Libbitcoin Blockchain: Difference between revisions
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==See Also== | ==See Also== | ||
* [[Libbitcoin]] | * [[Libbitcoin]] | ||
==References== | ==References== | ||
Revision as of 12:40, 22 February 2016
The libbitcoin-blockchain library is a dependency of libbitcoin-node and libbitcoin-server. It was originally contained within libbitcoin.
Example
#include <string>
#include <bitcoin/blockchain.hpp>
// Initialize the blockchain.
int main(int argc, char* argv[])
{
std::string prefix("blockchain");
if (argc > 1)
prefix = argv[1];
bc::chain::initialize_blockchain(prefix);
bc::chain::db_paths paths(prefix);
constexpr size_t history_height = 0;
bc::chain::db_interface interface(paths, { history_height });
interface.start();
const auto genesis = bc::genesis_block();
interface.push(genesis);
return 0;
}
Design
The original implementation used LevelDB. Following a redesign in late 2014 by Amir Taaki (genjix) the database was replaced by a memory-mapped file implementation. Logical queries are performed using a set of hash tables. The number of hash buckets is optimized to minimize hash collisions, though collisions are accommodated. These changes resulted in a substantial performance increase, near constant time, for queries against the blockchain. Insert performance was not materially affected.
Database
The following files constitute the blockchain database non-volatile storage. As of height 350,000 the database consumes approximately 105 GB of disk space.
- blocks_lookup
- blocks_rows
- history_lookup
- history_rows
- spends
- stealth_index
- stealth_rows
- txs
Consensus Validation
By default the library depends on the libbitcoin-consensus library. This ensures that consensus checks are identical to those implemented by bitcoind. By building using the --without-consensus flag the dependency is avoided and libbitcoin native consensus checks are used instead.
Considerations
- There is no mechanical hard drive optimization. The implementation is intended for solid state drives (SSD).
- There is a possibility of index corruption during hard shutdown. There is no means of detecting corruption aside from catastrophic fault. However given that the entire blockchain is a cache this is not considered significant. Repair can be accomplished by re-synchronizing the blockchain.
- Data files are append only, with logical deletions only. Therefore file size is not minimized following blockchain reorganization although the impact is typically small. Defragmentation can be accomplished by re-synchronizing the blockchain.
- The database is effectively locked during write operations. As these operations are anticipated on a period of approximately ten minutes this is not typically significant. However during a period of catch-up synchronizing the server can become continuously unresponsive to requests.