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// Rust Bitcoin Library
// Written in 2019 by
// The rust-bitcoin developers
//
// To the extent possible under law, the author(s) have dedicated all
// copyright and related and neighboring rights to this software to
// the public domain worldwide. This software is distributed without
// any warranty.
//
// You should have received a copy of the CC0 Public Domain Dedication
// along with this software.
// If not, see <http://creativecommons.org/publicdomain/zero/1.0/>.
//
// This module was largely copied from https://github.com/rust-bitcoin/murmel/blob/master/src/blockfilter.rs
// on 11. June 2019 which is licensed under Apache, that file specifically
// was written entirely by Tamas Blummer, who is re-licensing its contents here as CC0.
//!
//! # BIP158 Compact Block Filters for Light Clients
//!
//! Implements a structure for compact filters on block data, for use in the BIP 157 light client protocol.
//! The filter construction proposed is an alternative to Bloom filters, as used in BIP 37,
//! that minimizes filter size by using Golomb-Rice coding for compression.
//!
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//! ## Example
//!
//! ```ignore
//! fn get_script_for_coin(coin: &OutPoint) -> Result<Script, BlockFilterError> {
//! // get utxo ...
//! }
//!
//! // create a block filter for a block (server side)
//! let filter = BlockFilter::new_script_filter(&block, get_script_for_coin)?;
//!
//! // or create a filter from known raw data
//! let filter = BlockFilter::new(content);
//!
//! // read and evaluate a filter
//!
//! let query: Iterator<Item=Script> = // .. some scripts you care about
//! if filter.match_any(&block_hash, &mut query.map(|s| s.as_bytes())) {
//! // get this block
//! }
//! ```
//!
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use std ::collections ::HashSet ;
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use io ::{ self as io , Cursor } ;
use core ::fmt ::{ self , Display , Formatter } ;
use core ::cmp ::{ self , Ordering } ;
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use hashes ::{ Hash , siphash24 } ;
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use hash_types ::{ BlockHash , FilterHash , FilterHeader } ;
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use blockdata ::block ::Block ;
use blockdata ::script ::Script ;
use blockdata ::transaction ::OutPoint ;
use consensus ::{ Decodable , Encodable } ;
use consensus ::encode ::VarInt ;
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use util ::endian ;
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/// Golomb encoding parameter as in BIP-158, see also https://gist.github.com/sipa/576d5f09c3b86c3b1b75598d799fc845
const P : u8 = 19 ;
const M : u64 = 784931 ;
/// Errors for blockfilter
#[ derive(Debug) ]
pub enum Error {
/// missing UTXO, can not calculate script filter
UtxoMissing ( OutPoint ) ,
/// some IO error reading or writing binary serialization of the filter
Io ( io ::Error ) ,
}
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impl ::std ::error ::Error for Error { }
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impl Display for Error {
fn fmt ( & self , f : & mut Formatter ) -> Result < ( ) , fmt ::Error > {
match * self {
Error ::UtxoMissing ( ref coin ) = > write! ( f , " unresolved UTXO {} " , coin ) ,
Error ::Io ( ref io ) = > write! ( f , " {} " , io )
}
}
}
impl From < io ::Error > for Error {
fn from ( io : io ::Error ) -> Self {
Error ::Io ( io )
}
}
/// a computed or read block filter
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#[ derive(Debug, Clone, PartialEq, Eq) ]
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pub struct BlockFilter {
/// Golomb encoded filter
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pub content : Vec < u8 >
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}
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impl FilterHash {
