Exemple #1
0
  @Test
  public void WriteDBInt_lastKey_set_middle() {
    int numberOfRecords = 1000;

    /* Creates connections to MapDB */
    DB db1 = DBMaker.memoryDB().transactionDisable().make();

    /* Creates maps */
    NavigableSet<Integer> map1 = db1.treeSet("column1");

    /* Inserts initial values in maps */
    for (int i = 0; i < numberOfRecords; i++) {
      map1.add(i);
    }

    assertEquals((Object) (numberOfRecords - 1), map1.last());

    map1.clear();

    /* Inserts some values in maps */
    for (int i = 100; i < 110; i++) {
      map1.add(i);
    }

    assertEquals(10, map1.size());
    assertFalse(map1.isEmpty());
    assertEquals((Object) 109, map1.last());
    assertEquals((Object) 100, map1.first());
  }
 @Test
 public void testUnsignedTreeSetSerializable() {
   NavigableSet<Integer> set =
       new TreeSet<>(
           (Comparator<Integer> & Serializable) ((x, y) -> Integer.compareUnsigned(x, y)));
   set.addAll(Arrays.asList(-100, 0, 100));
   assertEquals(0, set.first().intValue());
   assertEquals(-100, set.last().intValue());
   byte[] serializedSet = writeSetToBytes(set, true);
   NavigableSet<Integer> set1 = readSetFromBytes(serializedSet);
   assertEquals(0, set1.first().intValue());
   assertEquals(-100, set1.last().intValue());
   assertEquals(set, set1);
 }
  public ImmutableMap<String, Method> build() {

    final ImmutableMap.Builder<String, Method> lResultBuilder =
        new ImmutableMap.Builder<String, Method>();

    // iterate based on mMethodsOrdered to maintain
    // the order
    for (String lBeanPropName : mMethodsOrdered) {

      final NavigableSet<Method> lAllMethods = mMethodCache.getUnchecked(lBeanPropName);
      final Method lMostPreciseMethod = lAllMethods.last();

      LOGGER.trace(
          "propName [{}] selected method [{}] all methods[{}]",
          new Object[] {lBeanPropName, lMostPreciseMethod, lAllMethods});

      if (mBeanMethodFilter.accepts(lMostPreciseMethod, lBeanPropName)) {
        lResultBuilder.put(lBeanPropName, lMostPreciseMethod);
      } else {
        LOGGER.trace("rejected [{}]", lBeanPropName);
      }
    }

    return lResultBuilder.build();
  }
Exemple #4
0
 /**
  * 右ノードに送信するノード集合を計算する.
  *
  * @param right 右ノード
  * @return 右ノードに送信するノード集合.
  */
 Set<Link> computeSetForRNode(boolean addMe, Link right) {
   NavigableSet<Link> propset = leftNbrSet.clone();
   if (addMe) {
     propset.add(me);
   }
   // propsetから,右ノードと同じノードと,それ以降のノードを削除する (if any)
   propset = propset.headSet(right, false);
   /*
   // 最後に送った集合と近いほうから比較し,i(>=0)番目のノードが異なるとする.
   // i >= NEIGHBOR_SET_SIZE ならばなにもしない.
   // i < IMMED_PROP_THRESHOLD ならば直ぐに右ノードに通知する.
   // i >= IMMED_PROP_THRESHOLD ならば,一定時間後に右ノードに通知するようにタイマをセットする.
   Iterator<Link> it1 = prevset.iterator();
   Iterator<Link> it2 = propset.iterator();
   int i = 0;
   for (; it1.hasNext() && it2.hasNext(); i++) {
       Link link1 = it1.next();
       Link link2 = it2.next();
       if (!link1.equals(link2)) {
           break;
       }
   }
   if (i >= NEIGHBOR_SET_SIZE) {
       return;
   }*/
   while (propset.size() > capacity) {
     propset.remove(propset.last());
   }
   // create a copy of propset.  propset has a reference to our
   // customized Comparator, which has a reference to NeighborSet.
   Set<Link> copy = new HashSet<Link>();
   copy.addAll(propset);
   return copy;
 }
  public void testKeyPutRandomUniform() throws Exception {
    final NavigableSet<Integer> keys = new TreeSet<Integer>();

    long seed = System.currentTimeMillis();

