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Example 6 with GridH2QueryContext

use of org.apache.ignite.internal.processors.query.h2.opt.GridH2QueryContext in project ignite by apache.

the class GridH2IndexBase method onIndexRangeRequest.

/**
     * @param node Requesting node.
     * @param msg Request message.
     */
private void onIndexRangeRequest(final ClusterNode node, final GridH2IndexRangeRequest msg) {
    GridH2IndexRangeResponse res = new GridH2IndexRangeResponse();
    res.originNodeId(msg.originNodeId());
    res.queryId(msg.queryId());
    res.originSegmentId(msg.originSegmentId());
    res.segment(msg.segment());
    res.batchLookupId(msg.batchLookupId());
    GridH2QueryContext qctx = GridH2QueryContext.get(kernalContext().localNodeId(), msg.originNodeId(), msg.queryId(), msg.originSegmentId(), MAP);
    if (qctx == null)
        res.status(STATUS_NOT_FOUND);
    else {
        try {
            RangeSource src;
            if (msg.bounds() != null) {
                // This is the first request containing all the search rows.
                IgniteTree snapshotTree = qctx.getSnapshot(idxId);
                assert !msg.bounds().isEmpty() : "empty bounds";
                src = new RangeSource(msg.bounds(), msg.segment(), snapshotTree, qctx.filter());
            } else {
                // This is request to fetch next portion of data.
                src = qctx.getSource(node.id(), msg.segment(), msg.batchLookupId());
                assert src != null;
            }
            List<GridH2RowRange> ranges = new ArrayList<>();
            int maxRows = qctx.pageSize();
            assert maxRows > 0 : maxRows;
            while (maxRows > 0) {
                GridH2RowRange range = src.next(maxRows);
                if (range == null)
                    break;
                ranges.add(range);
                if (range.rows() != null)
                    maxRows -= range.rows().size();
            }
            assert !ranges.isEmpty();
            if (src.hasMoreRows()) {
                // Save source for future fetches.
                if (msg.bounds() != null)
                    qctx.putSource(node.id(), msg.segment(), msg.batchLookupId(), src);
            } else if (msg.bounds() == null) {
                // Drop saved source.
                qctx.putSource(node.id(), msg.segment(), msg.batchLookupId(), null);
            }
            res.ranges(ranges);
            res.status(STATUS_OK);
        } catch (Throwable th) {
            U.error(log, "Failed to process request: " + msg, th);
            res.error(th.getClass() + ": " + th.getMessage());
            res.status(STATUS_ERROR);
        }
    }
    send(singletonList(node), res);
}
Also used : GridH2IndexRangeResponse(org.apache.ignite.internal.processors.query.h2.twostep.msg.GridH2IndexRangeResponse) GridH2RowRange(org.apache.ignite.internal.processors.query.h2.twostep.msg.GridH2RowRange)

Example 7 with GridH2QueryContext

use of org.apache.ignite.internal.processors.query.h2.opt.GridH2QueryContext in project ignite by apache.

the class GridReduceQueryExecutor method query.

