/** Finds the OS type the plugin is running on and calls the setup for it */
 protected void doOsSetup() {
   if (Platform.isWindows()) {
     logger.debug("Windows operating system detected");
     // WindowsStartup.startup(); TODO: comment back in once arguments are being passed
   } else if (Platform.isMac()) {
     logger.debug("Mac operating system detected");
     MacStartup.startup();
   } else {
     // TODO: Add Linux logic
   }
 }
Ejemplo n.º 2
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 {
   if (Platform.isWindows()) {
     this.currentPlatformEnum = PlatformEnum.WINDOWS;
   } else if (Platform.isLinux()) {
     this.currentPlatformEnum = PlatformEnum.LINUX;
   } else if (Platform.isMac()) {
     this.currentPlatformEnum = PlatformEnum.MACOSX;
   } else {
     this.currentPlatformEnum = PlatformEnum.UNKNOWN;
   }
 }
Ejemplo n.º 3
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  public synchronized boolean open(File file) {
    if (file == null || !file.isFile()) {
      return false;
    }

    // MacOS filesystem may require NFD unicode decomposition (forcing NFD seems to work for
    // System.out() but passing to libmediainfo is still not working)
    String path = file.getAbsolutePath();
    if (Platform.isMac()) {
      path = Normalizer.normalize(path, Form.NFD);
    }
    return MediaInfoLibrary.INSTANCE.Open(handle, new WString(path)) > 0;
  }
Ejemplo n.º 4
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 /**
  * Get global hotkey provider for current platform
  *
  * @return new instance of Provider, or null if platform is not supported
  * @see X11Provider
  * @see WindowsProvider
  * @see CarbonProvider
  */
 public static Provider createProvider() {
   Provider provider;
   if (Platform.isX11()) {
     provider = new X11Provider();
   } else if (Platform.isWindows()) {
     provider = new WindowsProvider();
   } else if (Platform.isMac()) {
     provider = new CarbonProvider();
   } else {
     logger.warn("No suitable provider for " + System.getProperty("os.name"));
     return null;
   }
   provider.init(provider.eventQueue);
   return provider;
 }
 /**
  * Creates system utilities. These are needed to determine isAvis() in {@link
  * #registerPlayer(Player)}.
  *
  * @return The system utilities.
  */
 private static SystemUtils createSystemUtils() {
   if (Platform.isWindows()) {
     return new WinUtils();
   } else {
     if (Platform.isMac()) {
       return new MacSystemUtils();
     } else {
       if (Platform.isSolaris()) {
         return new SolarisUtils();
       } else {
         return new BasicSystemUtils();
       }
     }
   }
 }
Ejemplo n.º 6
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  @Test
  public void preallocate() throws Exception {
    // Assuming a filesystem with delayed block allocation,
    // e.g. ext3 / ext4 on Linux.
    assumeTrue(Platform.isLinux() || Platform.isMac());

    long len = 100L * (1 << 20); // 100 MB
    FileIO fio = FileIO.open(file, EnumSet.of(OpenOption.CREATE, OpenOption.PREALLOCATE));
    long startFree = file.getFreeSpace();

    fio.setLength(len);
    long alloc = startFree - file.getFreeSpace();

    // Free space should be reduced. Pad expectation since external
    // events may interfere.
    assertTrue(alloc > (len >> 1));

    fio.close();
  }
Ejemplo n.º 7
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  public JPicosat(String libDir) throws Exception {
    if (libDir == null || "".equals(libDir)) libDir = "lib";
    StringBuilder pref = new StringBuilder(libDir + DIR);

    if (Platform.isMac())
      if (Platform.is64Bit()) pref.append("/macosx/64");
      else pref.append("/macosx/32");
    else if (Platform.isLinux())
      if (Platform.is64Bit()) pref.append("/linux/64");
      else pref.append("/linux/32");
    else if (Platform.isWindows())
      if (Platform.is64Bit()) pref.append("/win/64");
      else pref.append("/win/32");
    else throw new Exception("JPicosat: Platform unsupported!");

    System.setProperty("jna.library.path", pref.toString());
    INSTANCE = (CPicosat) Native.loadLibrary("picosat", CPicosat.class);
    checkLibraryVersion(pref.toString());
  }
Ejemplo n.º 8
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  public ProcessWrapper getPipeProcess() {
    if (!PMS.get().isWindows()) {
      OutputParams mkfifo_vid_params = new OutputParams(configuration);
      mkfifo_vid_params.maxBufferSize = 0.1;
      mkfifo_vid_params.log = true;
      String cmdArray[];

      if (Platform.isMac() || Platform.isFreeBSD() || Platform.isSolaris()) {
        cmdArray = new String[] {"mkfifo", "-m", "777", linuxPipeName};
      } else {
        cmdArray = new String[] {"mkfifo", "--mode=777", linuxPipeName};
      }

