/**
   * Gets a list of all the bundles that can be added as implicit dependencies
   *
   * @return list of possible dependencies
   */
  protected BundleInfo[] getValidBundles() throws CoreException {
    NameVersionDescriptor[] current = getTargetDefinition().getImplicitDependencies();
    Set<String> currentBundles = new HashSet<String>();
    if (current != null) {
      for (int i = 0; i < current.length; i++) {
        if (!currentBundles.contains(current[i].getId())) {
          currentBundles.add(current[i].getId());
        }
      }
    }

    List<BundleInfo> targetBundles = new ArrayList<BundleInfo>();
    TargetBundle[] allTargetBundles = getTargetDefinition().getAllBundles();
    if (allTargetBundles == null || allTargetBundles.length == 0) {
      throw new CoreException(
          new Status(
              IStatus.WARNING,
              PDEPlugin.getPluginId(),
              PDEUIMessages.ImplicitDependenciesSection_0));
    }
    for (int i = 0; i < allTargetBundles.length; i++) {
      BundleInfo bundleInfo = allTargetBundles[i].getBundleInfo();
      if (!currentBundles.contains(bundleInfo.getSymbolicName())) {
        currentBundles.add(bundleInfo.getSymbolicName()); // to avoid duplicate entries
        targetBundles.add(bundleInfo);
      }
    }

    return targetBundles.toArray(new BundleInfo[targetBundles.size()]);
  }
Beispiel #2
0
  private void readOldState(DataInputStream dis) throws IOException, TeamException {
    int repoSize = dis.readInt();
    boolean version1 = false;
    if (repoSize == STATE_FILE_VERSION_1) {
      version1 = true;
      repoSize = dis.readInt();
    }
    for (int i = 0; i < repoSize; i++) {
      ICVSRepositoryLocation root = KnownRepositories.getInstance().getRepository(dis.readUTF());
      RepositoryRoot repoRoot = getRepositoryRootFor(root);

      // read branch tags associated with this root
      int tagsSize = dis.readInt();
      CVSTag[] branchTags = new CVSTag[tagsSize];
      for (int j = 0; j < tagsSize; j++) {
        String tagName = dis.readUTF();
        int tagType = dis.readInt();
        branchTags[j] = new CVSTag(tagName, tagType);
      }
      // Ignore the branch tags since they are handled differently now
      // addBranchTags(root, branchTags);

      // read the number of projects for this root that have version tags
      int projSize = dis.readInt();
      if (projSize > 0) {
        for (int j = 0; j < projSize; j++) {
          String name = dis.readUTF();
          Set tagSet = new HashSet();
          int numTags = dis.readInt();
          for (int k = 0; k < numTags; k++) {
            tagSet.add(new CVSTag(dis.readUTF(), CVSTag.VERSION));
          }
          CVSTag[] tags = (CVSTag[]) tagSet.toArray(new CVSTag[tagSet.size()]);
          repoRoot.addTags(name, tags);
        }
      }
      // read the auto refresh filenames for this project
      if (version1) {
        try {
          projSize = dis.readInt();
          if (projSize > 0) {
            for (int j = 0; j < projSize; j++) {
              String name = dis.readUTF();
              Set filenames = new HashSet();
              int numFilenames = dis.readInt();
              for (int k = 0; k < numFilenames; k++) {
                filenames.add(name + "/" + dis.readUTF()); // $NON-NLS-1$
              }
              repoRoot.setAutoRefreshFiles(
                  name, (String[]) filenames.toArray(new String[filenames.size()]));
            }
          }
        } catch (EOFException e) {
          // auto refresh files are not persisted, continue and save them next time.
        }
      }
      broadcastRepositoryChange(repoRoot);
    }
  }
  /**
   * Creates an NL fragment project along with the locale specific properties files.
   *
   * @throws CoreException
   * @throws IOException
   * @throws InvocationTargetException
   * @throws InterruptedException
   */
  private void internationalizePlugins(List plugins, List locales, Map overwrites)
      throws CoreException, IOException, InvocationTargetException, InterruptedException {

