Serialize effective amount #231

Closed
bvbfan wants to merge 309 commits from serialize_effective_amount into master
3 changed files with 46 additions and 37 deletions
Showing only changes of commit 0e0fb4a056 - Show all commits

View file

@ -3,11 +3,29 @@
#include <boost/scoped_ptr.hpp>
std::string CNodeValue::ToString()
uint256 CNodeValue::GetHash() const
{
CHash256 valTxHasher;
valTxHasher.Write(txhash.begin(), txhash.size());
std::vector<unsigned char> vchValTxHash(valTxHasher.OUTPUT_SIZE);
valTxHasher.Finalize(&(vchValTxHash[0]));
CHash256 valnOutHasher;
std::stringstream ss;
ss << nOut;
return txhash.ToString() + ss.str();
std::string snOut = ss.str();
valnOutHasher.Write((unsigned char*) snOut.data(), snOut.size());
std::vector<unsigned char> vchValnOutHash(valnOutHasher.OUTPUT_SIZE);
valnOutHasher.Finalize(&(vchValnOutHash[0]));
CHash256 valHasher;
valHasher.Write(vchValTxHash.data(), vchValTxHash.size());
valHasher.Write(vchValnOutHash.data(), vchValnOutHash.size());
std::vector<unsigned char> vchValHash(valHasher.OUTPUT_SIZE);
valHasher.Finalize(&(vchValHash[0]));
uint256 valHash(vchValHash);
return valHash;
}
bool CNCCTrieNode::insertValue(CNodeValue val, bool * pfChanged)
@ -35,7 +53,7 @@ bool CNCCTrieNode::insertValue(CNodeValue val, bool * pfChanged)
bool CNCCTrieNode::removeValue(uint256& txhash, uint32_t nOut, CNodeValue& val, bool * pfChanged)
{
LogPrintf("%s: Removing %s from the ncc trie\n", __func__, val.ToString());
LogPrintf("%s: Removing txid: %s, nOut: %d from the ncc trie\n", __func__, txhash.ToString(), nOut);
bool fChanged = false;
CNodeValue currentTop = values.front();
@ -53,12 +71,11 @@ bool CNCCTrieNode::removeValue(uint256& txhash, uint32_t nOut, CNodeValue& val,
values.erase(position);
else
{
LogPrintf("CNCCTrieNode::removeValue() : asked to remove a value that doesn't exist\n");
LogPrintf("CNCCTrieNode::removeValue() : value that doesn't exist: %s.\n", val.ToString());
LogPrintf("CNCCTrieNode::removeValue() : values that do exist:\n");
LogPrintf("CNCCTrieNode::%s() : asked to remove a value that doesn't exist\n", __func__);
LogPrintf("CNCCTrieNode::%s() : values that do exist:\n", __func__);
for (unsigned int i = 0; i < values.size(); i++)
{
LogPrintf("%s\n", values[i].ToString());
LogPrintf("\ttxid: %s, nOut: %d\n", values[i].txhash.ToString(), values[i].nOut);
}
return false;
}
@ -191,16 +208,14 @@ bool CNCCTrie::checkConsistency()
bool CNCCTrie::recursiveCheckConsistency(CNCCTrieNode* node)
{
std::string stringToHash;
std::vector<unsigned char> vchToHash;
for (nodeMapType::iterator it = node->children.begin(); it != node->children.end(); ++it)
{
std::stringstream ss;
ss << it->first;
if (recursiveCheckConsistency(it->second))
{
stringToHash += ss.str();
stringToHash += it->second->hash.ToString();
vchToHash.push_back(it->first);
vchToHash.insert(vchToHash.end(), it->second->hash.begin(), it->second->hash.end());
}
else
return false;
@ -211,17 +226,13 @@ bool CNCCTrie::recursiveCheckConsistency(CNCCTrieNode* node)
if (hasValue)
{
CHash256 valHasher;
std::vector<unsigned char> vchValHash(valHasher.OUTPUT_SIZE);
valHasher.Write((const unsigned char*) val.ToString().data(), val.ToString().size());
valHasher.Finalize(&(vchValHash[0]));
uint256 valHash(vchValHash);
stringToHash += valHash.ToString();
uint256 valHash = val.GetHash();
vchToHash.insert(vchToHash.end(), valHash.begin(), valHash.end());
}
CHash256 hasher;
std::vector<unsigned char> vchHash(hasher.OUTPUT_SIZE);
hasher.Write((const unsigned char*) stringToHash.data(), stringToHash.size());
hasher.Write(vchToHash.data(), vchToHash.size());
hasher.Finalize(&(vchHash[0]));
uint256 calculatedHash(vchHash);
return calculatedHash == node->hash;
@ -507,8 +518,7 @@ bool CNCCTrieCache::recursiveComputeMerkleHash(CNCCTrieNode* tnCurrent, std::str
cacheHashes[""] = uint256S("0000000000000000000000000000000000000000000000000000000000000001");
return true;
}
std::string stringToHash;
std::vector<unsigned char> vchToHash;
nodeCacheType::iterator cachedNode;
@ -526,12 +536,16 @@ bool CNCCTrieCache::recursiveComputeMerkleHash(CNCCTrieNode* tnCurrent, std::str
else
recursiveComputeMerkleHash(it->second, sNextPos);
}
stringToHash += ss.str();
vchToHash.push_back(it->first);
hashMapType::iterator ithash = cacheHashes.find(sNextPos);
if (ithash != cacheHashes.end())
stringToHash += ithash->second.ToString();
{
vchToHash.insert(vchToHash.end(), ithash->second.begin(), ithash->second.end());
}
else
stringToHash += it->second->hash.ToString();
{
vchToHash.insert(vchToHash.end(), it->second->hash.begin(), it->second->hash.end());
}
}
CNodeValue val;
@ -539,17 +553,13 @@ bool CNCCTrieCache::recursiveComputeMerkleHash(CNCCTrieNode* tnCurrent, std::str
if (hasValue)
{
CHash256 valHasher;
std::vector<unsigned char> vchValHash(valHasher.OUTPUT_SIZE);
valHasher.Write((const unsigned char*) val.ToString().data(), val.ToString().size());
valHasher.Finalize(&(vchValHash[0]));
uint256 valHash(vchValHash);
stringToHash += valHash.ToString();
uint256 valHash = val.GetHash();
vchToHash.insert(vchToHash.end(), valHash.begin(), valHash.end());
}
CHash256 hasher;
std::vector<unsigned char> vchHash(hasher.OUTPUT_SIZE);
hasher.Write((const unsigned char*) stringToHash.data(), stringToHash.size());
hasher.Write(vchToHash.data(), vchToHash.size());
hasher.Finalize(&(vchHash[0]));
cacheHashes[sPos] = uint256(vchHash);
std::set<std::string>::iterator itDirty = dirtyHashes.find(sPos);