      ProcessWrapperImpl mkfifo_vid_process = new ProcessWrapperImpl(cmdArray, mkfifo_vid_params);
      return mkfifo_vid_process;
    }

    return mk;
  }
Ejemplo n.º 9
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  /**
   * Restores the default configuration
   *
   * @throws IOException
   * @throws JSONException
   */
  private void loadDefaultConfiguration() throws IOException {

    configuration.put("plainTextUpload", false);
    configuration.put("shortenurls", false);

    final JSONObject uploaders = new JSONObject();

    // Default uploaders
    uploaders.put(ImageUpload.class.getName(), ImgurUploader.class.getName());
    uploaders.put(TextUpload.class.getName(), PasteeUploader.class.getName());
    uploaders.put(FileUpload.class.getName(), FilebinUploader.class.getName());
    uploaders.put(URLUpload.class.getName(), GoogleShortener.class.getName());

    configuration.put("uploaders", uploaders);

    final JSONObject hotkeys = new JSONObject();

    // Hotkeys
    hotkeys.put(
        "full", Platform.isMac() ? HotkeyManager.FULL_HOTKEY_MAC : HotkeyManager.FULL_HOTKEY);
    hotkeys.put(
        "crop", Platform.isMac() ? HotkeyManager.CROP_HOTKEY_MAC : HotkeyManager.CROP_HOTKEY);
    hotkeys.put(
        "clipboard",
        Platform.isMac() ? HotkeyManager.CLIPBOARD_HOTKEY_MAC : HotkeyManager.CLIPBOARD_HOTKEY);
    hotkeys.put(
        "options",
        Platform.isMac() ? HotkeyManager.OPTIONS_HOTKEY_MAC : HotkeyManager.OPTIONS_HOTKEY);
    hotkeys.put(
        "file", Platform.isMac() ? HotkeyManager.FILE_HOTKEY_MAC : HotkeyManager.FILE_HOTKEY);

    if (!Platform.isMac()) {
      hotkeys.put("active", "alt PRINTSCREEN");
    }

    configuration.put("hotkeys", hotkeys);

    configuration.put("updateMode", UpdaterMode.AUTOMATIC.ordinal());

    // Save it
    configuration.save();
  }
Ejemplo n.º 10
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  public static String getLibraryPath(
      String libraryName, boolean extractAllLibraries, Class<?> cl) {
    try {
      String customPath = System.getProperty("library." + libraryName);
      if (customPath == null) customPath = System.getenv(libraryName.toUpperCase() + "_LIBRARY");
      if (customPath != null) {
        File f = new File(customPath);
        if (!f.exists()) System.err.println("Library file '" + customPath + "' does not exist !");
        else return f.getAbsolutePath();
      }
      // ClassLoader cl = LibraryExtractor.class.getClassLoader();
      String prefix =
          "(?i)"
              + (Platform.isWindows() || Platform.isWindowsCE() ? "" : "lib")
              + libraryName
              + "[^A-Za-z_].*";
      String libsuffix = "(?i).*\\.(so|dll|dylib|jnilib)";
      // String othersuffix = "(?i).*\\.(pdb)";

      URL sourceURL = null;
      List<URL> otherURLs = new ArrayList<URL>();

      String arch = getCurrentOSAndArchString();
      // System.out.println("libURL = " + libURL);
      List<URL> list = URLUtils.listFiles(URLUtils.getResource(cl, "libraries/" + arch), null),
          noArchList = URLUtils.listFiles(URLUtils.getResource(cl, "libraries/noarch"), null);

      Set<String> names = new HashSet<String>();
      for (URL url : list) {
        String name = getFileName(url);
        names.add(name);
      }
      for (URL url : noArchList) {
        String name = getFileName(url);
        if (names.add(name)) list.add(url);
      }
      /*if (list.isEmpty()) {
      	for (URL u : URLUtils.listFiles(URLUtils.getResource(cl, "libraries"), null)) {
      		String f = u.getFile();
      		int i = f.lastIndexOf('/');
      		if (i >= 0)
      			f = f.substring(i + 1);
      		if (arch.startsWith(f)) {
      			list = URLUtils.listFiles(u, null);
      			break;
      		}
      	}

      }*/
      for (File f : new File(".").listFiles()) if (f.isFile()) list.add(f.toURI().toURL());

      for (URL url : list) {
        String name = getFileName(url);
        boolean pref = name.matches(prefix), suff = name.matches(libsuffix);
        if (pref && suff) sourceURL = url;
        else // if (suff || fileName.matches(othersuffix))
        otherURLs.add(url);
      }
      List<File> files = new ArrayList<File>();
      if (extractAllLibraries) {
        for (URL url : otherURLs) files.add(extract(url));
      }

      if (System.getProperty("javawebstart.version") != null) {
        if (Platform.isWindows()) {
          // File f = new File("c:\\Windows\\" + (Platform.is64Bit() ? "SysWOW64\\" : "System32\\")
          // + libraryName + ".dll");
          File f = new File("c:\\Windows\\" + "System32\\" + libraryName + ".dll");
          if (f.exists()) return f.toString();
        } else if (Platform.isMac()) {
          File f =
              new File("/System/Library/Frameworks/" + libraryName + ".framework/" + libraryName);
          if (f.exists()) return f.toString();
        }
      }

