amount of sta
type MsgRepayDebt struct {
Sender sdk.AccAddress
CdpDenom string
Payment sdk.Coins
Payment sdk.Coin
}
```
@ -93,13 +91,12 @@ State Changes:
- burn `Payment` coins taken from `Sender`, updating the CDP by reducing `Principal` field by `Paymment`
- burn an equal amount of internal debt coins
- decrement total principal for payment denom
- cdp fees are updated (see below)
- if fees and principal are zero, return collateral to depositors:
- if fees and principal are zero, return collateral to depositors and delete the CDP struct:
- For each deposit, send coins from the cdp module account to the depositor, and delete the deposit struct from store.
## Fees
When CDPs are updated by the above messages the fees accumulated since the last update are calculated and added on.
At the beginning of each block, fees accumulated since the last update are calculated and added on.
```
feesAccumulated = (outstandingDebt * (feeRate^periods)) - outstandingDebt
@ -111,6 +108,10 @@ where:
- `periods` is the number of seconds since last fee update
- `feeRate` is the per second debt interest rate
Fees are divided between surplus and savings rate. For example, if the savings rate is 0.95, 95% of all fees go towards the savings rate and 5% go to surplus.
In the event that the rounded value of `feesAccumulated` is zero, fees are not updated, and the `FeesUpdated` value on the CDP struct is not updated. When a sufficient number of periods have passed such that the rounded value is no longer zero, fees will be updated.
## Database Indexes
When CDPs are update by the above messages the database indexes are also updated.

View File

@ -2,30 +2,26 @@
At the start of every block the BeginBlocker of the cdp module:
- updates total CDP fees
- update fees for individual "risky" CDPs
- updates fees for CDPs
- liquidates CDPs under the collateral ratio
- nets out system debt and, if necessary, starts auctions to re-balance it
- records the last block time
- pays out the savings rate if sufficient time has past
- records the last savings rate distribution, if one occurred
## Update Fees
- The total fees accumulated since the last block across all CDPs are calculated.
- An equal amount of debt coins are minted and sent to the system's CDP module account.
- An equal amount of stable asset coins are minted and sent to the system's liquidator module account
## Update risky cdps
- UpdateFeesForRiskyCdps calculates fees for risky CDPs
- Select the CDPs with 10% of the liquidation ratio - the risky CDPs
- Calculate additional accumulated fees on each of those CDPs
- Update the fees updated time for the CDP to the current block time
- The total fees accumulated since the last block for each CDP are calculated.
- If the fee amount is non-zero:
- Set the updated value for fees
- Set the fees updated time for the CDP to the current block time
- An equal amount of debt coins are minted and sent to the system's CDP module account.
- An equal amount of stable asset coins are minted and sent to the system's liquidator module account
- Increment total principal.
## Liquidate CDP
- Get every cdp that is under the liquidation ratio for its collateral type.
- For each cdp:
- Calculate and update fees since last update.
- Remove all collateral and internal debt coins from cdp and deposits and delete it. Send the coins to the liquidator module account.
- Start auctions of a fixed size from this collateral (with any remainder in a smaller sized auction), sending collateral and debt coins to the auction module account.
- Decrement total principal.
@ -42,7 +38,3 @@ At the start of every block the BeginBlocker of the cdp module:
- If `SavingsDistributionFrequency` seconds have elapsed since the previous distribution, the savings rate is applied to all accounts that hold stable asset.
- Each account that holds stable asset is distributed a ratable portion of the surplus that is apportioned to the savings rate.
- If distribution occurred, the time of the distribution is recorded.
## Update Previous Block Time
The current block time is recorded.

View File

@ -3,26 +3,26 @@
The cdp module contains the following parameters:
| Key | Type | Example | Description |
|------------------ |-------------------------|------------------------------------|------------------------------------------------------------------|
|------------------------------|-------------------------|------------------------------------|------------------------------------------------------------------|
| CollateralParams | array (CollateralParam) | [{see below}] | array of params for each enabled collateral type |
| DebtParams | array (DebtParam) | [{see below}] | array of params for each enabled pegged asset |
| GlobalDebtLimit | array (coin) | [{"denom":"usdx","amount":"1000"}] | maximum pegged assets that can be minted across the whole system |
| SavingsDistributionFrequency | string (int) | "84600" | number of seconds between distribution of the savings rate|
| DebtParams | DebtParam | {see below} | array of params for each enabled pegged asset |
| GlobalDebtLimit | coin | {"denom":"usdx","amount":"1000"} | maximum pegged assets that can be minted across the whole system |
| SavingsDistributionFrequency | string (int) | "84600" | number of seconds between distribution of the savings rate |
| CircuitBreaker | bool | false | flag to disable user interactions with the system |
Each CollateralParam has the following parameters:
| Key | Type | Example | Description |
|------------------|---------------|---------------------------------------------|----------------------------------------------------------------------------------------------------------------|
| Denom | string | "pbnb" | collateral coin denom |
| Denom | string | "bnb" | collateral coin denom |
| LiquidationRatio | string (dec) | "1.500000000000000000" | the ratio under which a cdp with this collateral type will be liquidated |
| DebtLimit | array (coin) | [{"denom":"pbnb","amount":"1000000000000"}] | maximum pegged asset that can be minted backed by this collateral type |
| DebtLimit | coin | {"denom":"bnb","amount":"1000000000000"} | maximum pegged asset that can be minted backed by this collateral type |
| StabilityFee | string (dec) | "1.000000001547126" | per second fee |
| Prefix | number (byte) | 34 | identifier used in store keys - **must** be unique across collateral types |
| MarketID | string | "BNB/USD" | price feed identifier for this collateral type |
| MarketID | string | "bnb:usd" | price feed identifier for this collateral type |
| ConversionFactor | string (int) | "6" | 10^_ multiplier to go from external amount (say BTC1.50) to internal representation of that amount (150000000) |
Each DebtParam has the following parameters:
DebtParam has the following parameters:
| Key | Type | Example | Description |
|------------------|--------------|------------|------------------------------------------------------------------------------------------------------------|
@ -30,3 +30,4 @@ Each DebtParam has the following parameters:
| ReferenceAsset | string | "USD" | asset this asset is pegged to, informational purposes only |
| ConversionFactor | string (int) | "6" | 10^_ multiplier to go from external amount (say $1.50) to internal representation of that amount (1500000) |
| DebtFloor | string (int) | "10000000" | minimum amount of debt that a CDP can contain |
| SavingsRate | string (dec) | "0.95" | the percentage of accumulated fees that go towards the savings rate |

