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19a2d668cf
d59a518
Use fixed preallocation instead of costly GetSerializeSize (Pieter Wuille)25a211a
Add optimized CSizeComputer serializers (Pieter Wuille)a2929a2
Make CSerAction's ForRead() constexpr (Pieter Wuille)a603925
Avoid -Wshadow errors (Pieter Wuille)5284721
Get rid of nType and nVersion (Pieter Wuille)657e05a
Make GetSerializeSize a wrapper on top of CSizeComputer (Pieter Wuille)fad9b66
Make nType and nVersion private and sometimes const (Pieter Wuille)c2c5d42
Make streams' read and write return void (Pieter Wuille)50e8a9c
Remove unused ReadVersion and WriteVersion (Pieter Wuille)
158 lines
5.6 KiB
C++
158 lines
5.6 KiB
C++
// Copyright (c) 2009-2010 Satoshi Nakamoto
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// Copyright (c) 2009-2015 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#ifndef BITCOIN_MERKLEBLOCK_H
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#define BITCOIN_MERKLEBLOCK_H
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#include "serialize.h"
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#include "uint256.h"
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#include "primitives/block.h"
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#include "bloom.h"
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#include <vector>
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/** Data structure that represents a partial merkle tree.
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*
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* It represents a subset of the txid's of a known block, in a way that
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* allows recovery of the list of txid's and the merkle root, in an
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* authenticated way.
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*
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* The encoding works as follows: we traverse the tree in depth-first order,
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* storing a bit for each traversed node, signifying whether the node is the
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* parent of at least one matched leaf txid (or a matched txid itself). In
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* case we are at the leaf level, or this bit is 0, its merkle node hash is
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* stored, and its children are not explorer further. Otherwise, no hash is
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* stored, but we recurse into both (or the only) child branch. During
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* decoding, the same depth-first traversal is performed, consuming bits and
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* hashes as they written during encoding.
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*
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* The serialization is fixed and provides a hard guarantee about the
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* encoded size:
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*
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* SIZE <= 10 + ceil(32.25*N)
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*
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* Where N represents the number of leaf nodes of the partial tree. N itself
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* is bounded by:
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*
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* N <= total_transactions
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* N <= 1 + matched_transactions*tree_height
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*
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* The serialization format:
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* - uint32 total_transactions (4 bytes)
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* - varint number of hashes (1-3 bytes)
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* - uint256[] hashes in depth-first order (<= 32*N bytes)
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* - varint number of bytes of flag bits (1-3 bytes)
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* - byte[] flag bits, packed per 8 in a byte, least significant bit first (<= 2*N-1 bits)
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* The size constraints follow from this.
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*/
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class CPartialMerkleTree
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{
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protected:
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/** the total number of transactions in the block */
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unsigned int nTransactions;
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/** node-is-parent-of-matched-txid bits */
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std::vector<bool> vBits;
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/** txids and internal hashes */
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std::vector<uint256> vHash;
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/** flag set when encountering invalid data */
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bool fBad;
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/** helper function to efficiently calculate the number of nodes at given height in the merkle tree */
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unsigned int CalcTreeWidth(int height) {
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return (nTransactions+(1 << height)-1) >> height;
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}
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/** calculate the hash of a node in the merkle tree (at leaf level: the txid's themselves) */
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uint256 CalcHash(int height, unsigned int pos, const std::vector<uint256> &vTxid);
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/** recursive function that traverses tree nodes, storing the data as bits and hashes */
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void TraverseAndBuild(int height, unsigned int pos, const std::vector<uint256> &vTxid, const std::vector<bool> &vMatch);
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/**
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* recursive function that traverses tree nodes, consuming the bits and hashes produced by TraverseAndBuild.
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* it returns the hash of the respective node and its respective index.
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*/
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uint256 TraverseAndExtract(int height, unsigned int pos, unsigned int &nBitsUsed, unsigned int &nHashUsed, std::vector<uint256> &vMatch, std::vector<unsigned int> &vnIndex);
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public:
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/** serialization implementation */
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ADD_SERIALIZE_METHODS;
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template <typename Stream, typename Operation>
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inline void SerializationOp(Stream& s, Operation ser_action) {
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READWRITE(nTransactions);
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READWRITE(vHash);
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std::vector<unsigned char> vBytes;
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if (ser_action.ForRead()) {
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READWRITE(vBytes);
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CPartialMerkleTree &us = *(const_cast<CPartialMerkleTree*>(this));
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us.vBits.resize(vBytes.size() * 8);
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for (unsigned int p = 0; p < us.vBits.size(); p++)
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us.vBits[p] = (vBytes[p / 8] & (1 << (p % 8))) != 0;
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us.fBad = false;
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} else {
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vBytes.resize((vBits.size()+7)/8);
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for (unsigned int p = 0; p < vBits.size(); p++)
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vBytes[p / 8] |= vBits[p] << (p % 8);
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READWRITE(vBytes);
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}
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}
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/** Construct a partial merkle tree from a list of transaction ids, and a mask that selects a subset of them */
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CPartialMerkleTree(const std::vector<uint256> &vTxid, const std::vector<bool> &vMatch);
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CPartialMerkleTree();
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/**
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* extract the matching txid's represented by this partial merkle tree
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* and their respective indices within the partial tree.
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* returns the merkle root, or 0 in case of failure
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*/
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uint256 ExtractMatches(std::vector<uint256> &vMatch, std::vector<unsigned int> &vnIndex);
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};
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/**
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* Used to relay blocks as header + vector<merkle branch>
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* to filtered nodes.
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*/
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class CMerkleBlock
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{
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public:
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/** Public only for unit testing */
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CBlockHeader header;
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CPartialMerkleTree txn;
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public:
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/** Public only for unit testing and relay testing (not relayed) */
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std::vector<std::pair<unsigned int, uint256> > vMatchedTxn;
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/**
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* Create from a CBlock, filtering transactions according to filter
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* Note that this will call IsRelevantAndUpdate on the filter for each transaction,
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* thus the filter will likely be modified.
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*/
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CMerkleBlock(const CBlock& block, CBloomFilter& filter);
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// Create from a CBlock, matching the txids in the set
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CMerkleBlock(const CBlock& block, const std::set<uint256>& txids);
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CMerkleBlock() {}
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ADD_SERIALIZE_METHODS;
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template <typename Stream, typename Operation>
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inline void SerializationOp(Stream& s, Operation ser_action) {
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READWRITE(header);
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READWRITE(txn);
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}
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};
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#endif // BITCOIN_MERKLEBLOCK_H
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