Ejemplo n.º 1
0
 /** @deprecated Use {@link Config#createSubConfig(String)} instead */
 @Deprecated
 public SubConfig(String prefix, Config config) {
   this.config = config;
   this.prefix = prefix;
   map = new LinkedHashMap<String, Option<?>>();
   hasInitialized = false;
   config.register(this);
 }
Ejemplo n.º 2
0
 public void register(Option<?> o) {
   synchronized (this) {
     if (o.name.indexOf(SimpleFieldSet.MULTI_LEVEL_CHAR) != -1)
       throw new IllegalArgumentException(
           "Option names must not contain " + SimpleFieldSet.MULTI_LEVEL_CHAR);
     if (map.containsKey(o.name))
       throw new IllegalArgumentException("Already registered: " + o.name + " on " + this);
     map.put(o.name, o);
   }
   config.onRegister(this, o);
 }
Ejemplo n.º 3
0
  public void handleMethodPOST(URI uri, HTTPRequest request, ToadletContext ctx)
      throws ToadletContextClosedException, IOException, RedirectException {

    if (!ctx.checkFullAccess(this)) return;

    // User requested reset to defaults, so present confirmation page.
    if (request.isPartSet("confirm-reset-to-defaults")) {
      PageNode page = ctx.getPageMaker().getPageNode(l10n("confirmResetTitle"), ctx);
      HTMLNode pageNode = page.outer;
      HTMLNode contentNode = page.content;

      HTMLNode content =
          ctx.getPageMaker()
              .getInfobox(
                  "infobox-warning", l10n("confirmResetTitle"), contentNode, "reset-confirm", true);
      content.addChild("#", l10n("confirmReset"));

      HTMLNode formNode = ctx.addFormChild(content, path(), "yes-button");
      String subconfig = request.getPartAsStringFailsafe("subconfig", MAX_PARAM_VALUE_SIZE);
      formNode.addChild(
          "input",
          new String[] {"type", "name", "value"},
          new String[] {"hidden", "subconfig", subconfig});

      // Persist visible fields so that they are reset to default or
      // unsaved changes are persisted.
      for (String part : request.getParts()) {
        if (part.startsWith(subconfig)) {
          formNode.addChild(
              "input",
              new String[] {"type", "name", "value"},
              new String[] {
                "hidden", part, request.getPartAsStringFailsafe(part, MAX_PARAM_VALUE_SIZE)
              });
        }
      }

      formNode.addChild(
          "input",
          new String[] {"type", "name", "value"},
          new String[] {
            "submit", "reset-to-defaults", NodeL10n.getBase().getString("Toadlet.yes")
          });

      formNode.addChild(
          "input",
          new String[] {"type", "name", "value"},
          new String[] {
            "submit", "decline-default-reset", NodeL10n.getBase().getString("Toadlet.no")
          });
      writeHTMLReply(ctx, 200, "OK", pageNode.generate());
      return;
    }

    // Returning from directory selector with a selection or declining
    // resetting settings to defaults.
    // Re-render config page with any changes made in the selector and/or
    // persisting values changed but
    // not applied.
    if (request.isPartSet(LocalFileBrowserToadlet.selectDir)
        || request.isPartSet("decline-default-reset")) {
      handleMethodGET(uri, request, ctx);
      return;
    }

    // Entering directory selector from config page.
    // This would be two loops if it checked for a redirect
    // (key.startsWith("select-directory.")) before
    // constructing params string. It always constructs it, then redirects
    // if it turns out to be needed.
    boolean directorySelector = false;
    StringBuilder paramsBuilder = new StringBuilder();
    paramsBuilder.append('?');
    String value;
    for (String key : request.getParts()) {
      // Prepare parts for page selection redirect:
      // Extract option and put into "select-for"; preserve others.
      value = request.getPartAsStringFailsafe(key, MAX_PARAM_VALUE_SIZE);
      if (key.startsWith("select-directory.")) {
        paramsBuilder
            .append("select-for=")
            .append(URLEncoder.encode(key.substring("select-directory.".length()), true))
            .append('&');
        directorySelector = true;
      } else {
        paramsBuilder
            .append(URLEncoder.encode(key, true))
            .append('=')
            .append(URLEncoder.encode(value, true))
            .append('&');
      }
    }
    String params = paramsBuilder.toString();
    if (directorySelector) {
      MultiValueTable<String, String> headers = new MultiValueTable<String, String>(1);
      // params ends in &. Download directory browser starts in default
      // download directory.
      headers.put(
          "Location",
          directoryBrowserPath + params + "path=" + core.getDownloadsDir().getAbsolutePath());
      ctx.sendReplyHeaders(302, "Found", headers, null, 0);
      return;
    }