/**
     * @param schemaName Schema name.
     * @param qry Query.
     * @param keepBinary Keep binary.
     * @param enforceJoinOrder Enforce join order of tables.
     * @param timeoutMillis Timeout in milliseconds.
     * @param cancel Query cancel.
     * @param params Query parameters.
     * @param parts Partitions.
     * @return Rows iterator.
     */
public Iterator<List<?>> query(String schemaName, GridCacheTwoStepQuery qry, boolean keepBinary, boolean enforceJoinOrder, int timeoutMillis, GridQueryCancel cancel, Object[] params, final int[] parts) {
    if (F.isEmpty(params))
        params = EMPTY_PARAMS;
    final boolean isReplicatedOnly = qry.isReplicatedOnly();
    // Fail if all caches are replicated and explicit partitions are set.
    for (int attempt = 0; ; attempt++) {
        if (attempt != 0) {
            try {
                // Wait for exchange.
                Thread.sleep(attempt * 10);
            } catch (InterruptedException e) {
                Thread.currentThread().interrupt();
                throw new CacheException("Query was interrupted.", e);
            }
        }
        final long qryReqId = qryIdGen.incrementAndGet();
        final ReduceQueryRun r = new ReduceQueryRun(qryReqId, qry.originalSql(), schemaName, h2.connectionForSchema(schemaName), qry.mapQueries().size(), qry.pageSize(), U.currentTimeMillis(), cancel);
        AffinityTopologyVersion topVer = h2.readyTopologyVersion();
        List<Integer> cacheIds = qry.cacheIds();
        Collection<ClusterNode> nodes = null;
        // Explicit partition mapping for unstable topology.
        Map<ClusterNode, IntArray> partsMap = null;
        // Explicit partitions mapping for query.
        Map<ClusterNode, IntArray> qryMap = null;
        // Partitions are not supported for queries over all replicated caches.
        if (parts != null) {
            boolean replicatedOnly = true;
            for (Integer cacheId : cacheIds) {
                if (!cacheContext(cacheId).isReplicated()) {
                    replicatedOnly = false;
                    break;
                }
            }
            if (replicatedOnly)
                throw new CacheException("Partitions are not supported for replicated caches");
        }
        if (qry.isLocal())
            nodes = singletonList(ctx.discovery().localNode());
        else {
            if (isPreloadingActive(cacheIds)) {
                if (isReplicatedOnly)
                    nodes = replicatedUnstableDataNodes(cacheIds);
                else {
                    partsMap = partitionedUnstableDataNodes(cacheIds);
                    if (partsMap != null) {
                        qryMap = narrowForQuery(partsMap, parts);
                        nodes = qryMap == null ? null : qryMap.keySet();
                    }
                }
            } else {
                qryMap = stableDataNodes(isReplicatedOnly, topVer, cacheIds, parts);
                if (qryMap != null)
                    nodes = qryMap.keySet();
            }
            if (nodes == null)
                // Retry.
                continue;
            assert !nodes.isEmpty();
            if (isReplicatedOnly || qry.explain()) {
                ClusterNode locNode = ctx.discovery().localNode();
                // Always prefer local node if possible.
                if (nodes.contains(locNode))
                    nodes = singletonList(locNode);
                else {
                    // Select random data node to run query on a replicated data or
                    // get EXPLAIN PLAN from a single node.
                    nodes = singletonList(F.rand(nodes));
                }
            }
        }
        int tblIdx = 0;
        final boolean skipMergeTbl = !qry.explain() && qry.skipMergeTable();
        final int segmentsPerIndex = qry.explain() || isReplicatedOnly ? 1 : findFirstPartitioned(cacheIds).config().getQueryParallelism();
        int replicatedQrysCnt = 0;
        for (GridCacheSqlQuery mapQry : qry.mapQueries()) {
            GridMergeIndex idx;
            if (!skipMergeTbl) {
                GridMergeTable tbl;
                try {
                    tbl = createMergeTable(r.connection(), mapQry, qry.explain());
                } catch (IgniteCheckedException e) {
                    throw new IgniteException(e);
                }
                idx = tbl.getMergeIndex();
                fakeTable(r.connection(), tblIdx++).innerTable(tbl);
            } else
                idx = GridMergeIndexUnsorted.createDummy(ctx);
            // If the query has only replicated tables, we have to run it on a single node only.
            if (!mapQry.isPartitioned()) {
                ClusterNode node = F.rand(nodes);
                mapQry.node(node.id());
                replicatedQrysCnt++;
                // Replicated tables can have only 1 segment.
                idx.setSources(singletonList(node), 1);
            } else
                idx.setSources(nodes, segmentsPerIndex);
            idx.setPageSize(r.pageSize());
            r.indexes().add(idx);
        }
        r.latch(new CountDownLatch(isReplicatedOnly ? 1 : (r.indexes().size() - replicatedQrysCnt) * nodes.size() * segmentsPerIndex + replicatedQrysCnt));
        runs.put(qryReqId, r);
        try {
            cancel.checkCancelled();
            if (ctx.clientDisconnected()) {
                throw new CacheException("Query was cancelled, client node disconnected.", new IgniteClientDisconnectedException(ctx.cluster().clientReconnectFuture(), "Client node disconnected."));
            }
            List<GridCacheSqlQuery> mapQrys = qry.mapQueries();
            if (qry.explain()) {
                mapQrys = new ArrayList<>(qry.mapQueries().size());
                for (GridCacheSqlQuery mapQry : qry.mapQueries()) mapQrys.add(new GridCacheSqlQuery("EXPLAIN " + mapQry.query()).parameterIndexes(mapQry.parameterIndexes()));
            }
            final boolean distributedJoins = qry.distributedJoins();
            final Collection<ClusterNode> finalNodes = nodes;
            cancel.set(new Runnable() {