/// compute the filter header from a filter hash and previous filter header
pub fn filter_header ( & self , previous_filter_header : & FilterHeader ) -> FilterHeader {
let mut header_data = [ 0 u8 ; 64 ] ;
header_data [ 0 .. 32 ] . copy_from_slice ( & self [ .. ] ) ;
header_data [ 32 .. 64 ] . copy_from_slice ( & previous_filter_header [ .. ] ) ;
FilterHeader ::hash ( & header_data )
}
}
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impl BlockFilter {
/// compute this filter's id in a chain of filters
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pub fn filter_header ( & self , previous_filter_header : & FilterHeader ) -> FilterHeader {
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let filter_hash = FilterHash ::hash ( self . content . as_slice ( ) ) ;
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filter_hash . filter_header ( previous_filter_header )
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}
/// create a new filter from pre-computed data
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pub fn new ( content : & [ u8 ] ) -> BlockFilter {
BlockFilter { content : content . to_vec ( ) }
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}
/// Compute a SCRIPT_FILTER that contains spent and output scripts
pub fn new_script_filter < M > ( block : & Block , script_for_coin : M ) -> Result < BlockFilter , Error >
where M : Fn ( & OutPoint ) -> Result < Script , Error > {
let mut out = Cursor ::new ( Vec ::new ( ) ) ;
{
let mut writer = BlockFilterWriter ::new ( & mut out , block ) ;
writer . add_output_scripts ( ) ;
writer . add_input_scripts ( script_for_coin ) ? ;
writer . finish ( ) ? ;
}
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Ok ( BlockFilter { content : out . into_inner ( ) } )
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}
/// match any query pattern
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pub fn match_any ( & self , block_hash : & BlockHash , query : & mut dyn Iterator < Item = & [ u8 ] > ) -> Result < bool , Error > {
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let filter_reader = BlockFilterReader ::new ( block_hash ) ;
filter_reader . match_any ( & mut Cursor ::new ( self . content . as_slice ( ) ) , query )
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}
/// match all query pattern
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pub fn match_all ( & self , block_hash : & BlockHash , query : & mut dyn Iterator < Item = & [ u8 ] > ) -> Result < bool , Error > {
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let filter_reader = BlockFilterReader ::new ( block_hash ) ;
filter_reader . match_all ( & mut Cursor ::new ( self . content . as_slice ( ) ) , query )
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}
}
/// Compiles and writes a block filter
pub struct BlockFilterWriter < ' a > {
block : & ' a Block ,
writer : GCSFilterWriter < ' a > ,
}
impl < ' a > BlockFilterWriter < ' a > {
/// Create a block filter writer
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pub fn new ( writer : & ' a mut dyn io ::Write , block : & ' a Block ) -> BlockFilterWriter < ' a > {
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let block_hash_as_int = block . block_hash ( ) . into_inner ( ) ;
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let k0 = endian ::slice_to_u64_le ( & block_hash_as_int [ 0 .. 8 ] ) ;
let k1 = endian ::slice_to_u64_le ( & block_hash_as_int [ 8 .. 16 ] ) ;
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let writer = GCSFilterWriter ::new ( writer , k0 , k1 , M , P ) ;
BlockFilterWriter { block , writer }
}
/// Add output scripts of the block - excluding OP_RETURN scripts
pub fn add_output_scripts ( & mut self ) {
for transaction in & self . block . txdata {
for output in & transaction . output {
if ! output . script_pubkey . is_op_return ( ) {
self . add_element ( output . script_pubkey . as_bytes ( ) ) ;
}
}
}
}
/// Add consumed output scripts of a block to filter
