public void testReadWriteZero() throws IOException { try { // Create a BookKeeper client and a ledger bkc = new BookKeeper("127.0.0.1"); lh = bkc.createLedger(ledgerPassword); bkc.initMessageDigest("SHA1"); ledgerId = lh.getId(); LOG.info("Ledger ID: " + lh.getId()); for (int i = 0; i < numEntriesToWrite; i++) { bkc.addEntry(lh, new byte[0]); } /* * Write a non-zero entry */ ByteBuffer entry = ByteBuffer.allocate(4); entry.putInt(rng.nextInt(maxInt)); entry.position(0); entries.add(entry.array()); bkc.addEntry(lh, entry.array()); bkc.closeLedger(lh); lh = bkc.openLedger(ledgerId, ledgerPassword); LOG.debug("Number of entries written: " + lh.getLast()); assertTrue("Verifying number of entries written", lh.getLast() == (numEntriesToWrite + 1)); ls = bkc.readEntries(lh, 0, numEntriesToWrite - 1); int i = 0; while (ls.hasMoreElements()) { ByteBuffer result = ByteBuffer.wrap(ls.nextElement().getEntry()); LOG.debug("Length of result: " + result.capacity()); assertTrue("Checking if entry " + i + " has zero bytes", result.capacity() == 0); } bkc.closeLedger(lh); } catch (KeeperException e) { e.printStackTrace(); } catch (BKException e) { e.printStackTrace(); } catch (InterruptedException e) { e.printStackTrace(); } catch (NoSuchAlgorithmException e) { e.printStackTrace(); } }
public void testReadWriteSyncSingleClient() throws IOException { try { // Create a BookKeeper client and a ledger bkc = new BookKeeper("127.0.0.1"); lh = bkc.createLedger(ledgerPassword); bkc.initMessageDigest("SHA1"); ledgerId = lh.getId(); LOG.info("Ledger ID: " + lh.getId()); for (int i = 0; i < numEntriesToWrite; i++) { ByteBuffer entry = ByteBuffer.allocate(4); entry.putInt(rng.nextInt(maxInt)); entry.position(0); entries.add(entry.array()); bkc.addEntry(lh, entry.array()); } bkc.closeLedger(lh); lh = bkc.openLedger(ledgerId, ledgerPassword); LOG.debug("Number of entries written: " + lh.getLast()); assertTrue("Verifying number of entries written", lh.getLast() == numEntriesToWrite); ls = bkc.readEntries(lh, 0, numEntriesToWrite - 1); int i = 0; while (ls.hasMoreElements()) { ByteBuffer origbb = ByteBuffer.wrap(entries.get(i++)); Integer origEntry = origbb.getInt(); ByteBuffer result = ByteBuffer.wrap(ls.nextElement().getEntry()); LOG.debug("Length of result: " + result.capacity()); LOG.debug("Original entry: " + origEntry); Integer retrEntry = result.getInt(); LOG.debug("Retrieved entry: " + retrEntry); assertTrue("Checking entry " + i + " for equality", origEntry.equals(retrEntry)); } bkc.closeLedger(lh); } catch (KeeperException e) { e.printStackTrace(); } catch (BKException e) { e.printStackTrace(); } catch (InterruptedException e) { e.printStackTrace(); } catch (NoSuchAlgorithmException e) { e.printStackTrace(); } }
@Test public void testSyncReadAsyncWriteStringsSingleClient() throws IOException { LOG.info("TEST READ WRITE STRINGS MIXED SINGLE CLIENT"); String charset = "utf-8"; LOG.debug("Default charset: " + Charset.defaultCharset()); try { // Create a BookKeeper client and a ledger bkc = new BookKeeper("127.0.0.1"); lh = bkc.createLedger(ledgerPassword); bkc.initMessageDigest("SHA1"); ledgerId = lh.getId(); LOG.info("Ledger ID: " + lh.getId()); for (int i = 0; i < numEntriesToWrite; i++) { int randomInt = rng.nextInt(maxInt); byte[] entry = new String(Integer.toString(randomInt)).getBytes(charset); entries.add(entry); bkc.asyncAddEntry(lh, entry, this, sync); } // wait for all entries to be acknowledged synchronized (sync) { if (sync.counter < numEntriesToWrite) { LOG.debug("Entries counter = " + sync.counter); sync.wait(); } } LOG.debug("*** ASYNC