View File

@ -16,4 +16,4 @@ The `x/cdp` module stores and manages Collateralized Debt Positions (or CDPs).
A CDP enables the creation of a stable asset pegged to an external price (usually US Dollar) by collateralization with another asset. Collateral is locked in a CDP and new stable asset can be minted up to some fraction of the value of the collateral. To unlock the collateral, the debt must be repaid by returning some stable asset to the CDP at which point it will be burned and the collateral unlocked.
Pegged assets remain fully collateralized by the value locked in CDPs. In the event of price changes, this collateral can be seized and sold off by the system to reclaim and reduce the supply of stable assets.
Pegged assets remain fully collateralized by the value locked in CDPs. In the event of price changes, this collateral can be seized and sold off in auctions by the system to reclaim and reduce the supply of stable assets.

View File

@ -12,15 +12,15 @@ import (
type CDP struct {
ID uint64 `json:"id" yaml:"id"` // unique id for cdp
Owner sdk.AccAddress `json:"owner" yaml:"owner"` // Account that authorizes changes to the CDP
Collateral sdk.Coins `json:"collateral" yaml:"collateral"` // Amount of collateral stored in this CDP
Principal sdk.Coins `json:"principal" yaml:"principal"`
AccumulatedFees sdk.Coins `json:"accumulated_fees" yaml:"accumulated_fees"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"` // Amount of collateral stored in this CDP
Principal sdk.Coin `json:"principal" yaml:"principal"`
AccumulatedFees sdk.Coin `json:"accumulated_fees" yaml:"accumulated_fees"`
FeesUpdated time.Time `json:"fees_updated" yaml:"fees_updated"` // Amount of stable coin drawn from this CDP
}
// NewCDP creates a new CDP object
func NewCDP(id uint64, owner sdk.AccAddress, collateral sdk.Coins, principal sdk.Coins, time time.Time) CDP {
var fees sdk.Coins
func NewCDP(id uint64, owner sdk.AccAddress, collateral sdk.Coin, principal sdk.Coin, time time.Time) CDP {
fees := sdk.NewCoin(principal.Denom, sdk.ZeroInt())
return CDP{
ID: id,
Owner: owner,
@ -43,7 +43,7 @@ func (cdp CDP) String() string {
Fees Last Updated: %s`,
cdp.Owner,
cdp.ID,
cdp.Collateral[0].Denom,
cdp.Collateral.Denom,
cdp.Collateral,
cdp.Principal,
cdp.AccumulatedFees,
@ -101,7 +101,7 @@ func (augCDP AugmentedCDP) String() string {
Collateralization ratio: %s`,
augCDP.Owner,
augCDP.ID,
augCDP.Collateral[0].Denom,
augCDP.Collateral.Denom,
augCDP.Collateral,
augCDP.CollateralValue,
augCDP.Principal,

View File

@ -10,11 +10,11 @@ import (
type Deposit struct {
CdpID uint64 `json:"cdp_id" yaml:"cdp_id"` // cdpID of the cdp
Depositor sdk.AccAddress `json:"depositor" yaml:"depositor"` // Address of the depositor
Amount sdk.Coins `json:"amount" yaml:"amount"` // Deposit amount
Amount sdk.Coin `json:"amount" yaml:"amount"` // Deposit amount
}
// NewDeposit creates a new Deposit object
func NewDeposit(cdpID uint64, depositor sdk.AccAddress, amount sdk.Coins) Deposit {
func NewDeposit(cdpID uint64, depositor sdk.AccAddress, amount sdk.Coin) Deposit {
return Deposit{cdpID, depositor, amount}
}
@ -56,7 +56,7 @@ func (ds Deposits) SumCollateral() (sum sdk.Int) {
sum = sdk.ZeroInt()
for _, d := range ds {
if !d.Amount.IsZero() {
sum = sum.Add(d.Amount[0].Amount)
sum = sum.Add(d.Amount.Amount)
}
}
return

View File

@ -25,18 +25,20 @@ var (
ErrDepositNotFound = sdkerrors.Register(ModuleName, 9, "deposit not found")
// ErrInvalidDeposit error for invalid deposit
ErrInvalidDeposit = sdkerrors.Register(ModuleName, 10, "invalid deposit")
// ErrInvalidCollateral error for invalid collateral
ErrInvalidCollateral = sdkerrors.Register(ModuleName, 11, "collateral not supported")
// ErrInvalidPayment error for invalid payment
ErrInvalidPayment = sdkerrors.Register(ModuleName, 12, "invalid payment")
ErrInvalidPayment = sdkerrors.Register(ModuleName, 11, "invalid payment")
//ErrDepositNotAvailable error for withdrawing deposits in liquidation
ErrDepositNotAvailable = sdkerrors.Register(ModuleName, 13, "deposit in liquidation")
ErrDepositNotAvailable = sdkerrors.Register(ModuleName, 12, "deposit in liquidation")
// ErrInvalidWithdrawAmount error for invalid withdrawal amount
ErrInvalidWithdrawAmount = sdkerrors.Register(ModuleName, 14, "withdrawal amount exceeds deposit")
ErrInvalidWithdrawAmount = sdkerrors.Register(ModuleName, 13, "withdrawal amount exceeds deposit")
//ErrCdpNotAvailable error for depositing to a CDP in liquidation
ErrCdpNotAvailable = sdkerrors.Register(ModuleName, 15, "cannot modify cdp in liquidation")
ErrCdpNotAvailable = sdkerrors.Register(ModuleName, 14, "cannot modify cdp in liquidation")
// ErrBelowDebtFloor error for creating a cdp with debt below the minimum
ErrBelowDebtFloor = sdkerrors.Register(ModuleName, 16, "proposed cdp debt is below minimum")
ErrBelowDebtFloor = sdkerrors.Register(ModuleName, 15, "proposed cdp debt is below minimum")
// ErrLoadingAugmentedCDP error loading augmented cdp
ErrLoadingAugmentedCDP = sdkerrors.Register(ModuleName, 17, "augmented cdp could not be loaded from cdp")
ErrLoadingAugmentedCDP = sdkerrors.Register(ModuleName, 16, "augmented cdp could not be loaded from cdp")
// ErrInvalidDebtRequest error for invalid principal input length
ErrInvalidDebtRequest = sdkerrors.Register(ModuleName, 17, "only one principal type per cdp")
// ErrDenomPrefixNotFound error for denom prefix not found
ErrDenomPrefixNotFound = sdkerrors.Register(ModuleName, 18, "denom prefix not found")
)

