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ee313525ad
## Motivation As highlighted in https://github.com/dashpay/dash-issues/issues/52, decoupling of `CFlatDB`-interacting components from managers of objects like `CGovernanceManager` and `CSporkManager` is a key task for achieving deglobalization of Dash-specific components. The design of `CFlatDB` as a flat database agent relies on hooking into the object's state its meant to load and store, using its (de)serialization routines and other miscellaneous functions (notably, without defining an interface) to achieve those ends. This approach was taken predominantly for components that want a single-file cache. Because of the method it uses to hook into the object (templates and the use of temporary objects), it explicitly prevented passing arguments into the object constructor, an explicit requirement for storing references to other components during construction. This, in turn, created an explicit dependency on those same components being available in the global context, which would block the backport of bitcoin#21866, a requirement for future backports meant to achieve parity in `assumeutxo` support. The design of these objects made no separation between persistent (i.e. cached) and ephemeral (i.e. generated/fetched during initialization or state transitions) data and the design of `CFlatDB` attempts to "clean" the database by breaching this separation and attempting to access this ephemeral data. This might be acceptable if it is contained within the manager itself, like `CSporkManager`'s `CheckAndRemove()` but is utterly unacceptable when it relies on other managers (that, as a reminder, are only accessible through the global state because of restrictions caused by existing design), like `CGovernanceManager`'s `UpdateCachesAndClean()`. This pull request aims to separate the `CFlatDB`-interacting portions of these managers into a struct, with `CFlatDB` interacting only with this struct, while the manager inherits the struct and manages load/store/update of the database through the `CFlatDB` instance initialized within its scope, though the instance only has knowledge of what is exposed through the limited parent struct. ## Additional information * As regards to existing behaviour, `CFlatDB` is written entirely as a header as it relies on templates to specialize itself for the object it hooks into. Attempting to split the logic and function definitions into separate files will require you to explicitly define template specializations, which is tedious. * `m_db` is defined as a pointer as you cannot instantiate a forward-declared template (see [this Stack Overflow answer](https://stackoverflow.com/a/12797282) for more information), which is done when defined as a member in the object scope. * The conditional cache flush predicating on RPC _not_ being in the warm-up state has been replaced with unconditional flushing of the database on object destruction (@UdjinM6, is this acceptable?) ## TODOs This is a list of things that aren't within the scope of this pull request but should be addressed in subsequent pull requests * [ ] Definition of an interface that `CFlatDB` stores are expected to implement * [ ] Lock annotations for all potential uses of members protected by the `cs` mutex in each manager object and store * [ ] Additional comments documenting what each function and member does * [ ] Deglobalization of affected managers --------- Co-authored-by: Kittywhiskers Van Gogh <63189531+kittywhiskers@users.noreply.github.com>
462 lines
14 KiB
C++
462 lines
14 KiB
C++
// Copyright (c) 2014-2022 The Dash 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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#include <spork.h>
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#include <chainparams.h>
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#include <consensus/params.h>
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#include <flat-database.h>
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#include <key_io.h>
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#include <logging.h>
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#include <messagesigner.h>
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#include <net.h>
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#include <net_processing.h>
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#include <netmessagemaker.h>
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#include <primitives/block.h>
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#include <protocol.h>
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#include <script/standard.h>
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#include <timedata.h>
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#include <util/message.h> // for MESSAGE_MAGIC
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#include <util/ranges.h>
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#include <util/string.h>
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#include <validation.h>
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#include <string>
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std::unique_ptr<CSporkManager> sporkManager;
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const std::string SporkStore::SERIALIZATION_VERSION_STRING = "CSporkManager-Version-2";
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std::optional<SporkValue> CSporkManager::SporkValueIfActive(SporkId nSporkID) const
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{
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AssertLockHeld(cs);
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if (!mapSporksActive.count(nSporkID)) return std::nullopt;
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{
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LOCK(cs_mapSporksCachedValues);
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if (auto it = mapSporksCachedValues.find(nSporkID); it != mapSporksCachedValues.end()) {
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return {it->second};
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}
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}
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// calc how many values we have and how many signers vote for every value
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std::unordered_map<SporkValue, int> mapValueCounts;
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for (const auto& [_, spork] : mapSporksActive.at(nSporkID)) {
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mapValueCounts[spork.nValue]++;
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if (mapValueCounts.at(spork.nValue) >= nMinSporkKeys) {
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// nMinSporkKeys is always more than the half of the max spork keys number,
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// so there is only one such value and we can stop here
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{
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LOCK(cs_mapSporksCachedValues);
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mapSporksCachedValues[nSporkID] = spork.nValue;
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}
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return {spork.nValue};
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}
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}
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return std::nullopt;
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}
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void SporkStore::Clear()
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{
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LOCK(cs);
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mapSporksActive.clear();
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mapSporksByHash.clear();
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// sporkPubKeyID and sporkPrivKey should be set in init.cpp,
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// we should not alter them here.