                @Override
                public void run() {
                    send(finalNodes, new GridQueryCancelRequest(qryReqId), null, false);
                }
            });
            boolean retry = false;
            // Always enforce join order on map side to have consistent behavior.
            int flags = GridH2QueryRequest.FLAG_ENFORCE_JOIN_ORDER;
            if (distributedJoins)
                flags |= GridH2QueryRequest.FLAG_DISTRIBUTED_JOINS;
            if (qry.isLocal())
                flags |= GridH2QueryRequest.FLAG_IS_LOCAL;
            if (qry.explain())
                flags |= GridH2QueryRequest.FLAG_EXPLAIN;
            if (isReplicatedOnly)
                flags |= GridH2QueryRequest.FLAG_REPLICATED;
            GridH2QueryRequest req = new GridH2QueryRequest().requestId(qryReqId).topologyVersion(topVer).pageSize(r.pageSize()).caches(qry.cacheIds()).tables(distributedJoins ? qry.tables() : null).partitions(convert(partsMap)).queries(mapQrys).parameters(params).flags(flags).timeout(timeoutMillis).schemaName(schemaName);
            if (send(nodes, req, parts == null ? null : new ExplicitPartitionsSpecializer(qryMap), false)) {
                awaitAllReplies(r, nodes, cancel);
                Object state = r.state();
                if (state != null) {
                    if (state instanceof CacheException) {
                        CacheException err = (CacheException) state;
                        if (err.getCause() instanceof IgniteClientDisconnectedException)
                            throw err;
                        if (wasCancelled(err))
                            // Throw correct exception.
                            throw new QueryCancelledException();
                        throw new CacheException("Failed to run map query remotely.", err);
                    }
                    if (state instanceof AffinityTopologyVersion) {
                        retry = true;
                        // If remote node asks us to retry then we have outdated full partition map.
                        h2.awaitForReadyTopologyVersion((AffinityTopologyVersion) state);
                    }
                }
            } else
                // Send failed.
                retry = true;
            Iterator<List<?>> resIter = null;
            if (!retry) {
                if (skipMergeTbl) {
                    List<List<?>> res = new ArrayList<>();
                    // Simple UNION ALL can have multiple indexes.
                    for (GridMergeIndex idx : r.indexes()) {
                        Cursor cur = idx.findInStream(null, null);
                        while (cur.next()) {
                            Row row = cur.get();
                            int cols = row.getColumnCount();
                            List<Object> resRow = new ArrayList<>(cols);
                            for (int c = 0; c < cols; c++) resRow.add(row.getValue(c).getObject());
                            res.add(resRow);
                        }
                    }
                    resIter = res.iterator();
                } else {
                    cancel.checkCancelled();
                    UUID locNodeId = ctx.localNodeId();
                    H2Utils.setupConnection(r.connection(), false, enforceJoinOrder);
                    GridH2QueryContext.set(new GridH2QueryContext(locNodeId, locNodeId, qryReqId, REDUCE).pageSize(r.pageSize()).distributedJoinMode(OFF));
                    try {
                        if (qry.explain())
                            return explainPlan(r.connection(), qry, params);
                        GridCacheSqlQuery rdc = qry.reduceQuery();
                        ResultSet res = h2.executeSqlQueryWithTimer(r.connection(), rdc.query(), F.asList(rdc.parameters(params)), // The statement will cache some extra thread local objects.
                        false, timeoutMillis, cancel);
                        resIter = new H2FieldsIterator(res);
                    } finally {
                        GridH2QueryContext.clearThreadLocal();
                    }
                }
            }
            if (retry) {
                if (Thread.currentThread().isInterrupted())
                    throw new IgniteInterruptedCheckedException("Query was interrupted.");
                continue;
            }
            return new GridQueryCacheObjectsIterator(resIter, h2.objectContext(), keepBinary);
        } catch (IgniteCheckedException | RuntimeException e) {
            U.closeQuiet(r.connection());
            if (e instanceof CacheException) {
                if (wasCancelled((CacheException) e))
                    throw new CacheException("Failed to run reduce query locally.", new QueryCancelledException());
                throw (CacheException) e;
            }
            Throwable cause = e;
            if (e instanceof IgniteCheckedException) {
                Throwable disconnectedErr = ((IgniteCheckedException) e).getCause(IgniteClientDisconnectedException.class);
                if (disconnectedErr != null)
                    cause = disconnectedErr;
            }
            throw new CacheException("Failed to run reduce query locally.", cause);
        } finally {
            // Make sure any activity related to current attempt is cancelled.
            cancelRemoteQueriesIfNeeded(nodes, r, qryReqId, qry.distributedJoins());
            if (!runs.remove(qryReqId, r))
                U.warn(log, "Query run was already removed: " + qryReqId);
            if (!skipMergeTbl) {
                for (int i = 0, mapQrys = qry.mapQueries().size(); i < mapQrys; i++) // Drop all merge tables.
                fakeTable(null, i).innerTable(null);
            }
        }
    }
}
Also used : GridQueryCancelRequest(org.apache.ignite.internal.processors.query.h2.twostep.messages.GridQueryCancelRequest) CacheException(javax.cache.CacheException) ArrayList(java.util.ArrayList) H2FieldsIterator(org.apache.ignite.internal.processors.query.h2.H2FieldsIterator) Cursor(org.h2.index.Cursor) GridQueryCacheObjectsIterator(org.apache.ignite.internal.processors.query.GridQueryCacheObjectsIterator) IgniteInterruptedCheckedException(org.apache.ignite.internal.IgniteInterruptedCheckedException) IgniteCheckedException(org.apache.ignite.IgniteCheckedException) IntArray(org.h2.util.IntArray) IgniteException(org.apache.ignite.IgniteException) ResultSet(java.sql.ResultSet) Collections.singletonList(java.util.Collections.singletonList) GridIntList(org.apache.ignite.internal.util.GridIntList) List(java.util.List) ArrayList(java.util.ArrayList) GridCacheSqlQuery(org.apache.ignite.internal.processors.cache.query.GridCacheSqlQuery) UUID(java.util.UUID) GridH2QueryContext(org.apache.ignite.internal.processors.query.h2.opt.GridH2QueryContext) ClusterNode(org.apache.ignite.cluster.ClusterNode) AffinityTopologyVersion(org.apache.ignite.internal.processors.affinity.AffinityTopologyVersion) IgniteClientDisconnectedException(org.apache.ignite.IgniteClientDisconnectedException) GridH2QueryRequest(org.apache.ignite.internal.processors.query.h2.twostep.msg.GridH2QueryRequest) CountDownLatch(java.util.concurrent.CountDownLatch) Row(org.h2.result.Row) QueryCancelledException(org.apache.ignite.cache.query.QueryCancelledException)

