private static void verifyDifficulty(
StoredBlock prevBlock, Block added, BigInteger calcDiff, NetworkParameters params) {
if (calcDiff.compareTo(params.getMaxTarget()) > 0) {
log.info("Difficulty hit proof of work limit: {}", calcDiff.toString(16));
calcDiff = params.getMaxTarget();
}
int accuracyBytes = (int) (added.getDifficultyTarget() >>> 24) - 3;
final BigInteger receivedDifficulty = added.getDifficultyTargetAsInteger();
// The calculated difficulty is to a higher precision than received, so reduce here.
final BigInteger mask = BigInteger.valueOf(0xFFFFFFL).shiftLeft(accuracyBytes * 8);
calcDiff = calcDiff.and(mask);
if (CoinDefinition.TEST_NETWORK_STANDARD.equals(params.getStandardNetworkId())) {
if (calcDiff.compareTo(receivedDifficulty) != 0) {
throw new VerificationException(
"Network provided difficulty bits do not match what was calculated: "
+ receivedDifficulty.toString(16)
+ " vs "
+ calcDiff.toString(16));
}
} else {
final int height = prevBlock.getHeight() + 1;
if (height <= 68589) {
long nBitsNext = added.getDifficultyTarget();
long calcDiffBits = (accuracyBytes + 3) << 24;
calcDiffBits |= calcDiff.shiftRight(accuracyBytes * 8).longValue();
final double n1 = CommonUtils.convertBitsToDouble(calcDiffBits);
final double n2 = CommonUtils.convertBitsToDouble(nBitsNext);
if (Math.abs(n1 - n2) > n1 * 0.2) {
throw new VerificationException(
"Network provided difficulty bits do not match what was calculated: "
+ receivedDifficulty.toString(16)
+ " vs "
+ calcDiff.toString(16));
}
} else {
if (calcDiff.compareTo(receivedDifficulty) != 0) {
throw new VerificationException(
"Network provided difficulty bits do not match what was calculated: "
+ receivedDifficulty.toString(16)
+ " vs "
+ calcDiff.toString(16));
}
}
}
}
private static void darkGravityWaveCheck(
StoredBlock prevBlock, Block added, BlockStore store, NetworkParameters params) {
StoredBlock blockReading = prevBlock;
long blockTimeAverage = 0;
long blockTimeAveragePrev = 0;
long blockTimeCount = 0;
long blockTimeSum2 = 0;
long blockTimeCount2 = 0;
long lastBlockTime = 0;
long pastBlocksMin = 14;
long pastBlocksMax = 140;
long countBlocks = 0;
BigInteger pastDifficultyAverage = BigInteger.valueOf(0);
BigInteger pastDifficultyAveragePrev = BigInteger.valueOf(0);
if (prevBlock == null || prevBlock.getHeight() == 0 || prevBlock.getHeight() < pastBlocksMin) {
verifyDifficulty(prevBlock, added, params.getMaxTarget(), params);
return;
}
for (int i = 1; blockReading.getHeight() > 0; i++) {
if (i > pastBlocksMax) {
break;
}
countBlocks++;
if (countBlocks <= pastBlocksMin) {
if (countBlocks == 1) {
pastDifficultyAverage = blockReading.getHeader().getDifficultyTargetAsInteger();
} else {
pastDifficultyAverage =
blockReading
.getHeader()
.getDifficultyTargetAsInteger()
.subtract(pastDifficultyAveragePrev)
.divide(BigInteger.valueOf(countBlocks))
.add(pastDifficultyAveragePrev);
}
pastDifficultyAveragePrev = pastDifficultyAverage;
}
if (lastBlockTime > 0) {
long diff = lastBlockTime - blockReading.getHeader().getTimeSeconds();
if (blockTimeCount <= pastBlocksMin) {
blockTimeCount++;
if (blockTimeCount == 1) {
blockTimeAverage = diff;
} else {
blockTimeAverage =
(diff - blockTimeAveragePrev) / blockTimeCount + blockTimeAveragePrev;
}
blockTimeAveragePrev = blockTimeAverage;