View file

@ -27,8 +27,7 @@ public:
int nValidAtHeight;
CNodeValue() {};
CNodeValue(uint256 txhash, uint32_t nOut, CAmount nAmount, int nHeight, int nValidAtHeight) : txhash(txhash), nOut(nOut), nAmount(nAmount), nHeight(nHeight), nValidAtHeight(nValidAtHeight) {}
std::string ToString();
uint256 GetHash() const;
ADD_SERIALIZE_METHODS;
template <typename Stream, typename Operation>

View file

@ -110,16 +110,16 @@ BOOST_AUTO_TEST_CASE(ncctrie_merkle_hash)
CMutableTransaction tx6 = BuildTransaction(tx5.GetHash());
uint256 hash1;
hash1.SetHex("2f3ae25e923dfa6fc24f0ff5d4367239425effaf47b703857436947a2dbfdda1");
hash1.SetHex("09732c6efebb4065a27f184285a6b66280a978cf972b1f41a563f0d3644f3e5c");
uint256 hash2;
hash2.SetHex("833c0a897d1e32b16a7988c574dbcd750ed6695b947dea7b16e7782eac070a5d");
hash2.SetHex("8db92b76b6b0416d7abda4fd7404ba69e340853dfe9ffc04843c50142b857471");
uint256 hash3;
hash3.SetHex("5ea4c62fb56bbca0cdf6fe4b2668c737641b4f48af8ef5041faa42df12aa3078");
hash3.SetHex("2e38561067f3e83d6ca0b627861689de72bba77cb5aca69d13b3685b5229525b");
uint256 hash4;
hash4.SetHex("47ae7f3ab9c0e9b13d08d5535a76fd36cecad0529baca390cea77b5bd3d99290");
hash4.SetHex("6ec84089eb4ca1aeead6cf3538d4def78baebb44715c31be8790e627e0dcbc28");
BOOST_CHECK(pnccTrie->empty());