rusty-blockparser is a Bitcoin Blockchain Parser written in Rust language.
It allows extraction of various data types (blocks, transactions, scripts, public keys/hashes, balances, ...) and UTXO dumps from Bitcoin based blockchains.
Bitcoin
, Namecoin
, Litecoin
, Dogecoin
, Myriadcoin
, Unobtanium
and NoteBlockchain
.
IMPORANT: It assumes a local unpruned copy of the blockchain with intact block index and blk files,
downloaded with Bitcoin Core 0.15.1+ or similar clients.
If you are not sure whether your local copy is valid you can apply --verify
to validate the chain and block merkle trees.
If something doesn't match the parser exits.
Usage: rusty-blockparser [OPTIONS] [COMMAND]
Commands:
unspentcsvdump Dumps the unspent outputs to CSV file
csvdump Dumps the whole blockchain into CSV files
simplestats Shows various Blockchain stats
balances Dumps all addresses with non-zero balance to CSV file
opreturn Shows embedded OP_RETURN data that is representable as UTF8
help Print this message or the help of the given subcommand(s)
Options:
--verify
Verifies merkle roots and block hashes
-v...
Increases verbosity level. Info=0, Debug=1, Trace=2 (default: 0)
-c, --coin <NAME>
Specify blockchain coin (default: bitcoin) [possible values: bitcoin, testnet3, namecoin, litecoin, dogecoin, myriadcoin, unobtanium, noteblockchain]
-d, --blockchain-dir <blockchain-dir>
Sets blockchain directory which contains blk.dat files (default: ~/.bitcoin/blocks)
-s, --start <HEIGHT>
Specify starting block for parsing (inclusive)
-e, --end <HEIGHT>
Specify last block for parsing (inclusive) (default: all known blocks)
-h, --help
Print help
-V, --version
Print version
To make a unspentcsvdump
of the Bitcoin blockchain your command would look like this:
# ./blockparser unspentcsvdump /path/to/dump/
[6:02:53] INFO - main: Starting rusty-blockparser v0.7.0 ...
[6:02:53] INFO - index: Reading index from ~/.bitcoin/blocks/index ...
[6:02:54] INFO - index: Got longest chain with 639626 blocks ...
[6:02:54] INFO - blkfile: Reading files from ~/.bitcoin/blocks ...
[6:02:54] INFO - parser: Parsing Bitcoin blockchain (range=0..) ...
[6:02:54] INFO - callback: Using `unspentcsvdump` with dump folder: /path/to/dump ...
[6:03:04] INFO - parser: Status: 130885 Blocks processed. (left: 508741, avg: 13088 blocks/sec)
...
[10:28:47] INFO - parser: Status: 639163 Blocks processed. (left: 463, avg: 40 blocks/sec)
[10:28:57] INFO - parser: Status: 639311 Blocks processed. (left: 315, avg: 40 blocks/sec)
[10:29:07] INFO - parser: Status: 639452 Blocks processed. (left: 174, avg: 40 blocks/sec)
[10:29:17] INFO - parser: Status: 639596 Blocks processed. (left: 30, avg: 40 blocks/sec)
[10:29:19] INFO - parser: Done. Processed 639626 blocks in 266.43 minutes. (avg: 40 blocks/sec)
[10:32:01] INFO - callback: Done.
Dumped all 639626 blocks:
-> transactions: 549390991
-> inputs: 1347165535
-> outputs: 1359449320
[10:32:01] INFO - main: Fin.
This tool should run on Windows, OS X and Linux.
All you need is rust
and cargo
.
You can download the latest release from crates.io:
cargo install rusty-blockparser
git clone https://github.com/gcarq/rusty-blockparser.git
cd rusty-blockparser
cargo build --release
cargo test --release
./target/release/rusty-blockparser --help
It is important to build with --release
, otherwise you will get a horrible performance!
Tested on Gentoo Linux with rust-stable 1.44.1
Bitcoin and Bitcoin Testnet transactions are parsed using rust-bitcoin, this includes transactions of type P2SH, P2PKH, P2PK, P2WSH, P2WPKH, P2TR, OP_RETURN and SegWit.
Bitcoin forks (e.g.: Dogecoin, Litecoin, ...) are evaluated via a custom script implementation which includes P2PK, P2PKH, P2SH and some non-standard transactions.
The required memory usage depends on the used callback:
- simplestats: ~100MB
- csvdump: ~100M
- unspentcsvdump: ~18GB
- balances: ~18GB
NOTE: Those values are taken from parsing to block height 639631 (17.07.2020).
