/** * @param args * @throws InvalidThresholdException * @throws IOException * @throws NodeInitException * @throws InterruptedException */ public static void main(String[] args) throws InvalidThresholdException, IOException, NodeInitException, InterruptedException { Node secondNode = null; try { String ipOverride = null; if (args.length > 0) ipOverride = args[0]; File dir = new File("bootstrap-pull-test"); FileUtil.removeAll(dir); RandomSource random = NodeStarter.globalTestInit(dir.getPath(), false, Logger.ERROR, "", false); byte[] seed = new byte[64]; random.nextBytes(seed); MersenneTwister fastRandom = new MersenneTwister(seed); File seednodes = new File("seednodes.fref"); if (!seednodes.exists() || seednodes.length() == 0 || !seednodes.canRead()) { System.err.println("Unable to read seednodes.fref, it doesn't exist, or is empty"); System.exit(EXIT_NO_SEEDNODES); } File secondInnerDir = new File(dir, Integer.toString(DARKNET_PORT)); secondInnerDir.mkdir(); FileInputStream fis = new FileInputStream(seednodes); FileUtil.writeTo(fis, new File(secondInnerDir, "seednodes.fref")); fis.close(); // Create the test data System.out.println("Creating test data."); File dataFile = File.createTempFile("testdata", ".tmp", dir); OutputStream os = new FileOutputStream(dataFile); byte[] buf = new byte[4096]; for (long written = 0; written < TEST_SIZE; ) { fastRandom.nextBytes(buf); int toWrite = (int) Math.min(TEST_SIZE - written, buf.length); os.write(buf, 0, toWrite); written += toWrite; } os.close(); // Insert it to the established node. System.out.println("Inserting test data to an established node."); FreenetURI uri = insertData(dataFile); // Bootstrap a second node. secondInnerDir.mkdir(); fis = new FileInputStream(seednodes); FileUtil.writeTo(fis, new File(secondInnerDir, "seednodes.fref")); fis.close(); PooledExecutor executor = new PooledExecutor(); secondNode = NodeStarter.createTestNode( DARKNET_PORT, OPENNET_PORT, dir.getPath(), false, Node.DEFAULT_MAX_HTL, 0, random, executor, 1000, 5 * 1024 * 1024, true, true, true, true, true, true, true, 12 * 1024, false, true, ipOverride); secondNode.start(true); if (!TestUtil.waitForNodes(secondNode, TARGET_PEERS)) { secondNode.park(); System.exit(EXIT_FAILED_TARGET); } // Fetch the data long startFetchTime = System.currentTimeMillis(); HighLevelSimpleClient client = secondNode.clientCore.makeClient((short) 0); try { client.fetch(uri); } catch (FetchException e) { System.err.println("FETCH FAILED: " + e); e.printStackTrace(); System.exit(EXIT_FETCH_FAILED); return; } long endFetchTime = System.currentTimeMillis(); System.out.println( "RESULT: Fetch took " + (endFetchTime - startFetchTime) + "ms (" + TimeUtil.formatTime(endFetchTime - startFetchTime) + ") of " + uri + " ."); secondNode.park(); System.exit(0); } catch (Throwable t) { System.err.println("CAUGHT: " + t); t.printStackTrace(); try { if (secondNode != null) secondNode.park(); } catch (Throwable t1) { } ; System.exit(EXIT_THREW_SOMETHING); } }
public static void main(String[] args) { if (args.length < 1 || args.length > 2) { System.err.println( "Usage: java freenet.node.simulator.LongTermPushPullTest <unique identifier>"); System.exit(1); } String uid = args[0]; List<String> csvLine = new ArrayList<String>(); System.out.println("DATE:" + dateFormat.format(today.getTime())); csvLine.add(dateFormat.format(today.getTime())); System.out.println("Version:" + Version.buildNumber()); csvLine.add(String.valueOf(Version.buildNumber())); int exitCode = 0; Node node = null; Node node2 = null; FileInputStream fis = null; File file = new File("many-single-blocks-test-" + uid + ".csv"); long t1, t2; try { // INSERT STUFF final File dir = new File("longterm-mhk-test-" + uid); FileUtil.removeAll(dir); RandomSource