/** Create LockssKeystores from config subtree below {@link #PARAM_KEYSTORE} */
  void configureKeyStores(Configuration config) {
    Configuration allKs = config.getConfigTree(PARAM_KEYSTORE);
    for (Iterator iter = allKs.nodeIterator(); iter.hasNext(); ) {
      String id = (String) iter.next();
      Configuration oneKs = allKs.getConfigTree(id);
      try {
        LockssKeyStore lk = createLockssKeyStore(oneKs);
        String name = lk.getName();
        if (name == null) {
          log.error("KeyStore definition missing name: " + oneKs);
          continue;
        }
        LockssKeyStore old = keystoreMap.get(name);
        if (old != null && !lk.equals(old)) {
          log.warning(
              "Keystore "
                  + name
                  + " redefined.  "
                  + "New definition may not take effect until daemon restart");
        }

        log.debug("Adding keystore " + name);
        keystoreMap.put(name, lk);

      } catch (Exception e) {
        log.error("Couldn't create keystore: " + oneKs, e);
      }
    }
  }
  /**
   * Return a TitleConfig for the AU. Returns matching entry from the title db if found, else
   * creates one
   */
  TitleConfig titleConfigFromAu(InactiveAuProxy au) {
    PluginProxy plugin = au.getPlugin();
    String auname = au.getName();
    Configuration auConfig = au.getConfiguration();
    TitleConfig tc = AuUtil.findTitleConfig(auConfig, plugin.getPlugin());
    if (tc != null) {
      return tc;
    }

    tc = new TitleConfig(auname, plugin.getPluginId());
    ArrayList<ConfigParamAssignment> params = new ArrayList();
    for (Iterator iter = auConfig.keyIterator(); iter.hasNext(); ) {
      String key = (String) iter.next();
      if (!ConfigParamDescr.isReservedParam(key)) {
        String val = auConfig.get(key);
        ConfigParamDescr descr = plugin.findAuConfigDescr(key);
        if (descr != null) {
          ConfigParamAssignment cpa = new ConfigParamAssignment(descr, val);
          params.add(cpa);
        } else {
          log.warning("Unknown parameter key: " + key + " in au: " + auname);
        }
      }
    }
    params.trimToSize();
    tc.setParams(params);
    return tc;
  }
Beispiel #3
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  private V3LcapMessage makeTestVoteMessage(Collection voteBlocks) throws IOException {
    mPollMgr.setStateDir("key", tempDir);
    V3LcapMessage msg =
        new V3LcapMessage(
            "ArchivalID_2",
            "key",
            "Plug42",
            m_testBytes,
            m_testBytes,
            V3LcapMessage.MSG_VOTE,
            987654321,
            m_testID,
            tempDir,
            theDaemon);

    // Set msg vote blocks.
    for (Iterator ix = voteBlocks.iterator(); ix.hasNext(); ) {
      msg.addVoteBlock((VoteBlock) ix.next());
    }

    msg.setHashAlgorithm(LcapMessage.getDefaultHashAlgorithm());
    msg.setArchivalId(m_archivalID);
    msg.setPluginVersion("PlugVer42");
    return msg;
  }
 /**
  * Return the titles in the set.
  *
  * @return a collection of TitleConfig
  */
 public Collection<TitleConfig> getTitles() {
   Collection aus = daemon.getRemoteApi().getInactiveAus();
   ArrayList<TitleConfig> res = new ArrayList<TitleConfig>(aus.size());
   for (Iterator iter = aus.iterator(); iter.hasNext(); ) {
     InactiveAuProxy aup = (InactiveAuProxy) iter.next();
     res.add(titleConfigFromAu(aup));
   }
   res.trimToSize();
   return res;
 }
 /** Concatenate params for URL string */
 String concatParams(Properties props) {
   if (props == null) {
     return null;
   }
   java.util.List list = new ArrayList();
   for (Iterator iter = props.keySet().iterator(); iter.hasNext(); ) {
     String key = (String) iter.next();
     String val = props.getProperty(key);
     if (!StringUtil.isNullString(val)) {
       list.add(key + "=" + urlEncode(val));
     }
   }
   return StringUtil.separatedString(list, "&");
 }
 public List findExistingRepositoriesFor(String auid) {
   List res = null;
   for (Iterator iter = getRepositoryList().iterator(); iter.hasNext(); ) {
     String repoName = (String) iter.next();
     String path = LockssRepositoryImpl.getLocalRepositoryPath(repoName);
     if (LockssRepositoryImpl.doesAuDirExist(auid, path)) {
       if (res == null) {
         res = new ArrayList();
       }
       res.add(repoName);
     }
   }
   return res == null ? Collections.EMPTY_LIST : res;
 }
 /**
  * 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);
   }
 }
Beispiel #8
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  public void testRequestMessageCreation() throws Exception {
    V3LcapMessage reqMsg =
        new V3LcapMessage(
            "ArchivalID_2",
            "key",
            "Plug42",
            m_testBytes,
            m_testBytes,
            V3LcapMessage.MSG_REPAIR_REQ,
            987654321,
            m_testID,
            tempDir,
            theDaemon);
    reqMsg.setTargetUrl("http://foo.com/");

