package mempool import ( "context" "fmt" "math" abci "github.com/tendermint/tendermint/abci/types" "github.com/tendermint/tendermint/internal/p2p" "github.com/tendermint/tendermint/types" ) const ( MempoolChannel = p2p.ChannelID(0x30) // PeerCatchupSleepIntervalMS defines how much time to sleep if a peer is behind PeerCatchupSleepIntervalMS = 100 // UnknownPeerID is the peer ID to use when running CheckTx when there is // no peer (e.g. RPC) UnknownPeerID uint16 = 0 MaxActiveIDs = math.MaxUint16 ) // Mempool defines the mempool interface. // // Updates to the mempool need to be synchronized with committing a block so // applications can reset their transient state on Commit. type Mempool interface { // CheckTx executes a new transaction against the application to determine // its validity and whether it should be added to the mempool. CheckTx(ctx context.Context, tx types.Tx, callback func(*abci.ResponseCheckTx), txInfo TxInfo) error // RemoveTxByKey removes a transaction, identified by its key, // from the mempool. RemoveTxByKey(txKey types.TxKey) error // ReapMaxBytesMaxGas reaps transactions from the mempool up to maxBytes // bytes total with the condition that the total gasWanted must be less than // maxGas. // // If both maxes are negative, there is no cap on the size of all returned // transactions (~ all available transactions). ReapMaxBytesMaxGas(maxBytes, maxGas int64) types.Txs // ReapMaxTxs reaps up to max transactions from the mempool. If max is // negative, there is no cap on the size of all returned transactions // (~ all available transactions). ReapMaxTxs(max int) types.Txs // Lock locks the mempool. The consensus must be able to hold lock to safely // update. Lock() // Unlock unlocks the mempool. Unlock() // Update informs the mempool that the given txs were committed and can be // discarded. // // NOTE: // 1. This should be called *after* block is committed by consensus. // 2. Lock/Unlock must be managed by the caller. Update( ctx context.Context, blockHeight int64, blockTxs types.Txs, txResults []*abci.ExecTxResult, newPreFn PreCheckFunc, newPostFn PostCheckFunc, ) error // FlushAppConn flushes the mempool connection to ensure async callback calls // are done, e.g. from CheckTx. // // NOTE: // 1. Lock/Unlock must be managed by caller. FlushAppConn(context.Context) error // Flush removes all transactions from the mempool and caches. Flush() // TxsAvailable returns a channel which fires once for every height, and only // when transactions are available in the mempool. // // NOTE: // 1. The returned channel may be nil if EnableTxsAvailable was not called. TxsAvailable() <-chan struct{} // EnableTxsAvailable initializes the TxsAvailable channel, ensuring it will // trigger once every height when transactions are available. EnableTxsAvailable() // Size returns the number of transactions in the mempool. Size() int // SizeBytes returns the total size of all txs in the mempool. SizeBytes() int64 } // PreCheckFunc is an optional filter executed before CheckTx and rejects // transaction if false is returned. An example would be to ensure that a // transaction doesn't exceeded the block size. type PreCheckFunc func(types.Tx) error // PostCheckFunc is an optional filter executed after CheckTx and rejects // transaction if false is returned. An example would be to ensure a // transaction doesn't require more gas than available for the block. type PostCheckFunc func(types.Tx, *abci.ResponseCheckTx) error // PreCheckMaxBytes checks that the size of the transaction is smaller or equal // to the expected maxBytes. func PreCheckMaxBytes(maxBytes int64) PreCheckFunc { return func(tx types.Tx) error { txSize := types.ComputeProtoSizeForTxs([]types.Tx{tx}) if txSize > maxBytes { return fmt.Errorf("tx size is too big: %d, max: %d", txSize, maxBytes) } return nil } } // PostCheckMaxGas checks that the wanted gas is smaller or equal to the passed // maxGas. Returns nil if maxGas is -1. func PostCheckMaxGas(maxGas int64) PostCheckFunc { return func(tx types.Tx, res *abci.ResponseCheckTx) error { if maxGas == -1 { return nil } if res.GasWanted < 0 { return fmt.Errorf("gas wanted %d is negative", res.GasWanted) } if res.GasWanted > maxGas { return fmt.Errorf("gas wanted %d is greater than max gas %d", res.GasWanted, maxGas) } return nil } }