View File

@ -4,6 +4,8 @@ import (
"bytes"
"fmt"
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
)
// GenesisState is the state that must be provided at genesis.
@ -55,9 +57,12 @@ func (gs GenesisState) Validate() error {
return fmt.Errorf("previous distribution time not set")
}
if gs.DebtDenom == "" {
return fmt.Errorf("debt denom not set")
if err := sdk.ValidateDenom(gs.DebtDenom); err != nil {
return fmt.Errorf(fmt.Sprintf("debt denom invalid: %v", err))
}
if err := sdk.ValidateDenom(gs.GovDenom); err != nil {
return fmt.Errorf(fmt.Sprintf("gov denom invalid: %v", err))
}
return nil

View File

@ -21,12 +21,12 @@ var (
// MsgCreateCDP creates a cdp
type MsgCreateCDP struct {
Sender sdk.AccAddress `json:"sender" yaml:"sender"`
Collateral sdk.Coins `json:"collateral" yaml:"collateral"`
Principal sdk.Coins `json:"principal" yaml:"principal"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"`
Principal sdk.Coin `json:"principal" yaml:"principal"`
}
// NewMsgCreateCDP returns a new MsgPlaceBid.
func NewMsgCreateCDP(sender sdk.AccAddress, collateral sdk.Coins, principal sdk.Coins) MsgCreateCDP {
func NewMsgCreateCDP(sender sdk.AccAddress, collateral sdk.Coin, principal sdk.Coin) MsgCreateCDP {
return MsgCreateCDP{
Sender: sender,
Collateral: collateral,
@ -45,13 +45,10 @@ func (msg MsgCreateCDP) ValidateBasic() error {
if msg.Sender.Empty() {
return sdkerrors.Wrap(sdkerrors.ErrInvalidAddress, "sender address cannot be empty")
}
if msg.Collateral.Len() != 1 {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "cdps do not support multiple collateral types: %s", msg.Collateral)
}
if !msg.Collateral.IsValid() {
if msg.Collateral.IsZero() || !msg.Collateral.IsValid() {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "collateral amount %s", msg.Collateral)
}
if msg.Principal.Empty() || !msg.Principal.IsValid() {
if msg.Principal.IsZero() || !msg.Principal.IsValid() {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "principal amount %s", msg.Principal)
}
return nil
@ -81,11 +78,11 @@ func (msg MsgCreateCDP) String() string {
type MsgDeposit struct {
Depositor sdk.AccAddress `json:"depositor" yaml:"depositor"`
Owner sdk.AccAddress `json:"owner" yaml:"owner"`
Collateral sdk.Coins `json:"collateral" yaml:"collateral"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"`
}
// NewMsgDeposit returns a new MsgDeposit
func NewMsgDeposit(owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coins) MsgDeposit {
func NewMsgDeposit(owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coin) MsgDeposit {
return MsgDeposit{
Owner: owner,
Depositor: depositor,
@ -107,10 +104,7 @@ func (msg MsgDeposit) ValidateBasic() error {
if msg.Depositor.Empty() {
return sdkerrors.Wrap(sdkerrors.ErrInvalidAddress, "sender address cannot be empty")
}
if msg.Collateral.Len() != 1 {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "cdps do not support multiple collateral types: %s", msg.Collateral)
}
if !msg.Collateral.IsValid() {
if !msg.Collateral.IsValid() || msg.Collateral.IsZero() {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "collateral amount %s", msg.Collateral)
}
return nil
@ -140,11 +134,11 @@ func (msg MsgDeposit) String() string {
type MsgWithdraw struct {
Depositor sdk.AccAddress `json:"depositor" yaml:"depositor"`
Owner sdk.AccAddress `json:"owner" yaml:"owner"`
Collateral sdk.Coins `json:"collateral" yaml:"collateral"`
Collateral sdk.Coin `json:"collateral" yaml:"collateral"`
}
// NewMsgWithdraw returns a new MsgDeposit
func NewMsgWithdraw(owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coins) MsgWithdraw {
func NewMsgWithdraw(owner sdk.AccAddress, depositor sdk.AccAddress, collateral sdk.Coin) MsgWithdraw {
return MsgWithdraw{
Owner: owner,
Depositor: depositor,
@ -166,10 +160,7 @@ func (msg MsgWithdraw) ValidateBasic() error {
if msg.Depositor.Empty() {
return sdkerrors.Wrap(sdkerrors.ErrInvalidAddress, "sender address cannot be empty")
}
if msg.Collateral.Len() != 1 {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "cdps do not support multiple collateral types: %s", msg.Collateral)
}
if !msg.Collateral.IsValid() {
if !msg.Collateral.IsValid() || msg.Collateral.IsZero() {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "collateral amount %s", msg.Collateral)
}
return nil
@ -195,15 +186,15 @@ func (msg MsgWithdraw) String() string {
`, msg.Owner, msg.Depositor, msg.Collateral)
}
// MsgDrawDebt draw coins off of collateral in cdp
// MsgDrawDebt draw debt off of collateral in cdp
type MsgDrawDebt struct {
Sender sdk.AccAddress `json:"sender" yaml:"sender"`
CdpDenom string `json:"cdp_denom" yaml:"cdp_denom"`
Principal sdk.Coins `json:"principal" yaml:"principal"`
Principal sdk.Coin `json:"principal" yaml:"principal"`
}
// NewMsgDrawDebt returns a new MsgDrawDebt
func NewMsgDrawDebt(sender sdk.AccAddress, denom string, principal sdk.Coins) MsgDrawDebt {
func NewMsgDrawDebt(sender sdk.AccAddress, denom string, principal sdk.Coin) MsgDrawDebt {
return MsgDrawDebt{
Sender: sender,
CdpDenom: denom,
@ -225,7 +216,7 @@ func (msg MsgDrawDebt) ValidateBasic() error {
if strings.TrimSpace(msg.CdpDenom) == "" {
return errors.New("cdp denom cannot be blank")
}
if msg.Principal.Empty() || !msg.Principal.IsValid() {
if msg.Principal.IsZero() || !msg.Principal.IsValid() {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "principal amount %s", msg.Principal)
}
return nil
@ -255,11 +246,11 @@ func (msg MsgDrawDebt) String() string {
type MsgRepayDebt struct {
Sender sdk.AccAddress `json:"sender" yaml:"sender"`
CdpDenom string `json:"cdp_denom" yaml:"cdp_denom"`
Payment sdk.Coins `json:"payment" yaml:"payment"`
Payment sdk.Coin `json:"payment" yaml:"payment"`
}
// NewMsgRepayDebt returns a new MsgRepayDebt
func NewMsgRepayDebt(sender sdk.AccAddress, denom string, payment sdk.Coins) MsgRepayDebt {
func NewMsgRepayDebt(sender sdk.AccAddress, denom string, payment sdk.Coin) MsgRepayDebt {
return MsgRepayDebt{
Sender: sender,
CdpDenom: denom,
@ -281,7 +272,7 @@ func (msg MsgRepayDebt) ValidateBasic() error {
if strings.TrimSpace(msg.CdpDenom) == "" {
return errors.New("cdp denom cannot be blank")
}
if msg.Payment.Empty() || !msg.Payment.IsValid() {
if msg.Payment.IsZero() || !msg.Payment.IsValid() {
return sdkerrors.Wrapf(sdkerrors.ErrInvalidCoins, "payment amount %s", msg.Payment)
}
return nil

