public void MempoolRemoveTest()
{
var entry = new TestMemPoolEntryHelper();
// Parent transaction with three children,
// and three grand-children:
var txParent = new Transaction();
txParent.AddInput(new TxIn());
txParent.Inputs[0].ScriptSig = new Script(OpcodeType.OP_11);
for (int i = 0; i < 3; i++)
{
txParent.AddOutput(new TxOut(new Money(33000L), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
}
var txChild = new Transaction[3];
for (int i = 0; i < 3; i++)
{
txChild[i] = new Transaction();
txChild[i].AddInput(new TxIn(new OutPoint(txParent, i), new Script(OpcodeType.OP_11)));
txChild[i].AddOutput(new TxOut(new Money(11000L), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
}
var txGrandChild = new Transaction[3];
for (int i = 0; i < 3; i++)
{
txGrandChild[i] = new Transaction();
txGrandChild[i].AddInput(new TxIn(new OutPoint(txChild[i], 0), new Script(OpcodeType.OP_11)));
txGrandChild[i].AddOutput(new TxOut(new Money(11000L), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
}
NodeSettings settings = NodeSettings.Default(KnownNetworks.TestNet);
var testPool = new TxMempool(DateTimeProvider.Default, new BlockPolicyEstimator(new MempoolSettings(settings), settings.LoggerFactory, settings), settings.LoggerFactory, settings);
// Nothing in pool, remove should do nothing:
long poolSize = testPool.Size;
testPool.RemoveRecursive(txParent);
Assert.Equal(testPool.Size, poolSize);
// Just the parent:
testPool.AddUnchecked(txParent.GetHash(), entry.FromTx(txParent));
poolSize = testPool.Size;
testPool.RemoveRecursive(txParent);
Assert.Equal(testPool.Size, poolSize - 1);
// Parent, children, grandchildren:
testPool.AddUnchecked(txParent.GetHash(), entry.FromTx(txParent));
for (int i = 0; i < 3; i++)
{
testPool.AddUnchecked(txChild[i].GetHash(), entry.FromTx(txChild[i]));
testPool.AddUnchecked(txGrandChild[i].GetHash(), entry.FromTx(txGrandChild[i]));
}
// Remove Child[0], GrandChild[0] should be removed:
poolSize = testPool.Size;
testPool.RemoveRecursive(txChild[0]);
Assert.Equal(testPool.Size, poolSize - 2);
// ... make sure grandchild and child are gone:
poolSize = testPool.Size;
testPool.RemoveRecursive(txGrandChild[0]);
Assert.Equal(testPool.Size, poolSize);
poolSize = testPool.Size;
testPool.RemoveRecursive(txChild[0]);
Assert.Equal(testPool.Size, poolSize);
// Remove parent, all children/grandchildren should go:
poolSize = testPool.Size;
testPool.RemoveRecursive(txParent);
Assert.Equal(testPool.Size, poolSize - 5);
Assert.Equal(0, testPool.Size);
// Add children and grandchildren, but NOT the parent (simulate the parent being in a block)
for (int i = 0; i < 3; i++)
{
testPool.AddUnchecked(txChild[i].GetHash(), entry.FromTx(txChild[i]));
testPool.AddUnchecked(txGrandChild[i].GetHash(), entry.FromTx(txGrandChild[i]));
}
// Now remove the parent, as might happen if a block-re-org occurs but the parent cannot be
// put into the mempool (maybe because it is non-standard):
poolSize = testPool.Size;
testPool.RemoveRecursive(txParent);
Assert.Equal(poolSize - 6, testPool.Size);
Assert.Equal(0, testPool.Size);
}
public void MempoolSizeLimitTest()
{
