Beispiel #1
0
  /**
   * @param args
   * @throws Exception
   */
  @SuppressWarnings("unchecked")
  public void process(String[] args, String... required) throws Exception {
    final boolean debug = LOG.isDebugEnabled();

    if (debug) LOG.debug("Processing " + args.length + " parameters...");
    final Pattern p = Pattern.compile("=");
    for (int i = 0, cnt = args.length; i < cnt; i++) {
      final String arg = args[i];
      final String[] parts = p.split(arg, 2);
      if (parts[0].startsWith("-")) parts[0] = parts[0].substring(1);

      if (parts.length == 1) {
        if (parts[0].startsWith("${") == false) this.opt_params.add(parts[0]);
        continue;
      } else if (parts[0].equalsIgnoreCase("tag")) {
        continue;
      } else if (parts[1].startsWith("${") || parts[0].startsWith("#")) {
        continue;
      }
      if (debug) LOG.debug(String.format("%-35s = %s", parts[0], parts[1]));

      // DesignerHints Override
      if (parts[0].startsWith(PARAM_DESIGNER_HINTS_PREFIX)) {
        String param = parts[0].replace(PARAM_DESIGNER_HINTS_PREFIX, "").toLowerCase();
        try {
          Field f = DesignerHints.class.getField(param);
          this.hints_params.put(f.getName(), parts[1]);
          if (debug) LOG.debug(String.format("DesignerHints.%s = %s", param, parts[1]));
        } catch (NoSuchFieldException ex) {
          throw new Exception("Unknown DesignerHints parameter: " + param, ex);
        }

      }
      // HStoreConf Parameter
      else if (HStoreConf.isConfParameter(parts[0])) {
        this.conf_params.put(parts[0].toLowerCase(), parts[1]);
      }
      // ArgumentsParser Parameter
      else if (PARAMS.contains(parts[0].toLowerCase())) {
        this.params.put(parts[0].toLowerCase(), parts[1]);
      }
      // Invalid!
      else {
        String suggestions = "";
        i = 0;
        String end = CollectionUtil.last(parts[0].split("\\."));
        for (String param : PARAMS) {
          String param_end = CollectionUtil.last(param.split("\\."));
          if (param.startsWith(parts[0])
              || (end != null && param.endsWith(end))
              || (end != null && param_end != null && param_end.startsWith(end))) {
            if (suggestions.isEmpty()) suggestions = ". Possible Matches:";
            suggestions += String.format("\n [%02d] %s", ++i, param);
          }
        } // FOR
        throw new Exception("Unknown parameter '" + parts[0] + "'" + suggestions);
      }
    } // FOR

    // -------------------------------------------------------
    // CATALOGS
    // -------------------------------------------------------

    // Text File
    if (this.params.containsKey(PARAM_CATALOG)) {
      String path = this.params.get(PARAM_CATALOG);
      if (debug) LOG.debug("Loading catalog from file '" + path + "'");
      Catalog catalog = CatalogUtil.loadCatalog(path);
      if (catalog == null)
        throw new Exception("Failed to load catalog object from file '" + path + "'");
      this.updateCatalog(catalog, new File(path));
    }
    // Jar File
    else if (this.params.containsKey(PARAM_CATALOG_JAR)) {
      String path = this.params.get(PARAM_CATALOG_JAR);
      this.params.put(PARAM_CATALOG, path);
      File jar_file = new File(path);
      Catalog catalog = CatalogUtil.loadCatalogFromJar(path);
      if (catalog == null)
        throw new Exception("Failed to load catalog object from jar file '" + path + "'");
      if (debug) LOG.debug("Loaded catalog from jar file '" + path + "'");
      this.updateCatalog(catalog, jar_file);

      if (!this.params.containsKey(PARAM_CATALOG_TYPE)) {
        String jar_name = jar_file.getName();
        int jar_idx = jar_name.lastIndexOf(".jar");
        if (jar_idx != -1) {
          ProjectType type = ProjectType.get(jar_name.substring(0, jar_idx));
          if (type != null) {
            if (debug) LOG.debug("Set catalog type '" + type + "' from catalog jar file name");
            this.catalog_type = type;
            this.params.put(PARAM_CATALOG_TYPE, this.catalog_type.toString());
          }
        }
      }
    }
    // Schema File
    else if (this.params.containsKey(PARAM_CATALOG_SCHEMA)) {
      String path = this.params.get(PARAM_CATALOG_SCHEMA);
      Catalog catalog = CompilerUtil.compileCatalog(path);
      if (catalog == null) throw new Exception("Failed to load schema from '" + path + "'");
      if (debug) LOG.debug("Loaded catalog from schema file '" + path + "'");
      this.updateCatalog(catalog, new File(path));
    }