View File

@ -8,9 +8,8 @@ import (
)
var (
coinsSingle = sdk.NewCoins(sdk.NewInt64Coin(sdk.DefaultBondDenom, 1000))
coinsZero = sdk.NewCoins()
coinsMulti = sdk.NewCoins(sdk.NewInt64Coin(sdk.DefaultBondDenom, 1000), sdk.NewInt64Coin("foo", 10000)).Sort()
coinsSingle = sdk.NewInt64Coin(sdk.DefaultBondDenom, 1000)
coinsZero = sdk.NewCoin(sdk.DefaultBondDenom, sdk.ZeroInt())
addrs = []sdk.AccAddress{
sdk.AccAddress("test1"),
sdk.AccAddress("test2"),
@ -21,15 +20,13 @@ func TestMsgCreateCDP(t *testing.T) {
tests := []struct {
description string
sender sdk.AccAddress
collateral sdk.Coins
principal sdk.Coins
collateral sdk.Coin
principal sdk.Coin
expectPass bool
}{
{"create cdp", addrs[0], coinsSingle, coinsSingle, true},
{"create cdp multi debt", addrs[0], coinsSingle, coinsMulti, true},
{"create cdp no collateral", addrs[0], coinsZero, coinsSingle, false},
{"create cdp no debt", addrs[0], coinsSingle, coinsZero, false},
{"create cdp multi collateral", addrs[0], coinsMulti, coinsSingle, false},
{"create cdp empty owner", sdk.AccAddress{}, coinsSingle, coinsSingle, false},
}
@ -52,13 +49,12 @@ func TestMsgDeposit(t *testing.T) {
description string
sender sdk.AccAddress
depositor sdk.AccAddress
collateral sdk.Coins
collateral sdk.Coin
expectPass bool
}{
{"deposit", addrs[0], addrs[1], coinsSingle, true},
{"deposit", addrs[0], addrs[0], coinsSingle, true},
{"deposit no collateral", addrs[0], addrs[1], coinsZero, false},
{"deposit multi collateral", addrs[0], addrs[1], coinsMulti, false},
{"deposit empty owner", sdk.AccAddress{}, addrs[1], coinsSingle, false},
{"deposit empty depositor", addrs[0], sdk.AccAddress{}, coinsSingle, false},
}
@ -82,13 +78,12 @@ func TestMsgWithdraw(t *testing.T) {
description string
sender sdk.AccAddress
depositor sdk.AccAddress
collateral sdk.Coins
collateral sdk.Coin
expectPass bool
}{
{"withdraw", addrs[0], addrs[1], coinsSingle, true},
{"withdraw", addrs[0], addrs[0], coinsSingle, true},
{"withdraw no collateral", addrs[0], addrs[1], coinsZero, false},
{"withdraw multi collateral", addrs[0], addrs[1], coinsMulti, false},
{"withdraw empty owner", sdk.AccAddress{}, addrs[1], coinsSingle, false},
{"withdraw empty depositor", addrs[0], sdk.AccAddress{}, coinsSingle, false},
}
@ -112,12 +107,11 @@ func TestMsgDrawDebt(t *testing.T) {
description string
sender sdk.AccAddress
denom string
principal sdk.Coins
principal sdk.Coin
expectPass bool
}{
{"draw debt", addrs[0], sdk.DefaultBondDenom, coinsSingle, true},
{"draw debt no debt", addrs[0], sdk.DefaultBondDenom, coinsZero, false},
{"draw debt multi debt", addrs[0], sdk.DefaultBondDenom, coinsMulti, true},
{"draw debt empty owner", sdk.AccAddress{}, sdk.DefaultBondDenom, coinsSingle, false},
{"draw debt empty denom", sdk.AccAddress{}, "", coinsSingle, false},
}
@ -141,12 +135,11 @@ func TestMsgRepayDebt(t *testing.T) {
description string
sender sdk.AccAddress
denom string
payment sdk.Coins
payment sdk.Coin
expectPass bool
}{
{"repay debt", addrs[0], sdk.DefaultBondDenom, coinsSingle, true},
{"repay debt no payment", addrs[0], sdk.DefaultBondDenom, coinsZero, false},
{"repay debt multi payment", addrs[0], sdk.DefaultBondDenom, coinsMulti, true},
{"repay debt empty owner", sdk.AccAddress{}, sdk.DefaultBondDenom, coinsSingle, false},
{"repay debt empty denom", sdk.AccAddress{}, "", coinsSingle, false},
}

