public void inject(Path crawlDb, Path urlDir) throws IOException { SimpleDateFormat sdf = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss"); long start = System.currentTimeMillis(); if (LOG.isInfoEnabled()) { LOG.info("Injector: starting at " + sdf.format(start)); LOG.info("Injector: crawlDb: " + crawlDb); LOG.info("Injector: urlDir: " + urlDir); } Path tempDir = new Path( getConf().get("mapred.temp.dir", ".") + "/inject-temp-" + Integer.toString(new Random().nextInt(Integer.MAX_VALUE))); // map text input file to a <url,CrawlDatum> file if (LOG.isInfoEnabled()) { LOG.info("Injector: Converting injected urls to crawl db entries."); } JobConf sortJob = new NutchJob(getConf()); sortJob.setJobName("inject " + urlDir); FileInputFormat.addInputPath(sortJob, urlDir); sortJob.setMapperClass(InjectMapper.class); FileOutputFormat.setOutputPath(sortJob, tempDir); sortJob.setOutputFormat(SequenceFileOutputFormat.class); sortJob.setOutputKeyClass(Text.class); sortJob.setOutputValueClass(CrawlDatum.class); sortJob.setLong("injector.current.time", System.currentTimeMillis()); RunningJob mapJob = JobClient.runJob(sortJob); long urlsInjected = mapJob.getCounters().findCounter("injector", "urls_injected").getValue(); long urlsFiltered = mapJob.getCounters().findCounter("injector", "urls_filtered").getValue(); LOG.info("Injector: total number of urls rejected by filters: " + urlsFiltered); LOG.info( "Injector: total number of urls injected after normalization and filtering: " + urlsInjected); // merge with existing crawl db if (LOG.isInfoEnabled()) { LOG.info("Injector: Merging injected urls into crawl db."); } JobConf mergeJob = CrawlDb.createJob(getConf(), crawlDb); FileInputFormat.addInputPath(mergeJob, tempDir); mergeJob.setReducerClass(InjectReducer.class); JobClient.runJob(mergeJob); CrawlDb.install(mergeJob, crawlDb); // clean up FileSystem fs = FileSystem.get(getConf()); fs.delete(tempDir, true); long end = System.currentTimeMillis(); LOG.info( "Injector: finished at " + sdf.format(end) + ", elapsed: " + TimingUtil.elapsedTime(start, end)); }
/** * Driver to copy srcPath to destPath depending on required protocol. * * @param args arguments */ static void copy(final Configuration conf, final Arguments args) throws IOException { LOG.info("srcPaths=" + args.srcs); LOG.info("destPath=" + args.dst); checkSrcPath(conf, args.srcs); JobConf job = createJobConf(conf); if (args.preservedAttributes != null) { job.set(PRESERVE_STATUS_LABEL, args.preservedAttributes); } if (args.mapredSslConf != null) { job.set("dfs.https.client.keystore.resource", args.mapredSslConf); } // Initialize the mapper try { setup(conf, job, args); JobClient.runJob(job); finalize(conf, job, args.dst, args.preservedAttributes); } finally { // delete tmp fullyDelete(job.get(TMP_DIR_LABEL), job); // delete jobDirectory fullyDelete(job.get(JOB_DIR_LABEL), job); } }