    System.out.println("testKeyPutRandomUniform seed : " + seed);

    final MersenneTwisterFast random = new MersenneTwisterFast(seed);

    while (keys.size() < KEYS_COUNT) {
      int key = random.nextInt(Integer.MAX_VALUE);
      sbTree.put(key, createValue(key, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));
      keys.add(key);

      doReset();
    }

    Assert.assertEquals(sbTree.firstKey(), keys.first());
    doReset();

    Assert.assertEquals(sbTree.lastKey(), keys.last());
    doReset();

    for (int key : keys) {
      Assert.assertEquals(
          sbTree.get(key), createValue(key, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));
      doReset();
    }
  }
 @Test
 public void testUnsignedTreeSetMRef() {
   NavigableSet<Integer> set = new TreeSet<>(Integer::compareUnsigned);
   set.addAll(Arrays.asList(-100, 0, 100));
   assertEquals(0, set.first().intValue());
   assertEquals(-100, set.last().intValue());
 }
Exemple #7
0
 void addAll(Collection<Link> nodes) {
   NavigableSet<Link> propset = leftNbrSet.clone();
   propset.addAll(nodes);
   while (capacity > 0 && propset.size() > capacity) {
     propset.remove(propset.last());
   }
   set(propset);
 }
Exemple #8
0
  /**
   * Creates a new OpenDJ upgrader.
   *
   * @param installRoot The installation root of the embedded OpenDS instance, which is usually
   *     {@code ~/openam/opends}.
   */
  public OpenDJUpgrader(final String installRoot, final ServletContext servletCtx) {
    this.installRoot = installRoot;
    this.servletCtx = servletCtx;
    this.upgradeMarker = new File(installRoot + "/.upgrade_marker");

    // Determine the current version. Note that if the upgrade marker exists
    // then that implies that OpenDS was only partially upgraded.
    this.newVersion = readNewVersion();
    this.versionHistory = getVersionHistory();
    if (upgradeMarker.exists() && versionHistory.last() == newVersion) {
      // Previous upgrade has not completed, so the last version is not
      // accurate.
      this.currentVersion = versionHistory.lower(newVersion);
    } else {
      this.currentVersion = versionHistory.last();
    }
  }
 @Test
 public void testUnsignedTreeSetNotSerializable() {
   NavigableSet<Integer> set = new TreeSet<>((x, y) -> Integer.compareUnsigned(x, y));
   set.addAll(Arrays.asList(-100, 0, 100));
   assertEquals(0, set.first().intValue());
   assertEquals(-100, set.last().intValue());
   byte[] serializedSet = writeSetToBytes(set, false);
   assertEquals(null, serializedSet);
 }
  public void testKeyDeleteRandomGaussian() throws Exception {
    NavigableSet<Integer> keys = new TreeSet<Integer>();

    long seed = System.currentTimeMillis();

    System.out.println("testKeyDeleteRandomGaussian seed : " + seed);
    MersenneTwisterFast random = new MersenneTwisterFast(seed);

    while (keys.size() < KEYS_COUNT) {
      int key = (int) (random.nextGaussian() * Integer.MAX_VALUE / 2 + Integer.MAX_VALUE);
      if (key < 0) continue;

      sbTree.put(key, createValue(key, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));
      keys.add(key);

      Assert.assertEquals(
          sbTree.get(key), createValue(key, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));

      doReset();
    }

    Iterator<Integer> keysIterator = keys.iterator();

    while (keysIterator.hasNext()) {
      int key = keysIterator.next();

      if (key % 3 == 0) {
        sbTree.remove(key);
        keysIterator.remove();
      }

      doReset();
    }

    Assert.assertEquals(sbTree.firstKey(), keys.first());
    doReset();

