CWuidReadSlaveActivity(CGraphElementBase *_container) : CSlaveActivity(_container), CThorDataLink(this) { replyTag = createReplyTag(); replyStream.setown(createMemoryBufferSerialStream(masterReplyMsg)); rowSource.setStream(replyStream); }
virtual void process() override { ActPrintLog("INDEXWRITE: Start"); init(); IRowStream *stream = inputStream; ThorDataLinkMetaInfo info; input->getMetaInfo(info); outRowAllocator.setown(getRowAllocator(helper->queryDiskRecordSize())); start(); if (refactor) { assertex(isLocal); if (active) { unsigned targetWidth = partDesc->queryOwner().numParts()-(buildTlk?1:0); assertex(0 == container.queryJob().querySlaves() % targetWidth); unsigned partsPerNode = container.queryJob().querySlaves() / targetWidth; unsigned myPart = queryJobChannel().queryMyRank(); IArrayOf<IRowStream> streams; streams.append(*LINK(stream)); --partsPerNode; // Should this be merging 1,11,21,31 etc. unsigned p=0; unsigned fromPart = targetWidth+1 + (partsPerNode * (myPart-1)); for (; p<partsPerNode; p++) { streams.append(*createRowStreamFromNode(*this, fromPart++, queryJobChannel().queryJobComm(), mpTag, abortSoon)); } ICompare *icompare = helper->queryCompare(); assertex(icompare); Owned<IRowLinkCounter> linkCounter = new CThorRowLinkCounter; myInputStream.setown(createRowStreamMerger(streams.ordinality(), streams.getArray(), icompare, false, linkCounter)); stream = myInputStream; } else // serve nodes, creating merged parts rowServer.setown(createRowServer(this, stream, queryJobChannel().queryJobComm(), mpTag)); } processed = THORDATALINK_STARTED; // single part key support // has to serially pull all data fron nodes 2-N // nodes 2-N, could/should start pushing some data (as it's supposed to be small) to cut down on serial nature. unsigned node = queryJobChannel().queryMyRank(); if (singlePartKey) { if (1 == node) { try { open(*partDesc, false, helper->queryDiskRecordSize()->isVariableSize()); loop { OwnedConstThorRow row = inputStream->ungroupedNextRow(); if (!row) break; if (abortSoon) return; processRow(row); } unsigned node = 2; while (node <= container.queryJob().querySlaves()) { Linked<IOutputRowDeserializer> deserializer = ::queryRowDeserializer(input); CMessageBuffer mb; Owned<ISerialStream> stream = createMemoryBufferSerialStream(mb); CThorStreamDeserializerSource rowSource; rowSource.setStream(stream); bool successSR; loop { { BooleanOnOff tf(receivingTag2); successSR = queryJobChannel().queryJobComm().sendRecv(mb, node, mpTag2); } if (successSR) { if (rowSource.eos()) break; Linked<IEngineRowAllocator> allocator = ::queryRowAllocator(input); do { RtlDynamicRowBuilder rowBuilder(allocator); size32_t sz = deserializer->deserialize(rowBuilder, rowSource); OwnedConstThorRow fRow = rowBuilder.finalizeRowClear(sz); processRow(fRow); } while (!rowSource.eos()); } } node++; } } catch (CATCHALL) { close(*partDesc, partCrc, true); throw; } close(*partDesc, partCrc, true); doStopInput(); } else { CMessageBuffer mb; CMemoryRowSerializer mbs(mb); Linked<IOutputRowSerializer> serializer = ::queryRowSerializer(input); loop { BooleanOnOff tf(receivingTag2); if (queryJobChannel().queryJobComm().recv(mb, 1, mpTag2)) // node 1 asking for more.. { if (abortSoon) break; mb.clear(); do { OwnedConstThorRow row = inputStream->ungroupedNextRow(); if (!row) break; serializer->serialize(mbs, (const byte *)row.get()); } while (mb.length() < SINGLEPART_KEY_TRANSFER_SIZE); // NB: at least one row if (!queryJobChannel().queryJobComm().reply(mb)) throw MakeThorException(0, "Failed to send index data to node 1, from node %d", node); if (0 == mb.length()) break; } } } }
virtual void process() override { ActPrintLog("INDEXWRITE: Start"); init(); IRowStream *stream = inputStream; ThorDataLinkMetaInfo info; input->getMetaInfo(info); outRowAllocator.setown(getRowAllocator(helper->queryDiskRecordSize())); start(); if (refactor) { assertex(isLocal); if (active) { unsigned targetWidth = partDesc->queryOwner().numParts()-(buildTlk?1:0); assertex(0 == container.queryJob().querySlaves() % targetWidth); unsigned partsPerNode = container.queryJob().querySlaves() / targetWidth; unsigned myPart = queryJobChannel().queryMyRank(); IArrayOf<IRowStream> streams; streams.append(*LINK(stream)); --partsPerNode; // Should this be merging 1,11,21,31 etc. unsigned p=0; unsigned fromPart = targetWidth+1 + (partsPerNode * (myPart-1)); for (; p<partsPerNode; p++) { streams.append(*createRowStreamFromNode(*this, fromPart++, queryJobChannel().queryJobComm(), mpTag, abortSoon)); } ICompare *icompare = helper->queryCompare(); assertex(icompare); Owned<IRowLinkCounter> linkCounter = new CThorRowLinkCounter; myInputStream.setown(createRowStreamMerger(streams.ordinality(), streams.getArray(), icompare, false, linkCounter)); stream = myInputStream; } else // serve nodes, creating