    StringBuilder errbuf = new StringBuilder();
    boolean logMINOR = Logger.shouldLog(LogLevel.MINOR, this);

    String prefix = request.getPartAsStringFailsafe("subconfig", MAX_PARAM_VALUE_SIZE);
    if (logMINOR) {
      Logger.minor(this, "Current config prefix is " + prefix);
    }
    boolean resetToDefault = request.isPartSet("reset-to-defaults");
    if (resetToDefault && logMINOR) {
      Logger.minor(this, "Resetting to defaults");
    }

    for (Option<?> o : config.get(prefix).getOptions()) {
      String configName = o.getName();
      if (logMINOR) {
        Logger.minor(this, "Checking option " + prefix + '.' + configName);
      }

      // This ignores unrecognized parameters.
      if (request.isPartSet(prefix + '.' + configName)) {
        // Current subconfig is to be reset to default.
        if (resetToDefault) {
          // Disallow resetting fproxy port number to default as it
          // might break the link to start fproxy on the system tray,
          // shortcuts etc.
          if (prefix.equals("fproxy") && configName.equals("port")) continue;
          value = o.getDefault();
        } else {
          value = request.getPartAsStringFailsafe(prefix + '.' + configName, MAX_PARAM_VALUE_SIZE);
        }

        if (!(o.getValueDisplayString().equals(value))) {

          if (logMINOR) {
            Logger.minor(this, "Changing " + prefix + '.' + configName + " to " + value);
          }

          try {
            o.setValue(value);
          } catch (InvalidConfigValueException e) {
            errbuf.append(o.getName()).append(' ').append(e.getMessage()).append('\n');
          } catch (NodeNeedRestartException e) {
            needRestart = true;
          } catch (Exception e) {
            errbuf.append(o.getName()).append(' ').append(e).append('\n');
            Logger.error(this, "Caught " + e, e);
          }
        } else if (logMINOR) {
          Logger.minor(this, prefix + '.' + configName + " not changed");
        }
      }
    }

    // Wrapper params
    String wrapperConfigName = "wrapper.java.maxmemory";
    if (request.isPartSet(wrapperConfigName)) {
      value = request.getPartAsStringFailsafe(wrapperConfigName, MAX_PARAM_VALUE_SIZE);
      if (!WrapperConfig.getWrapperProperty(wrapperConfigName).equals(value)) {
        if (logMINOR) {
          Logger.minor(this, "Setting " + wrapperConfigName + " to " + value);
        }
        WrapperConfig.setWrapperProperty(wrapperConfigName, value);
      }
    }

    config.store();

    PageNode page = ctx.getPageMaker().getPageNode(l10n("appliedTitle"), ctx);
    HTMLNode pageNode = page.outer;
    HTMLNode contentNode = page.content;

    if (errbuf.length() == 0) {
      HTMLNode content =
          ctx.getPageMaker()
              .getInfobox(
                  "infobox-success",
                  l10n("appliedTitle"),
                  contentNode,
                  "configuration-applied",
                  true);
      content.addChild("#", l10n("appliedSuccess"));

      if (needRestart) {
        content.addChild("br");
        content.addChild("#", l10n("needRestart"));

        if (node.isUsingWrapper()) {
          content.addChild("br");
          HTMLNode restartForm = ctx.addFormChild(content, "/", "restartForm");
          restartForm.addChild(
              "input", //
              new String[] {"type", "name"}, //
              new String[] {"hidden", "restart"});
          restartForm.addChild(
              "input", //
              new String[] {"type", "name", "value"}, //
              new String[] {
                "submit",
                "restart2", //
                l10n("restartNode")
              });
        }

        if (needRestartUserAlert == null) {
          needRestartUserAlert = new NeedRestartUserAlert(ctx.getFormPassword());
          ctx.getAlertManager().register(needRestartUserAlert);
        }
      }
    } else {
      HTMLNode content =
          ctx.getPageMaker()
              .getInfobox(
                  "infobox-error",
                  l10n("appliedFailureTitle"),
                  contentNode,
                  "configuration-error",
                  true)
              .addChild("div", "class", "infobox-content");
      content.addChild("#", l10n("appliedFailureExceptions"));
      content.addChild("br");
      content.addChild("#", errbuf.toString());
    }