    Set created = new HashSet();

    for (Iterator it = plugins.iterator(); it.hasNext(); ) {
      IPluginModelBase plugin = (IPluginModelBase) it.next();

      for (Iterator iter = locales.iterator(); iter.hasNext(); ) {
        Locale locale = (Locale) iter.next();

        IProject project = getNLProject(plugin, locale);
        if (created.contains(project)
            || overwriteWithoutAsking
            || !project.exists()
            || OVERWRITE == overwrites.get(project.getName())) {
          if (!created.contains(project) && project.exists()) {
            project.delete(true, getProgressMonitor());
          }

          if (!created.contains(project)) {
            createNLFragment(plugin, project, locale);
            created.add(project);
            project.getFolder(RESOURCE_FOLDER_PARENT).create(false, true, getProgressMonitor());
          }

          project
              .getFolder(RESOURCE_FOLDER_PARENT)
              .getFolder(locale.toString())
              .create(true, true, getProgressMonitor());
          createLocaleSpecificPropertiesFile(project, plugin, locale);
        }
      }
    }
  }
 /*
  * Set up the platform binary download and get it ready to run the tests.
  * This method is not intended to be called by clients, it will be called
  * automatically when the clients use a ReconcilerTestSuite. If the executable isn't
  * found on the file-system after the call, then we fail.
  */
 public void initialize() throws Exception {
   initialized = false;
   File file = getPlatformZip();
   output = getUniqueFolder();
   toRemove.add(output);
   // for now we will exec to un-tar archives to keep the executable bits
   if (file.getName().toLowerCase().endsWith(".zip")) {
     try {
       FileUtils.unzipFile(file, output);
     } catch (IOException e) {
       fail("0.99", e);
     }
   } else {
     untar("1.0", file);
   }
   File exe = new File(output, getExeFolder() + "eclipse.exe");
   if (!exe.exists()) {
     exe = new File(output, getExeFolder() + "eclipse");
     if (!exe.exists())
       fail(
           "Executable file: "
               + exe.getAbsolutePath()
               + "(or .exe) not found after extracting: "
               + file.getAbsolutePath()
               + " to: "
               + output);
   }
   initialized = true;
 }
  /**
   * Tests that resetting the target platform should work OK (i.e. is equivalent to the models in
   * the default target platform).
   *
   * @throws CoreException
   */
  public void testResetTargetPlatform() throws Exception {
    ITargetDefinition definition = getDefaultTargetPlatorm();
    Set urls = getAllBundleURLs(definition);
    Set fragments = new HashSet();
    TargetBundle[] bundles = definition.getBundles();
    for (int i = 0; i < bundles.length; i++) {
      if (bundles[i].isFragment()) {
        fragments.add(new File(bundles[i].getBundleInfo().getLocation()).toURL());
      }
    }

    // current platform
    IPluginModelBase[] models = TargetPlatformHelper.getPDEState().getTargetModels();

    // should be equivalent
    assertEquals("Should have same number of bundles", urls.size(), models.length);
    for (int i = 0; i < models.length; i++) {
      String location = models[i].getInstallLocation();
      URL url = new File(location).toURL();
      assertTrue("Missing plug-in " + location, urls.contains(url));
      if (models[i].isFragmentModel()) {
        assertTrue("Missing fragmnet", fragments.remove(url));
      }
    }
    assertTrue("Different number of fragments", fragments.isEmpty());
  }
Beispiel #6
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 public static void _testAllowFileScheme(boolean allow) {
   if (allow) {
     uriSchemeWhitelist.add("file"); // $NON-NLS-1$
   } else {
     uriSchemeWhitelist.remove("file"); // $NON-NLS-1$
   }
 }
Beispiel #7
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 /**
  * Method filterResources filters the given resources using the given working set.
  *
  * @param current
  * @param resources
  * @return ICVSRemoteResource[]
  */
 public ICVSRemoteResource[] filterResources(
     IWorkingSet workingSet, ICVSRemoteResource[] resources) {
   if (workingSet == null) return resources;
   // get the projects associated with the working set
   IAdaptable[] adaptables = workingSet.getElements();
   Set projects = new HashSet();
   for (int i = 0; i < adaptables.length; i++) {
     IAdaptable adaptable = adaptables[i];
     Object adapted = adaptable.getAdapter(IResource.class);
     if (adapted != null) {
       // Can this code be generalized?
       IProject project = ((IResource) adapted).getProject();
       projects.add(project);
     }
   }
   List result = new ArrayList();
   for (int i = 0; i < resources.length; i++) {
     ICVSRemoteResource resource = resources[i];
     for (Iterator iter = projects.iterator(); iter.hasNext(); ) {
       IProject project = (IProject) iter.next();
       if (project.getName().equals(resource.getName())) {
         result.add(resource);
         break;
       }
     }
   }
   return (ICVSRemoteResource[]) result.toArray(new ICVSRemoteResource[result.size()]);
 }
  /**
   * Tests identification of source bundles in a 3.0.2 install.
   *
   * @throws Exception
   */
  public void testClassicSourcePlugins() throws Exception {
    // extract the 3.0.2 skeleton
    IPath location = extractClassicPlugins();