NodeSettings settings = NodeSettings.Default(KnownNetworks.TestNet);
var dateTimeSet = new DateTimeProviderSet();
var pool = new TxMempool(dateTimeSet, new BlockPolicyEstimator(new MempoolSettings(settings), settings.LoggerFactory, settings), settings.LoggerFactory, settings);
var entry = new TestMemPoolEntryHelper();
entry.Priority(10.0);
var tx1 = new Transaction();
tx1.AddInput(new TxIn(new Script(OpcodeType.OP_1)));
tx1.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_1, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx1.GetHash(), entry.Fee(10000L).FromTx(tx1, pool));
var tx2 = new Transaction();
tx2.AddInput(new TxIn(new Script(OpcodeType.OP_2)));
tx2.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_2, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx2.GetHash(), entry.Fee(5000L).FromTx(tx2, pool));
pool.TrimToSize(pool.DynamicMemoryUsage()); // should do nothing
Assert.True(pool.Exists(tx1.GetHash()));
Assert.True(pool.Exists(tx2.GetHash()));
pool.TrimToSize(pool.DynamicMemoryUsage() * 3 / 4); // should remove the lower-feerate transaction
Assert.True(pool.Exists(tx1.GetHash()));
Assert.True(!pool.Exists(tx2.GetHash()));
pool.AddUnchecked(tx2.GetHash(), entry.FromTx(tx2, pool));
var tx3 = new Transaction();
tx3.AddInput(new TxIn(new OutPoint(tx2.GetHash(), 0), new Script(OpcodeType.OP_2)));
tx3.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_3, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx3.GetHash(), entry.Fee(20000L).FromTx(tx3, pool));
pool.TrimToSize(pool.DynamicMemoryUsage() * 3 / 4); // tx3 should pay for tx2 (CPFP)
Assert.True(!pool.Exists(tx1.GetHash()));
Assert.True(pool.Exists(tx2.GetHash()));
Assert.True(pool.Exists(tx3.GetHash()));
pool.TrimToSize(tx1.GetVirtualSize(KnownNetworks.TestNet.Consensus.Options.WitnessScaleFactor)); // mempool is limited to tx1's size in memory usage, so nothing fits
Assert.True(!pool.Exists(tx1.GetHash()));
Assert.True(!pool.Exists(tx2.GetHash()));
Assert.True(!pool.Exists(tx3.GetHash()));
var maxFeeRateRemoved = new FeeRate(25000, tx3.GetVirtualSize(KnownNetworks.TestNet.Consensus.Options.WitnessScaleFactor) + tx2.GetVirtualSize(KnownNetworks.TestNet.Consensus.Options.WitnessScaleFactor));
Assert.Equal(pool.GetMinFee(1).FeePerK, maxFeeRateRemoved.FeePerK + 1000);
var tx4 = new Transaction();
tx4.AddInput(new TxIn(new Script(OpcodeType.OP_4)));
tx4.AddInput(new TxIn(new Script(OpcodeType.OP_4)));
tx4.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_4, OpcodeType.OP_EQUAL)));
tx4.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_4, OpcodeType.OP_EQUAL)));
var tx5 = new Transaction();
tx5.AddInput(new TxIn(new OutPoint(tx4.GetHash(), 0), new Script(OpcodeType.OP_4)));
tx5.AddInput(new TxIn(new Script(OpcodeType.OP_5)));
tx5.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_5, OpcodeType.OP_EQUAL)));
tx5.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_5, OpcodeType.OP_EQUAL)));
var tx6 = new Transaction();
tx6.AddInput(new TxIn(new OutPoint(tx4.GetHash(), 0), new Script(OpcodeType.OP_4)));
tx6.AddInput(new TxIn(new Script(OpcodeType.OP_6)));
tx6.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_6, OpcodeType.OP_EQUAL)));