    HTMLNode content =
        ctx.getPageMaker()
            .getInfobox(
                "infobox-normal",
                l10n("possibilitiesTitle"),
                contentNode,
                "configuration-possibilities",
                false);
    content.addChild(
        "a",
        new String[] {"href", "title"},
        new String[] {path(), l10n("shortTitle")},
        l10n("returnToNodeConfig"));
    content.addChild("br");
    addHomepageLink(content);

    writeHTMLReply(ctx, 200, "OK", pageNode.generate());
  }
  RequestStarterGroup(
      Node node,
      NodeClientCore core,
      int portNumber,
      RandomSource random,
      Config config,
      SimpleFieldSet fs,
      ClientContext ctx,
      long dbHandle)
      throws InvalidConfigValueException {
    SubConfig schedulerConfig = config.createSubConfig("node.scheduler");
    this.stats = core.nodeStats;

    throttleWindowBulk =
        new ThrottleWindowManager(2.0, fs == null ? null : fs.subset("ThrottleWindow"), node);
    throttleWindowRT =
        new ThrottleWindowManager(2.0, fs == null ? null : fs.subset("ThrottleWindowRT"), node);

    throttleWindowCHK =
        new ThrottleWindowManager(2.0, fs == null ? null : fs.subset("ThrottleWindowCHK"), node);
    throttleWindowSSK =
        new ThrottleWindowManager(2.0, fs == null ? null : fs.subset("ThrottleWindowSSK"), node);
    throttleWindowInsert =
        new ThrottleWindowManager(2.0, fs == null ? null : fs.subset("ThrottleWindowInsert"), node);
    throttleWindowRequest =
        new ThrottleWindowManager(
            2.0, fs == null ? null : fs.subset("ThrottleWindowRequest"), node);
    chkRequestThrottleBulk =
        new MyRequestThrottle(
            5000, "CHK Request", fs == null ? null : fs.subset("CHKRequestThrottle"), 32768, false);
    chkRequestThrottleRT =
        new MyRequestThrottle(
            5000,
            "CHK Request (RT)",
            fs == null ? null : fs.subset("CHKRequestThrottleRT"),
            32768,
            true);
    chkRequestStarterBulk =
        new RequestStarter(
            core,
            chkRequestThrottleBulk,
            "CHK Request starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localChkFetchBytesSentAverage,
            stats.localChkFetchBytesReceivedAverage,
            false,
            false,
            false);
    chkRequestStarterRT =
        new RequestStarter(
            core,
            chkRequestThrottleRT,
            "CHK Request starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localChkFetchBytesSentAverage,
            stats.localChkFetchBytesReceivedAverage,
            false,
            false,
            true);
    chkFetchSchedulerBulk =
        new ClientRequestScheduler(
            false, false, false, random, chkRequestStarterBulk, node, core, "CHKrequester", ctx);
    chkFetchSchedulerRT =
        new ClientRequestScheduler(
            false, false, true, random, chkRequestStarterRT, node, core, "CHKrequester", ctx);
    chkRequestStarterBulk.setScheduler(chkFetchSchedulerBulk);
    chkRequestStarterRT.setScheduler(chkFetchSchedulerRT);

    registerSchedulerConfig(
        schedulerConfig, "CHKrequester", chkFetchSchedulerBulk, chkFetchSchedulerRT, false, false);

