lbrycrd/src/claimtrieforks.cpp

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#include <consensus/merkle.h>
#include <chainparams.h>
#include <claimtrie.h>
#include <hash.h>
#include <boost/locale.hpp>
#include <boost/locale/conversion.hpp>
#include <boost/locale/localization_backend.hpp>
#include <boost/scoped_ptr.hpp>
CClaimTrieCacheExpirationFork::CClaimTrieCacheExpirationFork(CClaimTrie* base)
: CClaimTrieCacheBase(base)
{
setExpirationTime(Params().GetConsensus().GetExpirationTime(nNextHeight));
}
void CClaimTrieCacheExpirationFork::setExpirationTime(int time)
{
nExpirationTime = time;
}
int CClaimTrieCacheExpirationFork::expirationTime() const
{
return nExpirationTime;
}
bool CClaimTrieCacheExpirationFork::incrementBlock(insertUndoType& insertUndo, claimQueueRowType& expireUndo, insertUndoType& insertSupportUndo, supportQueueRowType& expireSupportUndo)
{
if (CClaimTrieCacheBase::incrementBlock(insertUndo, expireUndo, insertSupportUndo, expireSupportUndo)) {
setExpirationTime(Params().GetConsensus().GetExpirationTime(nNextHeight));
return true;
}
return false;
}
bool CClaimTrieCacheExpirationFork::decrementBlock(insertUndoType& insertUndo, claimQueueRowType& expireUndo, insertUndoType& insertSupportUndo, supportQueueRowType& expireSupportUndo)
{
if (CClaimTrieCacheBase::decrementBlock(insertUndo, expireUndo, insertSupportUndo, expireSupportUndo)) {
setExpirationTime(Params().GetConsensus().GetExpirationTime(nNextHeight));
return true;
}
return false;
}
void CClaimTrieCacheExpirationFork::initializeIncrement()
{
// we could do this in the constructor, but that would not allow for multiple increments in a row (as done in unit tests)
if (nNextHeight != Params().GetConsensus().nExtendedClaimExpirationForkHeight)
return;
forkForExpirationChange(true);
}
bool CClaimTrieCacheExpirationFork::finalizeDecrement()
{
auto ret = CClaimTrieCacheBase::finalizeDecrement();
if (ret && nNextHeight == Params().GetConsensus().nExtendedClaimExpirationForkHeight)
forkForExpirationChange(false);
return ret;
}
bool CClaimTrieCacheExpirationFork::forkForExpirationChange(bool increment)
{
/*
If increment is True, we have forked to extend the expiration time, thus items in the expiration queue
will have their expiration extended by "new expiration time - original expiration time"
If increment is False, we are decremented a block to reverse the fork. Thus items in the expiration queue
will have their expiration extension removed.
*/
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auto extension = Params().GetConsensus().nExtendedClaimExpirationTime - Params().GetConsensus().nOriginalClaimExpirationTime;
if (!increment) extension = -extension;
base->_db << "UPDATE claims SET expirationHeight = expirationHeight + ? WHERE expirationHeight >= ?" << extension << nNextHeight;
base->_db << "UPDATE supports SET expirationHeight = expirationHeight + ? WHERE expirationHeight >= ?" << extension << nNextHeight;
base->_db << "UPDATE nodes SET hash = NULL"; // recompute all hashes (as there aren't that many at this point)
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dirtyNodes = true;
return true;
}
bool CClaimTrieCacheNormalizationFork::shouldNormalize() const
{
return nNextHeight > Params().GetConsensus().nNormalizedNameForkHeight;
}
std::string CClaimTrieCacheNormalizationFork::normalizeClaimName(const std::string& name, bool force) const
{
if (!force && !shouldNormalize())
return name;
static std::locale utf8;
static bool initialized = false;
if (!initialized) {
static boost::locale::localization_backend_manager manager =
boost::locale::localization_backend_manager::global();
manager.select("icu");
static boost::locale::generator curLocale(manager);
utf8 = curLocale("en_US.UTF8");