tx6.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_6, OpcodeType.OP_EQUAL)));
var tx7 = new Transaction();
tx7.AddInput(new TxIn(new OutPoint(tx5.GetHash(), 0), new Script(OpcodeType.OP_5)));
tx7.AddInput(new TxIn(new OutPoint(tx6.GetHash(), 0), new Script(OpcodeType.OP_6)));
tx7.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_7, OpcodeType.OP_EQUAL)));
tx7.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_7, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx4.GetHash(), entry.Fee(7000L).FromTx(tx4, pool));
pool.AddUnchecked(tx5.GetHash(), entry.Fee(1000L).FromTx(tx5, pool));
pool.AddUnchecked(tx6.GetHash(), entry.Fee(1100L).FromTx(tx6, pool));
pool.AddUnchecked(tx7.GetHash(), entry.Fee(9000L).FromTx(tx7, pool));
// we only require this remove, at max, 2 txn, because its not clear what we're really optimizing for aside from that
pool.TrimToSize(pool.DynamicMemoryUsage() - 1);
Assert.True(pool.Exists(tx4.GetHash()));
Assert.True(pool.Exists(tx6.GetHash()));
Assert.True(!pool.Exists(tx7.GetHash()));
if (!pool.Exists(tx5.GetHash()))
{
pool.AddUnchecked(tx5.GetHash(), entry.Fee(1000L).FromTx(tx5, pool));
}
pool.AddUnchecked(tx7.GetHash(), entry.Fee(9000L).FromTx(tx7, pool));
pool.TrimToSize(pool.DynamicMemoryUsage() / 2); // should maximize mempool size by only removing 5/7
Assert.True(pool.Exists(tx4.GetHash()));
Assert.True(!pool.Exists(tx5.GetHash()));
Assert.True(pool.Exists(tx6.GetHash()));
Assert.True(!pool.Exists(tx7.GetHash()));
pool.AddUnchecked(tx5.GetHash(), entry.Fee(1000L).FromTx(tx5, pool));
pool.AddUnchecked(tx7.GetHash(), entry.Fee(9000L).FromTx(tx7, pool));
var vtx = new List <Transaction>();
dateTimeSet.time = 42 + TxMempool.RollingFeeHalflife;
Assert.Equal(pool.GetMinFee(1).FeePerK.Satoshi, maxFeeRateRemoved.FeePerK.Satoshi + 1000);
// ... we should keep the same min fee until we get a block
pool.RemoveForBlock(vtx, 1);
dateTimeSet.time = 42 + 2 * +TxMempool.RollingFeeHalflife;
Assert.Equal(pool.GetMinFee(1).FeePerK.Satoshi, (maxFeeRateRemoved.FeePerK.Satoshi + 1000) / 2);
// ... then feerate should drop 1/2 each halflife
dateTimeSet.time = 42 + 2 * TxMempool.RollingFeeHalflife + TxMempool.RollingFeeHalflife / 2;
Assert.Equal(pool.GetMinFee(pool.DynamicMemoryUsage() * 5 / 2).FeePerK.Satoshi, (maxFeeRateRemoved.FeePerK.Satoshi + 1000) / 4);
// ... with a 1/2 halflife when mempool is < 1/2 its target size
dateTimeSet.time = 42 + 2 * TxMempool.RollingFeeHalflife + TxMempool.RollingFeeHalflife / 2 + TxMempool.RollingFeeHalflife / 4;
Assert.Equal(pool.GetMinFee(pool.DynamicMemoryUsage() * 9 / 2).FeePerK.Satoshi, (maxFeeRateRemoved.FeePerK.Satoshi + 1000) / 8);
// ... with a 1/4 halflife when mempool is < 1/4 its target size
dateTimeSet.time = 42 + 7 * TxMempool.RollingFeeHalflife + TxMempool.RollingFeeHalflife / 2 + TxMempool.RollingFeeHalflife / 4;
Assert.Equal(1000, pool.GetMinFee(1).FeePerK.Satoshi);
// ... but feerate should never drop below 1000
dateTimeSet.time = 42 + 8 * TxMempool.RollingFeeHalflife + TxMempool.RollingFeeHalflife / 2 + TxMempool.RollingFeeHalflife / 4;
Assert.Equal(0, pool.GetMinFee(1).FeePerK);