    // insertThrottle = new ChainedRequestThrottle(10000, 2.0F, requestThrottle);
    // FIXME reenable the above
    chkInsertThrottleBulk =
        new MyRequestThrottle(
            20000, "CHK Insert", fs == null ? null : fs.subset("CHKInsertThrottle"), 32768, false);
    chkInsertThrottleRT =
        new MyRequestThrottle(
            20000,
            "CHK Insert (RT)",
            fs == null ? null : fs.subset("CHKInsertThrottleRT"),
            32768,
            true);
    chkInsertStarterBulk =
        new RequestStarter(
            core,
            chkInsertThrottleBulk,
            "CHK Insert starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localChkInsertBytesSentAverage,
            stats.localChkInsertBytesReceivedAverage,
            true,
            false,
            false);
    chkInsertStarterRT =
        new RequestStarter(
            core,
            chkInsertThrottleRT,
            "CHK Insert starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localChkInsertBytesSentAverage,
            stats.localChkInsertBytesReceivedAverage,
            true,
            false,
            true);
    chkPutSchedulerBulk =
        new ClientRequestScheduler(
            true, false, false, random, chkInsertStarterBulk, node, core, "CHKinserter", ctx);
    chkPutSchedulerRT =
        new ClientRequestScheduler(
            true, false, true, random, chkInsertStarterRT, node, core, "CHKinserter", ctx);
    chkInsertStarterBulk.setScheduler(chkPutSchedulerBulk);
    chkInsertStarterRT.setScheduler(chkPutSchedulerRT);

    registerSchedulerConfig(
        schedulerConfig, "CHKinserter", chkPutSchedulerBulk, chkPutSchedulerRT, false, true);

    sskRequestThrottleBulk =
        new MyRequestThrottle(
            5000, "SSK Request", fs == null ? null : fs.subset("SSKRequestThrottle"), 1024, false);
    sskRequestThrottleRT =
        new MyRequestThrottle(
            5000,
            "SSK Request (RT)",
            fs == null ? null : fs.subset("SSKRequestThrottleRT"),
            1024,
            true);
    sskRequestStarterBulk =
        new RequestStarter(
            core,
            sskRequestThrottleBulk,
            "SSK Request starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localSskFetchBytesSentAverage,
            stats.localSskFetchBytesReceivedAverage,
            false,
            true,
            false);
    sskRequestStarterRT =
        new RequestStarter(
            core,
            sskRequestThrottleRT,
            "SSK Request starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localSskFetchBytesSentAverage,
            stats.localSskFetchBytesReceivedAverage,
            false,
            true,
            true);
    sskFetchSchedulerBulk =
        new ClientRequestScheduler(
            false, true, false, random, sskRequestStarterBulk, node, core, "SSKrequester", ctx);
    sskFetchSchedulerRT =
        new ClientRequestScheduler(
            false, true, true, random, sskRequestStarterRT, node, core, "SSKrequester", ctx);
    sskRequestStarterBulk.setScheduler(sskFetchSchedulerBulk);
    sskRequestStarterRT.setScheduler(sskFetchSchedulerRT);

    registerSchedulerConfig(
        schedulerConfig, "SSKrequester", sskFetchSchedulerBulk, sskFetchSchedulerRT, true, false);

    // insertThrottle = new ChainedRequestThrottle(10000, 2.0F, requestThrottle);
    // FIXME reenable the above
    sskInsertThrottleBulk =
        new MyRequestThrottle(
            20000, "SSK Insert", fs == null ? null : fs.subset("SSKInsertThrottle"), 1024, false);
    sskInsertThrottleRT =
        new MyRequestThrottle(
            20000, "SSK Insert", fs == null ? null : fs.subset("SSKInsertThrottleRT"), 1024, true);
    sskInsertStarterBulk =
        new RequestStarter(
            core,
            sskInsertThrottleBulk,
            "SSK Insert starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localSskInsertBytesSentAverage,
            stats.localSskFetchBytesReceivedAverage,
            true,
            true,
            false);
    sskInsertStarterRT =
        new RequestStarter(
            core,
            sskInsertThrottleRT,
            "SSK Insert starter (" + portNumber + ')',
            stats.requestOutputThrottle,
            stats.requestInputThrottle,
            stats.localSskInsertBytesSentAverage,
            stats.localSskFetchBytesReceivedAverage,
            true,
            true,
            true);
    sskPutSchedulerBulk =
        new ClientRequestScheduler(
            true, true, false, random, sskInsertStarterBulk, node, core, "SSKinserter", ctx);
    sskPutSchedulerRT =
        new ClientRequestScheduler(
            true, true, true, random, sskInsertStarterRT, node, core, "SSKinserter", ctx);
    sskInsertStarterBulk.setScheduler(sskPutSchedulerBulk);
    sskInsertStarterRT.setScheduler(sskPutSchedulerRT);

    registerSchedulerConfig(
        schedulerConfig, "SSKinserter", sskPutSchedulerBulk, sskPutSchedulerRT, true, true);

    schedulerConfig.finishedInitialization();
  }