0g-chain/x/precisebank/keeper/mint.go

213 lines
8.1 KiB
Go

package keeper
import (
"fmt"
errorsmod "cosmossdk.io/errors"
sdkmath "cosmossdk.io/math"
sdk "github.com/cosmos/cosmos-sdk/types"
sdkerrors "github.com/cosmos/cosmos-sdk/types/errors"
authtypes "github.com/cosmos/cosmos-sdk/x/auth/types"
banktypes "github.com/cosmos/cosmos-sdk/x/bank/types"
"github.com/kava-labs/kava/x/precisebank/types"
)
// MintCoins creates new coins from thin air and adds it to the module account.
// If ExtendedCoinDenom is provided, the corresponding fractional amount is
// added to the module state.
// It will panic if the module account does not exist or is unauthorized.
func (k Keeper) MintCoins(ctx sdk.Context, moduleName string, amt sdk.Coins) error {
// Disallow minting to x/precisebank module
if moduleName == types.ModuleName {
panic(errorsmod.Wrapf(sdkerrors.ErrUnauthorized, "module account %s cannot be minted to", moduleName))
}
// Note: MintingRestrictionFn is not used in x/precisebank
// Panic errors are identical to x/bank for consistency.
acc := k.ak.GetModuleAccount(ctx, moduleName)
if acc == nil {
panic(errorsmod.Wrapf(sdkerrors.ErrUnknownAddress, "module account %s does not exist", moduleName))
}
if !acc.HasPermission(authtypes.Minter) {
panic(errorsmod.Wrapf(sdkerrors.ErrUnauthorized, "module account %s does not have permissions to mint tokens", moduleName))
}
// Ensure the coins are valid before minting
if !amt.IsValid() {
return errorsmod.Wrap(sdkerrors.ErrInvalidCoins, amt.String())
}
// Get non-ExtendedCoinDenom coins
passthroughCoins := amt
extendedAmount := amt.AmountOf(types.ExtendedCoinDenom)
if extendedAmount.IsPositive() {
// Remove ExtendedCoinDenom from the coins as it is managed by x/precisebank
removeCoin := sdk.NewCoin(types.ExtendedCoinDenom, extendedAmount)
passthroughCoins = amt.Sub(removeCoin)
}
// Coins unmanaged by x/precisebank are passed through to x/bank
if !passthroughCoins.Empty() {
if err := k.bk.MintCoins(ctx, moduleName, passthroughCoins); err != nil {
return err
}
}
// Only mint extended coin if the amount is positive
if extendedAmount.IsPositive() {
if err := k.mintExtendedCoin(ctx, moduleName, extendedAmount); err != nil {
return err
}
}
fullEmissionCoins := sdk.NewCoins(types.SumExtendedCoin(amt))
if fullEmissionCoins.IsZero() {
return nil
}
ctx.EventManager().EmitEvents(sdk.Events{
banktypes.NewCoinMintEvent(acc.GetAddress(), fullEmissionCoins),
banktypes.NewCoinReceivedEvent(acc.GetAddress(), fullEmissionCoins),
})
return nil
}
// mintExtendedCoin manages the minting of only extended coins. This also
// handles integer carry over from fractional balance to integer balance if
// necessary depending on the fractional balance and minting amount. Ensures
// that the reserve fully backs the additional minted amount, minting any extra
// reserve integer coins if necessary.
// 4 Cases:
// 1. NO integer carry over, >= 0 remainder - no reserve mint
// 2. NO integer carry over, negative remainder - mint 1 to reserve
// 3. Integer carry over, >= 0 remainder
// - Transfer 1 integer from reserve -> account
//
// 4. Integer carry over, negative remainder
// - Transfer 1 integer from reserve -> account
// - Mint 1 to reserve
// Optimization:
// - Increase direct account mint amount by 1, no extra reserve mint
func (k Keeper) mintExtendedCoin(
ctx sdk.Context,
recipientModuleName string,
amt sdkmath.Int,
) error {
moduleAddr := k.ak.GetModuleAddress(recipientModuleName)
// Get current module account fractional balance - 0 if not found
fractionalAmount := k.GetFractionalBalance(ctx, moduleAddr)
// Get separated mint amounts
integerMintAmount := amt.Quo(types.ConversionFactor())
fractionalMintAmount := amt.Mod(types.ConversionFactor())
// Get previous remainder amount, as we need to it before carry calculation
// for the optimization path.
prevRemainder := k.GetRemainderAmount(ctx)
// Deduct new remainder with minted fractional amount. This will result in
// two cases:
// 1. Zero or positive remainder: remainder is sufficient to back the minted
// fractional amount. Reserve is also sufficient to back the minted amount
// so no additional reserve integer coin is needed.