pub fn add_input_scripts < M > ( & mut self , script_for_coin : M ) -> Result < ( ) , Error >
where M : Fn ( & OutPoint ) -> Result < Script , Error > {
for script in self . block . txdata . iter ( )
. skip ( 1 ) // skip coinbase
. flat_map ( | t | t . input . iter ( ) . map ( | i | & i . previous_output ) )
. map ( script_for_coin ) {
match script {
Ok ( script ) = > self . add_element ( script . as_bytes ( ) ) ,
Err ( e ) = > return Err ( e )
}
}
Ok ( ( ) )
}
/// Add arbitrary element to a filter
pub fn add_element ( & mut self , data : & [ u8 ] ) {
self . writer . add_element ( data ) ;
}
/// Write block filter
pub fn finish ( & mut self ) -> Result < usize , io ::Error > {
self . writer . finish ( )
}
}
/// Reads and interpret a block filter
pub struct BlockFilterReader {
reader : GCSFilterReader
}
impl BlockFilterReader {
/// Create a block filter reader
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pub fn new ( block_hash : & BlockHash ) -> BlockFilterReader {
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let block_hash_as_int = block_hash . into_inner ( ) ;
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let k0 = endian ::slice_to_u64_le ( & block_hash_as_int [ 0 .. 8 ] ) ;
let k1 = endian ::slice_to_u64_le ( & block_hash_as_int [ 8 .. 16 ] ) ;
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BlockFilterReader { reader : GCSFilterReader ::new ( k0 , k1 , M , P ) }
}
/// match any query pattern
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pub fn match_any ( & self , reader : & mut dyn io ::Read , query : & mut dyn Iterator < Item = & [ u8 ] > ) -> Result < bool , Error > {
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self . reader . match_any ( reader , query )
}
/// match all query pattern
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pub fn match_all ( & self , reader : & mut dyn io ::Read , query : & mut dyn Iterator < Item = & [ u8 ] > ) -> Result < bool , Error > {
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self . reader . match_all ( reader , query )
}
}
/// Golomb-Rice encoded filter reader
pub struct GCSFilterReader {
filter : GCSFilter ,
m : u64
}
impl GCSFilterReader {
/// Create a new filter reader with specific seed to siphash
pub fn new ( k0 : u64 , k1 : u64 , m : u64 , p : u8 ) -> GCSFilterReader {
GCSFilterReader { filter : GCSFilter ::new ( k0 , k1 , p ) , m }
}
/// match any query pattern
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pub fn match_any ( & self , reader : & mut dyn io ::Read , query : & mut dyn Iterator < Item = & [ u8 ] > ) -> Result < bool , Error > {
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let mut decoder = reader ;
let n_elements : VarInt = Decodable ::consensus_decode ( & mut decoder ) . unwrap_or ( VarInt ( 0 ) ) ;
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let reader = & mut decoder ;
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// map hashes to [0, n_elements << grp]
let nm = n_elements . 0 * self . m ;
let mut mapped = query . map ( | e | map_to_range ( self . filter . hash ( e ) , nm ) ) . collect ::< Vec < _ > > ( ) ;
// sort
mapped . sort ( ) ;
if mapped . is_empty ( ) {
return Ok ( true ) ;
}
if n_elements . 0 = = 0 {
return Ok ( false ) ;
}
// find first match in two sorted arrays in one read pass
let mut reader = BitStreamReader ::new ( reader ) ;
let mut data = self . filter . golomb_rice_decode ( & mut reader ) ? ;
let mut remaining = n_elements . 0 - 1 ;
for p in mapped {
loop {
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match data . cmp ( & p ) {
Ordering ::Equal = > return Ok ( true ) ,
Ordering ::Less = > {
if remaining > 0 {
data + = self . filter . golomb_rice_decode ( & mut reader ) ? ;
remaining - = 1 ;
} else {
return Ok ( false ) ;
}
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}
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Ordering ::Greater = > break ,
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}
}
}
Ok ( false )
}
/// match all query pattern