    for (Iterator ix = m_testVoteBlocks.iterator(); ix.hasNext(); ) {
      reqMsg.addVoteBlock((VoteBlock) ix.next());
    }

    assertEquals(3, reqMsg.getProtocolVersion());
    assertEquals("Plug42", reqMsg.getPluginVersion());
    assertTrue(m_testID == reqMsg.getOriginatorId());
    assertEquals(V3LcapMessage.MSG_REPAIR_REQ, reqMsg.getOpcode());
    assertEquals("ArchivalID_2", reqMsg.getArchivalId());
    assertEquals("http://foo.com/", reqMsg.getTargetUrl());
    assertEquals(m_testBytes, reqMsg.getPollerNonce());
    assertEquals(m_testBytes, reqMsg.getVoterNonce());
    assertEquals(null, reqMsg.getVoterNonce2());
    List aBlocks = new ArrayList();
    List bBlocks = new ArrayList();
    for (VoteBlocksIterator iter = m_testMsg.getVoteBlockIterator(); iter.hasNext(); ) {
      aBlocks.add(iter.next());
    }
    for (VoteBlocksIterator iter = reqMsg.getVoteBlockIterator(); iter.hasNext(); ) {
      bBlocks.add(iter.next());
    }
    assertEquals(aBlocks, bBlocks);