    Assert.assertEquals(sbTree.lastKey(), keys.last());
    doReset();

    for (int key : keys) {
      if (key % 3 == 0) {
        Assert.assertNull(sbTree.get(key));
      } else {
        Assert.assertEquals(
            sbTree.get(key), createValue(key, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));
      }

      doReset();
    }
  }
 protected boolean useLogarithmicProblemScale(List<XYSeries> seriesList) {
   NavigableSet<Double> xValueSet = new TreeSet<Double>();
   int xValueListSize = 0;
   for (XYSeries series : seriesList) {
     for (XYDataItem dataItem : (List<XYDataItem>) series.getItems()) {
       xValueSet.add(dataItem.getXValue());
       xValueListSize++;
     }
   }
   if (xValueListSize < LOG_SCALE_MIN_DATASETS_COUNT) {
     return false;
   }
   // If 60% of the points are in 20% of the value space, use a logarithmic scale
   double threshold = 0.2 * (xValueSet.last() - xValueSet.first());
   int belowThresholdCount = xValueSet.headSet(threshold).size();
   return belowThresholdCount >= (0.6 * xValueSet.size());
 }
  public void testKeyDeleteRandomUniform() throws Exception {
    NavigableSet<Integer> keys = new TreeSet<Integer>();
    for (int i = 0; i < KEYS_COUNT; i++) {
      sbTree.put(i, createValue(i, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));
      keys.add(i);

      doReset();
    }

    Iterator<Integer> keysIterator = keys.iterator();
    while (keysIterator.hasNext()) {
      int key = keysIterator.next();
      if (key % 3 == 0) {
        sbTree.remove(key);
        keysIterator.remove();
      }

      doReset();
    }

    Assert.assertEquals(sbTree.firstKey(), keys.first());
    doReset();

    Assert.assertEquals(sbTree.lastKey(), keys.last());
    doReset();

    for (int key : keys) {
      if (key % 3 == 0) {
        Assert.assertNull(sbTree.get(key));
      } else {
        Assert.assertEquals(
            sbTree.get(key), createValue(key, OSBTreeValuePage.MAX_BINARY_VALUE_SIZE + 4));
      }

      doReset();
    }
  }
    RandomSelection select(boolean narrow, boolean mixInNotPresentItems, boolean permitReversal) {
      ThreadLocalRandom random = ThreadLocalRandom.current();
      NavigableSet<Integer> canonicalSet = this.canonical;
      BTreeSet<Integer> testAsSet = this.test;
      List<Integer> canonicalList = new ArrayList<>(canonicalSet);
      BTreeSet<Integer> testAsList = this.test;

      Assert.assertEquals(canonicalSet.size(), testAsSet.size());
      Assert.assertEquals(canonicalList.size(), testAsList.size());

      // sometimes select keys first, so we cover full range
      List<Integer> allKeys = randomKeys(canonical, mixInNotPresentItems);
      List<Integer> keys = allKeys;

      int narrowCount = random.nextInt(3);
      while (narrow && canonicalList.size() > 10 && keys.size() > 10 && narrowCount-- > 0) {
        boolean useLb = random.nextBoolean();
        boolean useUb = random.nextBoolean();
        if (!(useLb | useUb)) continue;

        // select a range smaller than the total span when we have more narrowing iterations left
        int indexRange = keys.size() / (narrowCount + 1);

        boolean lbInclusive = true;
        Integer lbKey = canonicalList.get(0);
        int lbKeyIndex = 0, lbIndex = 0;
        boolean ubInclusive = true;
        Integer ubKey = canonicalList.get(canonicalList.size() - 1);
        int ubKeyIndex = keys.size(), ubIndex = canonicalList.size();