      if (sourceURL == null) return libraryName;
      else {
        File file = extract(sourceURL);
        files.add(file);

        int lastSize;
        do {
          lastSize = files.size();
          for (Iterator<File> it = files.iterator(); it.hasNext(); ) {
            File f = it.next();
            if (!f.getName().matches(libsuffix)) continue;

            try {
              System.load(f.toString());
              it.remove();
            } catch (Throwable ex) {
              System.err.println("Loading " + f.getName() + " failed (" + ex + ")");
            }
          }
        } while (files.size() < lastSize);

        return file.getCanonicalPath();
      }
    } catch (Throwable ex) {
      System.err.println("ERROR: Failed to extract library " + libraryName);
      ex.printStackTrace();
      return libraryName;
    }
  }
Ejemplo n.º 11
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  private PcapNetworkInterface(pcap_if pif, boolean local) {
    this.name = pif.name;
    this.description = pif.description;

    for (pcap_addr pcapAddr = pif.addresses; pcapAddr != null; pcapAddr = pcapAddr.next) {
      if (pcapAddr.addr == null
          && pcapAddr.netmask == null
          && pcapAddr.broadaddr == null
          && pcapAddr.dstaddr == null) {
        logger.warn("Empty pcap_addr on {} ({}). Ignore it.", name, description);
        continue;
      }

      short sa_family =
          pcapAddr.addr != null
              ? pcapAddr.addr.getSaFamily()
              : pcapAddr.netmask != null
                  ? pcapAddr.netmask.getSaFamily()
                  : pcapAddr.broadaddr != null
                      ? pcapAddr.broadaddr.getSaFamily()
                      : pcapAddr.dstaddr != null
                          ? pcapAddr.dstaddr.getSaFamily()
                          /* default */ : Inets.AF_UNSPEC; // Never get here.
      if (sa_family == Inets.AF_INET) {
        addresses.add(PcapIpV4Address.newInstance(pcapAddr, sa_family, name));
      } else if (sa_family == Inets.AF_INET6) {
        addresses.add(PcapIpV6Address.newInstance(pcapAddr, sa_family, name));
      } else {
        if (Platform.isLinux() && sa_family == Inets.AF_PACKET) {
          sockaddr_ll sll = new sockaddr_ll(pcapAddr.addr.getPointer());
          byte[] addr = sll.sll_addr;
          int addrLength = sll.sll_halen & 0xFF;
          if (addrLength == 6) {
            linkLayerAddresses.add(ByteArrays.getMacAddress(addr, 0));
          } else if (addr.length == 0) {
            continue;
          } else {
            linkLayerAddresses.add(
                LinkLayerAddress.getByAddress(ByteArrays.getSubArray(addr, 0, addrLength)));
          }
        } else if ((Platform.isMac() || Platform.isFreeBSD() || Platform.isOpenBSD())
            || Platform.iskFreeBSD() && sa_family == Inets.AF_LINK) {
          sockaddr_dl sdl = new sockaddr_dl(pcapAddr.addr.getPointer());
          byte[] addr = sdl.getAddress();
          if (addr.length == 6) {
            linkLayerAddresses.add(MacAddress.getByAddress(addr));
          } else if (addr.length == 0) {
            continue;
          } else {
            linkLayerAddresses.add(LinkLayerAddress.getByAddress(addr));
          }
        } else {
          logger.warn("{} is not supported address family. Ignore it.", sa_family);
        }
      }
    }

    if (pif.flags == PCAP_IF_LOOPBACK) {
      this.loopBack = true;
    } else {
      this.loopBack = false;
    }

    this.local = local;
  }
Ejemplo n.º 12
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/**
 * Ported from Winbase.h (kernel32.dll/kernel services). Microsoft Windows SDK 6.0A.
 *
 * @author dblock[at]dblock.org
 */
public interface WinBase extends StdCallLibrary, WinDef, BaseTSD {

  /** Constant value representing an invalid HANDLE. */
  HANDLE INVALID_HANDLE_VALUE =
      new HANDLE(Pointer.createConstant(Pointer.SIZE == 8 ? -1 : 0xFFFFFFFFL));

  int WAIT_FAILED = 0xFFFFFFFF;
  int WAIT_OBJECT_0 = ((NTStatus.STATUS_WAIT_0) + 0);
  int WAIT_ABANDONED = ((NTStatus.STATUS_ABANDONED_WAIT_0) + 0);
  int WAIT_ABANDONED_0 = ((NTStatus.STATUS_ABANDONED_WAIT_0) + 0);

  /** Maximum computer name length. The value is 15 on Mac, 31 on everything else. */
  int MAX_COMPUTERNAME_LENGTH = Platform.isMac() ? 15 : 31;