/** * Initialize DFSCopyFileMapper specific job-configuration. * * @param conf : The dfs/mapred configuration. * @param jobConf : The handle to the jobConf object to be initialized. * @param args Arguments */ private static void setup(Configuration conf, JobConf jobConf, final Arguments args) throws IOException { jobConf.set(DST_DIR_LABEL, args.dst.toUri().toString()); // set boolean values final boolean update = args.flags.contains(Options.UPDATE); final boolean overwrite = !update && args.flags.contains(Options.OVERWRITE); jobConf.setBoolean(Options.UPDATE.propertyname, update); jobConf.setBoolean(Options.OVERWRITE.propertyname, overwrite); jobConf.setBoolean( Options.IGNORE_READ_FAILURES.propertyname, args.flags.contains(Options.IGNORE_READ_FAILURES)); jobConf.setBoolean( Options.PRESERVE_STATUS.propertyname, args.flags.contains(Options.PRESERVE_STATUS)); final String randomId = getRandomId(); JobClient jClient = new JobClient(jobConf); Path jobDirectory = new Path(jClient.getSystemDir(), NAME + "_" + randomId); jobConf.set(JOB_DIR_LABEL, jobDirectory.toString()); FileSystem dstfs = args.dst.getFileSystem(conf); boolean dstExists = dstfs.exists(args.dst); boolean dstIsDir = false; if (dstExists) { dstIsDir = dstfs.getFileStatus(args.dst).isDir(); } // default logPath Path logPath = args.log; if (logPath == null) { String filename = "_distcp_logs_" + randomId; if (!dstExists || !dstIsDir) { Path parent = args.dst.getParent(); if (!dstfs.exists(parent)) { dstfs.mkdirs(parent); } logPath = new Path(parent, filename); } else { logPath = new Path(args.dst, filename); } } FileOutputFormat.setOutputPath(jobConf, logPath); // create src list, dst list FileSystem jobfs = jobDirectory.getFileSystem(jobConf); Path srcfilelist = new Path(jobDirectory, "_distcp_src_files"); jobConf.set(SRC_LIST_LABEL, srcfilelist.toString()); SequenceFile.Writer src_writer = SequenceFile.createWriter( jobfs, jobConf, srcfilelist, LongWritable.class, FilePair.class, SequenceFile.CompressionType.NONE); Path dstfilelist = new Path(jobDirectory, "_distcp_dst_files"); SequenceFile.Writer dst_writer = SequenceFile.createWriter( jobfs, jobConf, dstfilelist, Text.class, Text.class, SequenceFile.CompressionType.NONE); Path dstdirlist = new Path(jobDirectory, "_distcp_dst_dirs"); jobConf.set(DST_DIR_LIST_LABEL, dstdirlist.toString()); SequenceFile.Writer dir_writer = SequenceFile.createWriter( jobfs, jobConf, dstdirlist, Text.class, FilePair.class, SequenceFile.CompressionType.NONE); // handle the case where the destination directory doesn't exist // and we've only a single src directory OR we're updating/overwriting // the contents of the destination directory. final boolean special = (args.srcs.size() == 1 && !dstExists) || update || overwrite; int srcCount = 0, cnsyncf = 0, dirsyn = 0; long fileCount = 0L, byteCount = 0L, cbsyncs = 0L; try { for (Iterator<Path> srcItr = args.srcs.iterator(); srcItr.hasNext(); ) { final Path src = srcItr.next(); FileSystem srcfs = src.getFileSystem(conf); FileStatus srcfilestat = srcfs.getFileStatus(src); Path root = special && srcfilestat.isDir() ? src : src.getParent(); if (srcfilestat.isDir()) { ++srcCount; } Stack<FileStatus> pathstack = new Stack<FileStatus>(); for (pathstack.push(srcfilestat); !pathstack.empty(); ) { FileStatus cur = pathstack.pop(); FileStatus[] children = srcfs.listStatus(cur.getPath()); for (int i = 0; i < children.length; i++) { boolean skipfile = false; final FileStatus child = children[i]; final String dst = makeRelative(root, child.getPath()); ++srcCount; if (child.isDir()) { pathstack.push(child); } else { // skip file if the src and the dst files are the same. skipfile = update && sameFile(srcfs, child, dstfs, new Path(args.dst, dst)); // skip file if it exceed file limit or size limit skipfile |= fileCount == args.filelimit || byteCount + child.getLen() > args.sizelimit; if (!skipfile) { ++fileCount; byteCount += child.getLen(); if (LOG.isTraceEnabled()) { LOG.trace("adding file " + child.getPath()); } ++cnsyncf; cbsyncs += child.getLen(); if (cnsyncf > SYNC_FILE_MAX || cbsyncs > BYTES_PER_MAP) { src_writer.sync(); dst_writer.sync(); cnsyncf = 0; cbsyncs = 0L; } } } if (!skipfile) { src_writer.append( new LongWritable(child.isDir() ? 