    // Actual size of test vote blocks is unpredictable
    assertTrue(reqMsg.getEstimatedEncodedLength() > V3LcapMessage.EST_ENCODED_HEADER_LENGTH);
  }
 public void setConfig(
     Configuration config, Configuration oldConfig, Configuration.Differences changedKeys) {
   //  Build list of repositories from list of disk (fs) paths).  Needs to
   //  be generalized if ever another repository implementation.
   if (changedKeys.contains(ConfigManager.PARAM_PLATFORM_DISK_SPACE_LIST)) {
     List lst = new ArrayList();
     String dspace = config.get(ConfigManager.PARAM_PLATFORM_DISK_SPACE_LIST, "");
     List paths = StringUtil.breakAt(dspace, ';');
     if (paths != null) {
       for (Iterator iter = paths.iterator(); iter.hasNext(); ) {
         lst.add("local:" + (String) iter.next());
       }
     }
     repoList = lst;
   }
   if (changedKeys.contains(PARAM_MAX_PER_AU_CACHE_SIZE)) {
     paramNodeCacheSize =
         config.getInt(PARAM_MAX_PER_AU_CACHE_SIZE, DEFAULT_MAX_PER_AU_CACHE_SIZE);
     for (Iterator iter = getDaemon().getAllLockssRepositories().iterator(); iter.hasNext(); ) {
       LockssRepository repo = (LockssRepository) iter.next();
       if (repo instanceof LockssRepositoryImpl) {
         LockssRepositoryImpl repoImpl = (LockssRepositoryImpl) repo;
         repoImpl.setNodeCacheSize(paramNodeCacheSize);
       }
     }
   }
   if (changedKeys.contains(PARAM_MAX_SUSPECT_VERSIONS_CACHE_SIZE)) {
     paramSuspectVersionsCacheSize =
         config.getInt(
             PARAM_MAX_SUSPECT_VERSIONS_CACHE_SIZE, DEFAULT_MAX_SUSPECT_VERSIONS_CACHE_SIZE);
     suspectVersionsCache.setMaxSize(paramSuspectVersionsCacheSize);
   }
   if (changedKeys.contains(GLOBAL_CACHE_PREFIX)) {
     paramIsGlobalNodeCache =
         config.getBoolean(PARAM_GLOBAL_CACHE_ENABLED, DEFAULT_GLOBAL_CACHE_ENABLED);
     if (paramIsGlobalNodeCache) {
       paramGlobalNodeCacheSize =
           config.getInt(PARAM_MAX_GLOBAL_CACHE_SIZE, DEFAULT_MAX_GLOBAL_CACHE_SIZE);
       log.debug("global node cache size: " + paramGlobalNodeCacheSize);
       globalNodeCache.setMaxSize(paramGlobalNodeCacheSize);
     }
   }
   if (changedKeys.contains(DISK_PREFIX)) {
     int minMB = config.getInt(PARAM_DISK_WARN_FRRE_MB, DEFAULT_DISK_WARN_FRRE_MB);
     double minPer =
         config.getPercentage(PARAM_DISK_WARN_FRRE_PERCENT, DEFAULT_DISK_WARN_FRRE_PERCENT);
     paramDFWarn = PlatformUtil.DF.makeThreshold(minMB, minPer);
     minMB = config.getInt(PARAM_DISK_FULL_FRRE_MB, DEFAULT_DISK_FULL_FRRE_MB);
     minPer = config.getPercentage(PARAM_DISK_FULL_FRRE_PERCENT, DEFAULT_DISK_FULL_FRRE_PERCENT);
     paramDFFull = PlatformUtil.DF.makeThreshold(minMB, minPer);
   }
   if (changedKeys.contains(PARAM_SIZE_CALC_MAX_LOAD)) {
     sizeCalcMaxLoad = config.getPercentage(PARAM_SIZE_CALC_MAX_LOAD, DEFAULT_SIZE_CALC_MAX_LOAD);
   }
   if (changedKeys.contains(PREFIX)) {
     maxUnusedDirSearch =
         config.getInt(PARAM_MAX_UNUSED_DIR_SEARCH, DEFAULT_MAX_UNUSED_DIR_SEARCH);
     isStatefulUnusedDirSearch =
         config.getBoolean(
             PARAM_IS_STATEFUL_UNUSED_DIR_SEARCH, DEFAULT_IS_STATEFUL_UNUSED_DIR_SEARCH);
     enableLongComponents =
         config.getBoolean(PARAM_ENABLE_LONG_COMPONENTS, DEFAULT_ENABLE_LONG_COMPONENTS);
     enableLongComponentsCompatibility =
         config.getBoolean(
             PARAM_ENABLE_LONG_COMPONENTS_COMPATIBILITY,
             DEFAULT_ENABLE_LONG_COMPONENTS_COMPATIBILITY);
     maxComponentLength = config.getInt(PARAM_MAX_COMPONENT_LENGTH, DEFAULT_MAX_COMPONENT_LENGTH);
     checkUnnormalized =
         (CheckUnnormalizedMode)
             config.getEnum(
                 CheckUnnormalizedMode.class,
                 PARAM_CHECK_UNNORMALIZED,
                 DEFAULT_CHECK_UNNORMALIZED);
   }
 }
 protected void initMimeMap() throws PluginException.InvalidDefinition {
   for (Iterator iter = definitionMap.entrySet().iterator(); iter.hasNext(); ) {
     Map.Entry ent = (Map.Entry) iter.next();
     String key = (String) ent.getKey();
     Object val = ent.getValue();
     if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_EXTRACTOR_FACTORY);
       if (val instanceof String) {
         String factName = (String) val;
         log.debug(mime + " link extractor: " + factName);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         LinkExtractorFactory fact =
             (LinkExtractorFactory) newAuxClass(factName, LinkExtractorFactory.class);
         mti.setLinkExtractorFactory(fact);
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY)) {
       // XXX This clause must precede the one for SUFFIX_HASH_FILTER_FACTORY
       // XXX unless/until that key is changed to not be a terminal substring
       // XXX of this one
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_CRAWL_FILTER_FACTORY);
       if (val instanceof String) {
         String factName = (String) val;
         log.debug(mime + " crawl filter: " + factName);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
         mti.setCrawlFilterFactory(fact);
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_HASH_FILTER_FACTORY);
       if (val instanceof String) {
         String factName = (String) val;
         log.debug(mime + " filter: " + factName);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         FilterFactory fact = (FilterFactory) newAuxClass(factName, FilterFactory.class);
         mti.setHashFilterFactory(fact);
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_FETCH_RATE_LIMIT);
       if (val instanceof String) {
         String rate = (String) val;
         log.debug(mime + " fetch rate: " + rate);
         MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
         RateLimiter limit = mti.getFetchRateLimiter();
         if (limit != null) {
           limit.setRate(rate);
         } else {
           mti.setFetchRateLimiter(new RateLimiter(rate));
         }
       }
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_LINK_REWRITER_FACTORY);
       String factName = (String) val;
       log.debug(mime + " link rewriter: " + factName);
       MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
       LinkRewriterFactory fact =
           (LinkRewriterFactory) newAuxClass(factName, LinkRewriterFactory.class);
       mti.setLinkRewriterFactory(fact);
     } else if (key.endsWith(DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP)) {
       String mime = stripSuffix(key, DefinableArchivalUnit.SUFFIX_METADATA_EXTRACTOR_FACTORY_MAP);
       Map factNameMap = (Map) val;
       Map factClassMap = new HashMap();
       MimeTypeInfo.Mutable mti = mimeMap.modifyMimeTypeInfo(mime);
       for (Iterator it = factNameMap.keySet().iterator(); it.hasNext(); ) {
         String mdTypes = (String) it.next();
         String factName = (String) factNameMap.get(mdTypes);
         log.debug(mime + " (" + mdTypes + ") metadata extractor: " + factName);
         for (String mdType : (List<String>) StringUtil.breakAt(mdTypes, ";")) {
           setMdTypeFact(factClassMap, mdType, factName);
         }
       }
       mti.setFileMetadataExtractorFactoryMap(factClassMap);
     }
   }
 }