  /**
   * This logon type is intended for users who will be interactively using the computer, such as a
   * user being logged on by a terminal server, remote shell, or similar process. This logon type
   * has the additional expense of caching logon information for disconnected operations; therefore,
   * it is inappropriate for some client/server applications, such as a mail server.
   */
  int LOGON32_LOGON_INTERACTIVE = 2;
  /**
   * This logon type is intended for high performance servers to authenticate plaintext passwords.
   * The LogonUser function does not cache credentials for this logon type.
   */
  int LOGON32_LOGON_NETWORK = 3;
  /**
   * This logon type is intended for batch servers, where processes may be executing on behalf of a
   * user without their direct intervention. This type is also for higher performance servers that
   * process many plaintext authentication attempts at a time, such as mail or Web servers. The
   * LogonUser function does not cache credentials for this logon type.
   */
  int LOGON32_LOGON_BATCH = 4;
  /**
   * Indicates a service-type logon. The account provided must have the service privilege enabled.
   */
  int LOGON32_LOGON_SERVICE = 5;
  /**
   * This logon type is for GINA DLLs that log on users who will be interactively using the
   * computer. This logon type can generate a unique audit record that shows when the workstation
   * was unlocked.
   */
  int LOGON32_LOGON_UNLOCK = 7;
  /**
   * This logon type preserves the name and password in the authentication package, which allows the
   * server to make connections to other network servers while impersonating the client. A server
   * can accept plaintext credentials from a client, call LogonUser, verify that the user can access
   * the system across the network, and still communicate with other servers.
   */
  int LOGON32_LOGON_NETWORK_CLEARTEXT = 8;
  /**
   * This logon type allows the caller to clone its current token and specify new credentials for
   * outbound connections. The new logon session has the same local identifier but uses different
   * credentials for other network connections. This logon type is supported only by the
   * LOGON32_PROVIDER_WINNT50 logon provider.
   */
  int LOGON32_LOGON_NEW_CREDENTIALS = 9;

  /**
   * Use the standard logon provider for the system. The default security provider is negotiate,
   * unless you pass NULL for the domain name and the user name is not in UPN format. In this case,
   * the default provider is NTLM.
   */
  int LOGON32_PROVIDER_DEFAULT = 0;

  /** Use the Windows NT 3.5 logon provider. */
  int LOGON32_PROVIDER_WINNT35 = 1;
  /** Use the NTLM logon provider. */
  int LOGON32_PROVIDER_WINNT40 = 2;
  /** Use the negotiate logon provider. */
  int LOGON32_PROVIDER_WINNT50 = 3;

  /**
   * If this flag is set, a child process created with the bInheritHandles parameter of
   * CreateProcess set to TRUE will inherit the object handle.
   */
  int HANDLE_FLAG_INHERIT = 1;

  /**
   * If this flag is set, calling the {@link Kernel32#CloseHandle} function will not close the
   * object handle.
   */
  int HANDLE_FLAG_PROTECT_FROM_CLOSE = 2;

  // STARTUPINFO flags
  int STARTF_USESHOWWINDOW = 0x001;
  int STARTF_USESIZE = 0x002;
  int STARTF_USEPOSITION = 0x004;
  int STARTF_USECOUNTCHARS = 0x008;
  int STARTF_USEFILLATTRIBUTE = 0x010;
  int STARTF_RUNFULLSCREEN = 0x020;
  int STARTF_FORCEONFEEDBACK = 0x040;
  int STARTF_FORCEOFFFEEDBACK = 0x080;
  int STARTF_USESTDHANDLES = 0x100;

  // Process Creation flags
  int DEBUG_PROCESS = 0x00000001;
  int DEBUG_ONLY_THIS_PROCESS = 0x00000002;
  int CREATE_SUSPENDED = 0x00000004;
  int DETACHED_PROCESS = 0x00000008;
  int CREATE_NEW_CONSOLE = 0x00000010;
  int CREATE_NEW_PROCESS_GROUP = 0x00000200;
  int CREATE_UNICODE_ENVIRONMENT = 0x00000400;
  int CREATE_SEPARATE_WOW_VDM = 0x00000800;
  int CREATE_SHARED_WOW_VDM = 0x00001000;
  int CREATE_FORCEDOS = 0x00002000;
  int INHERIT_PARENT_AFFINITY = 0x00010000;
  int CREATE_PROTECTED_PROCESS = 0x00040000;
  int EXTENDED_STARTUPINFO_PRESENT = 0x00080000;
  int CREATE_BREAKAWAY_FROM_JOB = 0x01000000;
  int CREATE_PRESERVE_CODE_AUTHZ_LEVEL = 0x02000000;
  int CREATE_DEFAULT_ERROR_MODE = 0x04000000;
  int CREATE_NO_WINDOW = 0x08000000;