View File

@ -15,31 +15,39 @@ import (
var (
KeyGlobalDebtLimit = []byte("GlobalDebtLimit")
KeyCollateralParams = []byte("CollateralParams")
KeyDebtParams = []byte("DebtParams")
KeyDebtParam = []byte("DebtParam")
KeyDistributionFrequency = []byte("DistributionFrequency")
KeyCircuitBreaker = []byte("CircuitBreaker")
KeyDebtThreshold = []byte("DebtThreshold")
KeySurplusThreshold = []byte("SurplusThreshold")
DefaultGlobalDebt = sdk.Coins{}
DefaultGlobalDebt = sdk.NewCoin(DefaultStableDenom, sdk.ZeroInt())
DefaultCircuitBreaker = false
DefaultCollateralParams = CollateralParams{}
DefaultDebtParams = DebtParams{}
DefaultDebtParam = DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
}
DefaultCdpStartingID = uint64(1)
DefaultDebtDenom = "debt"
DefaultGovDenom = "ukava"
DefaultStableDenom = "usdx"
DefaultSurplusThreshold = sdk.NewInt(1000000000)
DefaultDebtThreshold = sdk.NewInt(1000000000)
DefaultPreviousDistributionTime = tmtime.Canonical(time.Unix(0, 0))
DefaultSavingsDistributionFrequency = time.Hour * 24 * 2
DefaultSavingsDistributionFrequency = time.Hour * 12
minCollateralPrefix = 0
maxCollateralPrefix = 255
stabilityFeeMax = sdk.MustNewDecFromStr("1.000000051034942716") // 500% APR
)
// Params governance parameters for cdp module
type Params struct {
CollateralParams CollateralParams `json:"collateral_params" yaml:"collateral_params"`
DebtParams DebtParams `json:"debt_params" yaml:"debt_params"`
GlobalDebtLimit sdk.Coins `json:"global_debt_limit" yaml:"global_debt_limit"`
DebtParam DebtParam `json:"debt_param" yaml:"debt_param"`
GlobalDebtLimit sdk.Coin `json:"global_debt_limit" yaml:"global_debt_limit"`
SurplusAuctionThreshold sdk.Int `json:"surplus_auction_threshold" yaml:"surplus_auction_threshold"`
DebtAuctionThreshold sdk.Int `json:"debt_auction_threshold" yaml:"debt_auction_threshold"`
SavingsDistributionFrequency time.Duration `json:"savings_distribution_frequency" yaml:"savings_distribution_frequency"`
@ -56,16 +64,16 @@ func (p Params) String() string {
Debt Auction Threshold: %s
Savings Distribution Frequency: %s
Circuit Breaker: %t`,
p.GlobalDebtLimit, p.CollateralParams, p.DebtParams, p.SurplusAuctionThreshold, p.DebtAuctionThreshold, p.SavingsDistributionFrequency, p.CircuitBreaker,
p.GlobalDebtLimit, p.CollateralParams, p.DebtParam, p.SurplusAuctionThreshold, p.DebtAuctionThreshold, p.SavingsDistributionFrequency, p.CircuitBreaker,
)
}
// NewParams returns a new params object
func NewParams(debtLimit sdk.Coins, collateralParams CollateralParams, debtParams DebtParams, surplusThreshold sdk.Int, debtThreshold sdk.Int, distributionFreq time.Duration, breaker bool) Params {
func NewParams(debtLimit sdk.Coin, collateralParams CollateralParams, debtParam DebtParam, surplusThreshold sdk.Int, debtThreshold sdk.Int, distributionFreq time.Duration, breaker bool) Params {
return Params{
GlobalDebtLimit: debtLimit,
CollateralParams: collateralParams,
DebtParams: debtParams,
DebtParam: debtParam,
DebtAuctionThreshold: debtThreshold,
SurplusAuctionThreshold: surplusThreshold,
SavingsDistributionFrequency: distributionFreq,
@ -75,14 +83,14 @@ func NewParams(debtLimit sdk.Coins, collateralParams CollateralParams, debtParam
// DefaultParams returns default params for cdp module
func DefaultParams() Params {
return NewParams(DefaultGlobalDebt, DefaultCollateralParams, DefaultDebtParams, DefaultSurplusThreshold, DefaultDebtThreshold, DefaultSavingsDistributionFrequency, DefaultCircuitBreaker)
return NewParams(DefaultGlobalDebt, DefaultCollateralParams, DefaultDebtParam, DefaultSurplusThreshold, DefaultDebtThreshold, DefaultSavingsDistributionFrequency, DefaultCircuitBreaker)
}
// CollateralParam governance parameters for each collateral type within the cdp module
type CollateralParam struct {
Denom string `json:"denom" yaml:"denom"` // Coin name of collateral type
LiquidationRatio sdk.Dec `json:"liquidation_ratio" yaml:"liquidation_ratio"` // The ratio (Collateral (priced in stable coin) / Debt) under which a CDP will be liquidated
DebtLimit sdk.Coins `json:"debt_limit" yaml:"debt_limit"` // Maximum amount of debt allowed to be drawn from this collateral type
DebtLimit sdk.Coin `json:"debt_limit" yaml:"debt_limit"` // Maximum amount of debt allowed to be drawn from this collateral type
StabilityFee sdk.Dec `json:"stability_fee" yaml:"stability_fee"` // per second stability fee for loans opened using this collateral
AuctionSize sdk.Int `json:"auction_size" yaml:"auction_size"` // Max amount of collateral to sell off in any one auction.
LiquidationPenalty sdk.Dec `json:"liquidation_penalty" yaml:"liquidation_penalty"` // percentage penalty (between [0, 1]) applied to a cdp if it is liquidated
@ -132,7 +140,9 @@ func (dp DebtParam) String() string {
Denom: %s
Reference Asset: %s
Conversion Factor: %s
Debt Floor %s`, dp.Denom, dp.ReferenceAsset, dp.ConversionFactor, dp.DebtFloor)
Debt Floor %s
Savings Rate %s
`, dp.Denom, dp.ReferenceAsset, dp.ConversionFactor, dp.DebtFloor, dp.SavingsRate)
}
// DebtParams array of DebtParam
@ -159,7 +169,7 @@ func (p *Params) ParamSetPairs() params.ParamSetPairs {