    // the new way
    ITargetDefinition definition = getNewTarget();
    ITargetLocation container = getTargetService().newDirectoryLocation(location.toOSString());
    definition.setTargetLocations(new ITargetLocation[] {container});

    definition.resolve(null);
    TargetBundle[] bundles = definition.getBundles();
    List source = new ArrayList();
    for (int i = 0; i < bundles.length; i++) {
      TargetBundle sb = bundles[i];
      if (sb.isSourceBundle()) {
        source.add(sb);
      }
    }

    assertEquals("Wrong number of source bundles", 4, source.size());
    Set names = new HashSet();
    for (int i = 0; i < source.size(); i++) {
      names.add(((TargetBundle) source.get(i)).getBundleInfo().getSymbolicName());
    }
    String[] expected =
        new String[] {
          "org.eclipse.platform.source",
          "org.eclipse.jdt.source",
          "org.eclipse.pde.source",
          "org.eclipse.platform.source.win32.win32.x86"
        };
    for (int i = 0; i < expected.length; i++) {
      assertTrue("Missing source for " + expected[i], names.contains(expected[i]));
    }
  }
 /**
  * Retrieves all bundles (source and code) in the given target definition returning them as a set
  * of URLs.
  *
  * @param target target definition
  * @return all bundle URLs
  */
 protected Set getAllBundleURLs(ITargetDefinition target) throws Exception {
   if (!target.isResolved()) {
     target.resolve(null);
   }
   TargetBundle[] bundles = target.getBundles();
   Set urls = new HashSet(bundles.length);
   for (int i = 0; i < bundles.length; i++) {
     urls.add(new File(bundles[i].getBundleInfo().getLocation()).toURL());
   }
   return urls;
 }
Beispiel #10
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  /** Get the list of known branch tags for a given remote root. */
  public CVSTag[] getKnownTags(ICVSFolder project, int tagType) {
    try {
      CVSTag[] tags = getKnownTags(project);
      Set result = new HashSet();
      for (int i = 0; i < tags.length; i++) {
        CVSTag tag = tags[i];
        if (tag.getType() == tagType) result.add(tag);
      }

