void stopThread() {
   if (sizeCalcThread != null) {
     log.debug2("Stopping thread");
     sizeCalcThread.stopSizeCalc();
     sizeCalcThread = null;
   }
 }
 protected void initFeatureVersions() throws PluginException.InvalidDefinition {
   if (definitionMap.containsKey(KEY_PLUGIN_FEATURE_VERSION_MAP)) {
     Map<Plugin.Feature, String> map = new HashMap<Plugin.Feature, String>();
     Map<String, String> spec =
         (Map<String, String>) definitionMap.getMap(KEY_PLUGIN_FEATURE_VERSION_MAP);
     log.debug2("features: " + spec);
     for (Map.Entry<String, String> ent : spec.entrySet()) {
       try {
         // Prefix version string with feature name to create separate
         // namespace for each feature
         String key = ent.getKey();
         map.put(Plugin.Feature.valueOf(key), key + "_" + ent.getValue());
       } catch (RuntimeException e) {
         log.warning(
             getPluginName()
                 + " set unknown feature: "
                 + ent.getKey()
                 + " to version "
                 + ent.getValue(),
             e);
         throw new PluginException.InvalidDefinition("Unknown feature: " + ent.getKey(), e);
       }
     }
     featureVersion = map;
   } else {
     featureVersion = null;
   }
 }
 /** engqueue a size calculation for the node */
 public void queueSizeCalc(RepositoryNode node) {
   synchronized (sizeCalcQueue) {
     if (sizeCalcQueue.add(node)) {
       log.debug2("Queue size calc: " + node);
       startOrKickThread();
     }
   }
 }
 void startOrKickThread() {
   if (sizeCalcThread == null) {
     log.debug2("Starting thread");
     sizeCalcThread = new SizeCalcThread();
     sizeCalcThread.start();
     sizeCalcThread.waitRunning();
   }
   sizeCalcSem.give();
 }
 static LocalRepository getLocalRepository(String repoRoot) {
   synchronized (localRepositories) {
     LocalRepository localRepo = (LocalRepository) localRepositories.get(repoRoot);
     if (localRepo == null) {
       logger.debug2("Creating LocalRepository(" + repoRoot + ")");
       localRepo = new LocalRepository(repoRoot);
       localRepositories.put(repoRoot, localRepo);
     }
     return localRepo;
   }
 }
 protected PermissionCheckerFactory getPermissionCheckerFactory() {
   if (permissionCheckerFact == null) {
     String permissionCheckerFactoryClass =
         definitionMap.getString(DefinableArchivalUnit.KEY_AU_PERMISSION_CHECKER_FACTORY, null);
     if (permissionCheckerFactoryClass != null) {
       permissionCheckerFact =
           (PermissionCheckerFactory)
               newAuxClass(permissionCheckerFactoryClass, PermissionCheckerFactory.class);
       log.debug2("Loaded PermissionCheckerFactory: " + permissionCheckerFact);
     }
   }
   return permissionCheckerFact;
 }
 /**
  * Checks the consistency of the node, and continues with its children if it's consistent.
  *
  * @param node RepositoryNodeImpl the node to check
  */
 private void recurseConsistencyCheck(RepositoryNodeImpl node) {
   logger.debug2("Checking node '" + node.getNodeUrl() + "'...");
   // check consistency at each node
   // correct/deactivate as necessary
   // 'checkNodeConsistency()' will repair if possible
   if (node.checkNodeConsistency()) {
     logger.debug3("Node consistent; recursing on children...");
     List children = node.getNodeList(null, false);
     Iterator iter = children.iterator();
     while (iter.hasNext()) {
       RepositoryNodeImpl child = (RepositoryNodeImpl) iter.next();
       recurseConsistencyCheck(child);
     }
   } else {
     logger.debug3("Node inconsistent; deactivating...");
     deactivateInconsistentNode(node);
   }
 }
  public void loadAuConfigDescrs(Configuration config) throws ConfigurationException {
    super.loadAuConfigDescrs(config);
    this.m_registryUrl = config.get(ConfigParamDescr.BASE_URL.getKey());
    // Now we can construct a valid CC permission checker.
    m_permissionCheckers =
        //       ListUtil.list(new CreativeCommonsPermissionChecker(m_registryUrl));
        ListUtil.list(new CreativeCommonsPermissionChecker());