return params.ParamSetPairs{
params.NewParamSetPair(KeyGlobalDebtLimit, &p.GlobalDebtLimit, validateGlobalDebtLimitParam),
params.NewParamSetPair(KeyCollateralParams, &p.CollateralParams, validateCollateralParams),
params.NewParamSetPair(KeyDebtParams, &p.DebtParams, validateDebtParams),
params.NewParamSetPair(KeyDebtParam, &p.DebtParam, validateDebtParam),
params.NewParamSetPair(KeyCircuitBreaker, &p.CircuitBreaker, validateCircuitBreakerParam),
params.NewParamSetPair(KeySurplusThreshold, &p.SurplusAuctionThreshold, validateSurplusAuctionThresholdParam),
params.NewParamSetPair(KeyDebtThreshold, &p.DebtAuctionThreshold, validateDebtAuctionThresholdParam),
@ -177,7 +187,7 @@ func (p Params) Validate() error {
return err
}
if err := validateDebtParams(p.DebtParams); err != nil {
if err := validateDebtParam(p.DebtParam); err != nil {
return err
}
@ -197,39 +207,50 @@ func (p Params) Validate() error {
return err
}
debtDenoms := make(map[string]bool)
for _, dp := range p.DebtParams {
debtDenoms[dp.Denom] = true
if len(p.CollateralParams) == 0 { // default value OK
return nil
}
if (DebtParam{}) != p.DebtParam {
if p.DebtParam.Denom != p.GlobalDebtLimit.Denom {
return fmt.Errorf("debt denom %s does not match global debt denom %s",
p.DebtParam.Denom, p.GlobalDebtLimit.Denom)
}
}
// validate collateral params
collateralDupMap := make(map[string]int)
prefixDupMap := make(map[int]int)
collateralParamsDebtLimit := sdk.Coins{}
collateralParamsDebtLimit := sdk.ZeroInt()
for _, cp := range p.CollateralParams {
prefix := int(cp.Prefix)
prefixDupMap[prefix] = 1
collateralDupMap[cp.Denom] = 1
collateralParamsDebtLimit = collateralParamsDebtLimit.Add(cp.DebtLimit...)
if cp.DebtLimit.Denom != p.GlobalDebtLimit.Denom {
return fmt.Errorf("collateral debt limit denom %s does not match global debt limit denom %s",
cp.DebtLimit.Denom, p.GlobalDebtLimit.Denom)
}
if cp.DebtLimit.IsAnyGT(p.GlobalDebtLimit) {
return fmt.Errorf("collateral debt limit for %s exceeds global debt limit: \n\tglobal debt limit: %s\n\tcollateral debt limits: %s",
cp.Denom, p.GlobalDebtLimit, cp.DebtLimit)
collateralParamsDebtLimit = collateralParamsDebtLimit.Add(cp.DebtLimit.Amount)
if cp.DebtLimit.Amount.GT(p.GlobalDebtLimit.Amount) {
return fmt.Errorf("collateral debt limit %s exceeds global debt limit: %s", cp.DebtLimit, p.GlobalDebtLimit)
}
}
if collateralParamsDebtLimit.IsAnyGT(p.GlobalDebtLimit) {
return fmt.Errorf("collateral debt limit exceeds global debt limit:\n\tglobal debt limit: %s\n\tcollateral debt limits: %s",
p.GlobalDebtLimit, collateralParamsDebtLimit)
if collateralParamsDebtLimit.GT(p.GlobalDebtLimit.Amount) {
return fmt.Errorf("sum of collateral debt limits %s exceeds global debt limit %s",
collateralParamsDebtLimit, p.GlobalDebtLimit)
}
return nil
}
func validateGlobalDebtLimitParam(i interface{}) error {
globalDebtLimit, ok := i.(sdk.Coins)
globalDebtLimit, ok := i.(sdk.Coin)
if !ok {
return fmt.Errorf("invalid parameter type: %T", i)
}
@ -250,8 +271,12 @@ func validateCollateralParams(i interface{}) error {
collateralDupMap := make(map[string]bool)
prefixDupMap := make(map[int]bool)
for _, cp := range collateralParams {
if strings.TrimSpace(cp.Denom) == "" {
return fmt.Errorf("debt denom cannot be blank %s", cp)
if err := sdk.ValidateDenom(cp.Denom); err != nil {
return fmt.Errorf("collateral denom invalid %s", cp.Denom)
}
if strings.TrimSpace(cp.MarketID) == "" {
return fmt.Errorf("market id cannot be blank %s", cp)
}
prefix := int(cp.Prefix)
@ -283,39 +308,26 @@ func validateCollateralParams(i interface{}) error {
if !cp.AuctionSize.IsPositive() {
return fmt.Errorf("auction size should be positive, is %s for %s", cp.AuctionSize, cp.Denom)
}
if cp.StabilityFee.LT(sdk.OneDec()) {
return fmt.Errorf("stability fee must be ≥ 1.0, is %s for %s", cp.StabilityFee, cp.Denom)
if cp.StabilityFee.LT(sdk.OneDec()) || cp.StabilityFee.GT(stabilityFeeMax) {
return fmt.Errorf("stability fee must be ≥ 1.0, ≤ %s, is %s for %s", stabilityFeeMax, cp.StabilityFee, cp.Denom)
}
}
return nil
}
func validateDebtParams(i interface{}) error {
debtParams, ok := i.(DebtParams)
func validateDebtParam(i interface{}) error {
debtParam, ok := i.(DebtParam)
if !ok {
return fmt.Errorf("invalid parameter type: %T", i)
}
// validate debt params
debtDenoms := make(map[string]bool)
for _, dp := range debtParams {
if strings.TrimSpace(dp.Denom) == "" {
return fmt.Errorf("debt denom cannot be blank %s", dp)
if err := sdk.ValidateDenom(debtParam.Denom); err != nil {
return fmt.Errorf("debt denom invalid %s", debtParam.Denom)
}
_, found := debtDenoms[dp.Denom]
if found {
return fmt.Errorf("duplicate debt denom: %s", dp.Denom)
if debtParam.SavingsRate.LT(sdk.ZeroDec()) || debtParam.SavingsRate.GT(sdk.OneDec()) {
return fmt.Errorf("savings rate should be between 0 and 1, is %s for %s", debtParam.SavingsRate, debtParam.Denom)
}
if dp.SavingsRate.LT(sdk.ZeroDec()) || dp.SavingsRate.GT(sdk.OneDec()) {
return fmt.Errorf("savings rate should be between 0 and 1, is %s for %s", dp.SavingsRate, dp.Denom)
}
debtDenoms[dp.Denom] = true
}
return nil
}