initialized = true;
}
std::string normalized;
try {
// Check if it is a valid utf-8 string. If not, it will throw a
// boost::locale::conv::conversion_error exception which we catch later
normalized = boost::locale::conv::to_utf<char>(name, "UTF-8", boost::locale::conv::stop);
if (normalized.empty())
return name;
// these methods supposedly only use the "UTF8" portion of the locale object:
normalized = boost::locale::normalize(normalized, boost::locale::norm_nfd, utf8);
normalized = boost::locale::fold_case(normalized, utf8);
} catch (const boost::locale::conv::conversion_error& e) {
return name;
} catch (const std::bad_cast& e) {
LogPrintf("%s() is invalid or dependencies are missing: %s\n", __func__, e.what());
throw;
} catch (const std::exception& e) { // TODO: change to use ... with current_exception() in c++11
LogPrintf("%s() had an unexpected exception: %s\n", __func__, e.what());
return name;
}
return normalized;
}
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bool CClaimTrieCacheNormalizationFork::normalizeAllNamesInTrieIfNecessary(bool forward)
{
if (nNextHeight != Params().GetConsensus().nNormalizedNameForkHeight)
return false;
// run the one-time upgrade of all names that need to change
// it modifies the (cache) trie as it goes, so we need to grab everything to be modified first
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base->_db.define("NORMALIZED", [this](const std::string& str) { return normalizeClaimName(str, true); });
auto query = base->_db << "SELECT NORMALIZED(name) as nn, name, claimID FROM claims HAVING nodeName != nn";
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for(auto&& row: query) {
std::string newName, oldName;
uint160 claimID;
row >> newName >> oldName >> claimID;
if (!forward) std::swap(newName, oldName);
base->_db << "UPDATE claims SET nodeName = ? WHERE claimID = ?" << newName << claimID;
base->_db << "DELETE FROM nodes WHERE name = ?" << oldName;
base->_db << "INSERT INTO nodes(name) VALUES(?) ON CONFLICT DO UPDATE hash = NULL" << newName;
}
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dirtyNodes = true;
return true;
}
bool CClaimTrieCacheNormalizationFork::incrementBlock(insertUndoType& insertUndo, claimQueueRowType& expireUndo, insertUndoType& insertSupportUndo, supportQueueRowType& expireSupportUndo)
{
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normalizeAllNamesInTrieIfNecessary(true);
return CClaimTrieCacheExpirationFork::incrementBlock(insertUndo, expireUndo, insertSupportUndo, expireSupportUndo);
}
bool CClaimTrieCacheNormalizationFork::decrementBlock(insertUndoType& insertUndo, claimQueueRowType& expireUndo, insertUndoType& insertSupportUndo, supportQueueRowType& expireSupportUndo)
{
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auto ret = CClaimTrieCacheExpirationFork::decrementBlock(insertUndo, expireUndo, insertSupportUndo, expireSupportUndo);
if (ret)
normalizeAllNamesInTrieIfNecessary(false);
return ret;
}
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bool CClaimTrieCacheNormalizationFork::getProofForName(const std::string& name, const uint160& finalClaim, CClaimTrieProof& proof)
{
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return CClaimTrieCacheExpirationFork::getProofForName(normalizeClaimName(name), finalClaim, proof);
}
bool CClaimTrieCacheNormalizationFork::getInfoForName(const std::string& name, CClaimValue& claim) const
{
return CClaimTrieCacheExpirationFork::getInfoForName(normalizeClaimName(name), claim);
}
CClaimSupportToName CClaimTrieCacheNormalizationFork::getClaimsForName(const std::string& name) const
{
return CClaimTrieCacheExpirationFork::getClaimsForName(normalizeClaimName(name));
}