    // Catalog Type
    if (this.params.containsKey(PARAM_CATALOG_TYPE)) {
      String catalog_type = this.params.get(PARAM_CATALOG_TYPE);
      ProjectType type = ProjectType.get(catalog_type);
      if (type == null) {
        throw new Exception("Unknown catalog type '" + catalog_type + "'");
      }
      this.catalog_type = type;
    }

    // Update Cluster Configuration
    if (this.params.containsKey(ArgumentsParser.PARAM_CATALOG_HOSTS)) {
      ClusterConfiguration cc =
          new ClusterConfiguration(this.getParam(ArgumentsParser.PARAM_CATALOG_HOSTS));
      this.updateCatalog(FixCatalog.addHostInfo(this.catalog, cc), null);
    }

    // Check the requirements after loading the catalog, because some of the
    // above parameters will set the catalog one
    if (required != null && required.length > 0) this.require(required);

    // -------------------------------------------------------
    // PHYSICAL DESIGN COMPONENTS
    // -------------------------------------------------------
    if (this.params.containsKey(PARAM_PARTITION_PLAN)) {
      assert (this.catalog_db != null);
      File path = new File(this.params.get(PARAM_PARTITION_PLAN));
      boolean ignoreMissing =
          this.getBooleanParam(ArgumentsParser.PARAM_PARTITION_PLAN_IGNORE_MISSING, false);
      if (path.exists() || (path.exists() == false && ignoreMissing == false)) {
        if (debug) LOG.debug("Loading in partition plan from '" + path + "'");
        this.pplan = new PartitionPlan();
        this.pplan.load(path.getAbsolutePath(), this.catalog_db);

        // Apply!
        if (this.params.containsKey(PARAM_PARTITION_PLAN_APPLY)
            && this.getBooleanParam(PARAM_PARTITION_PLAN_APPLY)) {
          boolean secondaryIndexes =
              this.getBooleanParam(PARAM_PARTITION_PLAN_NO_SECONDARY, false) == false;
          LOG.info(
              String.format(
                  "Applying PartitionPlan '%s' to catalog [enableSecondary=%s]",
                  path.getName(), secondaryIndexes));
          this.pplan.apply(this.catalog_db, secondaryIndexes);
        }
      }
    }

    // -------------------------------------------------------
    // DESIGNER COMPONENTS
    // -------------------------------------------------------

    if (this.params.containsKey(PARAM_DESIGNER_THREADS)) {
      this.max_concurrent = Integer.valueOf(this.params.get(PARAM_DESIGNER_THREADS));
    }
    if (this.params.containsKey(PARAM_DESIGNER_INTERVALS)) {
      this.num_intervals = Integer.valueOf(this.params.get(PARAM_DESIGNER_INTERVALS));
    }
    if (this.params.containsKey(PARAM_DESIGNER_HINTS)) {
      String path = this.params.get(PARAM_DESIGNER_HINTS);
      if (debug)
        LOG.debug(
            "Loading in designer hints from '"
                + path
                + "'.\nForced Values:\n"
                + StringUtil.formatMaps(this.hints_params));
      this.designer_hints.load(path, catalog_db, this.hints_params);
    }
    if (this.params.containsKey(PARAM_DESIGNER_CHECKPOINT)) {
      this.designer_checkpoint = new File(this.params.get(PARAM_DESIGNER_CHECKPOINT));
    }

    String designer_attributes[] = {
      PARAM_DESIGNER_PARTITIONER,
      PARAM_DESIGNER_MAPPER,
      PARAM_DESIGNER_INDEXER,
      PARAM_DESIGNER_COSTMODEL
    };
    ClassLoader loader = ClassLoader.getSystemClassLoader();
    for (String key : designer_attributes) {
      if (this.params.containsKey(key)) {
        String target_name = this.params.get(key);
        Class<?> target_class = loader.loadClass(target_name);
        assert (target_class != null);
        if (debug) LOG.debug("Set " + key + " class to " + target_class.getName());

        if (key.equals(PARAM_DESIGNER_PARTITIONER)) {
          this.partitioner_class = (Class<? extends AbstractPartitioner>) target_class;
        } else if (key.equals(PARAM_DESIGNER_MAPPER)) {
          this.mapper_class = (Class<? extends AbstractMapper>) target_class;
        } else if (key.equals(PARAM_DESIGNER_INDEXER)) {
          this.indexer_class = (Class<? extends AbstractIndexSelector>) target_class;
        } else if (key.equals(PARAM_DESIGNER_COSTMODEL)) {
          this.costmodel_class = (Class<? extends AbstractCostModel>) target_class;