      return (CVSTag[]) result.toArray(new CVSTag[result.size()]);
    } catch (CVSException e) {
      CVSUIPlugin.log(e);
      return new CVSTag[0];
    }
  }
Beispiel #11
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 public ICVSRemoteResource[] getFoldersForTag(
     ICVSRepositoryLocation location, CVSTag tag, IProgressMonitor monitor) throws CVSException {
   monitor = Policy.monitorFor(monitor);
   try {
     monitor.beginTask(
         NLS.bind(
             CVSUIMessages.RepositoryManager_fetchingRemoteFolders, new String[] {tag.getName()}),
         100);
     if (tag.getType() == CVSTag.HEAD) {
       ICVSRemoteResource[] resources =
           location.members(tag, false, Policy.subMonitorFor(monitor, 60));
       RepositoryRoot root = getRepositoryRootFor(location);
       ICVSRemoteResource[] modules =
           root.getDefinedModules(tag, Policy.subMonitorFor(monitor, 40));
       ICVSRemoteResource[] result = new ICVSRemoteResource[resources.length + modules.length];
       System.arraycopy(resources, 0, result, 0, resources.length);
       System.arraycopy(modules, 0, result, resources.length, modules.length);
       return result;
     }
     if (tag.getType() == CVSTag.DATE) {
       ICVSRemoteResource[] resources =
           location.members(tag, false, Policy.subMonitorFor(monitor, 60));
       RepositoryRoot root = getRepositoryRootFor(location);
       ICVSRemoteResource[] modules =
           root.getDefinedModules(tag, Policy.subMonitorFor(monitor, 40));
       ICVSRemoteResource[] result = new ICVSRemoteResource[resources.length + modules.length];
       System.arraycopy(resources, 0, result, 0, resources.length);
       System.arraycopy(modules, 0, result, resources.length, modules.length);
       return result;
     }
     Set result = new HashSet();
     // Get the tags for the location
     RepositoryRoot root = getRepositoryRootFor(location);
     String[] paths = root.getKnownRemotePaths();
     for (int i = 0; i < paths.length; i++) {
       String path = paths[i];
       List tags = Arrays.asList(root.getAllKnownTags(path));
       if (tags.contains(tag)) {
         ICVSRemoteFolder remote =
             root.getRemoteFolder(path, tag, Policy.subMonitorFor(monitor, 100));
         result.add(remote);
       }
     }
     return (ICVSRemoteResource[]) result.toArray(new ICVSRemoteResource[result.size()]);
   } finally {
     monitor.done();
   }
 }
Beispiel #12
0
 /** Get the list of known version tags for a given project. */
 public CVSTag[] getKnownTags(ICVSRepositoryLocation location, int tagType) {
   Set result = new HashSet();
   RepositoryRoot root = (RepositoryRoot) repositoryRoots.get(location.getLocation(false));
   if (root != null) {
     String[] paths = root.getKnownRemotePaths();
     for (int i = 0; i < paths.length; i++) {
       String path = paths[i];
       CVSTag[] tags = root.getAllKnownTags(path);
       for (int j = 0; j < tags.length; j++) {
         CVSTag tag = tags[j];
         if (tag.getType() == tagType) result.add(tag);
       }
     }
   }
   return (CVSTag[]) result.toArray(new CVSTag[0]);
 }
  protected void doIncludeVersions(NameVersionDescriptor[] descriptions) throws Exception {
    String bsn = MULTI_VERSION_LOW_DESCRIPTION.getId();

    IPath extras = extractMultiVersionPlugins();
    ITargetDefinition target = getNewTarget();
    ITargetLocation container = getTargetService().newDirectoryLocation(extras.toOSString());
    target.setTargetLocations(new ITargetLocation[] {container});
    target.setIncluded(descriptions);
    try {
      getTargetService().saveTargetDefinition(target);
      setTargetPlatform(target);
      IPluginModelBase[] models = PluginRegistry.getExternalModels();
      Set enabled = new HashSet();
      for (int i = 0; i < models.length; i++) {
        IPluginModelBase pm = models[i];
        if (pm.getBundleDescription().getSymbolicName().equals(bsn)) {
          NameVersionDescriptor desc =
              new NameVersionDescriptor(
                  pm.getPluginBase().getId(), pm.getPluginBase().getVersion());
          if (pm.isEnabled()) {
            enabled.add(desc);
          }
        }
      }
      if (descriptions == null) {

