/**
   * 文件解压
   *
   * @param file 压缩文件
   * @param destDir 解压目录
   */
  public static void decompress(File file, File destDir, String encoding) {

    if (!file.exists()) {
      return;
    }

    InputStream is = null;
    ZipArchiveInputStream zis = null;

    try {
      is = new FileInputStream(file);
      zis = new ZipArchiveInputStream(new FileInputStream(file), encoding);

      ArchiveEntry archiveEntry = null;

      while ((archiveEntry = zis.getNextEntry()) != null) {
        CompressUtilsHelper.decompress(zis, archiveEntry, destDir);
      }
    } catch (Exception e) {
      throw new CommonsException(
          "Decompress " + file.getPath() + " to " + destDir.getPath() + " failed!", e);
    } finally {
      IOUtils.closeQuietly(zis);
      IOUtils.closeQuietly(is);
    }
  }
  private void readDataFromZip() {
    FileInputStream fis = null;
    ZipArchiveInputStream zis = null;

    try {
      // Create input stream
      fis = new FileInputStream(this.filePath);
      zis = new ZipArchiveInputStream(new BufferedInputStream(fis));

      ArchiveEntry entry;

      // Extract files
      while ((entry = zis.getNextEntry()) != null) {

        if (!entry.isDirectory() && this.innerFileName.equals(entry.getName())) {
          System.out.println(
              "LOCATED INNER FILE THAT SHOULD BE PROCESSED <" + entry.getName() + ">");
          extractTo(zis, entry);
        }
      }

    } catch (FileNotFoundException e) {
      e.printStackTrace();
    } catch (IOException e) {
      e.printStackTrace();
    } finally {
      IOUtils.closeQuietly(zis);
      IOUtils.closeQuietly(fis);
    }
  }
  private void extract(final String inputFile, final String outputDir) throws IOException {
    FileInputStream fileInputStream = null;
    ZipArchiveInputStream zipArchiveInputStream = null;
    FileOutputStream fileOutputStream = null;
    try {

      Log.d(this.getClass().getName(), "Will extract " + inputFile + " to " + outputDir);

      byte[] buffer = new byte[8192];
      fileInputStream = new FileInputStream(inputFile);

      // We use null as encoding.
      zipArchiveInputStream = new ZipArchiveInputStream(fileInputStream, null, true);
      ArchiveEntry entry;
      while ((entry = zipArchiveInputStream.getNextEntry()) != null) {
        Log.d(this.getClass().getName(), "Extracting entry " + entry.getName());
        File file = new File(outputDir, entry.getName());
        if (entry.isDirectory()) {
          file.mkdirs();
        } else {
          file.getParentFile().mkdirs();
          fileOutputStream = new FileOutputStream(file);
          int bytesRead;
          while ((bytesRead = zipArchiveInputStream.read(buffer, 0, buffer.length)) != -1)
            fileOutputStream.write(buffer, 0, bytesRead);
          fileOutputStream.close();
          fileOutputStream = null;
        }
      }
      // Delete the zip file
      File zipFile = new File(inputFile);
      zipFile.delete();
    } catch (Exception e) {
      Log.e("UnzipperTask", "Error unzipping file: " + inputFile + ", " + e);
    } finally {
      try {
        zipArchiveInputStream.close();
        fileInputStream.close();
        if (fileOutputStream != null) {
          fileOutputStream.close();
        }
      } catch (NullPointerException ex) {
        Log.e(this.getClass().getName(), "Error closing the file streams.", ex);
      } catch (IOException ex) {
        Log.e(this.getClass().getName(), "Error closing the file streams.", ex);
      }
    }
  }
  public void extractTo(ZipArchiveInputStream zis, ArchiveEntry entry) throws IOException {
    int count = 0;
    int curCount = 0;
    byte[] data = new byte[BUFFER];

    while ((count = zis.read(data, 0, BUFFER)) != -1) {
      curCount += count;
      processInputData(entry.getName(), curCount);
    }
  }
  @Test
  public void testUnmarshalEntireState() throws Exception {
    // First, create a state file to unmarshal
    // 1. It must be a zip archive; unmarshalling a non-archive package state file isn't supported
    // 2. We use the liveMarshallerMap; no mocks.
    // 3. We use a live ArchiveStreamFactory
    underTest.setArchive(true);
    underTest.setMarshallerMap(liveMarshallerMap);
    underTest.setArxStreamFactory(new ZipArchiveStreamFactory());
    File tmp = File.createTempFile(this.getClass().getName() + "_UnmarshalEntireState", ".zip");
    OutputStream out = new FileOutputStream(tmp);
    underTest.serialize(state, out);
    assertTrue(tmp.exists() && tmp.length() > 1);