  /* Invalid return values */
  int INVALID_FILE_SIZE = 0xFFFFFFFF;
  int INVALID_SET_FILE_POINTER = 0xFFFFFFFF;
  int INVALID_FILE_ATTRIBUTES = 0xFFFFFFFF;

  /** Return code for a process still active. */
  int STILL_ACTIVE = WinNT.STATUS_PENDING;

  /**
   * The FILETIME structure is a 64-bit value representing the number of 100-nanosecond intervals
   * since January 1, 1601 (UTC). Conversion code in this class Copyright 2002-2004 Apache Software
   * Foundation.
   *
   * @author Rainer Klute ([email protected]) for the Apache Software Foundation
   *     (org.apache.poi.hpsf)
   */
  public static class FILETIME extends Structure {
    public int dwLowDateTime;
    public int dwHighDateTime;

    public static class ByReference extends FILETIME implements Structure.ByReference {
      public ByReference() {}

      public ByReference(Pointer memory) {
        super(memory);
      }
    }

    public FILETIME(Date date) {
      long rawValue = dateToFileTime(date);
      dwHighDateTime = (int) (rawValue >> 32 & 0xffffffffL);
      dwLowDateTime = (int) (rawValue & 0xffffffffL);
    }

    public FILETIME() {}

    public FILETIME(Pointer memory) {
      super(memory);
      read();
    }

    /**
     * The difference between the Windows epoch (1601-01-01 00:00:00) and the Unix epoch (1970-01-01
     * 00:00:00) in milliseconds: 11644473600000L. (Use your favorite spreadsheet program to verify
     * the correctness of this value. By the way, did you notice that you can tell from the epochs
     * which operating system is the modern one? :-))
     */
    private static final long EPOCH_DIFF = 11644473600000L;

    /**
     * Converts a Windows FILETIME into a {@link Date}. The Windows FILETIME structure holds a date
     * and time associated with a file. The structure identifies a 64-bit integer specifying the
     * number of 100-nanosecond intervals which have passed since January 1, 1601. This 64-bit value
     * is split into the two double words stored in the structure.
     *
     * @param high The higher double word of the FILETIME structure.
     * @param low The lower double word of the FILETIME structure.
     * @return The Windows FILETIME as a {@link Date}.
     */
    public static Date filetimeToDate(final int high, final int low) {
      final long filetime = (long) high << 32 | low & 0xffffffffL;
      final long ms_since_16010101 = filetime / (1000 * 10);
      final long ms_since_19700101 = ms_since_16010101 - EPOCH_DIFF;
      return new Date(ms_since_19700101);
    }

    /**
     * Converts a {@link Date} into a filetime.
     *
     * @param date The date to be converted
     * @return The filetime
     * @see #filetimeToDate
     */
    public static long dateToFileTime(final Date date) {
      final long ms_since_19700101 = date.getTime();
      final long ms_since_16010101 = ms_since_19700101 + EPOCH_DIFF;
      return ms_since_16010101 * 1000 * 10;
    }

    public Date toDate() {
      return filetimeToDate(dwHighDateTime, dwLowDateTime);
    }

    public long toLong() {
      return toDate().getTime();
    }

    public String toString() {
      return super.toString() + ": " + toDate().toString(); // $NON-NLS-1$
    }
  }

  /* Local Memory Flags */
  int LMEM_FIXED = 0x0000;
  int LMEM_MOVEABLE = 0x0002;
  int LMEM_NOCOMPACT = 0x0010;
  int LMEM_NODISCARD = 0x0020;
  int LMEM_ZEROINIT = 0x0040;
  int LMEM_MODIFY = 0x0080;
  int LMEM_DISCARDABLE = 0x0F00;
  int LMEM_VALID_FLAGS = 0x0F72;
  int LMEM_INVALID_HANDLE = 0x8000;

  int LHND = (LMEM_MOVEABLE | LMEM_ZEROINIT);
  int LPTR = (LMEM_FIXED | LMEM_ZEROINIT);

  /* Flags returned by LocalFlags (in addition to LMEM_DISCARDABLE) */
  int LMEM_DISCARDED = 0x4000;
  int LMEM_LOCKCOUNT = 0x00FF;

  /**
   * Specifies a date and time, using individual members for the month, day, year, weekday, hour,
   * minute, second, and millisecond. The time is either in coordinated universal time (UTC) or
   * local time, depending on the function that is being called.
   * http://msdn.microsoft.com/en-us/library/ms724950(VS.85).aspx
   */
  public static class SYSTEMTIME extends Structure {
    // The year. The valid values for this member are 1601 through 30827.
    public short wYear;
    // The month. The valid values for this member are 1 through 12.
    public short wMonth;
    // The day of the week. The valid values for this member are 0 through 6.
    public short wDayOfWeek;
    // The day of the month. The valid values for this member are 1 through 31.
    public short wDay;
    // The hour. The valid values for this member are 0 through 23.
    public short wHour;
    // The minute. The valid values for this member are 0 through 59.
    public short wMinute;
    // The second. The valid values for this member are 0 through 59.
    public short wSecond;
    // The millisecond. The valid values for this member are 0 through 999.
    public short wMilliseconds;
  }