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}
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CSporkManager::CSporkManager() :
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m_db{std::make_unique<db_type>("sporks.dat", "magicSporkCache")}
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{
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}
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CSporkManager::~CSporkManager()
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{
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if (!is_valid) return;
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m_db->Store(*this);
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}
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bool CSporkManager::LoadCache()
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{
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assert(m_db != nullptr);
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is_valid = m_db->Load(*this);
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if (is_valid) {
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CheckAndRemove();
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}
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return is_valid;
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}
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void CSporkManager::CheckAndRemove()
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{
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LOCK(cs);
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if (setSporkPubKeyIDs.empty()) return;
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for (auto itActive = mapSporksActive.begin(); itActive != mapSporksActive.end();) {
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auto itSignerPair = itActive->second.begin();
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while (itSignerPair != itActive->second.end()) {
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bool fHasValidSig = setSporkPubKeyIDs.find(itSignerPair->first) != setSporkPubKeyIDs.end() &&
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itSignerPair->second.CheckSignature(itSignerPair->first);
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if (!fHasValidSig) {
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mapSporksByHash.erase(itSignerPair->second.GetHash());
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itActive->second.erase(itSignerPair++);
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continue;
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}
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++itSignerPair;
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}
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if (itActive->second.empty()) {
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mapSporksActive.erase(itActive++);
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continue;
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}
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++itActive;
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}
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for (auto itByHash = mapSporksByHash.begin(); itByHash != mapSporksByHash.end();) {
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bool found = false;
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for (const auto& signer : setSporkPubKeyIDs) {
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if (itByHash->second.CheckSignature(signer)) {
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found = true;
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break;
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}
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}
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if (!found) {
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mapSporksByHash.erase(itByHash++);
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continue;
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}
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++itByHash;
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}
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}
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void CSporkManager::ProcessMessage(CNode& peer, PeerManager& peerman, CConnman& connman, std::string_view msg_type, CDataStream& vRecv)
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{
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if (msg_type == NetMsgType::SPORK) {
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ProcessSpork(peer, peerman, connman, vRecv);
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} else if (msg_type == NetMsgType::GETSPORKS) {
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ProcessGetSporks(peer, connman);
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}
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}
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void CSporkManager::ProcessSpork(const CNode& peer, PeerManager& peerman, CConnman& connman, CDataStream& vRecv)
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{
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CSporkMessage spork;
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vRecv >> spork;
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uint256 hash = spork.GetHash();
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std::string strLogMsg;
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{
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LOCK(cs_main);
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EraseObjectRequest(peer.GetId(), CInv(MSG_SPORK, hash));
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if (!::ChainActive().Tip()) return;
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strLogMsg = strprintf("SPORK -- hash: %s id: %d value: %10d bestHeight: %d peer=%d", hash.ToString(), spork.nSporkID, spork.nValue, ::ChainActive().Height(), peer.GetId());
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}
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if (spork.nTimeSigned > GetAdjustedTime() + 2 * 60 * 60) {
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LogPrint(BCLog::SPORK, "CSporkManager::ProcessSpork -- ERROR: too far into the future\n");
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peerman.Misbehaving(peer.GetId(), 100);
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return;
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}
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auto opt_keyIDSigner = spork.GetSignerKeyID();
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if (opt_keyIDSigner == std::nullopt || WITH_LOCK(cs, return !setSporkPubKeyIDs.count(*opt_keyIDSigner))) {