          // Special Case: TimeIntervalCostModel
          if (target_name.endsWith(TimeIntervalCostModel.class.getSimpleName())) {
            this.costmodel =
                new TimeIntervalCostModel<SingleSitedCostModel>(
                    this.catalog_db, SingleSitedCostModel.class, this.num_intervals);
          } else {
            this.costmodel =
                ClassUtil.newInstance(
                    this.costmodel_class,
                    new Object[] {this.catalog_db},
                    new Class[] {Database.class});
          }
        } else {
          assert (false) : "Invalid key '" + key + "'";
        }
      }
    } // FOR

    // -------------------------------------------------------
    // TRANSACTION ESTIMATION COMPONENTS
    // -------------------------------------------------------
    if (this.params.containsKey(PARAM_MAPPINGS)) {
      assert (this.catalog_db != null);
      File path = new File(this.params.get(PARAM_MAPPINGS));
      if (path.exists()) {
        this.param_mappings.load(path.getAbsolutePath(), this.catalog_db);
      } else {
        LOG.warn("The ParameterMappings file '" + path + "' does not exist");
      }
    }
    if (this.params.containsKey(PARAM_MARKOV_THRESHOLDS_VALUE)) {
      assert (this.catalog_db != null);
      float defaultValue = this.getDoubleParam(PARAM_MARKOV_THRESHOLDS_VALUE).floatValue();
      this.thresholds = new EstimationThresholds(defaultValue);
      this.params.put(PARAM_MARKOV_THRESHOLDS, this.thresholds.toString());
      LOG.debug("CREATED THRESHOLDS: " + this.thresholds);

    } else if (this.params.containsKey(PARAM_MARKOV_THRESHOLDS)) {
      assert (this.catalog_db != null);
      this.thresholds = new EstimationThresholds();
      File path = new File(this.params.get(PARAM_MARKOV_THRESHOLDS));
      if (path.exists()) {
        this.thresholds.load(path.getAbsolutePath(), this.catalog_db);
      } else {
        LOG.warn("The estimation thresholds file '" + path + "' does not exist");
      }
      LOG.debug("LOADED THRESHOLDS: " + this.thresholds);
    }

    // -------------------------------------------------------
    // HASHER
    // -------------------------------------------------------
    if (this.catalog != null) {
      if (this.params.containsKey(PARAM_HASHER_CLASS)) {
        String hasherClassName = this.params.get(PARAM_HASHER_CLASS);
        this.hasher_class = (Class<? extends AbstractHasher>) loader.loadClass(hasherClassName);
      }
      Constructor<? extends AbstractHasher> constructor =
          this.hasher_class.getConstructor(new Class[] {Database.class, Integer.class});
      int num_partitions = CatalogUtil.getNumberOfPartitions(this.catalog_db);
      this.hasher = constructor.newInstance(new Object[] {this.catalog_db, num_partitions});
      if (!(this.hasher instanceof DefaultHasher))
        LOG.debug("Loaded hasher " + this.hasher.getClass());

      if (this.params.containsKey(PARAM_HASHER_PROFILE)) {
        this.hasher.load(this.params.get(PARAM_HASHER_PROFILE), null);
      }
    }

    // -------------------------------------------------------
    // SAMPLE WORKLOAD TRACE
    // -------------------------------------------------------
    this.loadWorkload();
  }
Beispiel #2
0
  /** @throws Exception */
  private void loadWorkload() throws Exception {
    final boolean debug = LOG.isDebugEnabled();
    // Workload Trace
    if (this.params.containsKey(PARAM_WORKLOAD)) {
      assert (this.catalog_db != null) : "Missing catalog!";
      String path = new File(this.params.get(PARAM_WORKLOAD)).getAbsolutePath();

      boolean weightedTxns = this.getBooleanParam(PARAM_WORKLOAD_XACT_WEIGHTS, false);
      if (debug) LOG.debug("Use Transaction Weights in Limits: " + weightedTxns);

      // This will prune out duplicate trace records...
      if (params.containsKey(PARAM_WORKLOAD_REMOVE_DUPES)) {
        DuplicateTraceFilter filter = new DuplicateTraceFilter();
        this.workload_filter =
            (this.workload_filter != null ? filter.attach(this.workload_filter) : filter);
        if (debug) LOG.debug("Attached " + filter.debugImpl());
      }