int CClaimTrieCacheNormalizationFork::getDelayForName(const std::string& name, const uint160& claimId) const
{
return CClaimTrieCacheExpirationFork::getDelayForName(normalizeClaimName(name), claimId);
}
std::string CClaimTrieCacheNormalizationFork::adjustNameForValidHeight(const std::string& name, int validHeight) const
{
return normalizeClaimName(name, validHeight > Params().GetConsensus().nNormalizedNameForkHeight);
}
CClaimTrieCacheHashFork::CClaimTrieCacheHashFork(CClaimTrie* base) : CClaimTrieCacheNormalizationFork(base)
{
}
static const uint256 leafHash = uint256S("0000000000000000000000000000000000000000000000000000000000000002");
static const uint256 emptyHash = uint256S("0000000000000000000000000000000000000000000000000000000000000003");
uint256 CClaimTrieCacheHashFork::recursiveComputeMerkleHash(const std::string& name, bool checkOnly)
{
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if (nNextHeight < Params().GetConsensus().nAllClaimsInMerkleForkHeight)
return CClaimTrieCacheNormalizationFork::recursiveComputeMerkleHash(name, checkOnly);
auto childQuery = base->_db << "SELECT name, hash FROM nodes WHERE parent = ? ORDER BY name" << name;
std::vector<uint256> childHashes;
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for (auto&& row: childQuery) {
std::string key;
std::unique_ptr<uint256> hash;
row >> key >> hash;
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if (hash == nullptr) hash = std::make_unique<uint256>();
if (hash->IsNull()) {
*hash = recursiveComputeMerkleHash(key, checkOnly);
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}
childHashes.push_back(*hash);
}
auto claimQuery = base->_db << "SELECT c.txID, c.txN, c.validHeight, c.amount + "
"SUM(SELECT s.amount FROM supports s WHERE s.supportedClaimID = c.claimID "
"AND s.validHeight < ? AND s.expirationHeight >= ?) as effectiveAmount"
"FROM claims c WHERE c.nodeName = ? AND c.validHeight < ? AND c.expirationHeight >= ? "
"ORDER BY effectiveAmount DESC, c.blockHeight, c.txID, c.txN" << nNextHeight << nNextHeight << name << nNextHeight << nNextHeight;
std::vector<uint256> claimHashes;
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for (auto&& row: claimQuery) {
COutPoint p;
int validHeight;
row >> p.hash >> p.n >> validHeight;
auto claimHash = getValueHash(p, validHeight);
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claimHashes.push_back(claimHash);
}
auto left = childHashes.empty() ? leafHash : ComputeMerkleRoot(childHashes);
auto right = claimHashes.empty() ? emptyHash : ComputeMerkleRoot(claimHashes);
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auto computedHash = Hash(left.begin(), left.end(), right.begin(), right.end());
if (!checkOnly)
base->_db << "UPDATE nodes SET hash = ? WHERE name = ?" << computedHash << name;
return computedHash;
}
std::vector<uint256> ComputeMerklePath(const std::vector<uint256>& hashes, uint32_t idx)
{
uint32_t count = 0;
int matchlevel = -1;
bool matchh = false;
uint256 inner[32], h;
const uint32_t one = 1;
std::vector<uint256> res;
const auto iterateInner = [&](int& level) {
for (; !(count & (one << level)); level++) {
const auto& ihash = inner[level];
if (matchh) {
res.push_back(ihash);
} else if (matchlevel == level) {
res.push_back(h);
matchh = true;
}
h = Hash(ihash.begin(), ihash.end(), h.begin(), h.end());
}
};
while (count < hashes.size()) {
h = hashes[count];
matchh = count == idx;
count++;
int level = 0;
iterateInner(level);
// Store the resulting hash at inner position level.
inner[level] = h;
if (matchh)
matchlevel = level;
}
int level = 0;
while (!(count & (one << level)))
level++;
h = inner[level];
matchh = matchlevel == level;
while (count != (one << level)) {
// If we reach this point, h is an inner value that is not the top.