        if (useLb) {
          lbKeyIndex = random.nextInt(0, indexRange - 1);
          Integer candidate = keys.get(lbKeyIndex);
          if (useLb = (candidate > lbKey && candidate <= ubKey)) {
            lbInclusive = random.nextBoolean();
            lbKey = keys.get(lbKeyIndex);
            lbIndex = Collections.binarySearch(canonicalList, lbKey);
            if (lbIndex >= 0 && !lbInclusive) lbIndex++;
            else if (lbIndex < 0) lbIndex = -1 - lbIndex;
          }
        }
        if (useUb) {
          ubKeyIndex =
              random.nextInt(Math.max(lbKeyIndex, keys.size() - indexRange), keys.size() - 1);
          Integer candidate = keys.get(ubKeyIndex);
          if (useUb = (candidate < ubKey && candidate >= lbKey)) {
            ubInclusive = random.nextBoolean();
            ubKey = keys.get(ubKeyIndex);
            ubIndex = Collections.binarySearch(canonicalList, ubKey);
            if (ubIndex >= 0 && ubInclusive) {
              ubIndex++;
            } else if (ubIndex < 0) ubIndex = -1 - ubIndex;
          }
        }
        if (ubIndex < lbIndex) {
          ubIndex = lbIndex;
          ubKey = lbKey;
          ubInclusive = false;
        }

        canonicalSet =
            !useLb
                ? canonicalSet.headSet(ubKey, ubInclusive)
                : !useUb
                    ? canonicalSet.tailSet(lbKey, lbInclusive)
                    : canonicalSet.subSet(lbKey, lbInclusive, ubKey, ubInclusive);
        testAsSet =
            !useLb
                ? testAsSet.headSet(ubKey, ubInclusive)
                : !useUb
                    ? testAsSet.tailSet(lbKey, lbInclusive)
                    : testAsSet.subSet(lbKey, lbInclusive, ubKey, ubInclusive);

        keys = keys.subList(lbKeyIndex, ubKeyIndex);
        canonicalList = canonicalList.subList(lbIndex, ubIndex);
        testAsList = testAsList.subList(lbIndex, ubIndex);

        Assert.assertEquals(canonicalSet.size(), testAsSet.size());
        Assert.assertEquals(canonicalList.size(), testAsList.size());
      }

      // possibly restore full set of keys, to test case where we are provided existing keys that
      // are out of bounds
      if (keys != allKeys && random.nextBoolean()) keys = allKeys;

      Comparator<Integer> comparator = naturalOrder();
      if (permitReversal && random.nextBoolean()) {
        if (allKeys != keys) keys = new ArrayList<>(keys);
        if (canonicalSet != canonical) canonicalList = new ArrayList<>(canonicalList);
        Collections.reverse(keys);
        Collections.reverse(canonicalList);
        testAsList = testAsList.descendingSet();

        canonicalSet = canonicalSet.descendingSet();
        testAsSet = testAsSet.descendingSet();
        comparator = reverseOrder();
      }

      Assert.assertEquals(canonicalSet.size(), testAsSet.size());
      Assert.assertEquals(canonicalList.size(), testAsList.size());
      if (!canonicalSet.isEmpty()) {
        Assert.assertEquals(canonicalSet.first(), canonicalList.get(0));
        Assert.assertEquals(canonicalSet.last(), canonicalList.get(canonicalList.size() - 1));
        Assert.assertEquals(canonicalSet.first(), testAsSet.first());
        Assert.assertEquals(canonicalSet.last(), testAsSet.last());
        Assert.assertEquals(canonicalSet.first(), testAsList.get(0));
        Assert.assertEquals(canonicalSet.last(), testAsList.get(testAsList.size() - 1));
      }

      return new RandomSelection(
          keys, canonicalSet, testAsSet, canonicalList, testAsList, comparator);
    }
Exemple #14
0
  public static serverObjects respond(
      final RequestHeader header, final serverObjects post, final serverSwitch env) {
    // return variable that accumulates replacements
    final serverObjects prop = new serverObjects();
    final Switchboard sb = (Switchboard) env;