}
blockTimeCount2++;
blockTimeSum2 += diff;
}
lastBlockTime = blockReading.getHeader().getTimeSeconds();
try {
blockReading = store.get(blockReading.getHeader().getPrevBlockHash());
if (blockReading == null) {
return;
}
} catch (BlockStoreException ex) {
log.warn("Dark gravity wave 3 descended to start of the chain");
return;
}
}
BigInteger bnNew = pastDifficultyAverage;
if (blockTimeCount != 0 && blockTimeCount2 != 0) {
double smartAverage =
((double) blockTimeAverage) * 0.7
+ ((double) blockTimeSum2 / (double) blockTimeCount2) * 0.3;
if (smartAverage < 1) smartAverage = 1;
final int targetSpacing =
params.getTargetSpacing(prevBlock.getHeader(), prevBlock.getHeight());
final double shift = targetSpacing / smartAverage;
final double dCountBlocks = (double) countBlocks;
double actualTimespan = dCountBlocks * ((double) targetSpacing) / shift;
double targetTimespan = dCountBlocks * targetSpacing;
if (actualTimespan < targetTimespan / 3) actualTimespan = targetTimespan / 3;
if (actualTimespan > targetTimespan * 3) actualTimespan = targetTimespan * 3;
// Retarget
bnNew = bnNew.multiply(BigInteger.valueOf((long) actualTimespan));
bnNew = bnNew.divide(BigInteger.valueOf((long) targetTimespan));
}
verifyDifficulty(prevBlock, added, bnNew, params);
}
private static void darkGravityWave3Check(
StoredBlock prevBlock, Block added, BlockStore store, NetworkParameters params) {
StoredBlock blockReading = prevBlock;
long actualTimespan = 0;
long lastBlockTime = 0;
long pastBlocksMin = 24;
long pastBlocksMax = 24;
long countBlocks = 0;
BigInteger pastDifficultyAverage = BigInteger.ZERO;
BigInteger pastDifficultyAveragePrev = BigInteger.ZERO;
if (prevBlock == null || prevBlock.getHeight() == 0 || prevBlock.getHeight() < pastBlocksMin) {
verifyDifficulty(prevBlock, added, params.getMaxTarget(), params);
return;
}
for (int i = 1; blockReading.getHeight() > 0; i++) {
if (i > pastBlocksMax) {
break;
}
countBlocks++;
if (countBlocks <= pastBlocksMin) {
if (countBlocks == 1) {
pastDifficultyAverage = blockReading.getHeader().getDifficultyTargetAsInteger();
} else {
pastDifficultyAverage =
pastDifficultyAveragePrev
.multiply(BigInteger.valueOf(countBlocks))
.add(blockReading.getHeader().getDifficultyTargetAsInteger())
.divide(BigInteger.valueOf(countBlocks + 1));
}
pastDifficultyAveragePrev = pastDifficultyAverage;
}
if (lastBlockTime > 0) {
actualTimespan += (lastBlockTime - blockReading.getHeader().getTimeSeconds());
}
lastBlockTime = blockReading.getHeader().getTimeSeconds();
try {
blockReading = store.get(blockReading.getHeader().getPrevBlockHash());
if (blockReading == null) {
return;
}
} catch (BlockStoreException ex) {
log.warn("Dark gravity wave 3 descended to start of the chain");
return;
}
}
BigInteger bnNew = pastDifficultyAverage;
long targetTimespan =
countBlocks * params.getTargetSpacing(prevBlock.getHeader(), prevBlock.getHeight());
if (actualTimespan < targetTimespan / 3) {
actualTimespan = targetTimespan / 3;
}
if (actualTimespan > targetTimespan * 3) {
actualTimespan = targetTimespan * 3;
}
// Retarget
bnNew = bnNew.multiply(BigInteger.valueOf(actualTimespan));
bnNew = bnNew.divide(BigInteger.valueOf(targetTimespan));
verifyDifficulty(prevBlock, added, bnNew, params);
}
private static void kimotoGravityWellCheck(