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LogPrint(BCLog::SPORK, "CSporkManager::ProcessSpork -- ERROR: invalid signature\n");
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peerman.Misbehaving(peer.GetId(), 100);
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return;
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}
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auto keyIDSigner = *opt_keyIDSigner;
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{
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LOCK(cs); // make sure to not lock this together with cs_main
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if (mapSporksActive.count(spork.nSporkID)) {
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if (mapSporksActive[spork.nSporkID].count(keyIDSigner)) {
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if (mapSporksActive[spork.nSporkID][keyIDSigner].nTimeSigned >= spork.nTimeSigned) {
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LogPrint(BCLog::SPORK, "%s seen\n", strLogMsg);
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return;
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} else {
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LogPrintf("%s updated\n", strLogMsg);
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}
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} else {
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LogPrintf("%s new signer\n", strLogMsg);
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}
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} else {
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LogPrintf("%s new\n", strLogMsg);
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}
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}
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{
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LOCK(cs); // make sure to not lock this together with cs_main
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mapSporksByHash[hash] = spork;
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mapSporksActive[spork.nSporkID][keyIDSigner] = spork;
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// Clear cached values on new spork being processed
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WITH_LOCK(cs_mapSporksCachedActive, mapSporksCachedActive.erase(spork.nSporkID));
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WITH_LOCK(cs_mapSporksCachedValues, mapSporksCachedValues.erase(spork.nSporkID));
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}
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spork.Relay(connman);
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}
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void CSporkManager::ProcessGetSporks(CNode& peer, CConnman& connman)
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{
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LOCK(cs); // make sure to not lock this together with cs_main
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for (const auto& pair : mapSporksActive) {
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for (const auto& signerSporkPair : pair.second) {
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connman.PushMessage(&peer, CNetMsgMaker(peer.GetSendVersion()).Make(NetMsgType::SPORK, signerSporkPair.second));
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}
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}
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}
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bool CSporkManager::UpdateSpork(SporkId nSporkID, SporkValue nValue, CConnman& connman)
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{
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CSporkMessage spork(nSporkID, nValue, GetAdjustedTime());
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{
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LOCK(cs);
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if (!spork.Sign(sporkPrivKey)) {
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LogPrintf("CSporkManager::%s -- ERROR: signing failed for spork %d\n", __func__, nSporkID);
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return false;
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}
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auto opt_keyIDSigner = spork.GetSignerKeyID();
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if (opt_keyIDSigner == std::nullopt || !setSporkPubKeyIDs.count(*opt_keyIDSigner)) {
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LogPrintf("CSporkManager::UpdateSpork: failed to find keyid for private key\n");
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return false;
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}
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LogPrintf("CSporkManager::%s -- signed %d %s\n", __func__, nSporkID, spork.GetHash().ToString());
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mapSporksByHash[spork.GetHash()] = spork;
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mapSporksActive[nSporkID][*opt_keyIDSigner] = spork;
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// Clear cached values on new spork being processed
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WITH_LOCK(cs_mapSporksCachedActive, mapSporksCachedActive.erase(spork.nSporkID));
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WITH_LOCK(cs_mapSporksCachedValues, mapSporksCachedValues.erase(spork.nSporkID));
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}
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spork.Relay(connman);
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return true;
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}
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bool CSporkManager::IsSporkActive(SporkId nSporkID) const
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{
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// If nSporkID is cached, and the cached value is true, then return early true
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{
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LOCK(cs_mapSporksCachedActive);
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if (auto it = mapSporksCachedActive.find(nSporkID); it != mapSporksCachedActive.end() && it->second) {
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return true;
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}
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}
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SporkValue nSporkValue = GetSporkValue(nSporkID);
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// Get time is somewhat costly it looks like
