0g-chain/app/upgrades.go

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package app
import (
"fmt"
sdkmath "cosmossdk.io/math"
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evmutilkeeper "github.com/0glabs/0g-chain/x/evmutil/keeper"
evmutiltypes "github.com/0glabs/0g-chain/x/evmutil/types"
precisebankkeeper "github.com/0glabs/0g-chain/x/precisebank/keeper"
precisebanktypes "github.com/0glabs/0g-chain/x/precisebank/types"
storetypes "github.com/cosmos/cosmos-sdk/store/types"
sdk "github.com/cosmos/cosmos-sdk/types"
"github.com/cosmos/cosmos-sdk/types/module"
bankkeeper "github.com/cosmos/cosmos-sdk/x/bank/keeper"
upgradetypes "github.com/cosmos/cosmos-sdk/x/upgrade/types"
)
const (
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UpgradeName_Testnet = "v0.4.0"
)
// RegisterUpgradeHandlers registers the upgrade handlers for the app.
func (app App) RegisterUpgradeHandlers() {
app.upgradeKeeper.SetUpgradeHandler(
UpgradeName_Testnet,
upgradeHandler(app, UpgradeName_Testnet),
)
upgradeInfo, err := app.upgradeKeeper.ReadUpgradeInfoFromDisk()
if err != nil {
panic(err)
}
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doUpgrade := upgradeInfo.Name == UpgradeName_Testnet
if doUpgrade && !app.upgradeKeeper.IsSkipHeight(upgradeInfo.Height) {
storeUpgrades := storetypes.StoreUpgrades{
Added: []string{
precisebanktypes.ModuleName,
},
}
// configure store loader that checks if version == upgradeHeight and applies store upgrades
app.SetStoreLoader(upgradetypes.UpgradeStoreLoader(upgradeInfo.Height, &storeUpgrades))
}
}
// upgradeHandler returns an UpgradeHandler for the given upgrade parameters.
func upgradeHandler(
app App,
name string,
) upgradetypes.UpgradeHandler {
return func(
ctx sdk.Context,
plan upgradetypes.Plan,
fromVM module.VersionMap,
) (module.VersionMap, error) {
logger := app.Logger()
logger.Info(fmt.Sprintf("running %s upgrade handler", name))
// Run migrations for all modules and return new consensus version map.
versionMap, err := app.mm.RunMigrations(ctx, app.configurator, fromVM)
if err != nil {
return nil, err
}
logger.Info("completed store migrations")
// Migration of fractional balances from x/evmutil to x/precisebank
if err := MigrateEvmutilToPrecisebank(
ctx,
app.accountKeeper,
app.bankKeeper,
app.evmutilKeeper,
app.precisebankKeeper,
); err != nil {
return nil, err
}
logger.Info("completed x/evmutil to x/precisebank migration")
return versionMap, nil
}
}
// MigrateEvmutilToPrecisebank migrates all required state from x/evmutil to
// x/precisebank and ensures the resulting state is correct.
// This migrates the following state:
// - Fractional balances
// - Fractional balance reserve
// Initializes the following state in x/precisebank:
// - Remainder amount
func MigrateEvmutilToPrecisebank(
ctx sdk.Context,
accountKeeper evmutiltypes.AccountKeeper,
bankKeeper bankkeeper.Keeper,
evmutilKeeper evmutilkeeper.Keeper,
precisebankKeeper precisebankkeeper.Keeper,
) error {
logger := ctx.Logger()
aggregateSum, err := TransferFractionalBalances(
ctx,
evmutilKeeper,
precisebankKeeper,
)
if err != nil {
return fmt.Errorf("fractional balances transfer: %w", err)
}
logger.Info(
"fractional balances transferred from x/evmutil to x/precisebank",
"aggregate sum", aggregateSum,
)
remainder := InitializeRemainder(ctx, precisebankKeeper, aggregateSum)
logger.Info("remainder amount initialized in x/precisebank", "remainder", remainder)
// Migrate fractional balances, reserve, and ensure reserve fully backs all
// fractional balances.
if err := TransferFractionalBalanceReserve(
ctx,
accountKeeper,
bankKeeper,
precisebankKeeper,
); err != nil {
return fmt.Errorf("reserve transfer: %w", err)
}
return nil
}
// TransferFractionalBalances migrates fractional balances from x/evmutil to
// x/precisebank. It sets the fractional balance in x/precisebank and deletes
// the account from x/evmutil. Returns the aggregate sum of all fractional
// balances.
func TransferFractionalBalances(
ctx sdk.Context,
evmutilKeeper evmutilkeeper.Keeper,
precisebankKeeper precisebankkeeper.Keeper,
) (sdkmath.Int, error) {
aggregateSum := sdkmath.ZeroInt()
var iterErr error
evmutilKeeper.IterateAllAccounts(ctx, func(acc evmutiltypes.Account) bool {
// Set account balance in x/precisebank
precisebankKeeper.SetFractionalBalance(ctx, acc.Address, acc.Balance)
// Delete account from x/evmutil
iterErr := evmutilKeeper.SetAccount(ctx, evmutiltypes.Account{
Address: acc.Address,
// Set balance to 0 to delete it
Balance: sdkmath.ZeroInt(),
})
// Halt iteration if there was an error
if iterErr != nil {
return true
}
// Aggregate sum of all fractional balances
aggregateSum = aggregateSum.Add(acc.Balance)
// Continue iterating
return false
})
return aggregateSum, iterErr
}
// InitializeRemainder initializes the remainder amount in x/precisebank. It
// calculates the remainder amount that is needed to ensure that the sum of all
// fractional balances is a multiple of the conversion factor. The remainder
// amount is stored in the store and returned.