if (matchh)
res.push_back(h);
h = Hash(h.begin(), h.end(), h.begin(), h.end());
// Increment count to the value it would have if two entries at this
count += (one << level);
level++;
iterateInner(level);
}
return res;
}
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bool CClaimTrieCacheHashFork::getProofForName(const std::string& name, const uint160& finalClaim, CClaimTrieProof& proof)
{
if (nNextHeight < Params().GetConsensus().nAllClaimsInMerkleForkHeight)
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return CClaimTrieCacheNormalizationFork::getProofForName(name, finalClaim, proof);
auto fillPairs = [&proof](const std::vector<uint256>& hashes, uint32_t idx) {
auto partials = ComputeMerklePath(hashes, idx);
for (int i = partials.size() - 1; i >= 0; --i)
proof.pairs.emplace_back((idx >> i) & 1, partials[i]);
};
// cache the parent nodes
getMerkleHash();
proof = CClaimTrieProof();
auto nodeQuery = base->_db << "SELECT name FROM nodes WHERE "
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"name IN (WITH RECURSIVE prefix(p) AS (VALUES(?) UNION ALL "
"SELECT SUBSTR(p, 1, LENGTH(p)) FROM prefix WHERE p != '') SELECT p FROM prefix) "
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"ORDER BY LENGTH(name)" << name;
for (auto&& row: nodeQuery) {
std::string key;;
row >> key;
std::vector<uint256> childHashes;
uint32_t nextCurrentIdx = 0;
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auto childQuery = base->_db << "SELECT name, hash FROM nodes WHERE parent = ?" << key;
for (auto&& child : childQuery) {
std::string childKey;
uint256 childHash;
child >> childKey >> childHash;
if (name.find(childKey) == 0)
nextCurrentIdx = uint32_t(childHashes.size());
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childHashes.push_back(childHash);
}
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auto cns = getClaimsForName(key);
std::vector<uint256> claimHashes;
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uint32_t finalClaimIdx = 0;
COutPoint finalOutPoint;
for (uint32_t i = 0; i < cns.claimsNsupports.size(); ++i) {
auto& child = cns.claimsNsupports[i].claim;
claimHashes.push_back(getValueHash(child.outPoint, child.nValidAtHeight));
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if (child.claimId == finalClaim) {
finalClaimIdx = i;
finalOutPoint = child.outPoint;
}
}
// I am on a node; I need a hash(children, claims)
// if I am the last node on the list, it will be hash(children, x)
// else it will be hash(x, claims)
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if (key == name) {
proof.outPoint = finalOutPoint;
proof.nHeightOfLastTakeover = cns.nLastTakeoverHeight;
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proof.hasValue = true;
auto hash = childHashes.empty() ? leafHash : ComputeMerkleRoot(childHashes);
proof.pairs.emplace_back(true, hash);
if (!claimHashes.empty())
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fillPairs(claimHashes, finalClaimIdx);
} else {
auto hash = claimHashes.empty() ? emptyHash : ComputeMerkleRoot(claimHashes);
proof.pairs.emplace_back(false, hash);
if (!childHashes.empty())
fillPairs(childHashes, nextCurrentIdx);
}
}
std::reverse(proof.pairs.begin(), proof.pairs.end());
return true;
}
void CClaimTrieCacheHashFork::initializeIncrement()
{
CClaimTrieCacheNormalizationFork::initializeIncrement();
// we could do this in the constructor, but that would not allow for multiple increments in a row (as done in unit tests)
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if (nNextHeight == Params().GetConsensus().nAllClaimsInMerkleForkHeight - 1)
base->_db << "UPDATE nodes SET hash = NULL";
}
bool CClaimTrieCacheHashFork::finalizeDecrement()
{
auto ret = CClaimTrieCacheNormalizationFork::finalizeDecrement();
if (ret && nNextHeight == Params().GetConsensus().nAllClaimsInMerkleForkHeight - 1)
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base->_db << "UPDATE nodes SET hash = NULL";
return ret;
}
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bool CClaimTrieCacheHashFork::allowSupportMetadata() const
{
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return nNextHeight >= Params().GetConsensus().nAllClaimsInMerkleForkHeight;
}