// Copyright (c) 2018-2019 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #ifndef BITCOIN_INTERFACES_CHAIN_H #define BITCOIN_INTERFACES_CHAIN_H #include // For Optional and nullopt #include // For CTransactionRef #include #include #include #include #include class CBlock; class CFeeRate; class CRPCCommand; class CScheduler; class CValidationState; class Coin; class uint256; enum class RBFTransactionState; struct CBlockLocator; struct FeeCalculation; namespace interfaces { class Handler; class Wallet; //! Interface giving clients (wallet processes, maybe other analysis tools in //! the future) ability to access to the chain state, receive notifications, //! estimate fees, and submit transactions. //! //! TODO: Current chain methods are too low level, exposing too much of the //! internal workings of the bitcoin node, and not being very convenient to use. //! Chain methods should be cleaned up and simplified over time. Examples: //! //! * The Chain::lock() method, which lets clients delay chain tip updates //! should be removed when clients are able to respond to updates //! asynchronously //! (https://github.com/bitcoin/bitcoin/pull/10973#issuecomment-380101269). //! //! * The initMessage() and showProgress() methods which the wallet uses to send //! notifications to the GUI should go away when GUI and wallet can directly //! communicate with each other without going through the node //! (https://github.com/bitcoin/bitcoin/pull/15288#discussion_r253321096). //! //! * The handleRpc, registerRpcs, rpcEnableDeprecated methods and other RPC //! methods can go away if wallets listen for HTTP requests on their own //! ports instead of registering to handle requests on the node HTTP port. class Chain { public: virtual ~Chain() {} //! Interface for querying locked chain state, used by legacy code that //! assumes state won't change between calls. New code should avoid using //! the Lock interface and instead call higher-level Chain methods //! that return more information so the chain doesn't need to stay locked //! between calls. class Lock { public: virtual ~Lock() {} //! Get current chain height, not including genesis block (returns 0 if //! chain only contains genesis block, nullopt if chain does not contain //! any blocks). virtual Optional getHeight() = 0; //! Get block height above genesis block. Returns 0 for genesis block, //! 1 for following block, and so on. Returns nullopt for a block not //! included in the current chain. virtual Optional getBlockHeight(const uint256& hash) = 0; //! Get block depth. Returns 1 for chain tip, 2 for preceding block, and //! so on. Returns 0 for a block not included in the current chain. virtual int getBlockDepth(const uint256& hash) = 0; //! Get block hash. Height must be valid or this function will abort. virtual uint256 getBlockHash(int height) = 0; //! Get block time. Height must be valid or this function will abort. virtual int64_t getBlockTime(int height) = 0; //! Get block median time past. Height must be valid or this function //! will abort. virtual int64_t getBlockMedianTimePast(int height) = 0; //! Check that the block is available on disk (i.e. has not been //! pruned), and contains transactions. virtual bool haveBlockOnDisk(int height) = 0; //! Return height of the first block in the chain with timestamp equal //! or greater than the given time and height equal or greater than the //! given height, or nullopt if there is no block with a high enough //! timestamp and height. Also return the block hash as an optional output parameter //! (to avoid the cost of a second lookup in case this information is needed.) virtual Optional findFirstBlockWithTimeAndHeight(int64_t time, int height, uint256* hash) = 0; //! Return height of last block in the specified range which is pruned, or //! nullopt if no block in the range is pruned. Range is inclusive. virtual Optional findPruned(int start_height = 0, Optional stop_height = nullopt) = 0; //! Return height of the specified block if it is on the chain, otherwise //! return the height of the highest block on chain that's an ancestor //! of the specified block, or nullopt if there is no common ancestor. //! Also return the height of the specified block as an optional output //! parameter (to avoid the cost of a second hash lookup in case this //! information is desired). virtual Optional findFork(const uint256& hash, Optional* height) = 0; //! Get locator for the current chain tip. virtual CBlockLocator getTipLocator() = 0; //! Return height of the highest block on chain in common with the locator, //! which will either be the original block used to create the locator, //! or one of its ancestors. virtual Optional findLocatorFork(const CBlockLocator& locator) = 0; //! Check if transaction will be final given chain height current time. virtual bool checkFinalTx(const CTransaction& tx) = 0; }; //! Return Lock interface. Chain is locked when this is called, and //! unlocked when the returned interface is freed. virtual std::unique_ptr lock(bool try_lock = false) = 0; //! Return whether node has the block and optionally return block metadata //! or contents. //! //! If a block pointer is provided to retrieve the block contents, and the //! block exists but doesn't have data (for example due to pruning), the //! block will be empty and all fields set to null. virtual bool findBlock(const uint256& hash, CBlock* block = nullptr, int64_t* time = nullptr, int64_t* max_time = nullptr) = 0; //! Look up unspent output information. Returns coins in the mempool and in //! the current chain UTXO set. Iterates through all the keys in the map and //! populates the values. virtual void findCoins(std::map& coins) = 0; //! Estimate fraction of total