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bool ret = nSporkValue < GetAdjustedTime();
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// Only cache true values
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if (ret) {
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LOCK(cs_mapSporksCachedActive);
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mapSporksCachedActive[nSporkID] = ret;
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}
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return ret;
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}
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SporkValue CSporkManager::GetSporkValue(SporkId nSporkID) const
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{
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LOCK(cs);
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if (auto opt_sporkValue = SporkValueIfActive(nSporkID)) {
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return *opt_sporkValue;
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}
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if (auto optSpork = ranges::find_if_opt(sporkDefs,
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[&nSporkID](const auto& sporkDef){return sporkDef.sporkId == nSporkID;})) {
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return optSpork->defaultValue;
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} else {
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LogPrint(BCLog::SPORK, "CSporkManager::GetSporkValue -- Unknown Spork ID %d\n", nSporkID);
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return -1;
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}
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}
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SporkId CSporkManager::GetSporkIDByName(std::string_view strName)
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{
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if (auto optSpork = ranges::find_if_opt(sporkDefs,
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[&strName](const auto& sporkDef){return sporkDef.name == strName;})) {
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return optSpork->sporkId;
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}
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LogPrint(BCLog::SPORK, "CSporkManager::GetSporkIDByName -- Unknown Spork name '%s'\n", strName);
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return SPORK_INVALID;
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}
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std::optional<CSporkMessage> CSporkManager::GetSporkByHash(const uint256& hash) const
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{
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LOCK(cs);
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if (const auto it = mapSporksByHash.find(hash); it != mapSporksByHash.end())
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return {it->second};
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return std::nullopt;
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}
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bool CSporkManager::SetSporkAddress(const std::string& strAddress)
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{
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LOCK(cs);
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CTxDestination dest = DecodeDestination(strAddress);
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const PKHash* pkhash = std::get_if<PKHash>(&dest);
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if (!pkhash) {
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LogPrintf("CSporkManager::SetSporkAddress -- Failed to parse spork address\n");
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return false;
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}
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setSporkPubKeyIDs.insert(ToKeyID(*pkhash));
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return true;
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}
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bool CSporkManager::SetMinSporkKeys(int minSporkKeys)
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{
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LOCK(cs);
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if (int maxKeysNumber = setSporkPubKeyIDs.size(); (minSporkKeys <= maxKeysNumber / 2) || (minSporkKeys > maxKeysNumber)) {
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LogPrintf("CSporkManager::SetMinSporkKeys -- Invalid min spork signers number: %d\n", minSporkKeys);
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return false;
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}
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nMinSporkKeys = minSporkKeys;
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return true;
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}
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bool CSporkManager::SetPrivKey(const std::string& strPrivKey)
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{
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CKey key;
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CPubKey pubKey;
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if (!CMessageSigner::GetKeysFromSecret(strPrivKey, key, pubKey)) {
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LogPrintf("CSporkManager::SetPrivKey -- Failed to parse private key\n");
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return false;
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}
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LOCK(cs);
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if (setSporkPubKeyIDs.find(pubKey.GetID()) == setSporkPubKeyIDs.end()) {
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LogPrintf("CSporkManager::SetPrivKey -- New private key does not belong to spork addresses\n");
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return false;
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}
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if (!CSporkMessage().Sign(key)) {
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LogPrintf("CSporkManager::SetPrivKey -- Test signing failed\n");
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return false;
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}
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// Test signing successful, proceed
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LogPrintf("CSporkManager::SetPrivKey -- Successfully initialized as spork signer\n");
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sporkPrivKey = key;
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return true;
