/** * Checks that gets work for implicit txs. * * @param cache Cache to test. * @throws Exception If failed. */ private void checkExplicitTx(Ignite ignite, IgniteCache<String, String> cache) throws Exception { IgniteCache<String, String> asyncCache = cache.withAsync(); Transaction tx = ignite.transactions().txStart(); try { assertNull(cache.get("key1")); tx.commit(); } finally { tx.close(); } tx = ignite.transactions().txStart(); try { asyncCache.get("key2"); assertNull(asyncCache.future().get()); tx.commit(); } finally { tx.close(); } tx = ignite.transactions().txStart(); try { assertTrue(cache.getAll(F.asSet("key3", "key4")).isEmpty()); tx.commit(); } finally { tx.close(); } tx = ignite.transactions().txStart(); try { asyncCache.getAll(F.asSet("key5", "key6")); assertTrue(((Map) asyncCache.future().get()).isEmpty()); tx.commit(); } finally { tx.close(); } tx = ignite.transactions().txStart(); try { cache.put("key7", "key7"); cache.remove("key7"); assertNull(cache.get("key7")); tx.commit(); } finally { tx.close(); } checkEmpty(cache); }
/** * Tests offset and limit clauses for query. * * @throws Exception If failed. */ public void testOffsetLimit() throws Exception { IgniteCache<Integer, Integer> c = ignite(0).getOrCreateCache(cacheConfig("ints", true, Integer.class, Integer.class)); try { List<Integer> res = new ArrayList<>(); Random rnd = new GridRandom(); for (int i = 0; i < 10; i++) { int val = rnd.nextInt(100); c.put(i, val); res.add(val); } Collections.sort(res); String qry = "select _val from Integer order by _val "; assertEqualsCollections(res, columnQuery(c, qry)); assertEqualsCollections(res.subList(0, 0), columnQuery(c, qry + "limit ?", 0)); assertEqualsCollections(res.subList(0, 3), columnQuery(c, qry + "limit ?", 3)); assertEqualsCollections(res.subList(0, 9), columnQuery(c, qry + "limit ? offset ?", 9, 0)); assertEqualsCollections(res.subList(3, 7), columnQuery(c, qry + "limit ? offset ?", 4, 3)); assertEqualsCollections(res.subList(7, 9), columnQuery(c, qry + "limit ? offset ?", 2, 7)); assertEqualsCollections(res.subList(8, 10), columnQuery(c, qry + "limit ? offset ?", 2, 8)); assertEqualsCollections(res.subList(9, 10), columnQuery(c, qry + "limit ? offset ?", 1, 9)); assertEqualsCollections(res.subList(10, 10), columnQuery(c, qry + "limit ? offset ?", 1, 10)); assertEqualsCollections( res.subList(9, 10), columnQuery(c, qry + "limit ? offset abs(-(4 + ?))", 1, 5)); } finally { c.destroy(); } }
/** @throws Exception If failed. */ public void testGroupIndexOperations() throws Exception { IgniteCache<Integer, GroupIndexTestValue> c = ignite(0) .getOrCreateCache(cacheConfig("grp", false, Integer.class, GroupIndexTestValue.class)); try { // Check group index usage. String qry = "select 1 from GroupIndexTestValue "; String plan = columnQuery(c, "explain " + qry + "where a = 1 and b > 0").get(0).toString(); info("Plan: " + plan); assertTrue(plan.contains("grpIdx")); // Sorted list List<GroupIndexTestValue> list = F.asList( new GroupIndexTestValue(0, 0), new GroupIndexTestValue(0, 5), new GroupIndexTestValue(1, 1), new GroupIndexTestValue(1, 3), new GroupIndexTestValue(2, -1), new GroupIndexTestValue(2, 2)); // Fill cache. for (int i = 0; i < list.size(); i++) c.put(i, list.get(i)); // Check results. assertEquals(1, columnQuery(c, qry + "where a = 1 and b = 1").size()); assertEquals(2, columnQuery(c, qry + "where a = 1 and b < 4").size()); assertEquals(2, columnQuery(c, qry + "where a = 1 and b <= 3").size()); assertEquals(1, columnQuery(c, qry + "where a = 1 and b < 3").size()); assertEquals(2, columnQuery(c, qry + "where a = 1 and b > 0").size()); assertEquals(1, columnQuery(c, qry + "where a = 1 and b > 1").size()); assertEquals(2, columnQuery(c, qry + "where a = 1 and b >= 1").size()); assertEquals(4, columnQuery(c, qry + "where a > 0 and b > 0").size()); assertEquals(4, columnQuery(c, qry + "where a > 0 and b >= 1").size()); assertEquals(3, columnQuery(c, qry + "where a > 0 and b > 1").size()); } finally { c.destroy(); } }