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pub fn match_all ( & self , reader : & mut dyn io ::Read , query : & mut dyn Iterator < Item = & [ u8 ] > ) -> Result < bool , Error > {
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let mut decoder = reader ;
let n_elements : VarInt = Decodable ::consensus_decode ( & mut decoder ) . unwrap_or ( VarInt ( 0 ) ) ;
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let reader = & mut decoder ;
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// map hashes to [0, n_elements << grp]
let nm = n_elements . 0 * self . m ;
let mut mapped = query . map ( | e | map_to_range ( self . filter . hash ( e ) , nm ) ) . collect ::< Vec < _ > > ( ) ;
// sort
mapped . sort ( ) ;
mapped . dedup ( ) ;
if mapped . is_empty ( ) {
return Ok ( true ) ;
}
if n_elements . 0 = = 0 {
return Ok ( false ) ;
}
// figure if all mapped are there in one read pass
let mut reader = BitStreamReader ::new ( reader ) ;
let mut data = self . filter . golomb_rice_decode ( & mut reader ) ? ;
let mut remaining = n_elements . 0 - 1 ;
for p in mapped {
loop {
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match data . cmp ( & p ) {
Ordering ::Equal = > break ,
Ordering ::Less = > {
if remaining > 0 {
data + = self . filter . golomb_rice_decode ( & mut reader ) ? ;
remaining - = 1 ;
} else {
return Ok ( false ) ;
}
} ,
Ordering ::Greater = > return Ok ( false ) ,
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}
}
}
Ok ( true )
}
}
// fast reduction of hash to [0, nm) range
fn map_to_range ( hash : u64 , nm : u64 ) -> u64 {
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( ( hash as u128 * nm as u128 ) > > 64 ) as u64
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}
/// Colomb-Rice encoded filter writer
pub struct GCSFilterWriter < ' a > {
filter : GCSFilter ,
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writer : & ' a mut dyn io ::Write ,
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elements : HashSet < Vec < u8 > > ,
m : u64
}
impl < ' a > GCSFilterWriter < ' a > {
/// Create a new GCS writer wrapping a generic writer, with specific seed to siphash
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pub fn new ( writer : & ' a mut dyn io ::Write , k0 : u64 , k1 : u64 , m : u64 , p : u8 ) -> GCSFilterWriter < ' a > {
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GCSFilterWriter {
filter : GCSFilter ::new ( k0 , k1 , p ) ,
writer ,
elements : HashSet ::new ( ) ,
m
}
}
/// Add some data to the filter
pub fn add_element ( & mut self , element : & [ u8 ] ) {
if ! element . is_empty ( ) {
self . elements . insert ( element . to_vec ( ) ) ;
}
}
/// write the filter to the wrapped writer
pub fn finish ( & mut self ) -> Result < usize , io ::Error > {
let nm = self . elements . len ( ) as u64 * self . m ;
// map hashes to [0, n_elements * M)
let mut mapped : Vec < _ > = self . elements . iter ( )
. map ( | e | map_to_range ( self . filter . hash ( e . as_slice ( ) ) , nm ) ) . collect ( ) ;
mapped . sort ( ) ;
// write number of elements as varint
let mut encoder = io ::Cursor ::new ( Vec ::new ( ) ) ;
VarInt ( mapped . len ( ) as u64 ) . consensus_encode ( & mut encoder ) . unwrap ( ) ;
let mut wrote = self . writer . write ( encoder . into_inner ( ) . as_slice ( ) ) ? ;
// write out deltas of sorted values into a Golonb-Rice coded bit stream
let mut writer = BitStreamWriter ::new ( self . writer ) ;
let mut last = 0 ;
for data in mapped {
wrote + = self . filter . golomb_rice_encode ( & mut writer , data - last ) ? ;
last = data ;
}
wrote + = writer . flush ( ) ? ;
Ok ( wrote )
}
}
/// Golomb Coded Set Filter
struct GCSFilter {
k0 : u64 , // sip hash key
k1 : u64 , // sip hash key
p : u8
}
impl GCSFilter {
/// Create a new filter
fn new ( k0 : u64 , k1 : u64 , p : u8 ) -> GCSFilter {
GCSFilter { k0 , k1 , p }
}
/// Golomb-Rice encode a number n to a bit stream (Parameter 2^k)
fn golomb_rice_encode ( & self , writer : & mut BitStreamWriter , n : u64 ) -> Result < usize , io ::Error > {