transactions verified if blocks up to //! the specified block hash are verified. virtual double guessVerificationProgress(const uint256& block_hash) = 0; //! Check if transaction is RBF opt in. virtual RBFTransactionState isRBFOptIn(const CTransaction& tx) = 0; //! Check if transaction has descendants in mempool. virtual bool hasDescendantsInMempool(const uint256& txid) = 0; //! Transaction is added to memory pool, if the transaction fee is below the //! amount specified by max_tx_fee, and broadcast to all peers if relay is set to true. //! Return false if the transaction could not be added due to the fee or for another reason. virtual bool broadcastTransaction(const CTransactionRef& tx, std::string& err_string, const CAmount& max_tx_fee, bool relay) = 0; //! Calculate mempool ancestor and descendant counts for the given transaction. virtual void getTransactionAncestry(const uint256& txid, size_t& ancestors, size_t& descendants) = 0; //! Check if transaction will pass the mempool's chain limits. virtual bool checkChainLimits(const CTransactionRef& tx) = 0; //! Estimate smart fee. virtual CFeeRate estimateSmartFee(int num_blocks, bool conservative, FeeCalculation* calc = nullptr) = 0; //! Fee estimator max target. virtual unsigned int estimateMaxBlocks() = 0; //! Mempool minimum fee. virtual CFeeRate mempoolMinFee() = 0; //! Relay current minimum fee (from -minrelaytxfee and -incrementalrelayfee settings). virtual CFeeRate relayMinFee() = 0; //! Relay incremental fee setting (-incrementalrelayfee), reflecting cost of relay. virtual CFeeRate relayIncrementalFee() = 0; //! Relay dust fee setting (-dustrelayfee), reflecting lowest rate it's economical to spend. virtual CFeeRate relayDustFee() = 0; //! Check if any block has been pruned. virtual bool havePruned() = 0; //! Check if the node is ready to broadcast transactions. virtual bool isReadyToBroadcast() = 0; //! Check if in IBD. virtual bool isInitialBlockDownload() = 0; //! Check if shutdown requested. virtual bool shutdownRequested() = 0; //! Get adjusted time. virtual int64_t getAdjustedTime() = 0; //! Send init message. virtual void initMessage(const std::string& message) = 0; //! Send init warning. virtual void initWarning(const std::string& message) = 0; //! Send init error. virtual void initError(const std::string& message) = 0; //! Send progress indicator. virtual void showProgress(const std::string& title, int progress, bool resume_possible) = 0; //! Chain notifications. class Notifications { public: virtual ~Notifications() {} virtual void TransactionAddedToMempool(const CTransactionRef& tx) {} virtual void TransactionRemovedFromMempool(const CTransactionRef& ptx) {} virtual void BlockConnected(const CBlock& block, const std::vector& tx_conflicted) {} virtual void BlockDisconnected(const CBlock& block) {} virtual void UpdatedBlockTip() {} virtual void ChainStateFlushed(const CBlockLocator& locator) {} }; //! Register handler for notifications. virtual std::unique_ptr handleNotifications(Notifications& notifications) = 0; //! Wait for pending notifications to be processed unless block hash points to the current //! chain tip, or to a possible descendant of the current chain tip that isn't currently //! connected. virtual void waitForNotificationsIfNewBlocksConnected(const uint256& old_tip) = 0; //! Register handler for RPC. Command is not copied, so reference //! needs to remain valid until Handler is disconnected. virtual std::unique_ptr handleRpc(const CRPCCommand& command) = 0; //! Check if deprecated RPC is enabled. virtual bool rpcEnableDeprecated(const std::string& method) = 0; //! Run function after given number of seconds. Cancel any previous calls with same name. virtual void rpcRunLater(const std::string& name, std::function fn, int64_t seconds) = 0; //! Current RPC serialization flags. virtual int rpcSerializationFlags() = 0; //! Synchronously send TransactionAddedToMempool notifications about all //! current mempool transactions to the specified handler and return after //! the last one is sent. These notifications aren't coordinated with async //! notifications sent by handleNotifications, so out of date async //! notifications from handleNotifications can arrive during and after //! synchronous notifications from requestMempoolTransactions. Clients need //! to be prepared to handle this by ignoring notifications about unknown //! removed transactions and already added new transactions. virtual void requestMempoolTransactions(Notifications& notifications) = 0; }; //! Interface to let node manage chain clients (wallets, or maybe tools for //! monitoring and analysis in the future). class ChainClient { public: virtual ~ChainClient() {} //! Register rpcs. virtual void registerRpcs() = 0; //! Check for errors before loading. virtual bool verify() = 0; //! Load saved state. virtual bool load() = 0; //! Start client execution and provide a scheduler. virtual void start(CScheduler& scheduler) = 0; //! Save state to disk. virtual void flush() = 0; //! Shut down client. virtual void stop() = 0; }; //! Return implementation of Chain interface. std::unique_ptr MakeChain(); //! Return implementation of ChainClient interface for a wallet client. This //! function will be undefined in builds where ENABLE_WALLET is false. //! //! Currently, wallets are the only chain clients. But in the future, other //! types of chain clients could be added, such as tools for monitoring, //! analysis, or fee estimation. These clients need to expose their own //! MakeXXXClient functions returning their implementations of the ChainClient //! interface. std::unique_ptr MakeWalletClient(Chain& chain, std::vector wallet_filenames); } // namespace interfaces #endif // BITCOIN_INTERFACES_CHAIN_H