random = NodeStarter.globalTestInit(dir.getPath(), false, LogLevel.ERROR, "", false); File seednodes = new File("seednodes.fref"); if (!seednodes.exists() || seednodes.length() == 0 || !seednodes.canRead()) { System.err.println("Unable to read seednodes.fref, it doesn't exist, or is empty"); System.exit(EXIT_NO_SEEDNODES); } final File innerDir = new File(dir, Integer.toString(DARKNET_PORT1)); innerDir.mkdir(); fis = new FileInputStream(seednodes); FileUtil.writeTo(fis, new File(innerDir, "seednodes.fref")); fis.close(); // Create one node node = NodeStarter.createTestNode( DARKNET_PORT1, OPENNET_PORT1, dir.getPath(), false, Node.DEFAULT_MAX_HTL, 0, random, new PooledExecutor(), 1000, 4 * 1024 * 1024, true, true, true, true, true, true, true, 12 * 1024, true, true, false, false, null); Logger.getChain().setThreshold(LogLevel.ERROR); // Start it node.start(true); t1 = System.currentTimeMillis(); if (!TestUtil.waitForNodes(node)) { exitCode = EXIT_FAILED_TARGET; return; } t2 = System.currentTimeMillis(); System.out.println("SEED-TIME:" + (t2 - t1)); csvLine.add(String.valueOf(t2 - t1)); HighLevelSimpleClient client = node.clientCore.makeClient((short) 0, false, false); int successes = 0; long startInsertsTime = System.currentTimeMillis(); InsertBatch batch = new InsertBatch(client); // Inserts are sloooooow so do them in parallel. for (int i = 0; i < INSERTED_BLOCKS; i++) { System.err.println("Inserting block " + i); RandomAccessBucket single = randomData(node); InsertBlock block = new InsertBlock(single, new ClientMetadata(), FreenetURI.EMPTY_CHK_URI); batch.startInsert(block); } batch.waitUntilFinished(); FreenetURI[] uris = batch.getURIs(); long[] times = batch.getTimes(); InsertException[] errors = batch.getErrors(); for (int i = 0; i < INSERTED_BLOCKS; i++) { if (uris[i] != null) { csvLine.add(String.valueOf(times[i])); csvLine.add(uris[i].toASCIIString()); System.out.println("Pushed block " + i + " : " + uris[i] + " in " + times[i]); successes++; } else { csvLine.add(InsertException.getShortMessage(errors[i].getMode())); csvLine.add("N/A"); System.out.println("Failed to push block " + i + " : " + errors[i]); } } long endInsertsTime = System.currentTimeMillis(); System.err.println( "Succeeded inserts: " + successes + " of " + INSERTED_BLOCKS + " in " + (endInsertsTime - startInsertsTime) + "ms"); FetchContext fctx = client.getFetchContext(); fctx.maxNonSplitfileRetries = 0; fctx.maxSplitfileBlockRetries = 0; RequestClient requestContext = new RequestClientBuilder().build(); // PARSE FILE AND FETCH OLD STUFF IF APPROPRIATE FreenetURI[] mhkURIs = new FreenetURI[3]; fis = new FileInputStream(file); BufferedReader br = new BufferedReader(new InputStreamReader(fis, ENCODING)); String line = null; GregorianCalendar target = (GregorianCalendar) today.clone(); target.set(Calendar.HOUR_OF_DAY, 0); target.set(Calendar.MINUTE, 0); target.set(Calendar.MILLISECOND, 0); target.set(Calendar.SECOND, 0); GregorianCalendar[] targets = new GregorianCalendar[MAX_N + 1]; for (int i = 0; i < targets.length; i++) { targets[i] = ((GregorianCalendar) target.clone()); targets[i].add(Calendar.DAY_OF_MONTH, -((1 << i) - 1)); targets[i].getTime(); } int[] totalFetchesByDelta = new int[MAX_N + 1]; int[] totalSuccessfulFetchesByDelta = new int[MAX_N + 1]; long[] totalFetchTimeByDelta = new long[MAX_N + 1]; loopOverLines: while ((line = br.readLine()) != null) { for (int i = 0; i < mhkURIs.length; i++) mhkURIs[i] = null; // System.out.println("LINE: "+line); String[] split = line.split("!"); Date date = dateFormat.parse(split[0]); GregorianCalendar calendar = new GregorianCalendar(TimeZone.getTimeZone("GMT")); calendar.setTime(date); System.out.println("Date: " + dateFormat.format(calendar.getTime())); calendar.set(Calendar.HOUR_OF_DAY, 0); calendar.set(Calendar.MINUTE, 0); calendar.set(Calendar.MILLISECOND, 0); calendar.set(Calendar.SECOND, 0); calendar.getTime(); FreenetURI[] insertedURIs = new FreenetURI[INSERTED_BLOCKS]; int[] insertTimes = new int[INSERTED_BLOCKS]; if (split.length < 3) continue; int seedTime = Integer.parseInt(split[2]); System.out.println("Seed time: " + seedTime); if (split.length < 4) continue; int token = 3; if (split.length < token + INSERTED_BLOCKS * 2) continue; for (int i = 0; i < INSERTED_BLOCKS; i++) { try { insertTimes[i] = Integer.parseInt(split[token]); } catch (NumberFormatException e) { insertTimes[i] = -1; } token++; try { insertedURIs[i] = new FreenetURI(split[token]); } catch (MalformedURLException e) { insertedURIs[i] = null; } token++; System.out.println("Key insert " + i + " : " + insertedURIs[i] + " in " + insertTimes[i]); } for (int i = 0; i < targets.length; i++) { if (Math.abs(targets[i].getTimeInMillis() - calendar.getTimeInMillis()) < HOURS.toMillis(12)) { System.out.println("Found row for target date " + ((1 << i) - 1) + " days ago."); System.out.println("Version: " + split[1]); csvLine.add(Integer.toString(i)); int pulled = 0; int inserted = 0; for (int j = 0; j < INSERTED_BLOCKS; j++) { if (insertedURIs[j] == null) { csvLine.add("INSERT FAILED"); continue; } inserted++; try { t1 = System.currentTimeMillis(); FetchWaiter fw = new FetchWaiter(requestContext); client.fetch(insertedURIs[j], 32768, fw, fctx); fw.waitForCompletion(); t2 = System.currentTimeMillis(); System.out.println("PULL-TIME FOR BLOCK " + j + ": " + (t2 - t1)); csvLine.add(String.valueOf(t2 - t1)); pulled++; } catch (FetchException e) { if (e.getMode() != FetchExceptionMode.ALL_DATA_NOT_FOUND && e.getMode() != FetchExceptionMode.DATA_NOT_FOUND) e.printStackTrace(); csvLine.add(FetchException.getShortMessage(e.getMode())); System.err.println("FAILED PULL FOR BLOCK " + j + ": " + e); } } System.out.println( "Pulled " + pulled + " blocks of " + inserted + " from " + ((1 << i) - 1) + " days ago."); } } while (split.length > token + INSERTED_BLOCKS) { int delta; try { delta = Integer.parseInt(split[token]); } catch (NumberFormatException e) { System.err.println("Unable to parse token " + token + " = \"" + token + "\""); System.err.println("This is supposed to be a delta"); System.err.println( "Skipping the rest of the line for date " + dateFormat.format(calendar.getTime())); continue loopOverLines; } System.out.println("Delta: " + ((1 << delta) - 1) + " days"); token++; int totalFetchTime = 0; int totalSuccesses = 0; int totalFetches = 0; for (int i = 0; i < INSERTED_BLOCKS; i++) { if (split[token].equals("")) continue; int mhkFetchTime = -1; totalFetches++; try { mhkFetchTime = Integer.parseInt(split[token]); System.out.println( "Fetched block #" + i + " on " + date + " in " + mhkFetchTime + "ms"); totalSuccesses++; totalFetchTime += mhkFetchTime; } catch (NumberFormatException e) { System.out.println("Failed block #" + i + " on " + date + " : " + split[token]); } token++; } totalFetchesByDelta[delta] += totalFetches; totalSuccessfulFetchesByDelta[delta] += totalSuccesses; totalFetchTimeByDelta[delta] += totalFetchTime; System.err.println( "Succeeded: " + totalSuccesses + " of " + totalFetches + " average " + ((double) totalFetchTime) / ((double) totalSuccesses) + "ms for delta " + delta + " on " + dateFormat.format(date)); } } System.out.println(); System.out.println(); for (int i = 0; i < MAX_N + 1; i++) { System.out.println( "DELTA: " + i + " days: Total fetches: " + totalFetchesByDelta[i] + " total successes " + totalSuccessfulFetchesByDelta[i] + " = " + ((totalSuccessfulFetchesByDelta[i] * 100.0) / totalFetchesByDelta[i]) + "% in " + (totalFetchTimeByDelta[i] * 1.0) / totalSuccessfulFetchesByDelta[i] + "ms"); } fis.close(); fis = null; } catch (Throwable t) { t.printStackTrace(); exitCode = EXIT_THREW_SOMETHING; } finally { try { if (node != null) node.park(); } catch (Throwable tt) { } try { if (node2 != null) node2.park(); } catch (Throwable tt) { } Closer.close(fis); writeToStatusLog(file, csvLine); System.out.println("Exiting with status " + exitCode); System.exit(exitCode); } }