736
x/cdp/types/params_test.go Normal file
View File

@ -0,0 +1,736 @@
package types_test
import (
"strings"
"testing"
"time"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/kava-labs/kava/x/cdp/types"
"github.com/stretchr/testify/suite"
)
type ParamsTestSuite struct {
suite.Suite
}
func (suite *ParamsTestSuite) SetupTest() {
}
func (suite *ParamsTestSuite) TestParamValidation() {
type args struct {
globalDebtLimit sdk.Coin
collateralParams types.CollateralParams
debtParam types.DebtParam
surplusThreshold sdk.Int
debtThreshold sdk.Int
distributionFreq time.Duration
breaker bool
}
type errArgs struct {
expectPass bool
contains string
}
testCases := []struct {
name string
args args
errArgs errArgs
}{
{
name: "default",
args: args{
globalDebtLimit: types.DefaultGlobalDebt,
collateralParams: types.DefaultCollateralParams,
debtParam: types.DefaultDebtParam,
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: true,
contains: "",
},
},
{
name: "valid single-collateral",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 4000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: true,
contains: "",
},
},
{
name: "invalid single-collateral mismatched debt denoms",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 4000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "susd",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "does not match global debt denom",
},
},
{
name: "invalid single-collateral over debt limit",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "exceeds global debt limit",
},
},
{
name: "valid multi-collateral",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 4000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x21,
MarketID: "xrp:usd",
ConversionFactor: sdk.NewInt(6),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: true,
contains: "",
},
},
{
name: "invalid multi-collateral over debt limit",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x21,
MarketID: "xrp:usd",
ConversionFactor: sdk.NewInt(6),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "sum of collateral debt limits",
},
},
{
name: "invalid multi-collateral multiple debt denoms",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 4000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("susd", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x21,
MarketID: "xrp:usd",
ConversionFactor: sdk.NewInt(6),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "does not match global debt limit denom",
},
},
{
name: "invalid collateral params empty denom",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "collateral denom invalid",
},
},
{
name: "invalid collateral params empty market id",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "market id cannot be blank",
},
},
{
name: "invalid collateral params duplicate denom",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x21,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "duplicate collateral denom",
},
},
{
name: "invalid collateral params duplicate prefix",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
{
Denom: "xrp",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "xrp:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "duplicate prefix for collateral denom",
},
},
{
name: "invalid collateral params nil debt limit",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.Coin{},
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "debt limit for all collaterals should be positive",
},
},
{
name: "invalid collateral params liquidation ratio out of range",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("1.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "liquidation penalty should be between 0 and 1",
},
},
{
name: "invalid collateral params auction size zero",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.ZeroInt(),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "auction size should be positive",
},
},
{
name: "invalid collateral params stability fee out of range",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.1"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "stability fee must be ≥ 1.0",
},
},
{
name: "invalid debt param empty denom",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("0.95"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "debt denom invalid",
},
},
{
name: "invalid debt param savings rate out of range",
args: args{
globalDebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
collateralParams: types.CollateralParams{
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("1.5"),
DebtLimit: sdk.NewInt64Coin("usdx", 2000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"),
LiquidationPenalty: sdk.MustNewDecFromStr("0.05"),
AuctionSize: sdk.NewInt(50000000000),
Prefix: 0x20,
MarketID: "bnb:usd",
ConversionFactor: sdk.NewInt(8),
},
},
debtParam: types.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: sdk.NewInt(6),
DebtFloor: sdk.NewInt(10000000),
SavingsRate: sdk.MustNewDecFromStr("1.05"),
},
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "savings rate should be between 0 and 1",
},
},
{
name: "nil debt limit",
args: args{
globalDebtLimit: sdk.Coin{},
collateralParams: types.DefaultCollateralParams,
debtParam: types.DefaultDebtParam,
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "invalid coins: global debt limit",
},
},
{
name: "zero savings distribution frequency",
args: args{
globalDebtLimit: types.DefaultGlobalDebt,
collateralParams: types.DefaultCollateralParams,
debtParam: types.DefaultDebtParam,
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: time.Second * 0,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "savings distribution frequency should be positive",
},
},
{
name: "zero surplus auction",
args: args{
globalDebtLimit: types.DefaultGlobalDebt,
collateralParams: types.DefaultCollateralParams,
debtParam: types.DefaultDebtParam,
surplusThreshold: sdk.ZeroInt(),
debtThreshold: types.DefaultDebtThreshold,
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "surplus auction threshold should be positive",
},
},
{
name: "zero debt auction",
args: args{
globalDebtLimit: types.DefaultGlobalDebt,
collateralParams: types.DefaultCollateralParams,
debtParam: types.DefaultDebtParam,
surplusThreshold: types.DefaultSurplusThreshold,
debtThreshold: sdk.ZeroInt(),
distributionFreq: types.DefaultSavingsDistributionFrequency,
breaker: types.DefaultCircuitBreaker,
},
errArgs: errArgs{
expectPass: false,
contains: "debt auction threshold should be positive",
},
},
}
for _, tc := range testCases {
suite.Run(tc.name, func() {
params := types.NewParams(tc.args.globalDebtLimit, tc.args.collateralParams, tc.args.debtParam, tc.args.surplusThreshold, tc.args.debtThreshold, tc.args.distributionFreq, tc.args.breaker)
err := params.Validate()
if tc.errArgs.expectPass {
suite.Require().NoError(err)
} else {
suite.Require().Error(err)
suite.Require().True(strings.Contains(err.Error(), tc.errArgs.contains))
}
})
}
}
func TestParamsTestSuite(t *testing.T) {
suite.Run(t, new(ParamsTestSuite))
}