      } else {
        assertEquals("Wrong number of enabled bundles", descriptions.length, enabled.size());
        for (int i = 0; i < descriptions.length; i++) {
          assertTrue("Missing bundle", enabled.contains(descriptions[i]));
        }
      }
    } finally {
      getTargetService().deleteTarget(target.getHandle());
      resetTargetPlatform();
    }
  }
 static {
   fFilteredTypes = new HashSet(3);
   fFilteredTypes.add(ProjectSourceContainer.TYPE_ID);
   fFilteredTypes.add(WorkspaceSourceContainer.TYPE_ID);
   fFilteredTypes.add("org.eclipse.debug.ui.containerType.workingSet"); // $NON-NLS-1$
 }
  private boolean handleGetDiff(
      HttpServletRequest request,
      HttpServletResponse response,
      Repository db,
      String scope,
      String pattern,
      OutputStream out)
      throws Exception {
    Git git = new Git(db);
    DiffCommand diff = git.diff();
    diff.setOutputStream(new BufferedOutputStream(out));
    AbstractTreeIterator oldTree;
    AbstractTreeIterator newTree = new FileTreeIterator(db);
    if (scope.contains("..")) { // $NON-NLS-1$
      String[] commits = scope.split("\\.\\."); // $NON-NLS-1$
      if (commits.length != 2) {
        String msg = NLS.bind("Failed to generate diff for {0}", scope);
        return statusHandler.handleRequest(
            request,
            response,
            new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_BAD_REQUEST, msg, null));
      }
      oldTree = getTreeIterator(db, commits[0]);
      newTree = getTreeIterator(db, commits[1]);
    } else if (scope.equals(GitConstants.KEY_DIFF_CACHED)) {
      ObjectId head = db.resolve(Constants.HEAD + "^{tree}"); // $NON-NLS-1$
      if (head == null) {
        String msg = NLS.bind("Failed to generate diff for {0}, no HEAD", scope);
        return statusHandler.handleRequest(
            request,
            response,
            new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_BAD_REQUEST, msg, null));
      }
      CanonicalTreeParser p = new CanonicalTreeParser();
      ObjectReader reader = db.newObjectReader();
      try {
        p.reset(reader, head);
      } finally {
        reader.release();
      }
      oldTree = p;
      newTree = new DirCacheIterator(db.readDirCache());
    } else if (scope.equals(GitConstants.KEY_DIFF_DEFAULT)) {
      oldTree = new DirCacheIterator(db.readDirCache());
    } else {
      oldTree = getTreeIterator(db, scope);
    }

    String[] paths = request.getParameterValues(ProtocolConstants.KEY_PATH);
    TreeFilter filter = null;
    TreeFilter pathFilter = null;
    if (paths != null) {
      if (paths.length > 1) {
        Set<TreeFilter> pathFilters = new HashSet<TreeFilter>(paths.length);
        for (String path : paths) {
          pathFilters.add(PathFilter.create(path));
        }
        pathFilter = OrTreeFilter.create(pathFilters);
      } else if (paths.length == 1) {
        pathFilter = PathFilter.create(paths[0]);
      }
    }
    if (pattern != null) {
      PathFilter patternFilter = PathFilter.create(pattern);
      if (pathFilter != null) filter = AndTreeFilter.create(patternFilter, pathFilter);
      else filter = patternFilter;
    } else {
      filter = pathFilter;
    }
    if (filter != null) diff.setPathFilter(filter);

    diff.setOldTree(oldTree);
    diff.setNewTree(newTree);
    diff.call();
    return true;
  }
 public void addDescriptor(IArtifactDescriptor descriptor, IProgressMonitor monitor) {
   ((ArtifactDescriptor) descriptor).setRepository(this);
   artifactDescriptors.add(descriptor);
   keysToLocations.put(descriptor.getArtifactKey(), null);
 }
  public void saveIncludedBundleState() {
    if (fFeaureModeButton.getSelection()) {
      // Create a list of checked bundle infos
      List included = new ArrayList();
      int missingCount = 0;
      Object[] checked = fTree.getCheckedLeafElements();
      for (int i = 0; i < checked.length; i++) {
        if (checked[i] instanceof IFeatureModel) {
          included.add(
              new NameVersionDescriptor(
                  ((IFeatureModel) checked[i]).getFeature().getId(),
                  null,
                  NameVersionDescriptor.TYPE_FEATURE));
        }
        if (checked[i] instanceof IResolvedBundle) {
          // Missing features are included as IResolvedBundles, save them as features instead
          if (((IResolvedBundle) checked[i]).getStatus().getCode()
              == IResolvedBundle.STATUS_PLUGIN_DOES_NOT_EXIST) {
            included.add(
                new NameVersionDescriptor(
                    ((IResolvedBundle) checked[i]).getBundleInfo().getSymbolicName(),
                    null,
                    NameVersionDescriptor.TYPE_PLUGIN));
            missingCount++;
          } else if (((IResolvedBundle) checked[i]).getStatus().getCode()
              == IResolvedBundle.STATUS_FEATURE_DOES_NOT_EXIST) {
            included.add(
                new NameVersionDescriptor(
                    ((IResolvedBundle) checked[i]).getBundleInfo().getSymbolicName(),
                    null,
                    NameVersionDescriptor.TYPE_FEATURE));
            missingCount++;
          } else {
            included.add(
                new NameVersionDescriptor(
                    ((IResolvedBundle) checked[i]).getBundleInfo().getSymbolicName(), null));
          }
        }
      }