      // TRANSACTION OFFSET
      if (params.containsKey(PARAM_WORKLOAD_XACT_OFFSET)) {
        this.workload_xact_offset = Long.parseLong(params.get(PARAM_WORKLOAD_XACT_OFFSET));
        ProcedureLimitFilter filter =
            new ProcedureLimitFilter(-1l, this.workload_xact_offset, weightedTxns);
        // Important! The offset should go in the front!
        this.workload_filter =
            (this.workload_filter != null ? filter.attach(this.workload_filter) : filter);
        if (debug) LOG.debug("Attached " + filter.debugImpl());
      }

      // BASE PARTITIONS
      if (params.containsKey(PARAM_WORKLOAD_RANDOM_PARTITIONS)
          || params.containsKey(PARAM_WORKLOAD_BASE_PARTITIONS)) {
        BasePartitionTxnFilter filter =
            new BasePartitionTxnFilter(new PartitionEstimator(catalog_db));

        // FIXED LIST
        if (params.containsKey(PARAM_WORKLOAD_BASE_PARTITIONS)) {
          for (String p_str : this.getParam(PARAM_WORKLOAD_BASE_PARTITIONS).split(",")) {
            workload_base_partitions.add(Integer.valueOf(p_str));
          } // FOR
          // RANDOM
        } else {
          double factor = this.getDoubleParam(PARAM_WORKLOAD_RANDOM_PARTITIONS);
          List<Integer> all_partitions =
              new ArrayList<Integer>(CatalogUtil.getAllPartitionIds(catalog_db));
          Collections.shuffle(all_partitions, new Random());
          workload_base_partitions.addAll(
              all_partitions.subList(0, (int) (all_partitions.size() * factor)));
        }
        filter.addPartitions(workload_base_partitions);
        this.workload_filter =
            (this.workload_filter != null ? this.workload_filter.attach(filter) : filter);
        if (debug) LOG.debug("Attached " + filter.debugImpl());
      }

      // Txn Limit
      this.workload_xact_limit = this.getLongParam(PARAM_WORKLOAD_XACT_LIMIT);
      Histogram<String> proc_histogram = null;

      // Include/exclude procedures from the traces
      if (params.containsKey(PARAM_WORKLOAD_PROC_INCLUDE)
          || params.containsKey(PARAM_WORKLOAD_PROC_EXCLUDE)) {
        Filter filter = new ProcedureNameFilter(weightedTxns);

        // INCLUDE
        String temp = params.get(PARAM_WORKLOAD_PROC_INCLUDE);
        if (temp != null && !temp.equals(ProcedureNameFilter.INCLUDE_ALL)) {

          // We can take the counts for PROC_INCLUDE and scale them
          // with the multiplier
          double multiplier = 1.0d;
          if (this.hasDoubleParam(PARAM_WORKLOAD_PROC_INCLUDE_MULTIPLIER)) {
            multiplier = this.getDoubleParam(PARAM_WORKLOAD_PROC_INCLUDE_MULTIPLIER);
            if (debug) LOG.debug("Workload Procedure Multiplier: " + multiplier);
          }

          // Default Txn Frequencies
          String procinclude = params.get(PARAM_WORKLOAD_PROC_INCLUDE);
          if (procinclude.equalsIgnoreCase("default")) {
            procinclude =
                AbstractProjectBuilder.getProjectBuilder(catalog_type)
                    .getTransactionFrequencyString();
          }

          Map<String, Integer> limits = new HashMap<String, Integer>();
          int total_unlimited = 0;
          int total = 0;
          for (String proc_name : procinclude.split(",")) {
            int limit = -1;
            // Check if there is a limit for this procedure
            if (proc_name.contains(":")) {
              String pieces[] = proc_name.split(":");
              proc_name = pieces[0];
              limit = (int) Math.round(Integer.parseInt(pieces[1]) * multiplier);
            }

            if (limit < 0) {
              if (proc_histogram == null) {
                if (debug) LOG.debug("Generating procedure histogram from workload file");
                proc_histogram = WorkloadUtil.getProcedureHistogram(new File(path));
              }
              limit = (int) proc_histogram.get(proc_name, 0);
              total_unlimited += limit;
            } else {
              total += limit;
            }
            limits.put(proc_name, limit);
          } // FOR
          // If we have a workload limit and some txns that we want
          // to get unlimited
          // records from, then we want to modify the other txns so
          // that we fill in the "gap"
          if (this.workload_xact_limit != null && total_unlimited > 0) {
            int remaining = this.workload_xact_limit.intValue() - total - total_unlimited;
            if (remaining > 0) {
              for (Entry<String, Integer> e : limits.entrySet()) {
                double ratio = e.getValue() / (double) total;
                e.setValue((int) Math.ceil(e.getValue() + (ratio * remaining)));
              } // FOR
            }
          }

