Esempio n. 1
0
func (tc *TimestampCache) getMax(start, end roachpb.Key, txnID *uuid.UUID, readTSCache bool) roachpb.Timestamp {
	if len(end) == 0 {
		end = start.ShallowNext()
	}
	max := tc.lowWater
	cache := tc.wCache
	if readTSCache {
		cache = tc.rCache
	}
	for _, o := range cache.GetOverlaps(start, end) {
		ce := o.Value.(*cacheValue)
		if ce.txnID == nil || txnID == nil || !roachpb.TxnIDEqual(txnID, ce.txnID) {
			if max.Less(ce.timestamp) {
				max = ce.timestamp
			}
		}
	}
	return max
}
Esempio n. 2
0
// Add the specified timestamp to the cache as covering the range of
// keys from start to end. If end is nil, the range covers the start
// key only. txnID is nil for no transaction. readTSCache specifies
// whether the command adding this timestamp should update the read
// timestamp; false to update the write timestamp cache.
func (tc *TimestampCache) Add(start, end roachpb.Key, timestamp roachpb.Timestamp, txnID *uuid.UUID, readTSCache bool) {
	// This gives us a memory-efficient end key if end is empty.
	if len(end) == 0 {
		end = start.Next()
		start = end[:len(start)]
	}
	if tc.latest.Less(timestamp) {
		tc.latest = timestamp
	}
	// Only add to the cache if the timestamp is more recent than the
	// low water mark.
	if tc.lowWater.Less(timestamp) {
		cache := tc.wCache
		if readTSCache {
			cache = tc.rCache
		}

		addRange := func(r interval.Range) {
			value := cacheValue{timestamp: timestamp, txnID: txnID}
			key := cache.MakeKey(r.Start, r.End)
			entry := makeCacheEntry(key, value)
			cache.AddEntry(entry)
		}
		r := interval.Range{
			Start: interval.Comparable(start),
			End:   interval.Comparable(end),
		}

		// Check existing, overlapping entries and truncate/split/remove if
		// superseded and in the past. If existing entries are in the future,
		// subtract from the range/ranges that need to be added to cache.
		for _, o := range cache.GetOverlaps(r.Start, r.End) {
			cv := o.Value.(*cacheValue)
			sCmp := r.Start.Compare(o.Key.Start)
			eCmp := r.End.Compare(o.Key.End)
			if !timestamp.Less(cv.timestamp) {
				// The existing interval has a timestamp less than or equal to the new interval.
				// Compare interval ranges to determine how to modify existing interval.
				switch {
				case sCmp == 0 && eCmp == 0:
					// New and old are equal; replace old with new and avoid the need to insert new.
					//
					// New: ------------
					// Old: ------------
					//
					// New: ------------
					*cv = cacheValue{timestamp: timestamp, txnID: txnID}
					cache.MoveToEnd(o.Entry)
					return
				case sCmp <= 0 && eCmp >= 0:
					// New contains or is equal to old; delete old.
					//
					// New: ------------      ------------      ------------
					// Old:   --------    or    ----------  or  ----------
					//
					// Old:
					cache.DelEntry(o.Entry)
				case sCmp > 0 && eCmp < 0:
					// Old contains new; split up old into two.
					//
					// New:     ----
					// Old: ------------
					//
					// Old: ----    ----
					oldEnd := o.Key.End
					o.Key.End = r.Start

					key := cache.MakeKey(r.End, oldEnd)
					entry := makeCacheEntry(key, *cv)
					cache.AddEntryAfter(entry, o.Entry)
				case eCmp >= 0:
					// Left partial overlap; truncate old end.
					//
					// New:     --------          --------
					// Old: --------      or  ------------
					//
					// Old: ----              ----
					o.Key.End = r.Start
				case sCmp <= 0:
					// Right partial overlap; truncate old start.
					//
					// New: --------          --------
					// Old:     --------  or  ------------
					//
					// Old:         ----              ----
					o.Key.Start = r.End
				default:
					panic(fmt.Sprintf("no overlap between %v and %v", o.Key.Range, r))
				}
			} else {
				// The existing interval has a timestamp greater than the new interval.
				// Compare interval ranges to determine how to modify new interval before
				// adding it to the timestamp cache.
				switch {
				case sCmp >= 0 && eCmp <= 0:
					// Old contains or is equal to new; no need to add.
					//
					// Old: -----------      -----------      -----------      -----------
					// New:    -----     or  -----------  or  --------     or     --------
					//
					// New:
					return
				case sCmp < 0 && eCmp > 0:
					// New contains old; split up old into two. We can add the left piece
					// immediately because it is guaranteed to be before the rest of the
					// overlaps.
					//
					// Old:    ------
					// New: ------------
					//
					// New: ---      ---
					lr := interval.Range{Start: r.Start, End: o.Key.Start}
					addRange(lr)

					r.Start = o.Key.End
				case eCmp > 0:
					// Left partial overlap; truncate new start.
					//
					// Old: --------          --------
					// New:     --------  or  ------------
					//
					// New:         ----              ----
					r.Start = o.Key.End
				case sCmp < 0:
					// Right partial overlap; truncate new end.
					//
					// Old:     --------          --------
					// New: --------      or  ------------
					//
					// New: ----              ----
					r.End = o.Key.Start
				default:
					panic(fmt.Sprintf("no overlap between %v and %v", o.Key.Range, r))
				}
			}
		}
		addRange(r)
	}
}