StoredBlock prevBlock, Block added, BlockStore store, NetworkParameters params)
throws BlockStoreException {
final long blocksTargetSpacing = (long) (2.5 * 60); // 2.5 minutes
int timeDaySeconds = 60 * 60 * 24;
long pastSecondsMin = timeDaySeconds / 40;
long pastSecondsMax = timeDaySeconds * 7;
long pastBlocksMin = pastSecondsMin / blocksTargetSpacing;
long pastBlocksMax = pastSecondsMax / blocksTargetSpacing;
StoredBlock blockReading = prevBlock;
long pastBlocksMass = 0;
long pastRateActualSeconds = 0;
long pastRateTargetSeconds = 0;
double pastRateAdjustmentRatio = 1.0f;
BigInteger pastDifficultyAverage = BigInteger.valueOf(0);
BigInteger pastDifficultyAveragePrev = BigInteger.valueOf(0);
double eventHorizonDeviation;
double eventHorizonDeviationFast;
double eventHorizonDeviationSlow;
if (prevBlock == null
|| prevBlock.getHeight() == 0
|| (long) prevBlock.getHeight() < pastBlocksMin) {
verifyDifficulty(prevBlock, added, params.getMaxTarget(), params);
return;
}
final Block prevHeader = prevBlock.getHeader();
long latestBlockTime = prevHeader.getTimeSeconds();
for (int i = 1; blockReading.getHeight() > 0; i++) {
if (pastBlocksMax > 0 && i > pastBlocksMax) {
break;
}
pastBlocksMass++;
if (i == 1) {
pastDifficultyAverage = blockReading.getHeader().getDifficultyTargetAsInteger();
} else {
pastDifficultyAverage =
(blockReading
.getHeader()
.getDifficultyTargetAsInteger()
.subtract(pastDifficultyAveragePrev))
.divide(BigInteger.valueOf(i))
.add(pastDifficultyAveragePrev);
}
pastDifficultyAveragePrev = pastDifficultyAverage;
if (blockReading.getHeight() > 646120
&& latestBlockTime < blockReading.getHeader().getTimeSeconds()) {
// eliminates the ability to go back in time
latestBlockTime = blockReading.getHeader().getTimeSeconds();
}
pastRateActualSeconds =
prevHeader.getTimeSeconds() - blockReading.getHeader().getTimeSeconds();
pastRateTargetSeconds = blocksTargetSpacing * pastBlocksMass;
if (blockReading.getHeight() > 646120) {
// this should slow down the upward difficulty change
if (pastRateActualSeconds < 5) {
pastRateActualSeconds = 5;
}
} else {
if (pastRateActualSeconds < 0) {
pastRateActualSeconds = 0;
}
}
if (pastRateActualSeconds != 0 && pastRateTargetSeconds != 0) {
pastRateAdjustmentRatio = (double) pastRateTargetSeconds / pastRateActualSeconds;
}
eventHorizonDeviation = 1 + 0.7084 * Math.pow((double) pastBlocksMass / 28.2d, -1.228);
eventHorizonDeviationFast = eventHorizonDeviation;
eventHorizonDeviationSlow = 1 / eventHorizonDeviation;
if (pastBlocksMass >= pastBlocksMin) {
if (pastRateAdjustmentRatio <= eventHorizonDeviationSlow
|| pastRateAdjustmentRatio >= eventHorizonDeviationFast) {
break;
}
}
blockReading = store.get(blockReading.getHeader().getPrevBlockHash());
if (blockReading == null) {
return;
}
}
BigInteger newDifficulty = pastDifficultyAverage;
if (pastRateActualSeconds != 0 && pastRateTargetSeconds != 0) {
newDifficulty = newDifficulty.multiply(BigInteger.valueOf(pastRateActualSeconds));
newDifficulty = newDifficulty.divide(BigInteger.valueOf(pastRateTargetSeconds));
}
if (newDifficulty.compareTo(params.getMaxTarget()) > 0) {
log.info("Difficulty hit proof of work limit: {}", newDifficulty.toString(16));
newDifficulty = params.getMaxTarget();
}
verifyDifficulty(prevBlock, added, newDifficulty, params);
}