/** * @param g Grid. * @throws Exception If failed. */ private void checkNodes(Ignite g) throws Exception { IgniteCache<String, String> cache = g.cache("test"); for (char c = 'a'; c <= 'z'; c++) { String key = Character.toString(c); cache.put(key, "val-" + key); String v1 = cache.get(key); String v2 = cache.get(key); // Get second time. info("v1: " + v1); info("v2: " + v2); assertNotNull(v1); assertNotNull(v2); if (affinity(cache).mapKeyToNode(key).isLocal()) assertSame(v1, v2); else assertEquals(v1, v2); } }
/** * Checks that gets work for implicit txs. * * @param cache Cache to test. * @throws Exception If failed. */ private void checkImplicitTx(IgniteCache<String, String> cache) throws Exception { assertNull(cache.get("key1")); IgniteCache<String, String> asyncCache = cache.withAsync(); asyncCache.get("key2"); assertNull(asyncCache.future().get()); assertTrue(cache.getAll(F.asSet("key3", "key4")).isEmpty()); asyncCache.getAll(F.asSet("key5", "key6")); assertTrue(((Map) asyncCache.future().get()).isEmpty()); cache.put("key7", "key7"); cache.remove("key7", "key7"); assertNull(cache.get("key7")); checkEmpty(cache); }
/** * JUnit. * * @throws Exception If failed. */ @SuppressWarnings({"TooBroadScope"}) public void testRestarts() throws Exception { int duration = 60 * 1000; int qryThreadNum = 10; final long nodeLifeTime = 2 * 1000; final int logFreq = 20; final IgniteCache<Integer, Integer> cache = grid(0).cache(null); assert cache != null; for (int i = 0; i < KEY_CNT; i++) cache.put(i, i); assertEquals(KEY_CNT, cache.localSize()); final AtomicInteger qryCnt = new AtomicInteger(); final AtomicBoolean done = new AtomicBoolean(); IgniteInternalFuture<?> fut1 = multithreadedAsync( new CAX() { @Override public void applyx() throws IgniteCheckedException { while (!done.get()) { Collection<Cache.Entry<Integer, Integer>> res = cache.query(new SqlQuery(Integer.class, "_val >= 0")).getAll(); assertFalse(res.isEmpty()); int c = qryCnt.incrementAndGet(); if (c % logFreq == 0) info("Executed queries: " + c); } } }, qryThreadNum); final AtomicInteger restartCnt = new AtomicInteger(); CollectingEventListener lsnr = new CollectingEventListener(); for (int i = 0; i < GRID_CNT; i++) grid(i).events().localListen(lsnr, EventType.EVT_CACHE_REBALANCE_STOPPED); IgniteInternalFuture<?> fut2 = multithreadedAsync( new Callable<Object>() { @SuppressWarnings({"BusyWait"}) @Override public Object call() throws Exception { while (!done.get()) { int idx = GRID_CNT; startGrid(idx); Thread.sleep(nodeLifeTime); stopGrid(idx); int c = restartCnt.incrementAndGet(); if (c % logFreq == 0) info("Node restarts: " + c); } return true; } }, 1); Thread.sleep(duration); done.set(true); fut1.get(); fut2.get(); info("Awaiting rebalance events [restartCnt=" + restartCnt.get() + ']'); boolean success = lsnr.awaitEvents(GRID_CNT * 2 * restartCnt.get(), 15000); for (int i = 0; i < GRID_CNT; i++) grid(i).events().stopLocalListen(lsnr, EventType.EVT_CACHE_REBALANCE_STOPPED); assert success; }