public synchronized void replace( Collection<SSTableReader> oldSSTables, Iterable<SSTableReader> replacements) throws IOException { Set<SSTableReader> sstablesNew = new HashSet<SSTableReader>(sstables); for (SSTableReader sstable : replacements) { assert sstable.getIndexPositions() != null; sstablesNew.add(sstable); long size = sstable.bytesOnDisk(); liveSize.addAndGet(size); totalSize.addAndGet(size); StorageService.instance.storageLiveSize.addAndGet(size); // BIGDATA StorageService.instance.storageTotalSize.addAndGet(size); // BIGDATA sstable.setTrackedBy(this); } for (SSTableReader sstable : oldSSTables) { boolean removed = sstablesNew.remove(sstable); // BIGDATA: // assert removed; // the old sstables in compacting may already be marked compacted by reset CF. if (removed) { sstable.markCompacted(); long bytesOnDisk = sstable.bytesOnDisk(); // BIGDATA liveSize.addAndGet(-bytesOnDisk); // BIGDATA StorageService.instance.storageLiveSize.addAndGet(-bytesOnDisk); // BIGDATA } else { logger.info( "The old sstable in compacting may already be marked compacted: " + sstable.getFilename()); } } sstables = Collections.unmodifiableSet(sstablesNew); updateCacheSizes(); }
public static void main(String args[]) throws IOException { Options options = Options.parseArgs(args); try { // load keyspace descriptions. DatabaseDescriptor.loadSchemas(); String ksName = null; String cfName = null; Map<Descriptor, Set<Component>> parsedFilenames = new HashMap<Descriptor, Set<Component>>(); for (String filename : options.filenames) { File file = new File(filename); if (!file.exists()) { System.out.println("Skipping inexisting file " + file); continue; } Pair<Descriptor, Component> pair = SSTable.tryComponentFromFilename(file.getParentFile(), file.getName()); if (pair == null) { System.out.println("Skipping non sstable file " + file); continue; } Descriptor desc = pair.left; if (ksName == null) ksName = desc.ksname; else if (!ksName.equals(desc.ksname)) throw new IllegalArgumentException("All sstables must be part of the same keyspace"); if (cfName == null) cfName = desc.cfname; else if (!cfName.equals(desc.cfname)) throw new IllegalArgumentException("All sstables must be part of the same column family"); Set<Component> components = new HashSet<Component>( Arrays.asList( new Component[] { Component.DATA, Component.PRIMARY_INDEX, Component.FILTER, Component.COMPRESSION_INFO, Component.STATS })); Iterator<Component> iter = components.iterator(); while (iter.hasNext()) { Component component = iter.next(); if (!(new File(desc.filenameFor(component)).exists())) iter.remove(); } parsedFilenames.put(desc, components); } if (ksName == null || cfName == null) { System.err.println("No valid sstables to split"); System.exit(1); } // Do not load sstables since they might be broken Table table = Table.openWithoutSSTables(ksName); ColumnFamilyStore cfs = table.getColumnFamilyStore(cfName); String snapshotName = "pre-split-" + System.currentTimeMillis(); List<SSTableReader> sstables = new ArrayList<SSTableReader>(); for (Map.Entry<Descriptor, Set<Component>> fn : parsedFilenames.entrySet()) { try { SSTableReader sstable = SSTableReader.openNoValidation(fn.getKey(), fn.getValue(), cfs.metadata); sstables.add(sstable); if (options.snapshot) { File snapshotDirectory = Directories.getSnapshotDirectory(sstable.descriptor, snapshotName); sstable.createLinks(snapshotDirectory.getPath()); } } catch (Exception e) { System.err.println(String.format("Error Loading %s: %s", fn.getKey(), e.getMessage())); if (options.debug) e.printStackTrace(System.err); } } if (options.snapshot) System.out.println( String.format("Pre-split sstables snapshotted into snapshot %s", snapshotName)); cfs.getDataTracker().markCompacting(sstables); for (SSTableReader sstable : sstables) { try { new SSTableSplitter(cfs, sstable, options.sizeInMB).split(); // Remove the sstable sstable.markCompacted(); sstable.releaseReference(); } catch (Exception e) { System.err.println(String.format("Error splitting %s: %s", sstable, e.getMessage())); if (options.debug) e.printStackTrace(System.err); } } SSTableDeletingTask.waitForDeletions(); System.exit(0); // We need that to stop non daemonized threads } catch (Exception e) { System.err.println(e.getMessage()); if (options.debug) e.printStackTrace(System.err); System.exit(1); } }