View File

@ -72,7 +72,7 @@ func (k Keeper) ApplyRewardsToCdps(ctx sdk.Context) {
rewardsThisPeriod := rp.Reward.Amount.Mul(timeElapsed)
id := k.GetNextClaimPeriodID(ctx, rp.Denom)
k.cdpKeeper.IterateCdpsByDenom(ctx, rp.Denom, func(cdp cdptypes.CDP) bool {
rewardsShare := sdk.NewDecFromInt(cdp.Principal.AmountOf(types.PrincipalDenom).Add(cdp.AccumulatedFees.AmountOf(types.PrincipalDenom))).Quo(sdk.NewDecFromInt(totalPrincipal))
rewardsShare := sdk.NewDecFromInt(cdp.Principal.Amount.Add(cdp.AccumulatedFees.Amount)).Quo(sdk.NewDecFromInt(totalPrincipal))
// sanity check - don't create zero claims
if rewardsShare.IsZero() {
return false

View File

@ -175,7 +175,7 @@ func (suite *KeeperTestSuite) setupCdpChain() {
// need incentive params for one collateral
cdpGS := cdp.GenesisState{
Params: cdp.Params{
GlobalDebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000)),
GlobalDebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
SurplusAuctionThreshold: cdp.DefaultSurplusThreshold,
DebtAuctionThreshold: cdp.DefaultDebtThreshold,
SavingsDistributionFrequency: cdp.DefaultSavingsDistributionFrequency,
@ -183,7 +183,7 @@ func (suite *KeeperTestSuite) setupCdpChain() {
{
Denom: "bnb",
LiquidationRatio: sdk.MustNewDecFromStr("2.0"),
DebtLimit: sdk.NewCoins(sdk.NewInt64Coin("usdx", 1000000000000)),
DebtLimit: sdk.NewInt64Coin("usdx", 1000000000000),
StabilityFee: sdk.MustNewDecFromStr("1.000000001547125958"), // %5 apr
LiquidationPenalty: d("0.05"),
AuctionSize: i(10000000000),
@ -192,8 +192,7 @@ func (suite *KeeperTestSuite) setupCdpChain() {
ConversionFactor: i(8),
},
},
DebtParams: cdp.DebtParams{
{
DebtParam: cdp.DebtParam{
Denom: "usdx",
ReferenceAsset: "usd",
ConversionFactor: i(6),
@ -201,7 +200,6 @@ func (suite *KeeperTestSuite) setupCdpChain() {
SavingsRate: d("0.95"),
},
},
},
StartingCdpID: cdp.DefaultCdpStartingID,
DebtDenom: cdp.DefaultDebtDenom,
GovDenom: cdp.DefaultGovDenom,
@ -239,11 +237,11 @@ func (suite *KeeperTestSuite) setupCdpChain() {
suite.ctx = ctx
// create 3 cdps
cdpKeeper := tApp.GetCDPKeeper()
err := cdpKeeper.AddCdp(suite.ctx, addrs[0], cs(c("bnb", 10000000000)), cs(c("usdx", 10000000)))
err := cdpKeeper.AddCdp(suite.ctx, addrs[0], c("bnb", 10000000000), c("usdx", 10000000))
suite.Require().NoError(err)
err = cdpKeeper.AddCdp(suite.ctx, addrs[1], cs(c("bnb", 100000000000)), cs(c("usdx", 100000000)))
err = cdpKeeper.AddCdp(suite.ctx, addrs[1], c("bnb", 100000000000), c("usdx", 100000000))
suite.Require().NoError(err)
err = cdpKeeper.AddCdp(suite.ctx, addrs[2], cs(c("bnb", 1000000000000)), cs(c("usdx", 1000000000)))
err = cdpKeeper.AddCdp(suite.ctx, addrs[2], c("bnb", 1000000000000), c("usdx", 1000000000))
suite.Require().NoError(err)
// total usd is 1110