let mut wrote = 0 ;
let mut q = n > > self . p ;
while q > 0 {
let nbits = cmp ::min ( q , 64 ) ;
wrote + = writer . write ( ! 0 u64 , nbits as u8 ) ? ;
q - = nbits ;
}
wrote + = writer . write ( 0 , 1 ) ? ;
wrote + = writer . write ( n , self . p ) ? ;
Ok ( wrote )
}
/// Golomb-Rice decode a number from a bit stream (Parameter 2^k)
fn golomb_rice_decode ( & self , reader : & mut BitStreamReader ) -> Result < u64 , io ::Error > {
let mut q = 0 u64 ;
while reader . read ( 1 ) ? = = 1 {
q + = 1 ;
}
let r = reader . read ( self . p ) ? ;
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Ok ( ( q < < self . p ) + r )
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}
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/// Hash an arbitrary slice with siphash using parameters of this filter
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fn hash ( & self , element : & [ u8 ] ) -> u64 {
siphash24 ::Hash ::hash_to_u64_with_keys ( self . k0 , self . k1 , element )
}
}
/// Bitwise stream reader
pub struct BitStreamReader < ' a > {
buffer : [ u8 ; 1 ] ,
offset : u8 ,
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reader : & ' a mut dyn io ::Read ,
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}
impl < ' a > BitStreamReader < ' a > {
/// Create a new BitStreamReader that reads bitwise from a given reader
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pub fn new ( reader : & ' a mut dyn io ::Read ) -> BitStreamReader {
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BitStreamReader {
buffer : [ 0 u8 ] ,
reader : reader ,
offset : 8 ,
}
}
/// Read nbit bits
pub fn read ( & mut self , mut nbits : u8 ) -> Result < u64 , io ::Error > {
if nbits > 64 {
return Err ( io ::Error ::new ( io ::ErrorKind ::Other , " can not read more than 64 bits at once " ) ) ;
}
let mut data = 0 u64 ;
while nbits > 0 {
if self . offset = = 8 {
self . reader . read_exact ( & mut self . buffer ) ? ;
self . offset = 0 ;
}
let bits = cmp ::min ( 8 - self . offset , nbits ) ;
data < < = bits ;
data | = ( ( self . buffer [ 0 ] < < self . offset ) > > ( 8 - bits ) ) as u64 ;
self . offset + = bits ;
nbits - = bits ;
}
Ok ( data )
}
}
/// Bitwise stream writer
pub struct BitStreamWriter < ' a > {
buffer : [ u8 ; 1 ] ,
offset : u8 ,
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writer : & ' a mut dyn io ::Write ,
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}
impl < ' a > BitStreamWriter < ' a > {
/// Create a new BitStreamWriter that writes bitwise to a given writer
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pub fn new ( writer : & ' a mut dyn io ::Write ) -> BitStreamWriter {
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BitStreamWriter {
buffer : [ 0 u8 ] ,
writer : writer ,
offset : 0 ,
}
}
/// Write nbits bits from data
pub fn write ( & mut self , data : u64 , mut nbits : u8 ) -> Result < usize , io ::Error > {
if nbits > 64 {
return Err ( io ::Error ::new ( io ::ErrorKind ::Other , " can not write more than 64 bits at once " ) ) ;
}
let mut wrote = 0 ;
while nbits > 0 {
let bits = cmp ::min ( 8 - self . offset , nbits ) ;
self . buffer [ 0 ] | = ( ( data < < ( 64 - nbits ) ) > > ( 64 - 8 + self . offset ) ) as u8 ;
self . offset + = bits ;
nbits - = bits ;
if self . offset = = 8 {
wrote + = self . flush ( ) ? ;
}
}
Ok ( wrote )
}
/// flush bits not yet written
pub fn flush ( & mut self ) -> Result < usize , io ::Error > {
if self . offset > 0 {
self . writer . write_all ( & self . buffer ) ? ;
self . buffer [ 0 ] = 0 u8 ;
self . offset = 0 ;
Ok ( 1 )
} else {
Ok ( 0 )
}
}
}
#[ cfg(test) ]
mod test {
use std ::collections ::{ HashSet , HashMap } ;
use std ::io ::Cursor ;
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use hash_types ::BlockHash ;
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use hashes ::hex ::FromHex ;
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use super ::* ;
extern crate serde_json ;
use self ::serde_json ::{ Value } ;
