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// Copyright (c) 2018 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 <optional.h> // For Optional and nullopt
#include <policy/rbf.h> // For RBFTransactionState
#include <primitives/transaction.h> // For CTransactionRef
#include <memory>
#include <stddef.h>
#include <stdint.h>
#include <string>
#include <vector>
class CBlock;
class CScheduler;
class CValidationState;
class uint256;
struct CBlockLocator;
struct FeeCalculation;
namespace interfaces {
class Wallet;
//! Interface for giving wallet processes access to blockchain state.
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<int> 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<int> 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, or nullopt if there is no block with
//! a high enough timestamp. 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<int> findFirstBlockWithTime(int64_t time, uint256* hash) = 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 such block.
//!
//! Calling this with height 0 is equivalent to calling
//! findFirstBlockWithTime, but less efficient because it requires a
//! linear instead of a binary search.
virtual Optional<int> findFirstBlockWithTimeAndHeight(int64_t time, int height) = 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<int> findPruned(int start_height = 0, Optional<int> stop_height = nullopt) = 0;
//! Return height of the highest block on the chain that is an ancestor
//! of the specified block, or nullopt if no common ancestor is found.
//! 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<int> findFork(const uint256& hash, Optional<int>* height) = 0;
//! Return true if block hash points to the current chain tip, or to a
//! possible descendant of the current chain tip that isn't currently
//! connected.
virtual bool isPotentialTip(const uint256& hash) = 0;
//! Get locator for the current chain tip.
virtual CBlockLocator getTipLocator() = 0;
//! Return height of the latest block common to locator and chain, which
//! is guaranteed to be an ancestor of the block used to create the
//! locator.
virtual Optional<int> findLocatorFork(const CBlockLocator& locator) = 0;
//! Check if transaction will be final given chain height current time.
virtual bool checkFinalTx(const CTransaction& tx) = 0;
//! Add transaction to memory pool if the transaction fee is below the
//! amount specified by absurd_fee (as a safeguard). */
virtual bool submitToMemoryPool(CTransactionRef tx, CAmount absurd_fee, CValidationState& state) = 0;
};
//! Return Lock interface. Chain is locked when this is called, and
//! unlocked when the returned interface is freed.
virtual std::unique_ptr<Lock> lock(bool try_lock = false) = 0;
//! Return Lock interface assuming chain is already locked. This
//! method is temporary and is only used in a few places to avoid changing
//! behavior while code is transitioned to use the Chain::Lock interface.
virtual std::unique_ptr<Lock> assumeLocked() = 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;
//! 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;
//! Relay transaction.
virtual void relayTransaction(const uint256& txid) = 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 chain limits.
virtual bool checkChainLimits(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;
//! Pool min fee.
virtual CFeeRate mempoolMinFee() = 0;
//! Get node max tx fee setting (-maxtxfee).
//! This could be replaced by a per-wallet max fee, as proposed at
//! https://github.com/bitcoin/bitcoin/issues/15355
//! But for the time being, wallets call this to access the node setting.
virtual CAmount maxTxFee() = 0;
//! Check if pruning is enabled.
virtual bool getPruneMode() = 0;
//! Check if p2p enabled.
virtual bool p2pEnabled() = 0;
// Check if in IBD.
virtual bool isInitialBlockDownload() = 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 wallet load notification to the GUI.
virtual void loadWallet(std::unique_ptr<Wallet> wallet) = 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<Chain> 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<ChainClient> MakeWalletClient(Chain& chain, std::vector<std::string> wallet_filenames);
} // namespace interfaces
#endif // BITCOIN_INTERFACES_CHAIN_H
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