      if (included.size() == 0) {
        fTargetDefinition.setIncluded(new NameVersionDescriptor[0]);
      } else if (included.size() == 0
          || included.size() - missingCount
              == fTargetDefinition.getAllFeatures().length
                  + ((TargetDefinition) fTargetDefinition).getOtherBundles().length) {
        fTargetDefinition.setIncluded(null);
      } else {
        fTargetDefinition.setIncluded(
            (NameVersionDescriptor[]) included.toArray(new NameVersionDescriptor[included.size()]));
      }
    } else {
      // Figure out if there are multiple bundles sharing the same id
      Set multi = new HashSet(); // BSNs of bundles with multiple versions available
      Set all = new HashSet();
      for (Iterator iterator = fAllBundles.iterator(); iterator.hasNext(); ) {
        IResolvedBundle rb = (IResolvedBundle) iterator.next();
        if (!all.add(rb.getBundleInfo().getSymbolicName())) {
          multi.add(rb.getBundleInfo().getSymbolicName());
        }
      }

      // Create a list of checked bundle infos
      List included = new ArrayList();
      Object[] checked = fTree.getCheckedLeafElements();
      for (int i = 0; i < checked.length; i++) {
        if (checked[i] instanceof IResolvedBundle) {
          // Create the bundle info object
          String bsn = ((IResolvedBundle) checked[i]).getBundleInfo().getSymbolicName();
          NameVersionDescriptor info = null;
          if (multi.contains(bsn)) {
            // include version info
            info =
                new NameVersionDescriptor(
                    bsn, ((IResolvedBundle) checked[i]).getBundleInfo().getVersion());
          } else {
            // don't store version info
            info = new NameVersionDescriptor(bsn, null);
          }
          included.add(info);
        }
      }

      if (included.size() == 0) {
        fTargetDefinition.setIncluded(new NameVersionDescriptor[0]);
      } else if (included.size() == fAllBundles.size() + fMissing.size()) {
        fTargetDefinition.setIncluded(null);
      } else {
        fTargetDefinition.setIncluded(
            (NameVersionDescriptor[]) included.toArray(new NameVersionDescriptor[included.size()]));
      }
    }
  }
  /**
   * Uses the target state to determine all bundles required by the currently checked bundles and
   * returns them so they can be checked in the tree.
   *
   * @param allBundles list of all bundles to search requirements in
   * @param checkedBundles list of bundles to get requirements for
   * @return list of resolved bundles from the collection to be checked
   */
  private Object[] getRequiredPlugins(final Collection allBundles, final Object[] checkedBundles) {
    final Set dependencies = new HashSet();
    IRunnableWithProgress op =
        new IRunnableWithProgress() {
          public void run(IProgressMonitor monitor) {
            try {
              monitor.beginTask(Messages.TargetContentsGroup_5, 150);

              // Get all the bundle locations
              List allLocations = new ArrayList(allBundles.size());
              for (Iterator iterator = allBundles.iterator(); iterator.hasNext(); ) {
                IResolvedBundle current = (IResolvedBundle) iterator.next();
                try {
                  // Some bundles, such as those with errors, may not have locations
                  URI location = current.getBundleInfo().getLocation();
                  if (location != null) {
                    allLocations.add(new File(location).toURL());
                  }
                } catch (MalformedURLException e) {
                  PDEPlugin.log(e);
                  monitor.setCanceled(true);
                  return;
                }
              }
              if (monitor.isCanceled()) {
                return;
              }
              monitor.worked(20);

              // Create a PDE State containing all of the target bundles
              PDEState state =
                  new PDEState(
                      (URL[]) allLocations.toArray(new URL[allLocations.size()]),
                      true,
                      new SubProgressMonitor(monitor, 50));
              if (monitor.isCanceled()) {
                return;
              }