0 : child.getLen()), new FilePair(child, dst)); } dst_writer.append(new Text(dst), new Text(child.getPath().toString())); } if (cur.isDir()) { String dst = makeRelative(root, cur.getPath()); dir_writer.append(new Text(dst), new FilePair(cur, dst)); if (++dirsyn > SYNC_FILE_MAX) { dirsyn = 0; dir_writer.sync(); } } } } } finally { checkAndClose(src_writer); checkAndClose(dst_writer); checkAndClose(dir_writer); } FileStatus dststatus = null; try { dststatus = dstfs.getFileStatus(args.dst); } catch (FileNotFoundException fnfe) { LOG.info(args.dst + " does not exist."); } // create dest path dir if copying > 1 file if (dststatus == null) { if (srcCount > 1 && !dstfs.mkdirs(args.dst)) { throw new IOException("Failed to create" + args.dst); } } final Path sorted = new Path(jobDirectory, "_distcp_sorted"); checkDuplication(jobfs, dstfilelist, sorted, conf); if (dststatus != null && args.flags.contains(Options.DELETE)) { deleteNonexisting(dstfs, dststatus, sorted, jobfs, jobDirectory, jobConf, conf); } Path tmpDir = new Path( (dstExists && !dstIsDir) || (!dstExists && srcCount == 1) ? args.dst.getParent() : args.dst, "_distcp_tmp_" + randomId); jobConf.set(TMP_DIR_LABEL, tmpDir.toUri().toString()); LOG.info("srcCount=" + srcCount); jobConf.setInt(SRC_COUNT_LABEL, srcCount); jobConf.setLong(TOTAL_SIZE_LABEL, byteCount); setMapCount(byteCount, jobConf); }
static void checkRecords( Configuration defaults, int noMaps, int noReduces, Path sortInput, Path sortOutput) throws IOException { JobConf jobConf = new JobConf(defaults, RecordChecker.class); jobConf.setJobName("sortvalidate-record-checker"); jobConf.setInputFormat(SequenceFileInputFormat.class); jobConf.setOutputFormat(SequenceFileOutputFormat.class); jobConf.setOutputKeyClass(BytesWritable.class); jobConf.setOutputValueClass(IntWritable.class); jobConf.setMapperClass(Map.class); jobConf.setReducerClass(Reduce.class); JobClient client = new JobClient(jobConf); ClusterStatus cluster = client.getClusterStatus(); if (noMaps == -1) { noMaps = cluster.getTaskTrackers() * jobConf.getInt("test.sortvalidate.maps_per_host", 10); } if (noReduces == -1) { noReduces = (int) (cluster.getMaxReduceTasks() * 0.9); String sortReduces = jobConf.get("test.sortvalidate.reduces_per_host"); if (sortReduces != null) { noReduces = cluster.getTaskTrackers() * Integer.parseInt(sortReduces); } } jobConf.setNumMapTasks(noMaps); jobConf.setNumReduceTasks(noReduces); FileInputFormat.setInputPaths(jobConf, sortInput); FileInputFormat.addInputPath(jobConf, sortOutput); Path outputPath = new Path("/tmp/sortvalidate/recordchecker"); FileSystem fs = FileSystem.get(defaults); if (fs.exists(outputPath)) { fs.delete(outputPath, true); } FileOutputFormat.setOutputPath(jobConf, outputPath); // Uncomment to run locally in a single process // job_conf.set("mapred.job.tracker", "local"); Path[] inputPaths = FileInputFormat.getInputPaths(jobConf); System.out.println( "\nSortValidator.RecordChecker: Running on " + cluster.getTaskTrackers() + " nodes to validate sort from " + inputPaths[0] + ", " + inputPaths[1] + " into " + FileOutputFormat.getOutputPath(jobConf) + " with " + noReduces + " reduces."); Date startTime = new Date(); System.out.println("Job started: " + startTime); JobClient.runJob(jobConf); Date end_time = new Date(); System.out.println("Job ended: " + end_time); System.out.println( "The job took " + (end_time.getTime() - startTime.getTime()) / 1000 + " seconds."); }