merged parts rowServer.setown(createRowServer(this, stream, queryJobChannel().queryJobComm(), mpTag)); } processed = THORDATALINK_STARTED; // single part key support // has to serially pull all data fron nodes 2-N // nodes 2-N, could/should start pushing some data (as it's supposed to be small) to cut down on serial nature. unsigned node = queryJobChannel().queryMyRank(); if (singlePartKey) { if (1 == node) { try { open(*partDesc, false, helper->queryDiskRecordSize()->isVariableSize()); for (;;) { OwnedConstThorRow row = inputStream->ungroupedNextRow(); if (!row) break; if (abortSoon) return; processRow(row); } unsigned node = 2; while (node <= container.queryJob().querySlaves()) { Linked<IOutputRowDeserializer> deserializer = ::queryRowDeserializer(input); CMessageBuffer mb; Owned<ISerialStream> stream = createMemoryBufferSerialStream(mb); CThorStreamDeserializerSource rowSource; rowSource.setStream(stream); bool successSR; for (;;) { { BooleanOnOff tf(receivingTag2); successSR = queryJobChannel().queryJobComm().sendRecv(mb, node, mpTag2); } if (successSR) { if (rowSource.eos()) break; Linked<IEngineRowAllocator> allocator = ::queryRowAllocator(input); do { RtlDynamicRowBuilder rowBuilder(allocator); size32_t sz = deserializer->deserialize(rowBuilder, rowSource); OwnedConstThorRow fRow = rowBuilder.finalizeRowClear(sz); processRow(fRow); } while (!rowSource.eos()); } } node++; } } catch (CATCHALL) { close(*partDesc, partCrc, true); throw; } close(*partDesc, partCrc, true); stop(); } else { CMessageBuffer mb; CMemoryRowSerializer mbs(mb); Linked<IOutputRowSerializer> serializer = ::queryRowSerializer(input); for (;;) { BooleanOnOff tf(receivingTag2); if (queryJobChannel().queryJobComm().recv(mb, 1, mpTag2)) // node 1 asking for more.. { if (abortSoon) break; mb.clear(); do { OwnedConstThorRow row = inputStream->ungroupedNextRow(); if (!row) break; serializer->serialize(mbs, (const byte *)row.get()); } while (mb.length() < SINGLEPART_KEY_TRANSFER_SIZE); // NB: at least one row if (!queryJobChannel().queryJobComm().reply(mb)) throw MakeThorException(0, "Failed to send index data to node 1, from node %d", node); if (0 == mb.length()) break; } } } } else { if (!refactor || active) { try { StringBuffer partFname; getPartFilename(*partDesc, 0, partFname); ActPrintLog("INDEXWRITE: process: handling fname : %s", partFname.str()); open(*partDesc, false, helper->queryDiskRecordSize()->isVariableSize()); ActPrintLog("INDEXWRITE: write"); BooleanOnOff tf(receiving); if (!refactor || !active) receiving = false; do { OwnedConstThorRow row = inputStream->ungroupedNextRow(); if (!row) break; processRow(row); } while (!abortSoon); ActPrintLog("INDEXWRITE: write level 0 complete"); } catch (CATCHALL) { close(*partDesc, partCrc, isLocal && !buildTlk && 1 == node); throw; } close(*partDesc, partCrc, isLocal && !buildTlk && 1 == node); stop(); ActPrintLog("INDEXWRITE: Wrote %" RCPF "d records", processed & THORDATALINK_COUNT_MASK); if (buildTlk) { ActPrintLog("INDEXWRITE: sending rows"); NodeInfoArray tlkRows; CMessageBuffer msg; if (firstNode()) { if (processed & THORDATALINK_COUNT_MASK) { if (enableTlkPart0) tlkRows.append(* new CNodeInfo(0, firstRow.get(), firstRowSize, totalCount)); tlkRows.append(* new CNodeInfo(1, lastRow.get(), lastRowSize, totalCount)); } } else { if (processed & THORDATALINK_COUNT_MASK) { CNodeInfo row(queryJobChannel().queryMyRank(), lastRow.get(), lastRowSize, totalCount); row.serialize(msg); } queryJobChannel().queryJobComm().send(msg, 1, mpTag); } if (firstNode()) { ActPrintLog("INDEXWRITE: Waiting on tlk to complete"); // JCSMORE if refactor==true, is rowsToReceive here right?? unsigned rowsToReceive = (refactor ? (tlkDesc->queryOwner().numParts()-1) : container.queryJob().querySlaves()) -1; // -1 'cos got my own in array already ActPrintLog("INDEXWRITE: will wait for info from %d slaves before writing TLK", rowsToReceive); while (rowsToReceive--) { msg.clear(); receiveMsg(msg, RANK_ALL, mpTag); // NH->JCS RANK_ALL_OTHER not supported for recv if (abortSoon) return; if (msg.length()) { CNodeInfo *ni = new CNodeInfo(); ni->deserialize(msg); tlkRows.append(*ni); } } tlkRows.sort(CNodeInfo::compare); StringBuffer path; getPartFilename(*tlkDesc, 0, path); ActPrintLog("INDEXWRITE: creating toplevel key file : %s", path.str()); try { open(*tlkDesc, true, helper->queryDiskRecordSize()->isVariableSize()); if (tlkRows.length()) { CNodeInfo &lastNode = tlkRows.item(tlkRows.length()-1); memset(lastNode.value, 0xff, lastNode.size); } ForEachItemIn(idx, tlkRows) { CNodeInfo &info = tlkRows.item(idx); builder->processKeyData((char *)info.value, info.pos, info.size); } close(*tlkDesc, tlkCrc, true); } catch (CATCHALL) { abortSoon = true; close(*tlkDesc, tlkCrc, true); removeFiles(*partDesc); throw; } } } else if (!isLocal && firstNode())