Callbacks are built on top of the core parser. They can be implemented to extract specific types of information.
-
balances
: dumps all addresses with a non-zero balance. The csv file is in the following format:balances.csv address ; balance
-
unspentcsvdump
: dumps all UTXOs along with the address balance. The csv file is in the following format:unspent.csv txid ; indexOut ; height ; value ; address
NOTE: The total size of the csv dump is at least 8 GiB (height 635000).
-
opreturn
: shows transactions with embedded OP_RETURN data that is representable as UTF8. -
csvdump
: dumps all parsed data as CSV files into the specifiedfolder
. See Usage for an example. I chose CSV dumps instead of an active db-connection becauseLOAD DATA INFILE
is the most performant way for bulk inserts. The files are in the following format:blocks.csv block_hash ; height ; version ; blocksize ; hashPrev ; hashMerkleRoot ; nTime ; nBits ; nNonce
transactions.csv txid ; hashBlock ; version ; lockTime
tx_in.csv txid ; hashPrevOut ; indexPrevOut ; scriptSig ; sequence
tx_out.csv txid ; indexOut ; height ; value ; scriptPubKey ; address
If unclear what some of these fields are, see the block and transaction specifications. If you want to insert the files into MySql see sql/schema.sql. It contains all table structures and SQL statements for bulk inserting. Also see sql/views.sql for some query examples. NOTE: The total size of the csv dump is at least to 731 GiB (height 635000).
-
simplestats
: prints some blockchain statistics like block count, transaction count, avg transactions per block, largest transaction, transaction types etc.
You can also define custom callbacks. A callback gets called at startup, on each block and at the end. See src/callbacks/mod.rs for more information.
Use the issue tracker to report problems, suggestions and questions. You may also contribute by submitting pull requests.
If you find this project helpful, please consider making a donation:
1LFidBTeg5joAqjw35ksebiNkVM8azFM1K
The tool can easily be customized to your coin. This section outlines the changes that need to be made and is for a beginner user (both with Rust and Blockchain). (This guide is made possible by reviewing the commits made by MerlinMagic2018). During this example the coin name used is NoCoinium.
- The main change is
src/blockchain/parser/types.rs
. - Add a new entry
pub struct NoCoinium
above the line//pub struct Dash
(The case you use here is to be carried in all subsequent references, except when noted) - You will then need to add a
impl Coin for NoCoinium
. You could easily copy a previous block e.g. Bitcoin. The changes you need to do are highlighted below as comments
//The name here should be the same case as defined in the pub struct line
impl Coin for NoCoinium {
fn name(&self) -> String {
//This is primarily for display. Use same case as before
String::from("NoCoinium")
}
fn magic(&self) -> u32 {
// Magic bytes are a string of hex characters that prefix messages in the chain.
// To find this value, look for the fields pchMessageStart[0-3] in the file chainparams.cpp under CMainParams
// The value to be used here is 0x + pchMessageStart[3] + pchMessageStart[2] + pchMessageStart[1] + pchMessageStart[0]
// i.e. string the values in reverse.
0xd9b4bef9
}
fn version_id(&self) -> u8 {
// Version ID is used to identify the address prefix for Base58 encoding of the public address
// Found this using the stackoverflow comment - https://bitcoin.stackexchange.com/questions/62781/litecoin-constants-and-prefixes
// Again with chainparams.cpp and CMainParams, look for base58Prefixes[PUBKEY_ADDRESS]. Convert the decimal value to Hex and add it here
0x00
}
fn genesis(&self) -> sha256d::Hash {
// This is the Genesis Block hash - Get the value from consensus.hashGenesisBlock, again found in chainparams.cpp
sha256d::Hash::from_str("000000000019d6689c085ae165831e934ff763ae46a2a6c172b3f1b60a8ce26f").unwrap()
}
fn default_folder(&self) -> PathBuf {
// This is the folder from the user's home folder to where the blocks files are found
// Note the case here. It is not CamelCase as most coin directories are lower case. However, use the actual folder name
// from your coin implementation.
Path::new(".nocoinium").join("blocks")
}
}
- Finally, tie these changes within
impl FromStr for CoinType
undermatch coin
. The first part will be the case passed as argument to the program (see bullet point below) and the name withinfrom()
will be the name used above.
"nocoinium" => Ok(CoinType::from(NoCoinium)),
- The next change is in
src/main.rs
. Under the fnparse_args()
add your coin to the array of coins. The case you use here will be the same value as you pass in the arguments when executing the blockchain (using the-c
argument) - Finally, add your coin name in the README.md file so others know your coin is supported
- Implement Pay2MultiSig script evaluation