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Example 11 with Progressable

use of org.apache.hadoop.util.Progressable in project hive by apache.

the class TestMapredParquetOutputFormat method testGetHiveRecordWriter.

@SuppressWarnings("unchecked")
@Test
public void testGetHiveRecordWriter() throws IOException {
    Properties tableProps = new Properties();
    tableProps.setProperty("columns", "foo,bar");
    tableProps.setProperty("columns.types", "int:int");
    final Progressable mockProgress = mock(Progressable.class);
    final ParquetOutputFormat<ParquetHiveRecord> outputFormat = (ParquetOutputFormat<ParquetHiveRecord>) mock(ParquetOutputFormat.class);
    JobConf jobConf = new JobConf();
    try {
        new MapredParquetOutputFormat(outputFormat) {

            @Override
            protected ParquetRecordWriterWrapper getParquerRecordWriterWrapper(ParquetOutputFormat<ParquetHiveRecord> realOutputFormat, JobConf jobConf, String finalOutPath, Progressable progress, Properties tableProperties) throws IOException {
                assertEquals(outputFormat, realOutputFormat);
                assertNotNull(jobConf.get(DataWritableWriteSupport.PARQUET_HIVE_SCHEMA));
                assertEquals("/foo", finalOutPath.toString());
                assertEquals(mockProgress, progress);
                throw new RuntimeException("passed tests");
            }
        }.getHiveRecordWriter(jobConf, new Path("/foo"), null, false, tableProps, mockProgress);
        fail("should throw runtime exception.");
    } catch (RuntimeException e) {
        assertEquals("passed tests", e.getMessage());
    }
}
Also used : Path(org.apache.hadoop.fs.Path) ParquetHiveRecord(org.apache.hadoop.hive.serde2.io.ParquetHiveRecord) ParquetOutputFormat(org.apache.parquet.hadoop.ParquetOutputFormat) ParquetRecordWriterWrapper(org.apache.hadoop.hive.ql.io.parquet.write.ParquetRecordWriterWrapper) IOException(java.io.IOException) Properties(java.util.Properties) Progressable(org.apache.hadoop.util.Progressable) JobConf(org.apache.hadoop.mapred.JobConf) Test(org.junit.Test)

Example 12 with Progressable

use of org.apache.hadoop.util.Progressable in project nutch by apache.

the class ParseOutputFormat method getRecordWriter.