public static void main(String[] args) throws InvalidThresholdException, IOException, NodeInitException, InterruptedException { Node node = null; Node secondNode = null; try { String ipOverride = null; if (args.length > 0) ipOverride = args[0]; File dir = new File("bootstrap-push-pull-test"); FileUtil.removeAll(dir); RandomSource random = NodeStarter.globalTestInit(dir.getPath(), false, LogLevel.ERROR, "", false); File seednodes = new File("seednodes.fref"); if (!seednodes.exists() || seednodes.length() == 0 || !seednodes.canRead()) { System.err.println("Unable to read seednodes.fref, it doesn't exist, or is empty"); System.exit(EXIT_NO_SEEDNODES); } File innerDir = new File(dir, Integer.toString(DARKNET_PORT1)); innerDir.mkdir(); FileInputStream fis = new FileInputStream(seednodes); FileUtil.writeTo(fis, new File(innerDir, "seednodes.fref")); fis.close(); // Create one node Executor executor = new PooledExecutor(); node = NodeStarter.createTestNode( DARKNET_PORT1, OPENNET_PORT1, dir.getPath(), false, Node.DEFAULT_MAX_HTL, 0, random, executor, 1000, 5 * 1024 * 1024, true, true, true, true, true, true, true, 12 * 1024, false, true, false, false, ipOverride); // NodeCrypto.DISABLE_GROUP_STRIP = true; // Logger.setupStdoutLogging(LogLevel.MINOR, // "freenet:NORMAL,freenet.node.NodeDispatcher:MINOR,freenet.node.FNPPacketMangler:MINOR"); Logger.getChain().setThreshold(LogLevel.ERROR); // kill logging // Start it node.start(true); if (!TestUtil.waitForNodes(node)) { node.park(); System.exit(EXIT_FAILED_TARGET); } System.err.println("Creating test data: " + TEST_SIZE + " bytes."); Bucket data = node.clientCore.tempBucketFactory.makeBucket(TEST_SIZE); OutputStream os = data.getOutputStream(); byte[] buf = new byte[4096]; for (long written = 0; written < TEST_SIZE; ) { node.fastWeakRandom.nextBytes(buf); int toWrite = (int) Math.min(TEST_SIZE - written, buf.length); os.write(buf, 0, toWrite); written += toWrite; } os.close(); System.err.println("Inserting test data."); HighLevelSimpleClient client = node.clientCore.makeClient((short) 0); InsertBlock block = new InsertBlock(data, new ClientMetadata(), FreenetURI.EMPTY_CHK_URI); long startInsertTime = System.currentTimeMillis(); FreenetURI uri; try { uri = client.insert(block, false, null); } catch (InsertException e) { System.err.println("INSERT FAILED: " + e); e.printStackTrace(); System.exit(EXIT_INSERT_FAILED); return; } long endInsertTime = System.currentTimeMillis(); System.err.println( "RESULT: Insert took " + (endInsertTime - startInsertTime) + "ms (" + TimeUtil.formatTime(endInsertTime - startInsertTime) + ") to " + uri + " ."); node.park(); // Bootstrap a second node. File secondInnerDir = new File(dir, Integer.toString(DARKNET_PORT2)); secondInnerDir.mkdir(); fis = new FileInputStream(seednodes); FileUtil.writeTo(fis, new File(secondInnerDir, "seednodes.fref")); fis.close(); executor = new PooledExecutor(); secondNode = NodeStarter.createTestNode( DARKNET_PORT2, OPENNET_PORT2, dir.getPath(), false, Node.DEFAULT_MAX_HTL, 0, random, executor, 1000, 5 * 1024 * 1024, true, true, true, true, true, true, true, 12 * 1024, false, true, false, false, ipOverride); secondNode.start(true); if (!TestUtil.waitForNodes(secondNode)) { secondNode.park(); System.exit(EXIT_FAILED_TARGET); } // Fetch