    // Verify that we wrote out a zip file.
    final byte[] signature = new byte[12];
    InputStream in = new BufferedInputStream(new FileInputStream(tmp));
    in.mark(signature.length);
    int bytesRead = org.apache.commons.compress.utils.IOUtils.readFully(in, signature);
    assertTrue(ZipArchiveInputStream.matches(signature, bytesRead));
    in.reset();

    // Create a new instance of PackageState, and deserialize the zip archive created above, which
    // contains the
    // test objects from the {@link #state prepared instance} of PackageState
    PackageState state =
        new PackageState(); // a new instance of PackageState with no internal state
    underTest.deserialize(state, in);

    Map<StreamId, PropertyDescriptor> pds =
        SerializationAnnotationUtil.getStreamDescriptors(PackageState.class);
    assertTrue(pds.size() > 0);
    pds.keySet()
        .stream()
        .forEach(
            streamId -> {
              try {
                assertNotNull(
                    "Expected non-null value for PackageState field '"
                        + pds.get(streamId).getName()
                        + "', "
                        + "StreamId '"
                        + streamId
                        + "'",
                    pds.get(streamId).getReadMethod().invoke(state));
              } catch (IllegalAccessException | InvocationTargetException e) {
                fail(e.getMessage());
              }
            });

    IOUtils.closeQuietly(in);
    IOUtils.closeQuietly(out);
    FileUtils.deleteQuietly(tmp);
  }
  @Override
  public List<XarEntry> getEntries(File xarFile) throws IOException {
    List<XarEntry> documents = null;

    FileInputStream fis = new FileInputStream(xarFile);
    ZipArchiveInputStream zis = new ZipArchiveInputStream(fis);

    try {
      for (ZipArchiveEntry zipEntry = zis.getNextZipEntry();
          zipEntry != null;
          zipEntry = zis.getNextZipEntry()) {
        if (!zipEntry.isDirectory()) {
          try {
            XarPageLimitedHandler documentHandler =
                new XarPageLimitedHandler(this.componentManager);

            parseDocument(zis, documentHandler);

            if (documents == null) {
              documents = new ArrayList<XarEntry>();
            }

            XarEntry xarEntry = documentHandler.getXarEntry();
            xarEntry.setEntryName(zipEntry.getName());

            documents.add(xarEntry);
          } catch (NotADocumentException e) {
            // Impossible to know that before parsing
          } catch (Exception e) {
            this.logger.error("Failed to parse document [" + zipEntry.getName() + "]", e);
          }
        }
      }
    } finally {
      zis.close();
    }

    return documents != null ? documents : Collections.<XarEntry>emptyList();
  }
Example #7
0
  /**
   * Load this package in memory from an InputStream. It may be installed later using {@link
   * #install(XWikiContext)}.
   *
   * @param file an InputStream of a zipped package file
   * @param context current XWikiContext
   * @return an empty string, useless.
   * @throws IOException while reading the ZipFile
   * @throws XWikiException when package content is broken
   * @since 2.3M2
   */
  public String Import(InputStream file, XWikiContext context) throws IOException, XWikiException {
    ZipArchiveInputStream zis;
    ArchiveEntry entry;
    Document description = null;

    try {
      zis = new ZipArchiveInputStream(file, XAR_FILENAME_ENCODING, false);