              // Figure out which of the models have been checked
              IPluginModelBase[] models = state.getTargetModels();
              List checkedModels = new ArrayList(checkedBundles.length);
              for (int i = 0; i < checkedBundles.length; i++) {
                if (checkedBundles[i] instanceof IResolvedBundle) {
                  BundleInfo bundle = ((IResolvedBundle) checkedBundles[i]).getBundleInfo();
                  for (int j = 0; j < models.length; j++) {
                    if (models[j]
                            .getBundleDescription()
                            .getSymbolicName()
                            .equals(bundle.getSymbolicName())
                        && models[j]
                            .getBundleDescription()
                            .getVersion()
                            .toString()
                            .equals(bundle.getVersion())) {
                      checkedModels.add(models[j]);
                      break;
                    }
                  }
                }
              }
              monitor.worked(20);
              if (monitor.isCanceled()) {
                return;
              }

              // Get implicit dependencies as a list of strings
              // This is wasteful since the dependency calculation puts them back into BundleInfos
              NameVersionDescriptor[] implicitDependencies =
                  fTargetDefinition.getImplicitDependencies();
              List implicitIDs = new ArrayList();
              if (implicitDependencies != null) {
                for (int i = 0; i < implicitDependencies.length; i++) {
                  implicitIDs.add(implicitDependencies[i].getId());
                }
              }
              monitor.worked(10);

              // Get all dependency bundles
              // exclude "org.eclipse.ui.workbench.compatibility" - it is only needed for pre-3.0
              // bundles
              dependencies.addAll(
                  DependencyManager.getDependencies(
                      checkedModels.toArray(),
                      (String[]) implicitIDs.toArray(new String[implicitIDs.size()]),
                      state.getState(),
                      new String[] {"org.eclipse.ui.workbench.compatibility"})); // $NON-NLS-1$
              monitor.worked(50);

            } finally {
              monitor.done();
            }
          }
        };
    try {
      // Calculate the dependencies
      new ProgressMonitorDialog(fTree.getControl().getShell()).run(true, true, op);

      // We want to check the dependents, the source of the dependents, and the source of the
      // originally checked
      Set checkedNames = new HashSet(checkedBundles.length);
      for (int i = 0; i < checkedBundles.length; i++) {
        if (checkedBundles[i] instanceof IResolvedBundle) {
          checkedNames.add(((IResolvedBundle) checkedBundles[i]).getBundleInfo().getSymbolicName());
        }
      }

      List toCheck = new ArrayList();
      for (Iterator iterator = fAllBundles.iterator(); iterator.hasNext(); ) {
        IResolvedBundle bundle = (IResolvedBundle) iterator.next();
        if (bundle.isSourceBundle()) {
          String name = bundle.getSourceTarget().getSymbolicName();
          if (name != null && (dependencies.contains(name) || checkedNames.contains(name))) {
            toCheck.add(bundle);
          }
        } else if (dependencies.contains(bundle.getBundleInfo().getSymbolicName())) {
          toCheck.add(bundle);
        }
      }
      return toCheck.toArray();
    } catch (InvocationTargetException e) {
      PDEPlugin.log(e);
    } catch (InterruptedException e) {
    }

    return new Object[0];
  }
Beispiel #19
0
 public void registerListener(DatabaseModelListener listener) {
   listeners.add(listener);
 }
 /**
  * Delimits a comma separated preference and add the items to the given set
  *
  * @param set
  * @param preference
  */
 private void addExtraChoices(Set<String> set, String preference) {
   StringTokenizer tokenizer = new StringTokenizer(preference, ","); // $NON-NLS-1$
   while (tokenizer.hasMoreTokens()) {
     set.add(tokenizer.nextToken().trim());
   }
 }
  private boolean handlePut(
      HttpServletRequest request, HttpServletResponse response, String pathString)
      throws GitAPIException, CoreException, IOException, JSONException, ServletException {
    IPath path = pathString == null ? Path.EMPTY : new Path(pathString);
    if (path.segment(0).equals("file") && path.segmentCount() > 1) { // $NON-NLS-1$