// ... unless it has gone all the way to 0 (after getting past 1000/2)
}
public void MempoolIndexingTest()
{
NodeSettings settings = NodeSettings.Default(KnownNetworks.TestNet);
var pool = new TxMempool(DateTimeProvider.Default, new BlockPolicyEstimator(new MempoolSettings(settings), settings.LoggerFactory, settings), settings.LoggerFactory, settings);
var entry = new TestMemPoolEntryHelper();
/* 3rd highest fee */
var tx1 = new Transaction();
tx1.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx1.GetHash(), entry.Fee(new Money(10000L)).Priority(10.0).FromTx(tx1));
/* highest fee */
var tx2 = new Transaction();
tx2.AddOutput(new TxOut(new Money(2 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx2.GetHash(), entry.Fee(new Money(20000L)).Priority(9.0).FromTx(tx2));
/* lowest fee */
var tx3 = new Transaction();
tx3.AddOutput(new TxOut(new Money(5 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx3.GetHash(), entry.Fee(new Money(0L)).Priority(100.0).FromTx(tx3));
/* 2nd highest fee */
var tx4 = new Transaction();
tx4.AddOutput(new TxOut(new Money(6 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx4.GetHash(), entry.Fee(new Money(15000L)).Priority(1.0).FromTx(tx4));
/* equal fee rate to tx1, but newer */
var tx5 = new Transaction();
tx5.AddOutput(new TxOut(new Money(11 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx5.GetHash(), entry.Fee(new Money(10000L)).Priority(10.0).Time(1).FromTx(tx5));
// assert size
Assert.Equal(5, pool.Size);
var sortedOrder = new List <string>(5);
sortedOrder.Insert(0, tx3.GetHash().ToString()); // 0
sortedOrder.Insert(1, tx5.GetHash().ToString()); // 10000
sortedOrder.Insert(2, tx1.GetHash().ToString()); // 10000
sortedOrder.Insert(3, tx4.GetHash().ToString()); // 15000
sortedOrder.Insert(4, tx2.GetHash().ToString()); // 20000
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), sortedOrder);
/* low fee but with high fee child */
/* tx6 -> tx7 -> tx8, tx9 -> tx10 */
var tx6 = new Transaction();
tx6.AddOutput(new TxOut(new Money(20 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx6.GetHash(), entry.Fee(new Money(0L)).FromTx(tx6));
// assert size
Assert.Equal(6, pool.Size);
// Check that at this point, tx6 is sorted low
sortedOrder.Insert(0, tx6.GetHash().ToString());
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), sortedOrder);
var setAncestors = new TxMempool.SetEntries();
setAncestors.Add(pool.MapTx.TryGet(tx6.GetHash()));
var tx7 = new Transaction();
tx7.AddInput(new TxIn(new OutPoint(tx6.GetHash(), 0), new Script(OpcodeType.OP_11)));
tx7.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
tx7.AddOutput(new TxOut(new Money(1 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
var setAncestorsCalculated = new TxMempool.SetEntries();
string dummy;
Assert.True(pool.CalculateMemPoolAncestors(entry.Fee(2000000L).FromTx(tx7), setAncestorsCalculated, 100, 1000000, 1000, 1000000, out dummy));
Assert.True(setAncestorsCalculated.Equals(setAncestors));
pool.AddUnchecked(tx7.GetHash(), entry.FromTx(tx7), setAncestors);
Assert.Equal(7, pool.Size);
// Now tx6 should be sorted higher (high fee child): tx7, tx6, tx2, ...
