package ante

import (
	"math/big"

	errorsmod "cosmossdk.io/errors"
	sdk "github.com/cosmos/cosmos-sdk/types"
	errortypes "github.com/cosmos/cosmos-sdk/types/errors"

	evmtypes "github.com/cerc-io/laconicd/x/evm/types"
	ethtypes "github.com/ethereum/go-ethereum/core/types"
)

// MinGasPriceDecorator will check if the transaction's fee is at least as large
// as the MinGasPrices param. If fee is too low, decorator returns error and tx
// is rejected. This applies for both CheckTx and DeliverTx
// If fee is high enough, then call next AnteHandler
// CONTRACT: Tx must implement FeeTx to use MinGasPriceDecorator
type MinGasPriceDecorator struct {
	feesKeeper FeeMarketKeeper
	evmKeeper  EVMKeeper
}

// EthMinGasPriceDecorator will check if the transaction's fee is at least as large
// as the MinGasPrices param. If fee is too low, decorator returns error and tx
// is rejected. This applies to both CheckTx and DeliverTx and regardless
// if London hard fork or fee market params (EIP-1559) are enabled.
// If fee is high enough, then call next AnteHandler
type EthMinGasPriceDecorator struct {
	feesKeeper FeeMarketKeeper
	evmKeeper  EVMKeeper
}

// EthMempoolFeeDecorator will check if the transaction's effective fee is at least as large
// as the local validator's minimum gasFee (defined in validator config).
// If fee is too low, decorator returns error and tx is rejected from mempool.
// Note this only applies when ctx.CheckTx = true
// If fee is high enough or not CheckTx, then call next AnteHandler
// CONTRACT: Tx must implement FeeTx to use MempoolFeeDecorator
type EthMempoolFeeDecorator struct {
	evmKeeper EVMKeeper
}

// NewMinGasPriceDecorator creates a new MinGasPriceDecorator instance used only for
// Cosmos transactions.
func NewMinGasPriceDecorator(fk FeeMarketKeeper, ek EVMKeeper) MinGasPriceDecorator {
	return MinGasPriceDecorator{feesKeeper: fk, evmKeeper: ek}
}

// NewEthMinGasPriceDecorator creates a new MinGasPriceDecorator instance used only for
// Ethereum transactions.
func NewEthMinGasPriceDecorator(fk FeeMarketKeeper, ek EVMKeeper) EthMinGasPriceDecorator {
	return EthMinGasPriceDecorator{feesKeeper: fk, evmKeeper: ek}
}

// NewEthMempoolFeeDecorator creates a new NewEthMempoolFeeDecorator instance used only for
// Ethereum transactions.
func NewEthMempoolFeeDecorator(ek EVMKeeper) EthMempoolFeeDecorator {
	return EthMempoolFeeDecorator{
		evmKeeper: ek,
	}
}

func (mpd MinGasPriceDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
	feeTx, ok := tx.(sdk.FeeTx)
	if !ok {
		return ctx, errorsmod.Wrapf(errortypes.ErrInvalidType, "invalid transaction type %T, expected sdk.FeeTx", tx)
	}

	minGasPrice := mpd.feesKeeper.GetParams(ctx).MinGasPrice

	// Short-circuit if min gas price is 0 or if simulating
	if minGasPrice.IsZero() || simulate {
		return next(ctx, tx, simulate)
	}

	evmDenom := mpd.evmKeeper.GetEVMDenom(ctx)
	minGasPrices := sdk.DecCoins{
		{
			Denom:  evmDenom,
			Amount: minGasPrice,
		},
	}

	feeCoins := feeTx.GetFee()
	gas := feeTx.GetGas()

	requiredFees := make(sdk.Coins, 0)

	// Determine the required fees by multiplying each required minimum gas
	// price by the gas limit, where fee = ceil(minGasPrice * gasLimit).
	gasLimit := sdk.NewDecFromBigInt(new(big.Int).SetUint64(gas))

	for _, gp := range minGasPrices {
		fee := gp.Amount.Mul(gasLimit).Ceil().RoundInt()
		if fee.IsPositive() {
			requiredFees = requiredFees.Add(sdk.Coin{Denom: gp.Denom, Amount: fee})
		}
	}

	if !feeCoins.IsAnyGTE(requiredFees) {
		return ctx, errorsmod.Wrapf(errortypes.ErrInsufficientFee,
			"provided fee < minimum global fee (%s < %s). Please increase the gas price.",
			feeCoins,
			requiredFees)
	}

	return next(ctx, tx, simulate)
}

// AnteHandle ensures that the that the effective fee from the transaction is greater than the
// minimum global fee, which is defined by the  MinGasPrice (parameter) * GasLimit (tx argument).
func (empd EthMinGasPriceDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
	minGasPrice := empd.feesKeeper.GetParams(ctx).MinGasPrice