    // set if this should be visible
    if (yacyBuildProperties.isPkgManager()) {
      prop.put("candeploy", "2");
      return prop;
    } else if (OS.canExecUnix || OS.isWindows) {
      // we can deploy a new system with (i.e.)
      // cd DATA/RELEASE;tar xfz $1;cp -Rf yacy/* ../../;rm -Rf yacy
      prop.put("candeploy", "1");
    } else {
      prop.put("candeploy", "0");
    }

    prop.put("candeploy_configCommit", "0");
    prop.put("candeploy_autoUpdate", "0");
    prop.put("candeploy_downloadsAvailable", "0");

    if (post != null) {
      // check if update is supposed to be installed and a release is defined
      if (post.containsKey("update") && !post.get("releaseinstall", "").isEmpty()) {
        prop.put("forwardToSteering", "1");
        prop.putHTML("forwardToSteering_release", post.get("releaseinstall", ""));
        prop.put("deploys", "1");
        prop.put("candeploy", "2"); // display nothing else
        return prop;
      }

      if (post.containsKey("downloadRelease")) {
        // download a release
        final String release = post.get("releasedownload", "");
        if (!release.isEmpty()) {
          try {
            yacyRelease versionToDownload = new yacyRelease(new DigestURI(release));

            // replace this version with version which contains public key
            final yacyRelease.DevAndMainVersions allReleases =
                yacyRelease.allReleases(false, false);
            final Set<yacyRelease> mostReleases =
                versionToDownload.isMainRelease() ? allReleases.main : allReleases.dev;
            for (final yacyRelease rel : mostReleases) {
              if (rel.equals(versionToDownload)) {
                versionToDownload = rel;
                break;
              }
            }
            versionToDownload.downloadRelease();
          } catch (final IOException e) {
            // TODO Auto-generated catch block
            Log.logException(e);
          }
        }
      }

      if (post.containsKey("checkRelease")) {
        yacyRelease.allReleases(true, false);
      }

      if (post.containsKey("deleteRelease")) {
        final String release = post.get("releaseinstall", "");
        if (!release.isEmpty()) {
          try {
            FileUtils.deletedelete(new File(sb.releasePath, release));
            FileUtils.deletedelete(new File(sb.releasePath, release + ".sig"));
          } catch (final NullPointerException e) {
            sb.getLog()
                .logSevere(
                    "AUTO-UPDATE: could not delete release " + release + ": " + e.getMessage());
          }
        }
      }

      if (post.containsKey("autoUpdate")) {
        final yacyRelease updateVersion = yacyRelease.rulebasedUpdateInfo(true);
        if (updateVersion == null) {
          prop.put("candeploy_autoUpdate", "2"); // no more recent release found
        } else {
          // there is a version that is more recent. Load it and re-start with it
          sb.getLog()
              .logInfo("AUTO-UPDATE: downloading more recent release " + updateVersion.getUrl());
          final File downloaded = updateVersion.downloadRelease();
          prop.putHTML("candeploy_autoUpdate_downloadedRelease", updateVersion.getName());
          final boolean devenvironment = new File(sb.getAppPath(), ".svn").exists();
          if (devenvironment) {
            sb.getLog()
                .logInfo("AUTO-UPDATE: omitting update because this is a development environment");
            prop.put("candeploy_autoUpdate", "3");
          } else if ((downloaded == null) || (!downloaded.exists()) || (downloaded.length() == 0)) {
            sb.getLog()
                .logInfo(
                    "AUTO-UPDATE: omitting update because download failed (file cannot be found, is too small or signature was bad)");
            prop.put("candeploy_autoUpdate", "4");
          } else {
            yacyRelease.deployRelease(downloaded);
            sb.terminate(10, "manual release update to " + downloaded.getName());
            sb.getLog().logInfo("AUTO-UPDATE: deploy and restart initiated");
            prop.put("candeploy_autoUpdate", "1");
          }
        }
      }

