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bitcoin/src/versionbits.cpp
Anthony Towns f054f6bcd2 versionbits: simplify state transitions 
This removes the DEFINED->FAILED transition and changes the
STARTED->FAILED transition to only occur if signalling didn't pass the
threshold. This ensures that it is always possible for activation to
occur, no matter what settings are chosen, or the speed at which blocks
are found.
2021-04-12 11:14:49 +10:00

218 lines
8.9 KiB
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// Copyright (c) 2016-2019 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#include <versionbits.h>
#include <consensus/params.h>
ThresholdState AbstractThresholdConditionChecker::GetStateFor(const CBlockIndex* pindexPrev, const Consensus::Params& params, ThresholdConditionCache& cache) const
{
int nPeriod = Period(params);
int nThreshold = Threshold(params);
int min_activation_height = MinActivationHeight(params);
int64_t nTimeStart = BeginTime(params);
int64_t nTimeTimeout = EndTime(params);
// Check if this deployment is always active.
if (nTimeStart == Consensus::BIP9Deployment::ALWAYS_ACTIVE) {
return ThresholdState::ACTIVE;
}
// Check if this deployment is never active.
if (nTimeStart == Consensus::BIP9Deployment::NEVER_ACTIVE) {
return ThresholdState::FAILED;
}
// A block's state is always the same as that of the first of its period, so it is computed based on a pindexPrev whose height equals a multiple of nPeriod - 1.
if (pindexPrev != nullptr) {
pindexPrev = pindexPrev->GetAncestor(pindexPrev->nHeight - ((pindexPrev->nHeight + 1) % nPeriod));
}
// Walk backwards in steps of nPeriod to find a pindexPrev whose information is known
std::vector<const CBlockIndex*> vToCompute;
while (cache.count(pindexPrev) == 0) {
if (pindexPrev == nullptr) {
// The genesis block is by definition defined.
cache[pindexPrev] = ThresholdState::DEFINED;
break;
}
if (pindexPrev->GetMedianTimePast() < nTimeStart) {
// Optimization: don't recompute down further, as we know every earlier block will be before the start time
cache[pindexPrev] = ThresholdState::DEFINED;
break;
}
vToCompute.push_back(pindexPrev);
pindexPrev = pindexPrev->GetAncestor(pindexPrev->nHeight - nPeriod);
}
// At this point, cache[pindexPrev] is known
assert(cache.count(pindexPrev));
ThresholdState state = cache[pindexPrev];
// Now walk forward and compute the state of descendants of pindexPrev
while (!vToCompute.empty()) {
ThresholdState stateNext = state;
pindexPrev = vToCompute.back();
vToCompute.pop_back();
switch (state) {
case ThresholdState::DEFINED: {
if (pindexPrev->GetMedianTimePast() >= nTimeStart) {
stateNext = ThresholdState::STARTED;
}
break;
}
case ThresholdState::STARTED: {
// We need to count
const CBlockIndex* pindexCount = pindexPrev;
int count = 0;
for (int i = 0; i < nPeriod; i++) {
if (Condition(pindexCount, params)) {
count++;
}
pindexCount = pindexCount->pprev;
}
if (count >= nThreshold) {
stateNext = ThresholdState::LOCKED_IN;
} else if (pindexPrev->GetMedianTimePast() >= nTimeTimeout) {
stateNext = ThresholdState::FAILED;
}
break;
}
case ThresholdState::LOCKED_IN: {
// Progresses into ACTIVE provided activation height will have been reached.
if (pindexPrev->nHeight + 1 >= min_activation_height) {
stateNext = ThresholdState::ACTIVE;
}
break;
}
case ThresholdState::FAILED:
case ThresholdState::ACTIVE: {
// Nothing happens, these are terminal states.