Aggregations

GridH2QueryContext (org.apache.ignite.internal.processors.query.h2.opt.GridH2QueryContext)5 Connection (java.sql.Connection)4 ResultSet (java.sql.ResultSet)4 ArrayList (java.util.ArrayList)4 List (java.util.List)3 IgniteCheckedException (org.apache.ignite.IgniteCheckedException)3 IgniteSQLException (org.apache.ignite.internal.processors.query.IgniteSQLException)3 PreparedStatement (java.sql.PreparedStatement)2 SQLException (java.sql.SQLException)2 UUID (java.util.UUID)2 CacheException (javax.cache.CacheException)2 IgniteSystemProperties.getString (org.apache.ignite.IgniteSystemProperties.getString)2 QueryCancelledException (org.apache.ignite.cache.query.QueryCancelledException)2 JdbcSqlFieldsQuery (org.apache.ignite.internal.jdbc2.JdbcSqlFieldsQuery)2 GridCacheSqlQuery (org.apache.ignite.internal.processors.cache.query.GridCacheSqlQuery)2 QueryTable (org.apache.ignite.internal.processors.cache.query.QueryTable)2 GridQueryFieldMetadata (org.apache.ignite.internal.processors.query.GridQueryFieldMetadata)2 GridRunningQueryInfo (org.apache.ignite.internal.processors.query.GridRunningQueryInfo)2 GridH2Table (org.apache.ignite.internal.processors.query.h2.opt.GridH2Table)2 Prepared (org.h2.command.Prepared)2