@Override
public RecordWriter<Text, Parse> getRecordWriter(TaskAttemptContext context) throws IOException {
    Configuration conf = context.getConfiguration();
    String name = getUniqueFile(context, "part");
    Path dir = FileOutputFormat.getOutputPath(context);
    FileSystem fs = dir.getFileSystem(context.getConfiguration());
    if (conf.getBoolean("parse.filter.urls", true)) {
        filters = new URLFilters(conf);
        exemptionFilters = new URLExemptionFilters(conf);
    }
    if (conf.getBoolean("parse.normalize.urls", true)) {
        normalizers = new URLNormalizers(conf, URLNormalizers.SCOPE_OUTLINK);
    }
    this.scfilters = new ScoringFilters(conf);
    final int interval = conf.getInt("db.fetch.interval.default", 2592000);
    final boolean ignoreInternalLinks = conf.getBoolean("db.ignore.internal.links", false);
    final boolean ignoreExternalLinks = conf.getBoolean("db.ignore.external.links", false);
    final String ignoreExternalLinksMode = conf.get("db.ignore.external.links.mode", "byHost");
    // NUTCH-2435 - parameter "parser.store.text" allowing to choose whether to
    // store 'parse_text' directory or not:
    final boolean storeText = conf.getBoolean("parser.store.text", true);
    int maxOutlinksPerPage = conf.getInt("db.max.outlinks.per.page", 100);
    final int maxOutlinks = (maxOutlinksPerPage < 0) ? Integer.MAX_VALUE : maxOutlinksPerPage;
    int maxOutlinkL = conf.getInt("db.max.outlink.length", 4096);
    final int maxOutlinkLength = (maxOutlinkL < 0) ? Integer.MAX_VALUE : maxOutlinkL;
    final boolean isParsing = conf.getBoolean("fetcher.parse", true);
    final CompressionType compType = SequenceFileOutputFormat.getOutputCompressionType(context);
    Path out = FileOutputFormat.getOutputPath(context);
    Path text = new Path(new Path(out, ParseText.DIR_NAME), name);
    Path data = new Path(new Path(out, ParseData.DIR_NAME), name);
    Path crawl = new Path(new Path(out, CrawlDatum.PARSE_DIR_NAME), name);
    final String[] parseMDtoCrawlDB = conf.get("db.parsemeta.to.crawldb", "").split(" *, *");
    // textOut Options
    final MapFile.Writer textOut;
    if (storeText) {
        Option tKeyClassOpt = (Option) MapFile.Writer.keyClass(Text.class);
        org.apache.hadoop.io.SequenceFile.Writer.Option tValClassOpt = SequenceFile.Writer.valueClass(ParseText.class);
        org.apache.hadoop.io.SequenceFile.Writer.Option tProgressOpt = SequenceFile.Writer.progressable((Progressable) context);
        org.apache.hadoop.io.SequenceFile.Writer.Option tCompOpt = SequenceFile.Writer.compression(CompressionType.RECORD);
        textOut = new MapFile.Writer(conf, text, tKeyClassOpt, tValClassOpt, tCompOpt, tProgressOpt);
    } else {
        textOut = null;
    }
    // dataOut Options
    Option dKeyClassOpt = (Option) MapFile.Writer.keyClass(Text.class);
    org.apache.hadoop.io.SequenceFile.Writer.Option dValClassOpt = SequenceFile.Writer.valueClass(ParseData.class);
    org.apache.hadoop.io.SequenceFile.Writer.Option dProgressOpt = SequenceFile.Writer.progressable((Progressable) context);
    org.apache.hadoop.io.SequenceFile.Writer.Option dCompOpt = SequenceFile.Writer.compression(compType);
    final MapFile.Writer dataOut = new MapFile.Writer(conf, data, dKeyClassOpt, dValClassOpt, dCompOpt, dProgressOpt);
    final SequenceFile.Writer crawlOut = SequenceFile.createWriter(conf, SequenceFile.Writer.file(crawl), SequenceFile.Writer.keyClass(Text.class), SequenceFile.Writer.valueClass(CrawlDatum.class), SequenceFile.Writer.bufferSize(fs.getConf().getInt("io.file.buffer.size", 4096)), SequenceFile.Writer.replication(fs.getDefaultReplication(crawl)), SequenceFile.Writer.blockSize(1073741824), SequenceFile.Writer.compression(compType, new DefaultCodec()), SequenceFile.Writer.progressable((Progressable) context), SequenceFile.Writer.metadata(new Metadata()));
    return new RecordWriter<Text, Parse>() {