the data long startFetchTime = System.currentTimeMillis(); client = secondNode.clientCore.makeClient((short) 0); try { client.fetch(uri); } catch (FetchException e) { System.err.println("FETCH FAILED: " + e); e.printStackTrace(); System.exit(EXIT_FETCH_FAILED); return; } long endFetchTime = System.currentTimeMillis(); System.err.println( "RESULT: Fetch took " + (endFetchTime - startFetchTime) + "ms (" + TimeUtil.formatTime(endFetchTime - startFetchTime) + ") of " + uri + " ."); secondNode.park(); System.exit(0); } catch (Throwable t) { System.err.println("CAUGHT: " + t); t.printStackTrace(); try { if (node != null) node.park(); } catch (Throwable t1) { } ; try { if (secondNode != null) secondNode.park(); } catch (Throwable t1) { } ; System.exit(EXIT_THREW_SOMETHING); } }
@Override public void onFailure(FetchException e, ClientGetter state, ObjectContainer container) { switch (e.getMode()) { case FetchException.RECENTLY_FAILED: // pretty normal for polling.. just add the request again if (state.getURI().toString().contains(mStorage.getCurrentDateString())) { restartRequest(state.getURI()); } else { startRequestForNewEdition(); } break; case FetchException.DATA_NOT_FOUND: // pretty normal for polling.. just add the request again if (state.getURI().toString().contains(mStorage.getCurrentDateString())) { restartRequest(state.getURI()); } else { startRequestForNewEdition(); } break; case FetchException.ALL_DATA_NOT_FOUND: // should not possible while fetching KSKs without following redirects. ? System.err.println( "[Async_AnnounceFetcher] ALL_DATA_NOT_FOUND. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; case FetchException.ROUTE_NOT_FOUND: // if hit it we are trying to fetch something but the node does not have a proper // connection. // just add the request again if (state.getURI().toString().contains(mStorage.getCurrentDateString())) { restartRequest(state.getURI()); } else { startRequestForNewEdition(); } break; case FetchException.REJECTED_OVERLOAD: // just add the request again if (state.getURI().toString().contains(mStorage.getCurrentDateString())) { restartRequest(state.getURI()); } else { startRequestForNewEdition(); } break; case FetchException.INVALID_METADATA: // wtf? mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher] INVALID_METADATA. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; case FetchException.TOO_BIG_METADATA: // wtf? mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher] TOO_BIG_METADATA. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; case FetchException.TOO_BIG: // should not be possible while polling KSK's without following redirects mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher] TOO_BIG. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; case FetchException.TOO_MANY_REDIRECTS: mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher] TOO_MANY_REDIRECTS. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; case FetchException.TOO_MUCH_RECURSION: // FIXME: wtf? mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher] TOO_MUCH_RECURSION. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; case FetchException.PERMANENT_REDIRECT: mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher] TOO_MUCH_RECURSION. you should not see me. ignoring this announce. " + e.getMessage() + " " + state.getURI().toString()); startRequestForNewEdition(); break; default: // now we have a serious problem. mStorage.announce_ddos += 1; System.err.println( "[Async_AnnounceFetcher]::onFailure() unknown error: " + e.getMessage() + " mode=" + e.getMode() + " ignoring this announce. uri=" + state.getURI().toString()); e.printStackTrace(); startRequestForNewEdition(); break; } }