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authorPieter Wuille <pieter.wuille@gmail.com>2017-05-21 12:01:29 -0700
committerPieter Wuille <pieter.wuille@gmail.com>2017-06-01 12:59:41 -0700
commitce23efaa5c2e8e50744a896424b01052db34a3d6 (patch)
tree97fec92fa46f81beef4f10d76d03973ec9d6195d /src/test/coins_tests.cpp
parent50830796889ecaa458871f1db878c255dd2554cb (diff)
Extend coins_tests
Diffstat (limited to 'src/test/coins_tests.cpp')
-rw-r--r--src/test/coins_tests.cpp56
1 files changed, 45 insertions, 11 deletions
diff --git a/src/test/coins_tests.cpp b/src/test/coins_tests.cpp
index 8d519c644b..f3f6e9f5f5 100644
--- a/src/test/coins_tests.cpp
+++ b/src/test/coins_tests.cpp
@@ -87,9 +87,12 @@ public:
{
// Manually recompute the dynamic usage of the whole data, and compare it.
size_t ret = memusage::DynamicUsage(cacheCoins);
+ size_t count = 0;
for (CCoinsMap::iterator it = cacheCoins.begin(); it != cacheCoins.end(); it++) {
ret += it->second.coins.DynamicMemoryUsage();
+ ++count;
}
+ BOOST_CHECK_EQUAL(GetCacheSize(), count);
BOOST_CHECK_EQUAL(DynamicMemoryUsage(), ret);
}
@@ -118,10 +121,12 @@ BOOST_AUTO_TEST_CASE(coins_cache_simulation_test)
bool removed_all_caches = false;
bool reached_4_caches = false;
bool added_an_entry = false;
+ bool added_an_unspendable_entry = false;
bool removed_an_entry = false;
bool updated_an_entry = false;
bool found_an_entry = false;
bool missed_an_entry = false;
+ bool uncached_an_entry = false;
// A simple map to track what we expect the cache stack to represent.
std::map<COutPoint, Coin> result;
@@ -143,36 +148,49 @@ BOOST_AUTO_TEST_CASE(coins_cache_simulation_test)
{
uint256 txid = txids[insecure_rand() % txids.size()]; // txid we're going to modify in this iteration.
Coin& coin = result[COutPoint(txid, 0)];
- const Coin& entry = stack.back()->AccessCoin(COutPoint(txid, 0));
+ const Coin& entry = (insecure_rand() % 500 == 0) ? AccessByTxid(*stack.back(), txid) : stack.back()->AccessCoin(COutPoint(txid, 0));
BOOST_CHECK(coin == entry);
if (insecure_rand() % 5 == 0 || coin.IsPruned()) {
- if (coin.IsPruned()) {
- added_an_entry = true;
+ Coin newcoin;
+ newcoin.out.nValue = insecure_rand();
+ newcoin.nHeight = 1;
+ if (insecure_rand() % 16 == 0 && coin.IsPruned()) {
+ newcoin.out.scriptPubKey.assign(1 + (insecure_rand() & 0x3F), OP_RETURN);
+ BOOST_CHECK(newcoin.out.scriptPubKey.IsUnspendable());
+ added_an_unspendable_entry = true;
} else {
- updated_an_entry = true;
+ newcoin.out.scriptPubKey.assign(insecure_rand() & 0x3F, 0); // Random sizes so we can test memory usage accounting
+ (coin.IsPruned() ? added_an_entry : updated_an_entry) = true;
+ coin = newcoin;
}
- coin.out.nValue = insecure_rand();
- coin.nHeight = 1;
+ stack.back()->AddCoin(COutPoint(txid, 0), std::move(newcoin), !coin.IsPruned() || insecure_rand() & 1);
} else {
- coin.Clear();
removed_an_entry = true;
- }
- if (coin.IsPruned()) {
+ coin.Clear();
stack.back()->SpendCoin(COutPoint(txid, 0));
- } else {
- stack.back()->AddCoin(COutPoint(txid, 0), Coin(coin), true);
}
}
+ // One every 10 iterations, remove a random entry from the cache
+ if (insecure_rand() % 10) {
+ COutPoint out(txids[insecure_rand() % txids.size()], 0);
+ int cacheid = insecure_rand() % stack.size();
+ stack[cacheid]->Uncache(out);
+ uncached_an_entry |= !stack[cacheid]->HaveCoinsInCache(out);
+ }
+
// Once every 1000 iterations and at the end, verify the full cache.
if (insecure_rand() % 1000 == 1 || i == NUM_SIMULATION_ITERATIONS - 1) {
for (auto it = result.begin(); it != result.end(); it++) {
+ bool have = stack.back()->HaveCoins(it->first);
const Coin& coin = stack.back()->AccessCoin(it->first);
+ BOOST_CHECK(have == !coin.IsPruned());
BOOST_CHECK(coin == it->second);
if (coin.IsPruned()) {
missed_an_entry = true;
} else {
+ BOOST_CHECK(stack.back()->HaveCoinsInCache(it->first));
found_an_entry = true;
}
}
@@ -222,10 +240,12 @@ BOOST_AUTO_TEST_CASE(coins_cache_simulation_test)
BOOST_CHECK(removed_all_caches);
BOOST_CHECK(reached_4_caches);
BOOST_CHECK(added_an_entry);
+ BOOST_CHECK(added_an_unspendable_entry);
BOOST_CHECK(removed_an_entry);
BOOST_CHECK(updated_an_entry);
BOOST_CHECK(found_an_entry);
BOOST_CHECK(missed_an_entry);
+ BOOST_CHECK(uncached_an_entry);
}
// Store of all necessary tx and undo data for next test
@@ -275,6 +295,7 @@ BOOST_AUTO_TEST_CASE(updatecoins_simulation_test)
tx.vin.resize(1);
tx.vout.resize(1);
tx.vout[0].nValue = i; //Keep txs unique unless intended to duplicate
+ tx.vout[0].scriptPubKey.assign(insecure_rand() & 0x3F, 0); // Random sizes so we can test memory usage accounting
unsigned int height = insecure_rand();
Coin oldcoins;
@@ -393,11 +414,24 @@ BOOST_AUTO_TEST_CASE(updatecoins_simulation_test)
// Once every 1000 iterations and at the end, verify the full cache.
if (insecure_rand() % 1000 == 1 || i == NUM_SIMULATION_ITERATIONS - 1) {
for (auto it = result.begin(); it != result.end(); it++) {
+ bool have = stack.back()->HaveCoins(it->first);
const Coin& coin = stack.back()->AccessCoin(it->first);
+ BOOST_CHECK(have == !coin.IsPruned());
BOOST_CHECK(coin == it->second);
}
}
+ // One every 10 iterations, remove a random entry from the cache
+ if (utxoset.size() > 1 && insecure_rand() % 30) {
+ stack[insecure_rand() % stack.size()]->Uncache(FindRandomFrom(utxoset)->first);
+ }
+ if (disconnectedids.size() > 1 && insecure_rand() % 30) {
+ stack[insecure_rand() % stack.size()]->Uncache(FindRandomFrom(disconnectedids)->first);
+ }
+ if (duplicateids.size() > 1 && insecure_rand() % 30) {
+ stack[insecure_rand() % stack.size()]->Uncache(FindRandomFrom(duplicateids)->first);
+ }
+
if (insecure_rand() % 100 == 0) {
// Every 100 iterations, flush an intermediate cache
if (stack.size() > 1 && insecure_rand() % 2 == 0) {