/** Compares our trees, and triggers repairs for any ranges that mismatch. */ public void run() { InetAddress local = FBUtilities.getLocalAddress(); // restore partitioners (in case we were serialized) if (ltree.partitioner() == null) ltree.partitioner(StorageService.getPartitioner()); if (rtree.partitioner() == null) rtree.partitioner(StorageService.getPartitioner()); // compare trees, and collect differences differences.addAll(MerkleTree.difference(ltree, rtree)); // choose a repair method based on the significance of the difference String format = "Endpoints " + local + " and " + remote + " %s for " + cfname + " on " + range; if (differences.isEmpty()) { logger.info(String.format(format, "are consistent")); completed(remote, cfname); return; } // non-0 difference: perform streaming repair logger.info(String.format(format, "have " + differences.size() + " range(s) out of sync")); try { performStreamingRepair(); } catch (IOException e) { throw new RuntimeException(e); } }
public void prepare(ColumnFamilyStore cfs) { if (tree.partitioner() instanceof RandomPartitioner) { // You can't beat an even tree distribution for md5 tree.init(); } else { List<DecoratedKey> keys = new ArrayList<DecoratedKey>(); for (DecoratedKey sample : cfs.keySamples(request.range)) { assert request.range.contains(sample.token) : "Token " + sample.token + " is not within range " + request.range; keys.add(sample); } if (keys.isEmpty()) { // use an even tree distribution tree.init(); } else { int numkeys = keys.size(); Random random = new Random(); // sample the column family using random keys from the index while (true) { DecoratedKey dk = keys.get(random.nextInt(numkeys)); if (!tree.split(dk.token)) break; } } } logger.debug("Prepared AEService tree of size " + tree.size() + " for " + request); ranges = tree.invalids(); }