	// short-circuit if min gas price is 0
	if minGasPrice.IsZero() {
		return next(ctx, tx, simulate)
	}

	chainCfg := empd.evmKeeper.GetChainConfig(ctx)
	ethCfg := chainCfg.EthereumConfig(empd.evmKeeper.ChainID())
	baseFee := empd.evmKeeper.GetBaseFee(ctx, ethCfg)

	for _, msg := range tx.GetMsgs() {
		ethMsg, ok := msg.(*evmtypes.MsgEthereumTx)
		if !ok {
			return ctx, errorsmod.Wrapf(
				errortypes.ErrUnknownRequest,
				"invalid message type %T, expected %T",
				msg, (*evmtypes.MsgEthereumTx)(nil),
			)
		}

		feeAmt := ethMsg.GetFee()

		// For dynamic transactions, GetFee() uses the GasFeeCap value, which
		// is the maximum gas price that the signer can pay. In practice, the
		// signer can pay less, if the block's BaseFee is lower. So, in this case,
		// we use the EffectiveFee. If the feemarket formula results in a BaseFee
		// that lowers EffectivePrice until it is < MinGasPrices, the users must
		// increase the GasTipCap (priority fee) until EffectivePrice > MinGasPrices.
		// Transactions with MinGasPrices * gasUsed < tx fees < EffectiveFee are rejected
		// by the feemarket AnteHandle

		txData, err := evmtypes.UnpackTxData(ethMsg.Data)
		if err != nil {
			return ctx, errorsmod.Wrapf(err, "failed to unpack tx data %s", ethMsg.Hash)
		}

		if txData.TxType() != ethtypes.LegacyTxType {
			feeAmt = ethMsg.GetEffectiveFee(baseFee)
		}

		gasLimit := sdk.NewDecFromBigInt(new(big.Int).SetUint64(ethMsg.GetGas()))

		requiredFee := minGasPrice.Mul(gasLimit)
		fee := sdk.NewDecFromBigInt(feeAmt)

		if fee.LT(requiredFee) {
			return ctx, errorsmod.Wrapf(
				errortypes.ErrInsufficientFee,
				"provided fee < minimum global fee (%d < %d). Please increase the priority tip (for EIP-1559 txs) or the gas prices (for access list or legacy txs)", //nolint:lll
				fee.TruncateInt().Int64(), requiredFee.TruncateInt().Int64(),
			)
		}
	}

	return next(ctx, tx, simulate)
}

// AnteHandle ensures that the provided fees meet a minimum threshold for the validator.
// This check only for local mempool purposes, and thus it is only run on (Re)CheckTx.
// The logic is also skipped if the London hard fork and EIP-1559 are enabled.
func (mfd EthMempoolFeeDecorator) AnteHandle(ctx sdk.Context, tx sdk.Tx, simulate bool, next sdk.AnteHandler) (newCtx sdk.Context, err error) {
	if !ctx.IsCheckTx() || simulate {
		return next(ctx, tx, simulate)
	}
	chainCfg := mfd.evmKeeper.GetChainConfig(ctx)
	ethCfg := chainCfg.EthereumConfig(mfd.evmKeeper.ChainID())

	baseFee := mfd.evmKeeper.GetBaseFee(ctx, ethCfg)
	// skip check as the London hard fork and EIP-1559 are enabled
	if baseFee != nil {
		return next(ctx, tx, simulate)
	}

	evmDenom := mfd.evmKeeper.GetEVMDenom(ctx)
	minGasPrice := ctx.MinGasPrices().AmountOf(evmDenom)

	for _, msg := range tx.GetMsgs() {
		ethMsg, ok := msg.(*evmtypes.MsgEthereumTx)
		if !ok {
			return ctx, errorsmod.Wrapf(errortypes.ErrUnknownRequest, "invalid message type %T, expected %T", msg, (*evmtypes.MsgEthereumTx)(nil))
		}

		fee := sdk.NewDecFromBigInt(ethMsg.GetFee())
		gasLimit := sdk.NewDecFromBigInt(new(big.Int).SetUint64(ethMsg.GetGas()))
		requiredFee := minGasPrice.Mul(gasLimit)

		if fee.LT(requiredFee) {
			return ctx, errorsmod.Wrapf(
				errortypes.ErrInsufficientFee,
				"insufficient fee; got: %s required: %s",
				fee, requiredFee,
			)
		}
	}

	return next(ctx, tx, simulate)
}