Crates.io | bitcoinquery |
lib.rs | bitcoinquery |
version | 0.1.30 |
source | src |
created_at | 2021-09-17 12:50:21.813639 |
updated_at | 2021-09-22 01:46:29.319527 |
description | A Package for Reading from Bitcoin Core Binary Blockchain |
homepage | https://github.com/Congyuwang/BitcoinQueryPy |
repository | https://github.com/Congyuwang/BitcoinQueryPy |
max_upload_size | |
id | 452765 |
size | 510,047 |
bitcoinquery
is a python package developed in rust
for accessing bitcoin-core binary files as a database.
This library is designed for both python and rust.
For python users, pip install bitcoinquery
.
For rust users, include bitcoinquey="0.1"
in Cargo.toml
.
Currently, only macOS py39 wheels are provided.
For pip to build the package on other OS or python version,
make sure that rust
toolchain is installed,
and cmake
is also installed.
For API documentation, go to Documentation.
This package deals with the binary file of another software Bitcoin Core
.
It might not be compatible with older Bitcoin Core versions.
Currently, it is compatible with Bitcoin Core version
Bitcoin Core version v0.21.1.0-g194b9b8792d9b0798fdb570b79fa51f1d1f5ebaf Copyright (C) 2009-2020 The Bitcoin Core developers
.
It contains one class BitcoinDB
.
import bitcoinquery as bq
# parse the same path as `--datadir` argument for `bitcoind`.
db = bq.BitcoinDB("~/Bitcoin")
# get the length of the longest chain currently on disk.
db.get_max_height()
# get block of a certain height
db.get_block(1000)
# to retrieve the connected outputs of each inputs as well
db.get_block(1000, connected=True)
# get block hash of a certain height.
db.get_hash(1000)
# a fast method for getting just the header.
# in memory query, no disk access
db.get_block_header(1000)
# get block of height 1000.
db.get_height_from_hash("some hash")
# get blocks of heights 100..199.
# (This method uses `rayon` parallel computing to take advantage of multicore)
# this function returns json string instead of object.
db.get_block_batch(list(range(100, 200)))
# get transaction from txid.
# This queries the `levelDB` each time, thus it is relatively slow.
db.get_transaction("some txid")
# get the height of the block which this transaction belongs.
db.get_height_from_txid("some txid")
# get the script type and addresses from a script public key
db.parse_script("some hex script pubic key")
# use iterator
for block in db.get_block_iter_range(start=1000, end=2000):
do_something_with(block)
# use iterator, iterate over heights
for block in db.get_block_iter_array(heights=[1, 3, 5, 7, 9]):
do_something_with(block)
# use iterator, connect outpoints
for block in db.get_block_iter_range(end=700000, connected=True):
do_something_with(block)