    paramMap.putLong(
        KEY_AU_NEW_CONTENT_CRAWL_INTERVAL,
        CurrentConfig.getTimeIntervalParam(
            PARAM_REGISTRY_CRAWL_INTERVAL, DEFAULT_REGISTRY_CRAWL_INTERVAL));
    if (log.isDebug2()) {
      log.debug2(
          "Setting Registry AU recrawl interval to "
              + StringUtil.timeIntervalToString(
                  paramMap.getLong(KEY_AU_NEW_CONTENT_CRAWL_INTERVAL)));
    }
  }
Example #9
0
 private void writeFiles() {
   PlatformUtil platutil = PlatformUtil.getInstance();
   CuIterator iter = AuUtil.getCuIterator(au);
   int errs = 0;
   CachedUrl curCu = null;
   CachedUrl nextCu = getNextCu(iter);
   while (nextCu != null) {
     curCu = nextCu;
     nextCu = getNextCu(iter);
     if (excludeDirNodes && nextCu != null && isDirOf(curCu, nextCu)) {
       continue;
     }
     CachedUrl[] cuVersions =
         curCu.getCuVersions(maxVersions > 0 ? maxVersions : Integer.MAX_VALUE);
     for (CachedUrl cu : cuVersions) {
       try {
         log.debug2("Exporting " + cu.getUrl());
         writeCu(cu);
       } catch (IOException e) {
         if (platutil.isDiskFullError(e)) {
           recordError("Disk full, can't write export file.");
           isDiskFull = true;
           return;
         }
       } catch (Exception e) {
         // XXX Would like to differentiate between errors opening or
         // reading CU, which shouldn't cause abort, and errors writing
         // to export file, which should.
         recordError("Unable to copy " + cu.getUrl(), e);
         if (errs++ >= maxErrors) {
           recordError("Aborting after " + errs + " errors");
           return;
         }
       }
     }
   }
 }
 /**
  * Factory method to create new LockssRepository instances.
  *
  * @param au the {@link ArchivalUnit}
  * @return the new LockssRepository instance
  */
 public static LockssRepository createNewLockssRepository(ArchivalUnit au) {
   String root = getRepositoryRoot(au);
   if (root == null || root.equals("null")) {
     logger.error("No repository dir set in config");
     throw new LockssRepository.RepositoryStateException("No repository dir set in config");
   }
   String auDir = LockssRepositoryImpl.mapAuToFileLocation(root, au);
   if (logger.isDebug2()) {
     logger.debug2("repo: " + auDir + ", au: " + au.getName());
   }
   staticCacheLocation = extendCacheLocation(root);
   LockssRepositoryImpl repo = new LockssRepositoryImpl(auDir);
   Plugin plugin = au.getPlugin();
   if (plugin != null) {
     LockssDaemon daemon = plugin.getDaemon();
     if (daemon != null) {
       RepositoryManager mgr = daemon.getRepositoryManager();
       if (mgr != null) {
         mgr.setRepositoryForPath(auDir, repo);
       }
     }
   }
   return repo;
 }
  protected void initResultMap() throws PluginException.InvalidDefinition {
    HttpResultMap hResultMap = new HttpResultMap();
    // XXX Currently this only allows a CacheResultHandler class to
    // initialize the result map.  Instead, don't use a CacheResultMap
    // directly, use either the plugin's CacheResultHandler, if specified,
    // or a default one that wraps the CacheResultMap

    String handler_class = null;
    handler_class = definitionMap.getString(KEY_EXCEPTION_HANDLER, null);
    if (handler_class != null) {
      try {
        resultHandler = (CacheResultHandler) newAuxClass(handler_class, CacheResultHandler.class);
        resultHandler.init(hResultMap);
      } catch (Exception ex) {
        throw new PluginException.InvalidDefinition(
            mapName + " has invalid Exception handler: " + handler_class, ex);
      } catch (LinkageError le) {
        throw new PluginException.InvalidDefinition(
            mapName + " has invalid Exception handler: " + handler_class, le);
      }
    } else {
      // Expect a list of mappings from either result code or exception
      // name to CacheException name
      Collection<String> mappings = definitionMap.getCollection(KEY_EXCEPTION_LIST, null);
      if (mappings != null) {
        // add each entry
        for (String entry : mappings) {
          if (log.isDebug2()) {
            log.debug2("initMap(" + entry + ")");
          }
          String first;
          String ceName;
          try {
            List<String> pair = StringUtil.breakAt(entry, '=', 2, true, true);
            first = pair.get(0);
            ceName = pair.get(1);
          } catch (Exception ex) {
            throw new PluginException.InvalidDefinition(
                "Invalid syntax: " + entry + "in " + mapName);
          }
          Object val;

          // Value should be either a CacheException or CacheResultHandler
          // class name.
          PluginFetchEventResponse resp =
              (PluginFetchEventResponse) newAuxClass(ceName, PluginFetchEventResponse.class, null);
          if (resp instanceof CacheException) {
            val = resp.getClass();
          } else if (resp instanceof CacheResultHandler) {
            val = WrapperUtil.wrap((CacheResultHandler) resp, CacheResultHandler.class);
          } else {
            throw new PluginException.InvalidDefinition(
                "Second arg not a "
                    + "CacheException or "
                    + "CacheResultHandler class: "
                    + entry
                    + ", in "
                    + mapName);
          }
          try {
            int code = Integer.parseInt(first);
            // If parseable as an integer, it's a result code.
            hResultMap.storeMapEntry(code, val);
          } catch (NumberFormatException e) {
            try {
              Class eClass = Class.forName(first);
              // If a class name, it should be an exception class
              if (Exception.class.isAssignableFrom(eClass)) {
                hResultMap.storeMapEntry(eClass, val);
              } else {
                throw new PluginException.InvalidDefinition(
                    "First arg not an " + "Exception class: " + entry + ", in " + mapName);
              }
            } catch (Exception ex) {
              throw new PluginException.InvalidDefinition(
                  "First arg not a " + "number or class: " + entry + ", in " + mapName);
            } catch (LinkageError le) {
              throw new PluginException.InvalidDefinition("Can't load " + first, le);
            }
          }
        }
      }
    }
    resultMap = hResultMap;
  }