      // make sure a clone is addressed
      WebProject webProject = GitUtils.projectFromPath(path);
      if (isAccessAllowed(request.getRemoteUser(), webProject)) {
        Map<IPath, File> gitDirs = GitUtils.getGitDirs(path, Traverse.CURRENT);
        if (gitDirs.isEmpty()) {
          String msg = NLS.bind("Request path is not a git repository: {0}", path);
          return statusHandler.handleRequest(
              request,
              response,
              new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_BAD_REQUEST, msg, null));
        }
        File gitDir = gitDirs.values().iterator().next();

        // make sure required fields are set
        JSONObject toCheckout = OrionServlet.readJSONRequest(request);
        JSONArray paths = toCheckout.optJSONArray(ProtocolConstants.KEY_PATH);
        String branch = toCheckout.optString(GitConstants.KEY_BRANCH_NAME, null);
        String tag = toCheckout.optString(GitConstants.KEY_TAG_NAME, null);
        boolean removeUntracked = toCheckout.optBoolean(GitConstants.KEY_REMOVE_UNTRACKED, false);
        if ((paths == null || paths.length() == 0) && branch == null && tag == null) {
          String msg =
              NLS.bind(
                  "Either '{0}' or '{1}' or '{2}' should be provided, got: {3}",
                  new Object[] {
                    ProtocolConstants.KEY_PATH,
                    GitConstants.KEY_BRANCH_NAME,
                    GitConstants.KEY_TAG_NAME,
                    toCheckout
                  });
          return statusHandler.handleRequest(
              request,
              response,
              new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_BAD_REQUEST, msg, null));
        }

        Git git = new Git(new FileRepository(gitDir));
        if (paths != null) {
          Set<String> toRemove = new HashSet<String>();
          CheckoutCommand checkout = git.checkout();
          for (int i = 0; i < paths.length(); i++) {
            String p = paths.getString(i);
            if (removeUntracked && !isInIndex(git.getRepository(), p)) toRemove.add(p);
            checkout.addPath(p);
          }
          checkout.call();
          for (String p : toRemove) {
            File f = new File(git.getRepository().getWorkTree(), p);
            f.delete();
          }
          return true;
        } else if (tag != null && branch != null) {
          CheckoutCommand co = git.checkout();
          try {
            co.setName(branch).setStartPoint(tag).setCreateBranch(true).call();
            return true;
          } catch (RefNotFoundException e) {
            String msg = NLS.bind("Tag not found: {0}", tag);
            return statusHandler.handleRequest(
                request,
                response,
                new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_NOT_FOUND, msg, e));
          } catch (GitAPIException e) {
            if (org.eclipse.jgit.api.CheckoutResult.Status.CONFLICTS.equals(
                co.getResult().getStatus())) {
              return statusHandler.handleRequest(
                  request,
                  response,
                  new ServerStatus(
                      IStatus.ERROR, HttpServletResponse.SC_CONFLICT, "Checkout aborted.", e));
            }
            // TODO: handle other exceptions
          }
        } else if (branch != null) {

          if (!isLocalBranch(git, branch)) {
            String msg = NLS.bind("{0} is not a branch.", branch);
            return statusHandler.handleRequest(
                request,
                response,
                new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_NOT_FOUND, msg, null));
          }

          CheckoutCommand co = git.checkout();
          try {
            co.setName(Constants.R_HEADS + branch).call();
            return true;
          } catch (CheckoutConflictException e) {
            return statusHandler.handleRequest(
                request,
                response,
                new ServerStatus(
                    IStatus.ERROR, HttpServletResponse.SC_CONFLICT, "Checkout aborted.", e));
          } catch (RefNotFoundException e) {
            String msg = NLS.bind("Branch name not found: {0}", branch);
            return statusHandler.handleRequest(
                request,
                response,
                new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_NOT_FOUND, msg, e));
          } // TODO: handle other exceptions
        }
      } else {
        String msg = NLS.bind("Nothing found for the given ID: {0}", path);
        return statusHandler.handleRequest(
            request,
            response,
            new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_NOT_FOUND, msg, null));
      }
    }
    String msg = NLS.bind("Invalid checkout request {0}", pathString);
    return statusHandler.handleRequest(
        request,
        response,
        new ServerStatus(IStatus.ERROR, HttpServletResponse.SC_BAD_REQUEST, msg, null));
  }