/** {@inheritDoc} */ @Override public V unswap(K key) throws GridException { ctx.denyOnFlags(F.asList(READ, SKIP_SWAP)); // Unswap only from DHT. Near cache does not have swap storage. return dht.unswap(key); }
/** * Checks entry for empty value. * * @param entry Entry to check. * @return {@code True} if entry is empty. */ private boolean empty(GridCacheEntry<K, V> entry) { try { return entry.peek(F.asList(GLOBAL)) == null; } catch (GridException e) { U.error(null, e.getMessage(), e); assert false : "Should never happen: " + e; return false; } }
/** @throws GridException If failed. */ public void testAffinity() throws GridException { Grid g1 = grid(1); Grid g2 = grid(2); assert caches(g1).size() == 0; assert F.first(caches(g2)).getCacheMode() == PARTITIONED; Map<GridNode, Collection<String>> map = g1.mapKeysToNodes(null, F.asList("1")); assertNotNull(map); assertEquals("Invalid map size: " + map.size(), 1, map.size()); assertEquals(F.first(map.keySet()), g2.localNode()); UUID id1 = g1.mapKeyToNode(null, "2").id(); assertNotNull(id1); assertEquals(g2.localNode().id(), id1); UUID id2 = g1.mapKeyToNode(null, "3").id(); assertNotNull(id2); assertEquals(g2.localNode().id(), id2); }
/** * Removes locks regardless of whether they are owned or not for given version and keys. * * @param ver Lock version. * @param keys Keys. */ @SuppressWarnings({"unchecked"}) public void removeLocks(GridCacheVersion ver, Collection<? extends K> keys) { if (keys.isEmpty()) return; try { Collection<GridRichNode> affNodes = null; int keyCnt = -1; Map<GridNode, GridNearUnlockRequest<K, V>> map = null; for (K key : keys) { // Send request to remove from remote nodes. GridNearUnlockRequest<K, V> req = null; while (true) { GridDistributedCacheEntry<K, V> entry = peekExx(key); try { if (entry != null) { GridCacheMvccCandidate<K> cand = entry.candidate(ver); if (cand != null) { if (affNodes == null) { affNodes = CU.allNodes(ctx, cand.topologyVersion()); keyCnt = (int) Math.ceil((double) keys.size() / affNodes.size()); map = new HashMap<GridNode, GridNearUnlockRequest<K, V>>(affNodes.size()); } GridRichNode primary = CU.primary0(ctx.affinity(key, affNodes)); if (!primary.isLocal()) { req = map.get(primary); if (req == null) { map.put(primary, req = new GridNearUnlockRequest<K, V>(keyCnt)); req.version(ver); } } // Remove candidate from local node first. if (entry.removeLock(cand.version())) { if (primary.isLocal()) { dht.removeLocks(primary.id(), ver, F.asList(key), true); assert req == null; continue; } req.addKey(entry.key(), entry.getOrMarshalKeyBytes(), ctx); } } } break; } catch (GridCacheEntryRemovedException ignored) { if (log.isDebugEnabled()) log.debug( "Attempted to remove lock from removed entry (will retry) [rmvVer=" + ver + ", entry=" + entry + ']'); } } } if (map == null || map.isEmpty()) return; Collection<GridCacheVersion> committed = ctx.tm().committedVersions(ver); Collection<GridCacheVersion> rolledback = ctx.tm().rolledbackVersions(ver); for (Map.Entry<GridNode, GridNearUnlockRequest<K, V>> mapping : map.entrySet()) { GridNode n = mapping.getKey(); GridDistributedUnlockRequest<K, V> req = mapping.getValue(); if (!req.keyBytes().isEmpty()) { req.completedVersions(committed, rolledback); // We don't wait for reply to this message. ctx.io().send(n, req); } } } catch (GridException ex) { U.error(log, "Failed to unlock the lock for keys: " + keys, ex); } }
/** {@inheritDoc} */ @Override public Collection<GridRichNode> affinityNodes(K key) { return F.asList(ctx.localNode()); }
/** {@inheritDoc} */ @Override public GridFuture<?> addData(Map.Entry<K, V> entry) throws GridException, IllegalStateException { A.notNull(entry, "entry"); return addData(F.asList(entry)); }