      if (post.containsKey("configSubmit")) {
        prop.put("candeploy_configCommit", "1");
        sb.setConfig(
            "update.process",
            ("manual".equals(post.get("updateMode", "manual"))) ? "manual" : "auto");
        sb.setConfig("update.cycle", Math.max(12, post.getLong("cycle", 168)));
        sb.setConfig("update.blacklist", post.get("blacklist", ""));
        sb.setConfig(
            "update.concept", ("any".equals(post.get("releaseType", "any"))) ? "any" : "main");
        sb.setConfig(
            "update.onlySignedFiles", (post.getBoolean("onlySignedFiles", false)) ? "1" : "0");
      }
    }

    // version information
    final String versionstring =
        yacyBuildProperties.getVersion() + "/" + yacyBuildProperties.getSVNRevision();
    prop.putHTML("candeploy_versionpp", versionstring);
    final boolean devenvironment = new File(sb.getAppPath(), ".svn").exists();
    float thisVersion = Float.parseFloat(yacyBuildProperties.getVersion());
    // cut off the SVN Rev in the Version
    try {
      thisVersion = (float) (Math.round(thisVersion * 1000.0) / 1000.0);
    } catch (final NumberFormatException e) {
    }

    // list downloaded releases
    final File[] downloadedFiles = sb.releasePath.listFiles();
    // list can be null if RELEASE directory has been deleted manually
    final int downloadedFilesNum = (downloadedFiles == null) ? 0 : downloadedFiles.length;

    prop.put(
        "candeploy_deployenabled",
        (downloadedFilesNum == 0)
            ? "0"
            : ((devenvironment) ? "1" : "2")); // prevent that a developer-version is over-deployed

    final NavigableSet<yacyRelease> downloadedReleases = new TreeSet<yacyRelease>();
    for (final File downloaded : downloadedFiles) {
      try {
        final yacyRelease release = new yacyRelease(downloaded);
        downloadedReleases.add(release);
      } catch (final RuntimeException e) {
        // not a valid release
        // can be also a restart- or deploy-file
        final File invalid = downloaded;
        if (!(invalid.getName().endsWith(".bat")
            || invalid.getName().endsWith(".sh")
            || invalid
                .getName()
                .endsWith(".sig"))) { // Windows & Linux don't like deleted scripts while execution!
          invalid.deleteOnExit();
        }
      }
    }
    // latest downloaded release
    final yacyVersion dflt = (downloadedReleases.isEmpty()) ? null : downloadedReleases.last();
    // check if there are any downloaded releases and if there are enable the update buttons
    prop.put("candeploy_downloadsAvailable", (downloadedReleases.isEmpty()) ? "0" : "1");
    prop.put(
        "candeploy_deployenabled_buttonsActive",
        (downloadedReleases.isEmpty() || devenvironment) ? "0" : "1");

    int relcount = 0;
    for (final yacyRelease release : downloadedReleases) {
      prop.put(
          "candeploy_downloadedreleases_" + relcount + "_name",
          ((release.isMainRelease()) ? "main" : "dev")
              + " "
              + release.getReleaseNr()
              + "/"
              + release.getSvn());
      prop.put(
          "candeploy_downloadedreleases_" + relcount + "_signature",
          (release.getSignatureFile().exists() ? "1" : "0"));
      prop.putHTML("candeploy_downloadedreleases_" + relcount + "_file", release.getName());
      prop.put(
          "candeploy_downloadedreleases_" + relcount + "_selected", (release == dflt) ? "1" : "0");
      relcount++;
    }
    prop.put("candeploy_downloadedreleases", relcount);

