lnd/channeldb/reject_cache_test.go

108 lines
3.1 KiB
Go

package channeldb
import (
"reflect"
"testing"
)
// TestRejectCache checks the behavior of the rejectCache with respect to insertion,
// eviction, and removal of cache entries.
func TestRejectCache(t *testing.T) {
const cacheSize = 100
// Create a new reject cache with the configured max size.
c := newRejectCache(cacheSize)
// As a sanity check, assert that querying the empty cache does not
// return an entry.
_, ok := c.get(0)
if ok {
t.Fatalf("reject cache should be empty")
}
// Now, fill up the cache entirely.
for i := uint64(0); i < cacheSize; i++ {
c.insert(i, entryForInt(i))
}
// Assert that the cache has all of the entries just inserted, since no
// eviction should occur until we try to surpass the max size.
assertHasEntries(t, c, 0, cacheSize)
// Now, insert a new element that causes the cache to evict an element.
c.insert(cacheSize, entryForInt(cacheSize))
// Assert that the cache has this last entry, as the cache should evict
// some prior element and not the newly inserted one.
assertHasEntries(t, c, cacheSize, cacheSize)
// Iterate over all inserted elements and construct a set of the evicted
// elements.
evicted := make(map[uint64]struct{})
for i := uint64(0); i < cacheSize+1; i++ {
_, ok := c.get(i)
if !ok {
evicted[i] = struct{}{}
}
}
// Assert that exactly one element has been evicted.
numEvicted := len(evicted)
if numEvicted != 1 {
t.Fatalf("expected one evicted entry, got: %d", numEvicted)
}
// Remove the highest item which initially caused the eviction and
// reinsert the element that was evicted prior.
c.remove(cacheSize)
for i := range evicted {
c.insert(i, entryForInt(i))
}
// Since the removal created an extra slot, the last insertion should
// not have caused an eviction and the entries for all channels in the
// original set that filled the cache should be present.
assertHasEntries(t, c, 0, cacheSize)
// Finally, reinsert the existing set back into the cache and test that
// the cache still has all the entries. If the randomized eviction were
// happening on inserts for existing cache items, we expect this to fail
// with high probability.
for i := uint64(0); i < cacheSize; i++ {
c.insert(i, entryForInt(i))
}
assertHasEntries(t, c, 0, cacheSize)
}
// assertHasEntries queries the reject cache for all channels in the range [start,
// end), asserting that they exist and their value matches the entry produced by
// entryForInt.
func assertHasEntries(t *testing.T, c *rejectCache, start, end uint64) {
t.Helper()
for i := start; i < end; i++ {
entry, ok := c.get(i)
if !ok {
t.Fatalf("reject cache should contain chan %d", i)
}
expEntry := entryForInt(i)
if !reflect.DeepEqual(entry, expEntry) {
t.Fatalf("entry mismatch, want: %v, got: %v",
expEntry, entry)
}
}
}
// entryForInt generates a unique rejectCacheEntry given an integer.
func entryForInt(i uint64) rejectCacheEntry {
exists := i%2 == 0
isZombie := i%3 == 0
return rejectCacheEntry{
upd1Time: int64(2 * i),
upd2Time: int64(2*i + 1),
flags: packRejectFlags(exists, isZombie),
}
}