static void checkRecords(Configuration defaults, Path sortInput, Path sortOutput) throws IOException { FileSystem inputfs = sortInput.getFileSystem(defaults); FileSystem outputfs = sortOutput.getFileSystem(defaults); FileSystem defaultfs = FileSystem.get(defaults); JobConf jobConf = new JobConf(defaults, RecordStatsChecker.class); jobConf.setJobName("sortvalidate-recordstats-checker"); int noSortReduceTasks = outputfs.listStatus(sortOutput, sortPathsFilter).length; jobConf.setInt("sortvalidate.sort.reduce.tasks", noSortReduceTasks); int noSortInputpaths = inputfs.listStatus(sortInput).length; jobConf.setInputFormat(NonSplitableSequenceFileInputFormat.class); jobConf.setOutputFormat(SequenceFileOutputFormat.class); jobConf.setOutputKeyClass(IntWritable.class); jobConf.setOutputValueClass(RecordStatsChecker.RecordStatsWritable.class); jobConf.setMapperClass(Map.class); jobConf.setCombinerClass(Reduce.class); jobConf.setReducerClass(Reduce.class); jobConf.setNumMapTasks(noSortReduceTasks); jobConf.setNumReduceTasks(1); FileInputFormat.setInputPaths(jobConf, sortInput); FileInputFormat.addInputPath(jobConf, sortOutput); Path outputPath = new Path("/tmp/sortvalidate/recordstatschecker"); if (defaultfs.exists(outputPath)) { defaultfs.delete(outputPath, true); } FileOutputFormat.setOutputPath(jobConf, outputPath); // Uncomment to run locally in a single process // job_conf.set("mapred.job.tracker", "local"); Path[] inputPaths = FileInputFormat.getInputPaths(jobConf); System.out.println( "\nSortValidator.RecordStatsChecker: Validate sort " + "from " + inputPaths[0] + " (" + noSortInputpaths + " files), " + inputPaths[1] + " (" + noSortReduceTasks + " files) into " + FileOutputFormat.getOutputPath(jobConf) + " with 1 reducer."); Date startTime = new Date(); System.out.println("Job started: " + startTime); JobClient.runJob(jobConf); Date end_time = new Date(); System.out.println("Job ended: " + end_time); System.out.println( "The job took " + (end_time.getTime() - startTime.getTime()) / 1000 + " seconds."); // Check to ensure that the statistics of the // framework's sort-input and sort-output match SequenceFile.Reader stats = new SequenceFile.Reader(defaultfs, new Path(outputPath, "part-00000"), defaults); IntWritable k1 = new IntWritable(); IntWritable k2 = new IntWritable(); RecordStatsWritable v1 = new RecordStatsWritable(); RecordStatsWritable v2 = new RecordStatsWritable(); if (!stats.next(k1, v1)) { throw new IOException("Failed to read record #1 from reduce's output"); } if (!stats.next(k2, v2)) { throw new IOException("Failed to read record #2 from reduce's output"); } if ((v1.getBytes() != v2.getBytes()) || (v1.getRecords() != v2.getRecords()) || v1.getChecksum() != v2.getChecksum()) { throw new IOException( "(" + v1.getBytes() + ", " + v1.getRecords() + ", " + v1.getChecksum() + ") v/s (" + v2.getBytes() + ", " + v2.getRecords() + ", " + v2.getChecksum() + ")"); } }