  /**
   * The lpBuffer parameter is a pointer to a PVOID pointer, and that the nSize parameter specifies
   * the minimum number of TCHARs to allocate for an output message buffer. The function allocates a
   * buffer large enough to hold the formatted message, and places a pointer to the allocated buffer
   * at the address specified by lpBuffer. The caller should use the LocalFree function to free the
   * buffer when it is no longer needed.
   */
  int FORMAT_MESSAGE_ALLOCATE_BUFFER = 0x00000100;
  /**
   * Insert sequences in the message definition are to be ignored and passed through to the output
   * buffer unchanged. This flag is useful for fetching a message for later formatting. If this flag
   * is set, the Arguments parameter is ignored.
   */
  int FORMAT_MESSAGE_IGNORE_INSERTS = 0x00000200;
  /**
   * The lpSource parameter is a pointer to a null-terminated message definition. The message
   * definition may contain insert sequences, just as the message text in a message table resource
   * may. Cannot be used with FORMAT_MESSAGE_FROM_HMODULE or FORMAT_MESSAGE_FROM_SYSTEM.
   */
  int FORMAT_MESSAGE_FROM_STRING = 0x00000400;
  /**
   * The lpSource parameter is a module handle containing the message-table resource(s) to search.
   * If this lpSource handle is NULL, the current process's application image file will be searched.
   * Cannot be used with FORMAT_MESSAGE_FROM_STRING.
   */
  int FORMAT_MESSAGE_FROM_HMODULE = 0x00000800;
  /**
   * The function should search the system message-table resource(s) for the requested message. If
   * this flag is specified with FORMAT_MESSAGE_FROM_HMODULE, the function searches the system
   * message table if the message is not found in the module specified by lpSource. Cannot be used
   * with FORMAT_MESSAGE_FROM_STRING. If this flag is specified, an application can pass the result
   * of the GetLastError function to retrieve the message text for a system-defined error.
   */
  int FORMAT_MESSAGE_FROM_SYSTEM = 0x00001000;
  /**
   * The Arguments parameter is not a va_list structure, but is a pointer to an array of values that
   * represent the arguments. This flag cannot be used with 64-bit argument values. If you are using
   * 64-bit values, you must use the va_list structure.
   */
  int FORMAT_MESSAGE_ARGUMENT_ARRAY = 0x00002000;

  /** The drive type cannot be determined. */
  int DRIVE_UNKNOWN = 0;
  /** The root path is invalid, for example, no volume is mounted at the path. */
  int DRIVE_NO_ROOT_DIR = 1;
  /**
   * The drive is a type that has removable media, for example, a floppy drive or removable hard
   * disk.
   */
  int DRIVE_REMOVABLE = 2;
  /** The drive is a type that cannot be removed, for example, a fixed hard drive. */
  int DRIVE_FIXED = 3;
  /** The drive is a remote (network) drive. */
  int DRIVE_REMOTE = 4;
  /** The drive is a CD-ROM drive. */
  int DRIVE_CDROM = 5;
  /** The drive is a RAM disk. */
  int DRIVE_RAMDISK = 6;

  /**
   * The OVERLAPPED structure contains information used in asynchronous (or overlapped) input and
   * output (I/O).
   */
  public static class OVERLAPPED extends Structure {
    public ULONG_PTR Internal;
    public ULONG_PTR InternalHigh;
    public int Offset;
    public int OffsetHigh;
    public HANDLE hEvent;
  }

  int INFINITE = 0xFFFFFFFF;

  /**
   * Contains information about the current computer system. This includes the architecture and type
   * of the processor, the number of processors in the system, the page size, and other such
   * information.
   */
  public static class SYSTEM_INFO extends Structure {

    /** Unnamed inner structure. */
    public static class PI extends Structure {

      public static class ByReference extends PI implements Structure.ByReference {}

      /**
       * System's processor architecture. This value can be one of the following values:
       *
       * <p>PROCESSOR_ARCHITECTURE_UNKNOWN PROCESSOR_ARCHITECTURE_INTEL PROCESSOR_ARCHITECTURE_IA64
       * PROCESSOR_ARCHITECTURE_AMD64
       */
      public WORD wProcessorArchitecture;
      /** Reserved for future use. */
      public WORD wReserved;
    }

    /** Unnamed inner union. */
    public static class UNION extends Union {

      public static class ByReference extends UNION implements Structure.ByReference {}

      /**
       * An obsolete member that is retained for compatibility with Windows NT 3.5 and earlier. New
       * applications should use the wProcessorArchitecture branch of the union. Windows Me/98/95:
       * The system always sets this member to zero, the value defined for
       * PROCESSOR_ARCHITECTURE_INTEL.
       */
      public DWORD dwOemID;
      /** Processor architecture (unnamed struct). */
      public PI pi;
    }