// 2. Negative remainder: remainder is insufficient to back the minted
// fractional amount. Reserve will need to be increased to back the mint
// amount.
newRemainder := prevRemainder.Sub(fractionalMintAmount)
// Get new fractional balance after minting, this could be greater than
// the conversion factor and must be checked for carry over to integer mint
// amount as being set as-is may cause fractional balance exceeding max.
newFractionalBalance := fractionalAmount.Add(fractionalMintAmount)
// Case #3 - Integer carry, remainder is sufficient (0 or positive)
if newFractionalBalance.GTE(types.ConversionFactor()) && newRemainder.GTE(sdkmath.ZeroInt()) {
// Carry should send from reserve -> account, instead of minting an
// extra integer coin. Otherwise doing an extra mint will require a burn
// from reserves to maintain exact backing.
carryCoin := sdk.NewCoin(types.IntegerCoinDenom, sdkmath.OneInt())
// SendCoinsFromModuleToModule allows for sending coins even if the
// recipient module account is blocked.
if err := k.bk.SendCoinsFromModuleToModule(
ctx,
types.ModuleName,
recipientModuleName,
sdk.NewCoins(carryCoin),
); err != nil {
return err
}
}
// Case #4 - Integer carry, remainder is insufficient
// This is the optimization path where the integer mint amount is increased
// by 1, instead of doing both a reserve -> account transfer and reserve mint.
if newFractionalBalance.GTE(types.ConversionFactor()) && newRemainder.IsNegative() {
integerMintAmount = integerMintAmount.AddRaw(1)
}
// If it carries over, adjust the fractional balance to account for the
// previously added 1 integer amount.
// fractional amounts x and y where both x and y < ConversionFactor
// x + y < (2 * ConversionFactor) - 2
// x + y < 1 integer amount + fractional amount
if newFractionalBalance.GTE(types.ConversionFactor()) {
// Subtract 1 integer equivalent amount of fractional balance. Same
// behavior as using .Mod() in this case.
newFractionalBalance = newFractionalBalance.Sub(types.ConversionFactor())
}
// Mint new integer amounts in x/bank - including carry over from fractional
// amount if any.
if integerMintAmount.IsPositive() {
integerMintCoin := sdk.NewCoin(types.IntegerCoinDenom, integerMintAmount)
if err := k.bk.MintCoins(
ctx,
recipientModuleName,
sdk.NewCoins(integerMintCoin),
); err != nil {
return err
}
}
// Assign new fractional balance in x/precisebank
k.SetFractionalBalance(ctx, moduleAddr, newFractionalBalance)
// ----------------------------------------
// Update remainder & reserves to back minted fractional coins
// Mint an additional reserve integer coin if remainder is insufficient.
// The remainder is the amount of fractional coins that can be minted and
// still be fully backed by reserve. If the remainder is less than the
// minted fractional amount, then the reserve needs to be increased to
// back the additional fractional amount.
// Optimization: This is only done when the integer amount does NOT carry,
// as a direct account mint is done instead of integer carry transfer +
// insufficient remainder reserve mint.
wasCarried := fractionalAmount.Add(fractionalMintAmount).GTE(types.ConversionFactor())
if prevRemainder.LT(fractionalMintAmount) && !wasCarried {
// Always only 1 integer coin, as fractionalMintAmount < ConversionFactor
reserveMintCoins := sdk.NewCoins(sdk.NewCoin(types.IntegerCoinDenom, sdkmath.OneInt()))
if err := k.bk.MintCoins(ctx, types.ModuleName, reserveMintCoins); err != nil {
return fmt.Errorf("failed to mint %s for reserve: %w", reserveMintCoins, err)
}
}
// newRemainder will be negative if prevRemainder < fractionalMintAmount.
// This needs to be adjusted back to the corresponding positive value. The
// remainder will be always < conversionFactor after add if it is negative.
if newRemainder.IsNegative() {
newRemainder = newRemainder.Add(types.ConversionFactor())
}
k.SetRemainderAmount(ctx, newRemainder)
return nil
}