        @Override
        public void write(Text key, Parse parse) throws IOException {
            String fromUrl = key.toString();
            // host or domain name of the source URL
            String origin = null;
            if (textOut != null) {
                textOut.append(key, new ParseText(parse.getText()));
            }
            ParseData parseData = parse.getData();
            // recover the signature prepared by Fetcher or ParseSegment
            String sig = parseData.getContentMeta().get(Nutch.SIGNATURE_KEY);
            if (sig != null) {
                byte[] signature = StringUtil.fromHexString(sig);
                if (signature != null) {
                    // append a CrawlDatum with a signature
                    CrawlDatum d = new CrawlDatum(CrawlDatum.STATUS_SIGNATURE, 0);
                    d.setSignature(signature);
                    crawlOut.append(key, d);
                }
            }
            // see if the parse metadata contain things that we'd like
            // to pass to the metadata of the crawlDB entry
            CrawlDatum parseMDCrawlDatum = null;
            for (String mdname : parseMDtoCrawlDB) {
                String mdvalue = parse.getData().getParseMeta().get(mdname);
                if (mdvalue != null) {
                    if (parseMDCrawlDatum == null)
                        parseMDCrawlDatum = new CrawlDatum(CrawlDatum.STATUS_PARSE_META, 0);
                    parseMDCrawlDatum.getMetaData().put(new Text(mdname), new Text(mdvalue));
                }
            }
            if (parseMDCrawlDatum != null)
                crawlOut.append(key, parseMDCrawlDatum);
            // need to determine origin (once for all outlinks)
            if (ignoreExternalLinks || ignoreInternalLinks) {
                URL originURL = new URL(fromUrl.toString());
                // based on domain?
                if ("bydomain".equalsIgnoreCase(ignoreExternalLinksMode)) {
                    origin = URLUtil.getDomainName(originURL).toLowerCase();
                } else // use host
                {
                    origin = originURL.getHost().toLowerCase();
                }
            }
            ParseStatus pstatus = parseData.getStatus();
            if (pstatus != null && pstatus.isSuccess() && pstatus.getMinorCode() == ParseStatus.SUCCESS_REDIRECT) {
                String newUrl = pstatus.getMessage();
                int refreshTime = Integer.parseInt(pstatus.getArgs()[1]);
                newUrl = filterNormalize(fromUrl, newUrl, origin, ignoreInternalLinks, ignoreExternalLinks, ignoreExternalLinksMode, filters, exemptionFilters, normalizers, URLNormalizers.SCOPE_FETCHER);
                if (newUrl != null) {
                    String reprUrl = URLUtil.chooseRepr(fromUrl, newUrl, refreshTime < Fetcher.PERM_REFRESH_TIME);
                    CrawlDatum newDatum = new CrawlDatum();
                    newDatum.setStatus(CrawlDatum.STATUS_LINKED);
                    if (reprUrl != null && !reprUrl.equals(newUrl)) {
                        newDatum.getMetaData().put(Nutch.WRITABLE_REPR_URL_KEY, new Text(reprUrl));
                    }
                    crawlOut.append(new Text(newUrl), newDatum);
                }
            }
            // collect outlinks for subsequent db update
            Outlink[] links = parseData.getOutlinks();
            int outlinksToStore = Math.min(maxOutlinks, links.length);
            int validCount = 0;
            CrawlDatum adjust = null;
            List<Entry<Text, CrawlDatum>> targets = new ArrayList<>(outlinksToStore);
            List<Outlink> outlinkList = new ArrayList<>(outlinksToStore);
            for (int i = 0; i < links.length && validCount < outlinksToStore; i++) {
                String toUrl = links[i].getToUrl();
                // only normalize and filter if fetcher.parse = false
                if (!isParsing) {
                    if (toUrl.length() > maxOutlinkLength) {
                        continue;
                    }
                    toUrl = ParseOutputFormat.filterNormalize(fromUrl, toUrl, origin, ignoreInternalLinks, ignoreExternalLinks, ignoreExternalLinksMode, filters, exemptionFilters, normalizers);
                    if (toUrl == null) {
                        continue;
                    }
                }
                CrawlDatum target = new CrawlDatum(CrawlDatum.STATUS_LINKED, interval);
                Text targetUrl = new Text(toUrl);
                // see if the outlink has any metadata attached
                // and if so pass that to the crawldatum so that
                // the initial score or distribution can use that
                MapWritable outlinkMD = links[i].getMetadata();
                if (outlinkMD != null) {
                    target.getMetaData().putAll(outlinkMD);
                }
                try {
                    scfilters.initialScore(targetUrl, target);
                } catch (ScoringFilterException e) {
                    LOG.warn("Cannot filter init score for url " + key + ", using default: " + e.getMessage());
                    target.setScore(0.0f);
                }
                targets.add(new SimpleEntry(targetUrl, target));
                // overwrite URL in Outlink object with normalized URL (NUTCH-1174)
                links[i].setUrl(toUrl);
                outlinkList.add(links[i]);
                validCount++;
            }
            try {
                // compute score contributions and adjustment to the original score
                adjust = scfilters.distributeScoreToOutlinks(key, parseData, targets, null, links.length);
            } catch (ScoringFilterException e) {
                LOG.warn("Cannot distribute score from " + key + ": " + e.getMessage());
            }
            for (Entry<Text, CrawlDatum> target : targets) {
                crawlOut.append(target.getKey(), target.getValue());
            }
            if (adjust != null)
                crawlOut.append(key, adjust);
            Outlink[] filteredLinks = outlinkList.toArray(new Outlink[outlinkList.size()]);
            parseData = new ParseData(parseData.getStatus(), parseData.getTitle(), filteredLinks, parseData.getContentMeta(), parseData.getParseMeta());
            dataOut.append(key, parseData);
            if (!parse.isCanonical()) {
                CrawlDatum datum = new CrawlDatum();
                datum.setStatus(CrawlDatum.STATUS_FETCH_SUCCESS);
                String timeString = parse.getData().getContentMeta().get(Nutch.FETCH_TIME_KEY);
                try {
                    datum.setFetchTime(Long.parseLong(timeString));
                } catch (Exception e) {
                    LOG.warn("Can't read fetch time for: " + key);
                    datum.setFetchTime(System.currentTimeMillis());
                }
                crawlOut.append(key, datum);
            }
        }