      List<XWikiDocument> docsToLoad = new LinkedList<XWikiDocument>();
      /*
       * Loop 1: Cycle through the zip input stream and load out all of the documents, when we find the
       * package.xml file we put it aside to so that we only include documents which are in the file.
       */
      while ((entry = zis.getNextEntry()) != null) {
        if (entry.isDirectory() || (entry.getName().indexOf("META-INF") != -1)) {
          // The entry is either a directory or is something inside of the META-INF dir.
          // (we use that directory to put meta data such as LICENSE/NOTICE files.)
          continue;
        } else if (entry.getName().compareTo(DefaultPackageFileName) == 0) {
          // The entry is the manifest (package.xml). Read this differently.
          description = fromXml(new CloseShieldInputStream(zis));
        } else {
          XWikiDocument doc = null;
          try {
            doc = readFromXML(new CloseShieldInputStream(zis));
          } catch (Throwable ex) {
            LOGGER.warn(
                "Failed to parse document ["
                    + entry.getName()
                    + "] from XML during import, thus it will not be installed. "
                    + "The error was: "
                    + ex.getMessage());
            // It will be listed in the "failed documents" section after the import.
            addToErrors(entry.getName().replaceAll("/", "."), context);

            continue;
          }

          // Run all of the registered DocumentFilters on this document and
          // if no filters throw exceptions, add it to the list to import.
          try {
            this.filter(doc, context);
            docsToLoad.add(doc);
          } catch (ExcludeDocumentException e) {
            LOGGER.info("Skip the document '" + doc.getDocumentReference() + "'");
          }
        }
      }
      // Make sure a manifest was included in the package...
      if (description == null) {
        throw new PackageException(
            XWikiException.ERROR_XWIKI_UNKNOWN, "Could not find the package definition");
      }
      /*
       * Loop 2: Cycle through the list of documents and if they are in the manifest then add them, otherwise log
       * a warning and add them to the skipped list.
       */
      for (XWikiDocument doc : docsToLoad) {
        if (documentExistInPackageFile(doc.getFullName(), doc.getLanguage(), description)) {
          this.add(doc, context);
        } else {
          LOGGER.warn(
              "document "
                  + doc.getDocumentReference()
                  + " does not exist in package definition."
                  + " It will not be installed.");
          // It will be listed in the "skipped documents" section after the
          // import.
          addToSkipped(doc.getFullName(), context);
        }
      }

      updateFileInfos(description);
    } catch (DocumentException e) {
      throw new PackageException(XWikiException.ERROR_XWIKI_UNKNOWN, "Error when reading the XML");
    }

    return "";
  }
  private XarMergeResult importXARToWiki(
      XarFile previousXarFile,
      InputStream xarInputStream,
      String wiki,
      PackageConfiguration configuration)
      throws IOException {
    XarMergeResult mergeResult = new XarMergeResult();

    ZipArchiveInputStream zis = new ZipArchiveInputStream(xarInputStream);

    XWikiContext xcontext = getXWikiContext();

    String currentWiki = xcontext.getDatabase();
    try {
      xcontext.setDatabase(wiki);

      this.observation.notify(new XARImportingEvent(), null, xcontext);

      for (ArchiveEntry entry = zis.getNextEntry(); entry != null; entry = zis.getNextEntry()) {
        if (!entry.isDirectory()) {
          DocumentImporterHandler documentHandler =
              new DocumentImporterHandler(this, this.componentManager, wiki);

          try {
            documentHandler.setPreviousXarFile(previousXarFile);
            documentHandler.setConfiguration(configuration);

            parseDocument(zis, documentHandler);

            if (documentHandler.getMergeResult() != null) {
              mergeResult.addMergeResult(documentHandler.getMergeResult());
            }

            if (configuration.isLogEnabled()) {
              this.logger.info(
                  "Successfully imported document [{}] in language [{}]",
                  documentHandler.getDocument().getDocumentReference(),
                  documentHandler.getDocument().getRealLanguage());
            }
          } catch (NotADocumentException e) {
            // Impossible to know that before parsing
            this.logger.debug("Entry [" + entry + "] is not a document", e);
          } catch (Exception e) {
            this.logger.error("Failed to parse document [" + entry.getName() + "]", e);

            if (configuration.isLogEnabled()) {
              this.logger.info(
                  "Failed to import document [{}] in language [{}]",
                  documentHandler.getDocument().getDocumentReference(),
                  documentHandler.getDocument().getRealLanguage());
            }
          }
        }
      }
    } finally {
      this.observation.notify(new XARImportedEvent(), null, xcontext);

      xcontext.setDatabase(currentWiki);
    }

    return mergeResult;
  }