lbcutil/bloom/merkleblock.go

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// Copyright (c) 2013, 2014 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package bloom
import (
"github.com/btcsuite/btcchain"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwire"
)
// merkleBlock is used to house intermediate information needed to generate a
// btcwire.MsgMerkleBlock according to a filter.
type merkleBlock struct {
numTx uint32
allHashes []*btcwire.ShaHash
finalHashes []*btcwire.ShaHash
matchedBits []byte
bits []byte
}
// calcTreeWidth calculates and returns the the number of nodes (width) or a
// merkle tree at the given depth-first height.
func (m *merkleBlock) calcTreeWidth(height uint32) uint32 {
return (m.numTx + (1 << height) - 1) >> height
}
// calcHash returns the hash for a sub-tree given a depth-first height and
// node position.
func (m *merkleBlock) calcHash(height, pos uint32) *btcwire.ShaHash {
if height == 0 {
return m.allHashes[pos]
}
var right *btcwire.ShaHash
left := m.calcHash(height-1, pos*2)
if pos*2+1 < m.calcTreeWidth(height-1) {
right = m.calcHash(height-1, pos*2+1)
} else {
right = left
}
return btcchain.HashMerkleBranches(left, right)
}
// traverseAndBuild builds a partial merkle tree using a recursive depth-first
// approach. As it calculates the hashes, it also saves whether or not each
// node is a parent node and a list of final hashes to be included in the
// merkle block.
func (m *merkleBlock) traverseAndBuild(height, pos uint32) {
// Determine whether this node is a parent of a matched node.
var isParent byte
for i := pos << height; i < (pos+1)<<height && i < m.numTx; i++ {
isParent |= m.matchedBits[i]
}
m.bits = append(m.bits, isParent)
// When the node is a leaf node or not a parent of a matched node,
// append the hash to the list that will be part of the final merkle
// block.
if height == 0 || isParent == 0x00 {
m.finalHashes = append(m.finalHashes, m.calcHash(height, pos))
return
}
// At this point, the node is an internal node and it is the parent of
// of an included leaf node.
// Descend into the left child and process its sub-tree.
m.traverseAndBuild(height-1, pos*2)
// Descend into the right child and process its sub-tree if
// there is one.
if pos*2+1 < m.calcTreeWidth(height-1) {
m.traverseAndBuild(height-1, pos*2+1)
}
}
2014-07-10 17:10:44 +02:00
// NewMerkleBlock returns a new *btcwire.MsgMerkleBlock and an array of the matched
// transaction hashes based on the passed block and filter.
func NewMerkleBlock(block *btcutil.Block, filter *Filter) (*btcwire.MsgMerkleBlock, []*btcwire.ShaHash) {
numTx := uint32(len(block.Transactions()))
mBlock := merkleBlock{
numTx: numTx,
allHashes: make([]*btcwire.ShaHash, 0, numTx),
matchedBits: make([]byte, 0, numTx),
}
// Find and keep track of any transactions that match the filter.
var matchedHashes []*btcwire.ShaHash
for _, tx := range block.Transactions() {
if filter.MatchTxAndUpdate(tx) {
mBlock.matchedBits = append(mBlock.matchedBits, 0x01)
matchedHashes = append(matchedHashes, tx.Sha())
} else {
mBlock.matchedBits = append(mBlock.matchedBits, 0x00)
}
mBlock.allHashes = append(mBlock.allHashes, tx.Sha())
}
// Calculate the number of merkle branches (height) in the tree.
height := uint32(0)
for mBlock.calcTreeWidth(height) > 1 {
height++
}
// Build the depth-first partial merkle tree.
mBlock.traverseAndBuild(height, 0)
// Create and return the merkle block.
msgMerkleBlock := btcwire.MsgMerkleBlock{
Header: block.MsgBlock().Header,
Transactions: uint32(mBlock.numTx),
Hashes: make([]*btcwire.ShaHash, 0, len(mBlock.finalHashes)),
Flags: make([]byte, (len(mBlock.bits)+7)/8),
}
for _, sha := range mBlock.finalHashes {
msgMerkleBlock.AddTxHash(sha)
}
for i := uint32(0); i < uint32(len(mBlock.bits)); i++ {
msgMerkleBlock.Flags[i/8] |= mBlock.bits[i] << (i % 8)
}
return &msgMerkleBlock, matchedHashes
}