        @Override
        public void close(TaskAttemptContext context) throws IOException {
            if (textOut != null)
                textOut.close();
            dataOut.close();
            crawlOut.close();
        }
    };
}
Also used : Configuration(org.apache.hadoop.conf.Configuration) Metadata(org.apache.hadoop.io.SequenceFile.Metadata) ArrayList(java.util.ArrayList) MapFile(org.apache.hadoop.io.MapFile) DefaultCodec(org.apache.hadoop.io.compress.DefaultCodec) URL(java.net.URL) Entry(java.util.Map.Entry) RecordWriter(org.apache.hadoop.mapreduce.RecordWriter) SequenceFile(org.apache.hadoop.io.SequenceFile) FileSystem(org.apache.hadoop.fs.FileSystem) ScoringFilters(org.apache.nutch.scoring.ScoringFilters) URLFilters(org.apache.nutch.net.URLFilters) Path(org.apache.hadoop.fs.Path) CrawlDatum(org.apache.nutch.crawl.CrawlDatum) Text(org.apache.hadoop.io.Text) TaskAttemptContext(org.apache.hadoop.mapreduce.TaskAttemptContext) MapWritable(org.apache.hadoop.io.MapWritable) MalformedURLException(java.net.MalformedURLException) ScoringFilterException(org.apache.nutch.scoring.ScoringFilterException) IOException(java.io.IOException) Progressable(org.apache.hadoop.util.Progressable) ScoringFilterException(org.apache.nutch.scoring.ScoringFilterException) Option(org.apache.hadoop.io.MapFile.Writer.Option) CompressionType(org.apache.hadoop.io.SequenceFile.CompressionType) URLExemptionFilters(org.apache.nutch.net.URLExemptionFilters) URLNormalizers(org.apache.nutch.net.URLNormalizers) RecordWriter(org.apache.hadoop.mapreduce.RecordWriter)

Aggregations

Progressable (org.apache.hadoop.util.Progressable)12 Path (org.apache.hadoop.fs.Path)7 Configuration (org.apache.hadoop.conf.Configuration)6 IOException (java.io.IOException)5 Test (org.junit.Test)5 FileSystem (org.apache.hadoop.fs.FileSystem)4 File (java.io.File)3 SequenceFile (org.apache.hadoop.io.SequenceFile)3 Text (org.apache.hadoop.io.Text)3 JobConf (org.apache.hadoop.mapred.JobConf)3 Properties (java.util.Properties)2 RouteBuilder (org.apache.camel.builder.RouteBuilder)2 MockEndpoint (org.apache.camel.component.mock.MockEndpoint)2 CreateOpts (org.apache.hadoop.fs.Options.CreateOpts)2 FsPermission (org.apache.hadoop.fs.permission.FsPermission)2 ParquetRecordWriterWrapper (org.apache.hadoop.hive.ql.io.parquet.write.ParquetRecordWriterWrapper)2 ArrayFile (org.apache.hadoop.io.ArrayFile)2 TaskAttemptContext (org.apache.hadoop.mapreduce.TaskAttemptContext)2 Collector (org.apache.lucene.search.Collector)2 AbstractIterator (com.google.common.collect.AbstractIterator)1