/** {@inheritDoc} */ @Override public void write(HFileKeyValue entry, NullWritable unused) throws IOException { final KeyValue kv = entry.getKeyValue(); kv.updateLatestStamp(mLatestTimestampBytes); final long recordLength = kv.getLength(); if (mCurrentHFileSize + recordLength >= mMaxFileSizeBytes) { // We can't fit this record in the current HFile without exceeding the max file size. if (Arrays.equals(mCurrentRow, kv.getRow())) { // But we're still adding data for a single row, so we can't close this HFile yet. LOG.debug("Reached max HFile size, but waiting to finish this row before closing."); } else { // Close it and open a new one. closeWriter(mWriter); mWriter = openNewWriter(); } } mWriter.append(kv); mTimeRangeTracker.includeTimestamp(kv); mCurrentHFileSize += recordLength; // Remember the row so we know when we are transitioning. mCurrentRow = kv.getRow(); }
private static void createHFile( Configuration conf, FileSystem fs, Path path, byte[] family, byte[] qualifier) throws IOException { HFileContext context = new HFileContextBuilder().build(); HFile.Writer writer = HFile.getWriterFactory(conf, new CacheConfig(conf)) .withPath(fs, path) .withFileContext(context) .create(); long now = System.currentTimeMillis(); try { for (int i = 1; i <= 9; i++) { KeyValue kv = new KeyValue(Bytes.toBytes(i + ""), family, qualifier, now, Bytes.toBytes(i + "")); writer.append(kv); } } finally { writer.close(); } }
/** Create an HFile with the given number of rows with a specified value. */ public static void createHFile( FileSystem fs, Path path, byte[] family, byte[] qualifier, byte[] value, int numRows) throws IOException { HFileContext context = new HFileContextBuilder().withBlockSize(BLOCKSIZE).withCompression(COMPRESSION).build(); HFile.Writer writer = HFile.getWriterFactory(conf, new CacheConfig(conf)) .withPath(fs, path) .withFileContext(context) .create(); long now = System.currentTimeMillis(); try { // subtract 2 since iterateOnSplits doesn't include boundary keys for (int i = 0; i < numRows; i++) { KeyValue kv = new KeyValue(rowkey(i), family, qualifier, now, value); writer.append(kv); } writer.appendFileInfo(StoreFile.BULKLOAD_TIME_KEY, Bytes.toBytes(now)); } finally { writer.close(); } }
@Test(timeout = 20000) public void testHFileEncryptionMetadata() throws Exception { Configuration conf = TEST_UTIL.getConfiguration(); CacheConfig cacheConf = new CacheConfig(conf); HFileContext fileContext = new HFileContextBuilder().withEncryptionContext(cryptoContext).build(); // write a simple encrypted hfile Path path = new Path(TEST_UTIL.getDataTestDir(), "cryptometa.hfile"); FSDataOutputStream out = fs.create(path); HFile.Writer writer = HFile.getWriterFactory(conf, cacheConf) .withOutputStream(out) .withFileContext(fileContext) .create(); try { KeyValue kv = new KeyValue("foo".getBytes(), "f1".getBytes(), null, "value".getBytes()); writer.append(kv); } finally { writer.close(); out.close(); } // read it back in and validate correct crypto metadata HFile.Reader reader = HFile.createReader(fs, path, cacheConf, conf); try { reader.loadFileInfo(); FixedFileTrailer trailer = reader.getTrailer(); assertNotNull(trailer.getEncryptionKey()); Encryption.Context readerContext = reader.getFileContext().getEncryptionContext(); assertEquals(readerContext.getCipher().getName(), cryptoContext.getCipher().getName()); assertTrue(Bytes.equals(readerContext.getKeyBytes(), cryptoContext.getKeyBytes())); } finally { reader.close(); } }
@Test(timeout = 6000000) public void testHFileEncryption() throws Exception { // Create 1000 random test KVs RedundantKVGenerator generator = new RedundantKVGenerator(); List<KeyValue> testKvs = generator.generateTestKeyValues(1000); // Iterate through data block encoding and compression combinations Configuration conf = TEST_UTIL.getConfiguration(); CacheConfig cacheConf = new CacheConfig(conf); for (DataBlockEncoding encoding : DataBlockEncoding.values()) { for (Compression.Algorithm compression : TestHFileBlock.COMPRESSION_ALGORITHMS) { HFileContext fileContext = new HFileContextBuilder() .withBlockSize(4096) // small blocks .withEncryptionContext(cryptoContext) .withCompression(compression) .withDataBlockEncoding(encoding) .build(); // write a new test HFile LOG.info("Writing with " + fileContext); Path path = new Path(TEST_UTIL.getDataTestDir(), UUID.randomUUID().toString() + ".hfile"); FSDataOutputStream out = fs.create(path); HFile.Writer writer = HFile.getWriterFactory(conf, cacheConf) .withOutputStream(out) .withFileContext(fileContext) .create(); try { for (KeyValue kv : testKvs) { writer.append(kv); } } finally { writer.close(); out.close(); } // read it back in LOG.info("Reading with " + fileContext); int i = 0; HFileScanner scanner = null; HFile.Reader reader = HFile.createReader(fs, path, cacheConf, conf); try { reader.loadFileInfo(); FixedFileTrailer trailer = reader.getTrailer(); assertNotNull(trailer.getEncryptionKey()); scanner = reader.getScanner(false, false); assertTrue("Initial seekTo failed", scanner.seekTo()); do { Cell kv = scanner.getCell(); assertTrue( "Read back an unexpected or invalid KV", testKvs.contains(KeyValueUtil.ensureKeyValue(kv))); i++; } while (scanner.next()); } finally { reader.close(); scanner.close(); } assertEquals("Did not read back as many KVs as written", i, testKvs.size()); // Test random seeks with pread LOG.info("Random seeking with " + fileContext); reader = HFile.createReader(fs, path, cacheConf, conf); try { scanner = reader.getScanner(false, true); assertTrue("Initial seekTo failed", scanner.seekTo()); for (i = 0; i < 100; i++) { KeyValue kv = testKvs.get(RNG.nextInt(testKvs.size())); assertEquals("Unable to find KV as expected: " + kv, scanner.seekTo(kv), 0); } } finally { scanner.close(); reader.close(); } } } }