    // list remotely available releases
    final yacyRelease.DevAndMainVersions releasess = yacyRelease.allReleases(false, false);
    relcount = 0;

    final ArrayList<yacyRelease> rlist = new ArrayList<yacyRelease>();
    final Set<yacyRelease> remoteDevReleases = releasess.dev;
    remoteDevReleases.removeAll(downloadedReleases);
    for (final yacyRelease release : remoteDevReleases) {
      rlist.add(release);
    }
    final Set<yacyRelease> remoteMainReleases = releasess.main;
    remoteMainReleases.removeAll(downloadedReleases);
    for (final yacyRelease release : remoteMainReleases) {
      rlist.add(release);
    }
    yacyRelease release;
    for (int i = rlist.size() - 1; i >= 0; i--) {
      release = rlist.get(i);
      prop.put(
          "candeploy_availreleases_" + relcount + "_name",
          ((release.isMainRelease()) ? "main" : "dev")
              + " "
              + release.getReleaseNr()
              + "/"
              + release.getSvn());
      prop.put("candeploy_availreleases_" + relcount + "_url", release.getUrl().toString());
      prop.put(
          "candeploy_availreleases_" + relcount + "_signatures",
          (release.getPublicKey() != null ? "1" : "0"));
      prop.put("candeploy_availreleases_" + relcount + "_selected", (relcount == 0) ? "1" : "0");
      relcount++;
    }

    prop.put("candeploy_availreleases", relcount);

    // properties for automated system update
    prop.put(
        "candeploy_manualUpdateChecked",
        ("manual".equals(sb.getConfig("update.process", "manual"))) ? "1" : "0");
    prop.put(
        "candeploy_autoUpdateChecked",
        ("auto".equals(sb.getConfig("update.process", "manual"))) ? "1" : "0");
    prop.put("candeploy_cycle", sb.getConfigLong("update.cycle", 168));
    prop.putHTML("candeploy_blacklist", sb.getConfig("update.blacklist", ""));
    prop.put(
        "candeploy_releaseTypeMainChecked",
        ("any".equals(sb.getConfig("update.concept", "any"))) ? "0" : "1");
    prop.put(
        "candeploy_releaseTypeAnyChecked",
        ("any".equals(sb.getConfig("update.concept", "any"))) ? "1" : "0");
    prop.put("candeploy_lastlookup", (sb.getConfigLong("update.time.lookup", 0) == 0) ? "0" : "1");
    prop.put(
        "candeploy_lastlookup_time",
        new Date(sb.getConfigLong("update.time.lookup", 0)).toString());
    prop.put(
        "candeploy_lastdownload", (sb.getConfigLong("update.time.download", 0) == 0) ? "0" : "1");
    prop.put(
        "candeploy_lastdownload_time",
        new Date(sb.getConfigLong("update.time.download", 0)).toString());
    prop.put("candeploy_lastdeploy", (sb.getConfigLong("update.time.deploy", 0) == 0) ? "0" : "1");
    prop.put(
        "candeploy_lastdeploy_time",
        new Date(sb.getConfigLong("update.time.deploy", 0)).toString());
    prop.put(
        "candeploy_onlySignedFiles",
        ("1".equals(sb.getConfig("update.onlySignedFiles", "1"))) ? "1" : "0");

    /*
    if ((adminaccess) && (yacyVersion.latestRelease >= (thisVersion+0.01))) { // only new Versions(not new SVN)
        if ((yacyVersion.latestMainRelease != null) ||
            (yacyVersion.latestDevRelease != null)) {
            prop.put("hintVersionDownload", 1);
        } else if ((post != null) && (post.containsKey("aquirerelease"))) {
            yacyVersion.aquireLatestReleaseInfo();
            prop.put("hintVersionDownload", 1);
        } else {
            prop.put("hintVersionAvailable", 1);
        }
    }
    prop.put("hintVersionAvailable", 1); // for testing

    prop.putASIS("hintVersionDownload_versionResMain", (yacyVersion.latestMainRelease == null) ? "-" : yacyVersion.latestMainRelease.toAnchor());
    prop.putASIS("hintVersionDownload_versionResDev", (yacyVersion.latestDevRelease == null) ? "-" : yacyVersion.latestDevRelease.toAnchor());
    prop.put("hintVersionAvailable_latestVersion", Float.toString(yacyVersion.latestRelease));
     */

    return prop;
  }