          Histogram<String> proc_multiplier_histogram = null;
          if (debug) {
            if (proc_histogram != null) LOG.debug("Full Workload Histogram:\n" + proc_histogram);
            proc_multiplier_histogram = new Histogram<String>();
          }
          total = 0;
          for (Entry<String, Integer> e : limits.entrySet()) {
            if (debug) proc_multiplier_histogram.put(e.getKey(), e.getValue());
            ((ProcedureNameFilter) filter).include(e.getKey(), e.getValue());
            total += e.getValue();
          } // FOR
          if (debug)
            LOG.debug("Multiplier Histogram [total=" + total + "]:\n" + proc_multiplier_histogram);
        }

        // EXCLUDE
        temp = params.get(PARAM_WORKLOAD_PROC_EXCLUDE);
        if (temp != null) {
          for (String proc_name : params.get(PARAM_WORKLOAD_PROC_EXCLUDE).split(",")) {
            ((ProcedureNameFilter) filter).exclude(proc_name);
          } // FOR
        }

        // Sampling!!
        if (this.getBooleanParam(PARAM_WORKLOAD_PROC_SAMPLE, false)) {
          if (debug) LOG.debug("Attaching sampling filter");
          if (proc_histogram == null)
            proc_histogram = WorkloadUtil.getProcedureHistogram(new File(path));
          Map<String, Integer> proc_includes = ((ProcedureNameFilter) filter).getProcIncludes();
          SamplingFilter sampling_filter = new SamplingFilter(proc_includes, proc_histogram);
          filter = sampling_filter;
          if (debug) LOG.debug("Workload Procedure Histogram:\n" + proc_histogram);
        }

        // Attach our new filter to the chain (or make it the head if
        // it's the first one)
        this.workload_filter =
            (this.workload_filter != null ? this.workload_filter.attach(filter) : filter);
        if (debug) LOG.debug("Attached " + filter.debugImpl());
      }

      // TRANSACTION LIMIT
      if (this.workload_xact_limit != null) {
        ProcedureLimitFilter filter =
            new ProcedureLimitFilter(this.workload_xact_limit, weightedTxns);
        this.workload_filter =
            (this.workload_filter != null ? this.workload_filter.attach(filter) : filter);
        if (debug) LOG.debug("Attached " + filter.debugImpl());
      }

      // QUERY LIMIT
      if (params.containsKey(PARAM_WORKLOAD_QUERY_LIMIT)) {
        this.workload_query_limit = Long.parseLong(params.get(PARAM_WORKLOAD_QUERY_LIMIT));
        QueryLimitFilter filter = new QueryLimitFilter(this.workload_query_limit);
        this.workload_filter =
            (this.workload_filter != null ? this.workload_filter.attach(filter) : filter);
      }

      if (this.workload_filter != null && debug)
        LOG.debug("Workload Filters: " + this.workload_filter.toString());
      this.workload = new Workload(this.catalog);
      this.workload.load(path, this.catalog_db, this.workload_filter);
      this.workload_path = new File(path).getAbsolutePath();
      if (this.workload_filter != null) this.workload_filter.reset();
    }

    // Workload Statistics
    if (this.catalog_db != null) {
      this.stats = new WorkloadStatistics(this.catalog_db);
      if (this.params.containsKey(PARAM_STATS)) {
        String path = this.params.get(PARAM_STATS);
        if (debug) LOG.debug("Loading in workload statistics from '" + path + "'");
        this.stats_path = new File(path).getAbsolutePath();
        try {
          this.stats.load(path, this.catalog_db);
        } catch (Throwable ex) {
          throw new RuntimeException("Failed to load stats file '" + this.stats_path + "'", ex);
        }
      }

      // Scaling
      if (this.params.containsKey(PARAM_STATS_SCALE_FACTOR)) {
        double scale_factor = this.getDoubleParam(PARAM_STATS_SCALE_FACTOR);
        LOG.info("Scaling TableStatistics: " + scale_factor);
        AbstractTableStatisticsGenerator generator =
            AbstractTableStatisticsGenerator.factory(
                this.catalog_db, this.catalog_type, scale_factor);
        generator.apply(this.stats);
      }
    }
  }