break;
}
}
cache[pindexPrev] = state = stateNext;
}
return state;
}
BIP9Stats AbstractThresholdConditionChecker::GetStateStatisticsFor(const CBlockIndex* pindex, const Consensus::Params& params) const
{
BIP9Stats stats = {};
stats.period = Period(params);
stats.threshold = Threshold(params);
if (pindex == nullptr)
return stats;
// Find beginning of period
const CBlockIndex* pindexEndOfPrevPeriod = pindex->GetAncestor(pindex->nHeight - ((pindex->nHeight + 1) % stats.period));
stats.elapsed = pindex->nHeight - pindexEndOfPrevPeriod->nHeight;
// Count from current block to beginning of period
int count = 0;
const CBlockIndex* currentIndex = pindex;
while (pindexEndOfPrevPeriod->nHeight != currentIndex->nHeight){
if (Condition(currentIndex, params))
count++;
currentIndex = currentIndex->pprev;
}
stats.count = count;
stats.possible = (stats.period - stats.threshold ) >= (stats.elapsed - count);
return stats;
}
int AbstractThresholdConditionChecker::GetStateSinceHeightFor(const CBlockIndex* pindexPrev, const Consensus::Params& params, ThresholdConditionCache& cache) const
{
int64_t start_time = BeginTime(params);
if (start_time == Consensus::BIP9Deployment::ALWAYS_ACTIVE || start_time == Consensus::BIP9Deployment::NEVER_ACTIVE) {
return 0;
}
const ThresholdState initialState = GetStateFor(pindexPrev, params, cache);
// BIP 9 about state DEFINED: "The genesis block is by definition in this state for each deployment."
if (initialState == ThresholdState::DEFINED) {
return 0;
}
const int nPeriod = Period(params);
// A block's state is always the same as that of the first of its period, so it is computed based on a pindexPrev whose height equals a multiple of nPeriod - 1.
// To ease understanding of the following height calculation, it helps to remember that
// right now pindexPrev points to the block prior to the block that we are computing for, thus:
// if we are computing for the last block of a period, then pindexPrev points to the second to last block of the period, and
// if we are computing for the first block of a period, then pindexPrev points to the last block of the previous period.
// The parent of the genesis block is represented by nullptr.
pindexPrev = pindexPrev->GetAncestor(pindexPrev->nHeight - ((pindexPrev->nHeight + 1) % nPeriod));
const CBlockIndex* previousPeriodParent = pindexPrev->GetAncestor(pindexPrev->nHeight - nPeriod);
while (previousPeriodParent != nullptr && GetStateFor(previousPeriodParent, params, cache) == initialState) {
pindexPrev = previousPeriodParent;
previousPeriodParent = pindexPrev->GetAncestor(pindexPrev->nHeight - nPeriod);
}
// Adjust the result because right now we point to the parent block.
return pindexPrev->nHeight + 1;
}
namespace
{
/**
* Class to implement versionbits logic.
*/
class VersionBitsConditionChecker : public AbstractThresholdConditionChecker {
private:
const Consensus::DeploymentPos id;
protected:
int64_t BeginTime(const Consensus::Params& params) const override { return params.vDeployments[id].nStartTime; }
int64_t EndTime(const Consensus::Params& params) const override { return params.vDeployments[id].nTimeout; }
int MinActivationHeight(const Consensus::Params& params) const override { return params.vDeployments[id].min_activation_height; }
int Period(const Consensus::Params& params) const override { return params.nMinerConfirmationWindow; }
int Threshold(const Consensus::Params& params) const override { return params.nRuleChangeActivationThreshold; }
bool Condition(const CBlockIndex* pindex, const Consensus::Params& params) const override
{
return (((pindex->nVersion & VERSIONBITS_TOP_MASK) == VERSIONBITS_TOP_BITS) && (pindex->nVersion & Mask(params)) != 0);
}
public:
explicit VersionBitsConditionChecker(Consensus::DeploymentPos id_) : id(id_) {}
uint32_t Mask(const Consensus::Params& params) const { return ((uint32_t)1) << params.vDeployments[id].bit; }
};
} // namespace
ThresholdState VersionBitsState(const CBlockIndex* pindexPrev, const Consensus::Params& params, Consensus::DeploymentPos pos, VersionBitsCache& cache)
{
return VersionBitsConditionChecker(pos).GetStateFor(pindexPrev, params, cache.caches[pos]);
}
BIP9Stats VersionBitsStatistics(const CBlockIndex* pindexPrev, const Consensus::Params& params, Consensus::DeploymentPos pos)
{
return VersionBitsConditionChecker(pos).GetStateStatisticsFor(pindexPrev, params);
}
int VersionBitsStateSinceHeight(const CBlockIndex* pindexPrev, const Consensus::Params& params, Consensus::DeploymentPos pos, VersionBitsCache& cache)
{
return VersionBitsConditionChecker(pos).GetStateSinceHeightFor(pindexPrev, params, cache.caches[pos]);
}
uint32_t VersionBitsMask(const Consensus::Params& params, Consensus::DeploymentPos pos)
{
return VersionBitsConditionChecker(pos).Mask(params);
}
void VersionBitsCache::Clear()
{
for (unsigned int d = 0; d < Consensus::MAX_VERSION_BITS_DEPLOYMENTS; d++) {
caches[d].clear();
}
}
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