sortedOrder.RemoveAt(0);
sortedOrder.Add(tx6.GetHash().ToString());
sortedOrder.Add(tx7.GetHash().ToString());
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), sortedOrder);
/* low fee child of tx7 */
var tx8 = new Transaction();
tx8.AddInput(new TxIn(new OutPoint(tx7.GetHash(), 0), new Script(OpcodeType.OP_11)));
tx8.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
setAncestors.Add(pool.MapTx.TryGet(tx7.GetHash()));
pool.AddUnchecked(tx8.GetHash(), entry.Fee(0L).Time(2).FromTx(tx8), setAncestors);
// Now tx8 should be sorted low, but tx6/tx both high
sortedOrder.Insert(0, tx8.GetHash().ToString());
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), sortedOrder);
/* low fee child of tx7 */
var tx9 = new Transaction();
tx9.AddInput(new TxIn(new OutPoint(tx7.GetHash(), 1), new Script(OpcodeType.OP_11)));
tx9.AddOutput(new TxOut(new Money(1 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
pool.AddUnchecked(tx9.GetHash(), entry.Fee(0L).Time(3).FromTx(tx9), setAncestors);
// tx9 should be sorted low
Assert.Equal(9, pool.Size);
sortedOrder.Insert(0, tx9.GetHash().ToString());
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), sortedOrder);
List <string> snapshotOrder = sortedOrder.ToList();
setAncestors.Add(pool.MapTx.TryGet(tx8.GetHash()));
setAncestors.Add(pool.MapTx.TryGet(tx9.GetHash()));
/* tx10 depends on tx8 and tx9 and has a high fee*/
var tx10 = new Transaction();
tx10.AddInput(new TxIn(new OutPoint(tx8.GetHash(), 0), new Script(OpcodeType.OP_11)));
tx10.AddInput(new TxIn(new OutPoint(tx9.GetHash(), 0), new Script(OpcodeType.OP_11)));
tx10.AddOutput(new TxOut(new Money(10 * Money.COIN), new Script(OpcodeType.OP_11, OpcodeType.OP_EQUAL)));
setAncestorsCalculated.Clear();
Assert.True(pool.CalculateMemPoolAncestors(entry.Fee(200000L).Time(4).FromTx(tx10), setAncestorsCalculated, 100, 1000000, 1000, 1000000, out dummy));
Assert.True(setAncestorsCalculated.Equals(setAncestors));
pool.AddUnchecked(tx10.GetHash(), entry.FromTx(tx10), setAncestors);
/**
* tx8 and tx9 should both now be sorted higher
* Final order after tx10 is added:
*
* tx3 = 0 (1)
* tx5 = 10000 (1)
* tx1 = 10000 (1)
* tx4 = 15000 (1)
* tx2 = 20000 (1)
* tx9 = 200k (2 txs)
* tx8 = 200k (2 txs)
* tx10 = 200k (1 tx)
* tx6 = 2.2M (5 txs)
* tx7 = 2.2M (4 txs)
*/
sortedOrder.RemoveRange(0, 2); // take out tx9, tx8 from the beginning
sortedOrder.Insert(5, tx9.GetHash().ToString());
sortedOrder.Insert(6, tx8.GetHash().ToString());
sortedOrder.Insert(7, tx10.GetHash().ToString()); // tx10 is just before tx6
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), sortedOrder);
// there should be 10 transactions in the mempool
Assert.Equal(10, pool.Size);
// Now try removing tx10 and verify the sort order returns to normal
pool.RemoveRecursive(pool.MapTx.TryGet(tx10.GetHash()).Transaction);
this.CheckSort(pool, pool.MapTx.DescendantScore.ToList(), snapshotOrder);
pool.RemoveRecursive(pool.MapTx.TryGet(tx9.GetHash()).Transaction);
pool.RemoveRecursive(pool.MapTx.TryGet(tx8.GetHash()).Transaction);
/* Now check the sort on the mining score index.
* Final order should be:
*
* tx7 (2M)
* tx2 (20k)
* tx4 (15000)
* tx1/tx5 (10000)
* tx3/6 (0)
* (Ties resolved by hash)
*/
sortedOrder.Clear();
sortedOrder.Add(tx7.GetHash().ToString());
sortedOrder.Add(tx2.GetHash().ToString());
sortedOrder.Add(tx4.GetHash().ToString());
if (tx1.GetHash() < tx5.GetHash())
{
sortedOrder.Add(tx5.GetHash().ToString());
sortedOrder.Add(tx1.GetHash().ToString());
}
else
{
sortedOrder.Add(tx1.GetHash().ToString());
sortedOrder.Add(tx5.GetHash().ToString());
}
if (tx3.GetHash() < tx6.GetHash())
{
sortedOrder.Add(tx6.GetHash().ToString());
sortedOrder.Add(tx3.GetHash().ToString());
}
else
{
sortedOrder.Add(tx3.GetHash().ToString());
sortedOrder.Add(tx6.GetHash().ToString());
}
this.CheckSort(pool, pool.MapTx.MiningScore.ToList(), sortedOrder);
}