use consensus ::encode ::deserialize ;
#[ test ]
fn test_blockfilters ( ) {
// test vectors from: https://github.com/jimpo/bitcoin/blob/c7efb652f3543b001b4dd22186a354605b14f47e/src/test/data/blockfilters.json
let data = r #"
[
[ " Block Height,Block Hash,Block,[Prev Output Scripts for Block],Previous Basic Header,Basic Filter,Basic Header,Notes " ] ,
[ 0 , " 000000000933ea01ad0ee984209779baaec3ced90fa3f408719526f8d77f4943 " , " 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 " , [ ] , " 0000000000000000000000000000000000000000000000000000000000000000 " , " 019dfca8 " , " 21584579b7eb08997773e5aeff3a7f932700042d0ed2a6129012b7d7ae81b750 " , " Genesis block " ] ,
[ 2 , " 000000006c02c8ea6e4ff69651f7fcde348fb9d557a06e6957b65552002a7820 " , " 0100000006128e87be8b1b4dea47a7247d5528d2702c96826c7a648497e773b800000000e241352e3bec0a95a6217e10c3abb54adfa05abb12c126695595580fb92e222032e7494dffff001d00d235340101000000010000000000000000000000000000000000000000000000000000000000000000ffffffff0e0432e7494d010e062f503253482fffffffff0100f2052a010000002321038a7f6ef1c8ca0c588aa53fa860128077c9e6c11e6830f4d7ee4e763a56b7718fac00000000 " , [ ] , " d7bdac13a59d745b1add0d2ce852f1a0442e8945fc1bf3848d3cbffd88c24fe1 " , " 0174a170 " , " 186afd11ef2b5e7e3504f2e8cbf8df28a1fd251fe53d60dff8b1467d1b386cf0 " , " " ] ,
[ 3 , " 000000008b896e272758da5297bcd98fdc6d97c9b765ecec401e286dc1fdbe10 " , " 0100000020782a005255b657696ea057d5b98f34defcf75196f64f6eeac8026c0000000041ba5afc532aae03151b8aa87b65e1594f97504a768e010c98c0add79216247186e7494dffff001d058dc2b60101000000010000000000000000000000000000000000000000000000000000000000000000ffffffff0e0486e7494d0151062f503253482fffffffff0100f2052a01000000232103f6d9ff4c12959445ca5549c811683bf9c88e637b222dd2e0311154c4c85cf423ac00000000 " , [ ] , " 186afd11ef2b5e7e3504f2e8cbf8df28a1fd251fe53d60dff8b1467d1b386cf0 " , " 016cf7a0 " , " 8d63aadf5ab7257cb6d2316a57b16f517bff1c6388f124ec4c04af1212729d2a " , " " ] ,
[ 15007 , " 0000000038c44c703bae0f98cdd6bf30922326340a5996cc692aaae8bacf47ad " , " 0100000002394092aa378fe35d7e9ac79c869b975c4de4374cd75eb5484b0e1e00000000eb9b8670abd44ad6c55cee18e3020fb0c6519e7004b01a16e9164867531b67afc33bc94fffff001d123f10050101000000010000000000000000000000000000000000000000000000000000000000000000ffffffff0e04c33bc94f0115062f503253482fffffffff0100f2052a01000000232103f268e9ae07e0f8cb2f6e901d87c510d650b97230c0365b021df8f467363cafb1ac00000000 " , [ ] , " 18b5c2b0146d2d09d24fb00ff5b52bd0742f36c9e65527abdb9de30c027a4748 " , " 013c3710 " , " 07384b01311867949e0c046607c66b7a766d338474bb67f66c8ae9dbd454b20e " , " Tx has non-standard OP_RETURN output followed by opcodes " ] ,
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[ 987876 , " 0000000000000c00901f2049055e2a437c819d79a3d54fd63e6af796cd7b8a79 " , " 000000202694f74969fdb542090e95a56bc8aa2d646e27033850e32f1c5f000000000000f7e53676b3f12d5beb524ed617f2d25f5a93b5f4f52c1ba2678260d72712f8dd0a6dfe5740257e1a4b1768960101000000010000000000000000000000000000000000000000000000000000000000000000ffffffff1603e4120ff9c30a1c216900002f424d4920546573742fffffff0001205fa012000000001e76a914c486de584a735ec2f22da7cd9681614681f92173d83d0aa68688ac00000000 " , [ ] , " fe4d230dbb0f4fec9bed23a5283e08baf996e3f32b93f52c7de1f641ddfd04ad " , " 010c0b40 " , " 0965a544743bbfa36f254446e75630c09404b3d164a261892372977538928ed5 " , " Coinbase tx has unparseable output script " ] ,
[ 1263442 , " 000000006f27ddfe1dd680044a34548f41bed47eba9e6f0b310da21423bc5f33 " , " 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 " , [ " 002027a5000c7917f785d8fc6e5a55adfca8717ecb973ebb7743849ff956d896a7ed " ] , " 31d66d516a9eda7de865df29f6ef6cb8e4bf9309e5dac899968a9a62a5df61e3 " , " 0385acb4f0fe889ef0 " , " 4e6d564c2a2452065c205dd7eb2791124e0c4e0dbb064c410c24968572589dec " , " Includes witness data " ] ,