    /** Processor architecture (unnamed union). */
    public UNION processorArchitecture;
    /** Page size and the granularity of page protection and commitment. */
    public DWORD dwPageSize;
    /**
     * Pointer to the lowest memory address accessible to applications and dynamic-link libraries
     * (DLLs).
     */
    public Pointer lpMinimumApplicationAddress;
    /** Pointer to the highest memory address accessible to applications and DLLs. */
    public Pointer lpMaximumApplicationAddress;
    /**
     * Mask representing the set of processors configured into the system. Bit 0 is processor 0; bit
     * 31 is processor 31.
     */
    public DWORD_PTR dwActiveProcessorMask;
    /** Number of processors in the system. */
    public DWORD dwNumberOfProcessors;
    /**
     * An obsolete member that is retained for compatibility with Windows NT 3.5 and Windows
     * Me/98/95. Use the wProcessorArchitecture, wProcessorLevel, and wProcessorRevision members to
     * determine the type of processor. PROCESSOR_INTEL_386 PROCESSOR_INTEL_486
     * PROCESSOR_INTEL_PENTIUM
     */
    public DWORD dwProcessorType;
    /** Granularity for the starting address at which virtual memory can be allocated. */
    public DWORD dwAllocationGranularity;
    /**
     * System's architecture-dependent processor level. It should be used only for display purposes.
     * To determine the feature set of a processor, use the IsProcessorFeaturePresent function. If
     * wProcessorArchitecture is PROCESSOR_ARCHITECTURE_INTEL, wProcessorLevel is defined by the CPU
     * vendor. If wProcessorArchitecture is PROCESSOR_ARCHITECTURE_IA64, wProcessorLevel is set to
     * 1.
     */
    public WORD wProcessorLevel;
    /** Architecture-dependent processor revision. */
    public WORD wProcessorRevision;
  }

  /**
   * Contains information about the current state of both physical and virtual memory, including
   * extended memory. The GlobalMemoryStatusEx function stores information in this structure.
   */
  public static class MEMORYSTATUSEX extends Structure {
    /** The size of the structure, in bytes. */
    public DWORD dwLength;
    /**
     * A number between 0 and 100 that specifies the approximate percentage of physical memory that
     * is in use (0 indicates no memory use and 100 indicates full memory use).
     */
    public DWORD dwMemoryLoad;
    /** The amount of actual physical memory, in bytes. */
    public DWORDLONG ullTotalPhys;
    /**
     * The amount of physical memory currently available, in bytes. This is the amount of physical
     * memory that can be immediately reused without having to write its contents to disk first. It
     * is the sum of the size of the standby, free, and zero lists.
     */
    public DWORDLONG ullAvailPhys;
    /**
     * The current committed memory limit for the system or the current process, whichever is
     * smaller, in bytes.
     */
    public DWORDLONG ullTotalPageFile;
    /**
     * The maximum amount of memory the current process can commit, in bytes. This value is equal to
     * or smaller than the system-wide available commit value.
     */
    public DWORDLONG ullAvailPageFile;
    /**
     * The size of the user-mode portion of the virtual address space of the calling process, in
     * bytes.
     */
    public DWORDLONG ullTotalVirtual;
    /**
     * The amount of unreserved and uncommitted memory currently in the user-mode portion of the
     * virtual address space of the calling process, in bytes.
     */
    public DWORDLONG ullAvailVirtual;
    /** Reserved. This value is always 0. */
    public DWORDLONG ullAvailExtendedVirtual;

    public MEMORYSTATUSEX() {
      dwLength = new DWORD(size());
    }
  };

  /**
   * The SECURITY_ATTRIBUTES structure contains the security descriptor for an object and specifies
   * whether the handle retrieved by specifying this structure is inheritable. This structure
   * provides security settings for objects created by various functions, such as {@link
   * Kernel32#CreateFile}, {@link Kernel32#CreatePipe}, or {@link Advapi32#RegCreateKeyEx}.
   */
  public static class SECURITY_ATTRIBUTES extends Structure {
    /** The size of the structure, in bytes. */
    public DWORD dwLength;

    /** A pointer to a SECURITY_DESCRIPTOR structure that controls access to the object. */
    public Pointer lpSecurityDescriptor;

    /**
     * A Boolean value that specifies whether the returned handle is inherited when a new process is
     * created
     */
    public boolean bInheritHandle;

    public SECURITY_ATTRIBUTES() {
      dwLength = new DWORD(size());
    }
  }

  /**
   * Specifies the window station, desktop, standard handles, and appearance of the main window for
   * a process at creation time.
   */
  public static class STARTUPINFO extends Structure {
    /** The size of the structure, in bytes. */
    public DWORD cb;

    /** Reserved; must be NULL. */
    public String lpReserved;

    /**
     * The name of the desktop, or the name of both the desktop and window station for this process.
     * A backslash in the string indicates that the string includes both the desktop and window
     * station names. For more information, see Thread Connection to a Desktop.
     */
    public String lpDesktop;