WRITE COMPLETED ***"); // close ledger bkc.closeLedger(lh); // *** WRITING PART COMPLETED // READ PART BEGINS *** // open ledger lh = bkc.openLedger(ledgerId, ledgerPassword); LOG.debug("Number of entries written: " + lh.getLast()); assertTrue("Verifying number of entries written", lh.getLast() == numEntriesToWrite); // read entries ls = bkc.readEntries(lh, 0, numEntriesToWrite - 1); assertTrue("Checking number of read entries", ls.size() == numEntriesToWrite); LOG.debug("*** SYNC READ COMPLETED ***"); // at this point, LedgerSequence ls is filled with the returned values int i = 0; while (ls.hasMoreElements()) { byte[] origEntryBytes = entries.get(i++); byte[] retrEntryBytes = ls.nextElement().getEntry(); LOG.debug("Original byte entry size: " + origEntryBytes.length); LOG.debug("Saved byte entry size: " + retrEntryBytes.length); String origEntry = new String(origEntryBytes, charset); String retrEntry = new String(retrEntryBytes, charset); LOG.debug("Original entry: " + origEntry); LOG.debug("Retrieved entry: " + retrEntry); assertTrue("Checking entry " + i + " for equality", origEntry.equals(retrEntry)); } bkc.closeLedger(lh); } catch (KeeperException e) { e.printStackTrace(); } catch (BKException e) { e.printStackTrace(); } catch (InterruptedException e) { e.printStackTrace(); } catch (NoSuchAlgorithmException e) { e.printStackTrace(); } }
@Test public void testReadWriteAsyncSingleClient() throws IOException { try { // Create a BookKeeper client and a ledger bkc = new BookKeeper("127.0.0.1"); lh = bkc.createLedger(ledgerPassword); bkc.initMessageDigest("SHA1"); ledgerId = lh.getId(); LOG.info("Ledger ID: " + lh.getId()); for (int i = 0; i < numEntriesToWrite; i++) { ByteBuffer entry = ByteBuffer.allocate(4); entry.putInt(rng.nextInt(maxInt)); entry.position(0); entries.add(entry.array()); entriesSize.add(entry.array().length); bkc.asyncAddEntry(lh, entry.array(), this, sync); } // wait for all entries to be acknowledged synchronized (sync) { if (sync.counter < numEntriesToWrite) { LOG.debug("Entries counter = " + sync.counter); sync.wait(); } } LOG.debug("*** WRITE COMPLETED ***"); // close ledger bkc.closeLedger(lh); // *** WRITING PART COMPLETED // READ PART BEGINS *** // open ledger lh = bkc.openLedger(ledgerId, ledgerPassword); LOG.debug("Number of entries written: " + lh.getLast()); assertTrue("Verifying number of entries written", lh.getLast() == numEntriesToWrite); // read entries bkc.asyncReadEntries(lh, 0, numEntriesToWrite - 1, this, (Object) sync); synchronized (sync) { while (sync.value == false) { sync.wait(); } } assertTrue("Checking number of read entries", ls.size() == numEntriesToWrite); LOG.debug("*** READ COMPLETED ***"); // at this point, LedgerSequence ls is filled with the returned values int i = 0; while (ls.hasMoreElements()) { ByteBuffer origbb = ByteBuffer.wrap(entries.get(i)); Integer origEntry = origbb.getInt(); byte[] entry = ls.nextElement().getEntry(); ByteBuffer result = ByteBuffer.wrap(entry); LOG.debug("Length of result: " + result.capacity()); LOG.debug("Original entry: " + origEntry); Integer retrEntry = result.getInt(); LOG.debug("Retrieved entry: " + retrEntry); assertTrue("Checking entry " + i + " for equality", origEntry.equals(retrEntry)); assertTrue( "Checking entry " + i + " for size", entry.length == entriesSize.get(i).intValue()); i++; } bkc.closeLedger(lh); } catch (KeeperException e) { e.printStackTrace(); } catch (BKException e) { e.printStackTrace(); } catch (InterruptedException e) { e.printStackTrace(); } catch (NoSuchAlgorithmException e) { e.printStackTrace(); } }