[ 1414221 , " 0000000000000027b2b3b3381f114f674f481544ff2be37ae3788d7e078383b1 " , " 000000204ea88307a7959d8207968f152bedca5a93aefab253f1fb2cfb032a400000000070cebb14ec6dbc27a9dfd066d9849a4d3bac5f674665f73a5fe1de01a022a0c851fda85bf05f4c19a779d1450102000000010000000000000000000000000000000000000000000000000000000000000000ffffffff18034d94154d696e6572476174653030310d000000f238f401ffffffff01c817a804000000000000000000 " , [ ] , " 5e5e12d90693c8e936f01847859404c67482439681928353ca1296982042864e " , " 00 " , " 021e8882ef5a0ed932edeebbecfeda1d7ce528ec7b3daa27641acf1189d7b5dc " , " Empty data " ]
]
" #;
let testdata = serde_json ::from_str ::< Value > ( data ) . unwrap ( ) . as_array ( ) . unwrap ( ) . clone ( ) ;
for t in testdata . iter ( ) . skip ( 1 ) {
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let block_hash = BlockHash ::from_hex ( & t . get ( 1 ) . unwrap ( ) . as_str ( ) . unwrap ( ) ) . unwrap ( ) ;
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let block : Block = deserialize ( & Vec ::from_hex ( & t . get ( 2 ) . unwrap ( ) . as_str ( ) . unwrap ( ) ) . unwrap ( ) ) . unwrap ( ) ;
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assert_eq! ( block . block_hash ( ) , block_hash ) ;
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let scripts = t . get ( 3 ) . unwrap ( ) . as_array ( ) . unwrap ( ) ;
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let previous_filter_header = FilterHeader ::from_hex ( & t . get ( 4 ) . unwrap ( ) . as_str ( ) . unwrap ( ) ) . unwrap ( ) ;
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let filter_content = Vec ::from_hex ( & t . get ( 5 ) . unwrap ( ) . as_str ( ) . unwrap ( ) ) . unwrap ( ) ;
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let filter_header = FilterHeader ::from_hex ( & t . get ( 6 ) . unwrap ( ) . as_str ( ) . unwrap ( ) ) . unwrap ( ) ;
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let mut txmap = HashMap ::new ( ) ;
let mut si = scripts . iter ( ) ;
for tx in block . txdata . iter ( ) . skip ( 1 ) {
for input in tx . input . iter ( ) {
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txmap . insert ( input . previous_output . clone ( ) , Script ::from ( Vec ::from_hex ( si . next ( ) . unwrap ( ) . as_str ( ) . unwrap ( ) ) . unwrap ( ) ) ) ;
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}
}
let filter = BlockFilter ::new_script_filter ( & block ,
| o | if let Some ( s ) = txmap . get ( o ) {
Ok ( s . clone ( ) )
} else {
Err ( Error ::UtxoMissing ( o . clone ( ) ) )
} ) . unwrap ( ) ;
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let test_filter = BlockFilter ::new ( filter_content . as_slice ( ) ) ;
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assert_eq! ( test_filter . content , filter . content ) ;
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let block_hash = & block . block_hash ( ) ;
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assert! ( filter . match_all ( block_hash , & mut txmap . iter ( )
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. filter_map ( | ( _ , s ) | if ! s . is_empty ( ) { Some ( s . as_bytes ( ) ) } else { None } ) ) . unwrap ( ) ) ;
for ( _ , script ) in & txmap {
let query = vec! [ script ] ;
if ! script . is_empty ( ) {
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assert! ( filter . match_any ( & block_hash , & mut query . iter ( )
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. map ( | s | s . as_bytes ( ) ) ) . unwrap ( ) ) ;
}
}
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assert_eq! ( filter_header , filter . filter_header ( & previous_filter_header ) ) ;
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}
}
#[ test ]
fn test_filter ( ) {
let mut patterns = HashSet ::new ( ) ;