func InitializeRemainder(
ctx sdk.Context,
precisebankKeeper precisebankkeeper.Keeper,
aggregateSum sdkmath.Int,
) sdkmath.Int {
// Extra fractional coins that exceed the conversion factor.
// This extra + remainder should equal the conversion factor to ensure
// (sum(fBalances) + remainder) % conversionFactor = 0
extraFractionalAmount := aggregateSum.Mod(precisebanktypes.ConversionFactor())
remainder := precisebanktypes.ConversionFactor().
Sub(extraFractionalAmount).
// Mod conversion factor to ensure remainder is valid.
// If extraFractionalAmount is a multiple of conversion factor, the
// remainder is 0.
Mod(precisebanktypes.ConversionFactor())
// Panics if the remainder is invalid. In a correct chain state and only
// mint/burns due to transfers, this would be 0.
precisebankKeeper.SetRemainderAmount(ctx, remainder)
return remainder
}
// TransferFractionalBalanceReserve migrates the fractional balance reserve from
// x/evmutil to x/precisebank. It transfers the reserve balance from x/evmutil
// to x/precisebank and ensures that the reserve fully backs all fractional
// balances. It mints or burns coins to back the fractional balances exactly.
func TransferFractionalBalanceReserve(
ctx sdk.Context,
accountKeeper evmutiltypes.AccountKeeper,
bankKeeper bankkeeper.Keeper,
precisebankKeeper precisebankkeeper.Keeper,
) error {
logger := ctx.Logger()
// Transfer x/evmutil reserve to x/precisebank.
evmutilAddr := accountKeeper.GetModuleAddress(evmutiltypes.ModuleName)
reserveBalance := bankKeeper.GetBalance(ctx, evmutilAddr, precisebanktypes.IntegerCoinDenom)
if err := bankKeeper.SendCoinsFromModuleToModule(
ctx,
evmutiltypes.ModuleName, // from x/evmutil
precisebanktypes.ModuleName, // to x/precisebank
sdk.NewCoins(reserveBalance),
); err != nil {
return fmt.Errorf("failed to transfer reserve from x/evmutil to x/precisebank: %w", err)
}
logger.Info(fmt.Sprintf("transferred reserve balance: %s", reserveBalance))
// Ensure x/precisebank reserve fully backs all fractional balances.
totalFractionalBalances := precisebankKeeper.GetTotalSumFractionalBalances(ctx)
// Does NOT ensure state is correct, total fractional balances should be a
// multiple of conversion factor but is not guaranteed due to the remainder.
// Remainder initialization is handled by InitializeRemainder.
// Determine how much the reserve is off by, e.g. unbacked amount
expectedReserveBalance := totalFractionalBalances.Quo(precisebanktypes.ConversionFactor())
// If there is a remainder (totalFractionalBalances % conversionFactor != 0),
// then expectedReserveBalance is rounded up to the nearest integer.
if totalFractionalBalances.Mod(precisebanktypes.ConversionFactor()).IsPositive() {
expectedReserveBalance = expectedReserveBalance.Add(sdkmath.OneInt())
}
unbackedAmount := expectedReserveBalance.Sub(reserveBalance.Amount)
logger.Info(fmt.Sprintf("total account fractional balances: %s", totalFractionalBalances))
// Three possible cases:
// 1. Reserve is not enough, mint coins to back the fractional balances
// 2. Reserve is too much, burn coins to back the fractional balances exactly
// 3. Reserve is exactly enough, no action needed
if unbackedAmount.IsPositive() {
coins := sdk.NewCoins(sdk.NewCoin(precisebanktypes.IntegerCoinDenom, unbackedAmount))
if err := bankKeeper.MintCoins(ctx, precisebanktypes.ModuleName, coins); err != nil {
return fmt.Errorf("failed to mint extra reserve coins: %w", err)
}
logger.Info(fmt.Sprintf("unbacked amount minted to reserve: %s", unbackedAmount))
} else if unbackedAmount.IsNegative() {
coins := sdk.NewCoins(sdk.NewCoin(precisebanktypes.IntegerCoinDenom, unbackedAmount.Neg()))
if err := bankKeeper.BurnCoins(ctx, precisebanktypes.ModuleName, coins); err != nil {
return fmt.Errorf("failed to burn extra reserve coins: %w", err)
}
logger.Info(fmt.Sprintf("extra reserve amount burned: %s", unbackedAmount.Neg()))
} else {
logger.Info("reserve exactly backs fractional balances, no mint/burn needed")
}
return nil
}