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}
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std::string SporkStore::ToString() const
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{
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LOCK(cs);
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return strprintf("Sporks: %llu", mapSporksActive.size());
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}
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uint256 CSporkMessage::GetHash() const
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{
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return SerializeHash(*this);
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}
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uint256 CSporkMessage::GetSignatureHash() const
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{
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CHashWriter s(SER_GETHASH, 0);
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s << nSporkID;
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s << nValue;
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s << nTimeSigned;
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return s.GetHash();
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}
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bool CSporkMessage::Sign(const CKey& key)
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{
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if (!key.IsValid()) {
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LogPrintf("CSporkMessage::Sign -- signing key is not valid\n");
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return false;
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}
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CKeyID pubKeyId = key.GetPubKey().GetID();
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// Harden Spork6 so that it is active on testnet and no other networks
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if (std::string strError; Params().NetworkIDString() == CBaseChainParams::TESTNET) {
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uint256 hash = GetSignatureHash();
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if (!CHashSigner::SignHash(hash, key, vchSig)) {
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LogPrintf("CSporkMessage::Sign -- SignHash() failed\n");
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return false;
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}
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if (!CHashSigner::VerifyHash(hash, pubKeyId, vchSig, strError)) {
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LogPrintf("CSporkMessage::Sign -- VerifyHash() failed, error: %s\n", strError);
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return false;
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}
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} else {
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std::string strMessage = ToString(nSporkID) + ToString(nValue) + ToString(nTimeSigned);
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if (!CMessageSigner::SignMessage(strMessage, vchSig, key)) {
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LogPrintf("CSporkMessage::Sign -- SignMessage() failed\n");
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return false;
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}
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if (!CMessageSigner::VerifyMessage(pubKeyId, vchSig, strMessage, strError)) {
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LogPrintf("CSporkMessage::Sign -- VerifyMessage() failed, error: %s\n", strError);
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return false;
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}
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}
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return true;
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}
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bool CSporkMessage::CheckSignature(const CKeyID& pubKeyId) const
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{
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// Harden Spork6 so that it is active on testnet and no other networks
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if (std::string strError; Params().NetworkIDString() == CBaseChainParams::TESTNET) {
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uint256 hash = GetSignatureHash();
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if (!CHashSigner::VerifyHash(hash, pubKeyId, vchSig, strError)) {
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LogPrint(BCLog::SPORK, "CSporkMessage::CheckSignature -- VerifyHash() failed, error: %s\n", strError);
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return false;
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}
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} else {
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std::string strMessage = ToString(nSporkID) + ToString(nValue) + ToString(nTimeSigned);
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if (!CMessageSigner::VerifyMessage(pubKeyId, vchSig, strMessage, strError)) {
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LogPrint(BCLog::SPORK, "CSporkMessage::CheckSignature -- VerifyMessage() failed, error: %s\n", strError);
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return false;
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}
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}
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return true;
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}
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std::optional<CKeyID> CSporkMessage::GetSignerKeyID() const
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{
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CPubKey pubkeyFromSig;
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// Harden Spork6 so that it is active on testnet and no other networks
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if (Params().NetworkIDString() == CBaseChainParams::TESTNET) {
|
|
if (!pubkeyFromSig.RecoverCompact(GetSignatureHash(), vchSig)) {
|
|
return std::nullopt;
|
|
}
|
|
} else {
|
|
std::string strMessage = ToString(nSporkID) + ToString(nValue) + ToString(nTimeSigned);
|
|
CHashWriter ss(SER_GETHASH, 0);
|
|
ss << MESSAGE_MAGIC;
|
|
ss << strMessage;
|
|
if (!pubkeyFromSig.RecoverCompact(ss.GetHash(), vchSig)) {
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
|
|
return {pubkeyFromSig.GetID()};
|
|
}
|
|
|
|
void CSporkMessage::Relay(CConnman& connman) const
|
|
{
|
|
CInv inv(MSG_SPORK, GetHash());
|
|
connman.RelayInv(inv);
|
|
}
|