/**
   * Record time-stamped information about the activity of the connection. This information can
   * originate from either the connector or from the framework. The reason it is here is that it is
   * viewed as 'belonging' to an individual connection, and is segregated accordingly.
   *
   * @param connectionName is the connection to which the record belongs. If the connection is
   *     deleted, the corresponding records will also be deleted. Cannot be null.
   * @param startTime is either null or the time since the start of epoch in milliseconds (Jan 1,
   *     1970). Every activity has an associated time; the startTime field records when the activity
   *     began. A null value indicates that the start time and the finishing time are the same.
   * @param activityType is a string which is fully interpretable only in the context of the
   *     connector involved, which is used to categorize what kind of activity is being recorded.
   *     For example, a web connector might record a "fetch document" activity, while the framework
   *     might record "ingest document", "job start", "job finish", "job abort", etc. Cannot be
   *     null.
   * @param dataSize is the number of bytes of data involved in the activity, or null if not
   *     applicable.
   * @param entityIdentifier is a (possibly long) string which identifies the object involved in the
   *     history record. The interpretation of this field will differ from connector to connector.
   *     May be null.
   * @param resultCode contains a terse description of the result of the activity. The description
   *     is limited in size to 255 characters, and can be interpreted only in the context of the
   *     current connector. May be null.
   * @param resultDescription is a (possibly long) human-readable string which adds detail, if
   *     required, to the result described in the resultCode field. This field is not meant to be
   *     queried on. May be null.
   * @param childIdentifiers is a set of child entity identifiers associated with this activity. May
   *     be null.
   */
  public void recordHistory(
      String connectionName,
      Long startTime,
      String activityType,
      Long dataSize,
      String entityIdentifier,
      String resultCode,
      String resultDescription,
      String[] childIdentifiers)
      throws ManifoldCFException {
    long endTimeValue = System.currentTimeMillis();
    long startTimeValue;
    if (startTime == null) startTimeValue = endTimeValue - 1L;
    else {
      startTimeValue = startTime.longValue();
      if (startTimeValue == endTimeValue) startTimeValue -= 1L; // Zero-time events are not allowed.
    }

    long dataSizeValue;
    if (dataSize == null) dataSizeValue = 0L;
    else dataSizeValue = dataSize.longValue();

    Long rowID =
        historyManager.addRow(
            connectionName,
            startTimeValue,
            endTimeValue,
            dataSizeValue,
            activityType,
            entityIdentifier,
            resultCode,
            resultDescription);
    // child identifiers are not stored, for now.
    // MHL
  }
Exemplo n.º 2
0
  public void run() {
    resetManager.registerMe();

    try {
      // Create a thread context object.
      IThreadContext threadContext = ThreadContextFactory.make();
      IJobManager jobManager = JobManagerFactory.make(threadContext);
      IRepositoryConnectionManager connectionMgr =
          RepositoryConnectionManagerFactory.make(threadContext);

      IDBInterface database =
          DBInterfaceFactory.make(
              threadContext,
              ManifoldCF.getMasterDatabaseName(),
              ManifoldCF.getMasterDatabaseUsername(),
              ManifoldCF.getMasterDatabasePassword());

      // Loop
      while (true) {
        // Do another try/catch around everything in the loop
        try {
          // Before we begin, conditionally reset
          resetManager.waitForReset(threadContext);

          // Accumulate the wait before doing the next check.
          // We start with 10 seconds, which is the maximum.  If there's a service request
          // that's faster than that, we'll adjust the time downward.
          long waitTime = 10000L;

          if (Logging.threads.isDebugEnabled()) Logging.threads.debug("Checking for deleting jobs");

          // See if there are any starting jobs.
          // Note: Since this following call changes the job state, we must be careful to reset it
          // on any kind of failure.
          JobDeleteRecord[] deleteJobs = jobManager.getJobsReadyForDelete(processID);
          try {

            if (deleteJobs.length == 0) {
              ManifoldCF.sleep(waitTime);
              continue;
            }

            if (Logging.threads.isDebugEnabled())
              Logging.threads.debug(
                  "Found " + Integer.toString(deleteJobs.length) + " jobs ready to be deleted");

            long currentTime = System.currentTimeMillis();

            // Loop through jobs
            int i = 0;
            while (i < deleteJobs.length) {
              JobDeleteRecord jsr = deleteJobs[i++];
              Long jobID = jsr.getJobID();
              try {
                jobManager.prepareDeleteScan(jobID);
                // Start deleting this job!
                jobManager.noteJobDeleteStarted(jobID, currentTime);
                jsr.noteStarted();
              } catch (ManifoldCFException e) {
                if (e.getErrorCode() == ManifoldCFException.INTERRUPTED)
                  throw new InterruptedException();
                if (e.getErrorCode() == ManifoldCFException.DATABASE_CONNECTION_ERROR) throw e;
                // We cannot abort the delete startup, but if we fall through, we'll put the job
                // back into
                // the state whence it came.  So, fall through.
                Logging.threads.error("Exception tossed: " + e.getMessage(), e);
              }
            }
          } finally {
            // Clean up all jobs that did not start
            ManifoldCFException exception = null;
            int i = 0;
            while (i < deleteJobs.length) {
              JobDeleteRecord jsr = deleteJobs[i++];
              if (!jsr.wasStarted()) {
                // Clean up from failed start.
                try {
                  jobManager.resetStartDeleteJob(jsr.getJobID());
                } catch (ManifoldCFException e) {
                  exception = e;
                }
              }
            }
            if (exception != null) throw exception;
          }

          // Sleep for the retry interval.
          ManifoldCF.sleep(waitTime);
        } catch (ManifoldCFException e) {
          if (e.getErrorCode() == ManifoldCFException.INTERRUPTED) break;

          if (e.getErrorCode() == ManifoldCFException.DATABASE_CONNECTION_ERROR) {
            resetManager.noteEvent();

            Logging.threads.error(
                "Start delete thread aborting and restarting due to database connection reset: "
                    + e.getMessage(),
                e);
            try {
              // Give the database a chance to catch up/wake up
              ManifoldCF.sleep(10000L);
            } catch (InterruptedException se) {
              break;
            }
            continue;
          }

          // Log it, but keep the thread alive
          Logging.threads.error("Exception tossed: " + e.getMessage(), e);

          if (e.getErrorCode() == ManifoldCFException.SETUP_ERROR) {
            // Shut the whole system down!
            System.exit(1);
          }

        } catch (InterruptedException e) {
          // We're supposed to quit
          break;
        } catch (OutOfMemoryError e) {
          System.err.println("agents process ran out of memory - shutting down");
          e.printStackTrace(System.err);
          System.exit(-200);
        } catch (Throwable e) {
          // A more severe error - but stay alive
          Logging.threads.fatal("Error tossed: " + e.getMessage(), e);
        }
      }
    } catch (Throwable e) {
      // Severe error on initialization
      System.err.println("agents process could not start - shutting down");
      Logging.threads.fatal("StartDeleteThread initialization error tossed: " + e.getMessage(), e);
      System.exit(-300);
    }
  }