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patterns . insert ( Vec ::from_hex ( " 000000 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 111111 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 222222 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 333333 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 444444 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 555555 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 666666 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 777777 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 888888 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " 999999 " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " aaaaaa " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " bbbbbb " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " cccccc " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " dddddd " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " eeeeee " ) . unwrap ( ) ) ;
patterns . insert ( Vec ::from_hex ( " ffffff " ) . unwrap ( ) ) ;
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let mut out = Cursor ::new ( Vec ::new ( ) ) ;
{
let mut writer = GCSFilterWriter ::new ( & mut out , 0 , 0 , M , P ) ;
for p in & patterns {
writer . add_element ( p . as_slice ( ) ) ;
}
writer . finish ( ) . unwrap ( ) ;
}
let bytes = out . into_inner ( ) ;
{
let mut query = Vec ::new ( ) ;
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query . push ( Vec ::from_hex ( " abcdef " ) . unwrap ( ) ) ;
query . push ( Vec ::from_hex ( " eeeeee " ) . unwrap ( ) ) ;
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let reader = GCSFilterReader ::new ( 0 , 0 , M , P ) ;
let mut input = Cursor ::new ( bytes . clone ( ) ) ;
assert! ( reader . match_any ( & mut input , & mut query . iter ( ) . map ( | v | v . as_slice ( ) ) ) . unwrap ( ) ) ;
}
{
let mut query = Vec ::new ( ) ;
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query . push ( Vec ::from_hex ( " abcdef " ) . unwrap ( ) ) ;
query . push ( Vec ::from_hex ( " 123456 " ) . unwrap ( ) ) ;
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let reader = GCSFilterReader ::new ( 0 , 0 , M , P ) ;
let mut input = Cursor ::new ( bytes . clone ( ) ) ;
assert! ( ! reader . match_any ( & mut input , & mut query . iter ( ) . map ( | v | v . as_slice ( ) ) ) . unwrap ( ) ) ;
}
{
let reader = GCSFilterReader ::new ( 0 , 0 , M , P ) ;
let mut query = Vec ::new ( ) ;
for p in & patterns {
query . push ( p . clone ( ) ) ;
}
let mut input = Cursor ::new ( bytes . clone ( ) ) ;
assert! ( reader . match_all ( & mut input , & mut query . iter ( ) . map ( | v | v . as_slice ( ) ) ) . unwrap ( ) ) ;
}
{
let reader = GCSFilterReader ::new ( 0 , 0 , M , P ) ;
let mut query = Vec ::new ( ) ;
for p in & patterns {
query . push ( p . clone ( ) ) ;
}
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query . push ( Vec ::from_hex ( " abcdef " ) . unwrap ( ) ) ;
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let mut input = Cursor ::new ( bytes . clone ( ) ) ;
assert! ( ! reader . match_all ( & mut input , & mut query . iter ( ) . map ( | v | v . as_slice ( ) ) ) . unwrap ( ) ) ;
}
}
#[ test ]
fn test_bit_stream ( ) {
let mut out = Cursor ::new ( Vec ::new ( ) ) ;
{
let mut writer = BitStreamWriter ::new ( & mut out ) ;
writer . write ( 0 , 1 ) . unwrap ( ) ; // 0
writer . write ( 2 , 2 ) . unwrap ( ) ; // 10
writer . write ( 6 , 3 ) . unwrap ( ) ; // 110
writer . write ( 11 , 4 ) . unwrap ( ) ; // 1011
writer . write ( 1 , 5 ) . unwrap ( ) ; // 00001
writer . write ( 32 , 6 ) . unwrap ( ) ; // 100000
writer . write ( 7 , 7 ) . unwrap ( ) ; // 0000111
writer . flush ( ) . unwrap ( ) ;
}
let bytes = out . into_inner ( ) ;
assert_eq! ( " 01011010110000110000000001110000 " , format! ( " {:08b} {:08b} {:08b} {:08b} " , bytes [ 0 ] , bytes [ 1 ] , bytes [ 2 ] , bytes [ 3 ] ) ) ;
{
let mut input = Cursor ::new ( bytes ) ;
let mut reader = BitStreamReader ::new ( & mut input ) ;
assert_eq! ( reader . read ( 1 ) . unwrap ( ) , 0 ) ;
assert_eq! ( reader . read ( 2 ) . unwrap ( ) , 2 ) ;
assert_eq! ( reader . read ( 3 ) . unwrap ( ) , 6 ) ;
assert_eq! ( reader . read ( 4 ) . unwrap ( ) , 11 ) ;
assert_eq! ( reader . read ( 5 ) . unwrap ( ) , 1 ) ;
assert_eq! ( reader . read ( 6 ) . unwrap ( ) , 32 ) ;
assert_eq! ( reader . read ( 7 ) . unwrap ( ) , 7 ) ;
// 4 bits remained
assert! ( reader . read ( 5 ) . is_err ( ) ) ;
}
}
}