    /**
     * For console processes, this is the title displayed in the title bar if a new console window
     * is created. If NULL, the name of the executable file is used as the window title instead.
     * This parameter must be NULL for GUI or console processes that do not create a new console
     * window.
     */
    public String lpTitle;

    /**
     * If dwFlags specifies STARTF_USEPOSITION, this member is the x offset of the upper left corner
     * of a window if a new window is created, in pixels. Otherwise, this member is ignored.
     *
     * <p>The offset is from the upper left corner of the screen. For GUI processes, the specified
     * position is used the first time the new process calls CreateWindow to create an overlapped
     * window if the x parameter of CreateWindow is CW_USEDEFAULT.
     */
    public DWORD dwX;

    /**
     * If dwFlags specifies STARTF_USEPOSITION, this member is the y offset of the upper left corner
     * of a window if a new window is created, in pixels. Otherwise, this member is ignored.
     *
     * <p>The offset is from the upper left corner of the screen. For GUI processes, the specified
     * position is used the first time the new process calls CreateWindow to create an overlapped
     * window if the y parameter of CreateWindow is CW_USEDEFAULT.
     */
    public DWORD dwY;

    /**
     * If dwFlags specifies STARTF_USESIZE, this member is the width of the window if a new window
     * is created, in pixels. Otherwise, this member is ignored.
     *
     * <p>For GUI processes, this is used only the first time the new process calls CreateWindow to
     * create an overlapped window if the nWidth parameter of CreateWindow is CW_USEDEFAULT.
     */
    public DWORD dwXSize;

    /**
     * If dwFlags specifies STARTF_USESIZE, this member is the height of the window if a new window
     * is created, in pixels. Otherwise, this member is ignored.
     *
     * <p>For GUI processes, this is used only the first time the new process calls CreateWindow to
     * create an overlapped window if the nHeight parameter of CreateWindow is CW_USEDEFAULT.
     */
    public DWORD dwYSize;

    /**
     * If dwFlags specifies STARTF_USECOUNTCHARS, if a new console window is created in a console
     * process, this member specifies the screen buffer width, in character columns. Otherwise, this
     * member is ignored.
     */
    public DWORD dwXCountChars;

    /**
     * If dwFlags specifies STARTF_USECOUNTCHARS, if a new console window is created in a console
     * process, this member specifies the screen buffer height, in character rows. Otherwise, this
     * member is ignored.
     */
    public DWORD dwYCountChars;

    /**
     * If dwFlags specifies STARTF_USEFILLATTRIBUTE, this member is the initial text and background
     * colors if a new console window is created in a console application. Otherwise, this member is
     * ignored.
     *
     * <p>This value can be any combination of the following values: FOREGROUND_BLUE,
     * FOREGROUND_GREEN, FOREGROUND_RED, FOREGROUND_INTENSITY, BACKGROUND_BLUE, BACKGROUND_GREEN,
     * BACKGROUND_RED, and BACKGROUND_INTENSITY. For example, the following combination of values
     * produces red text on a white background:
     *
     * <p>FOREGROUND_RED| BACKGROUND_RED| BACKGROUND_GREEN| BACKGROUND_BLUE
     */
    public DWORD dwFillAttribute;

    /**
     * A bit field that determines whether certain STARTUPINFO members are used when the process
     * creates a window.
     */
    public int dwFlags;

    /**
     * If dwFlags specifies STARTF_USESHOWWINDOW, this member can be any of the values that can be
     * specified in the nCmdShow parameter for the ShowWindow function, except for SW_SHOWDEFAULT.
     * Otherwise, this member is ignored.
     *
     * <p>For GUI processes, the first time ShowWindow is called, its nCmdShow parameter is ignored
     * wShowWindow specifies the default value. In subsequent calls to ShowWindow, the wShowWindow
     * member is used if the nCmdShow parameter of ShowWindow is set to SW_SHOWDEFAULT.
     */
    public WORD wShowWindow;

    /** Reserved for use by the C Run-time; must be zero. */
    public WORD cbReserved2;

    /** Reserved for use by the C Run-time; must be NULL. */
    public ByteByReference lpReserved2;

    /**
     * If dwFlags specifies STARTF_USESTDHANDLES, this member is the standard input handle for the
     * process. If STARTF_USESTDHANDLES is not specified, the default for standard input is the
     * keyboard buffer.
     *
     * <p>If dwFlags specifies STARTF_USEHOTKEY, this member specifies a hotkey value that is sent
     * as the wParam parameter of a WM_SETHOTKEY message to the first eligible top-level window
     * created by the application that owns the process. If the window is created with the WS_POPUP
     * window style, it is not eligible unless the WS_EX_APPWINDOW extended window style is also
     * set. For more information, see CreateWindowEx.
     *
     * <p>Otherwise, this member is ignored.
     */
    public HANDLE hStdInput;

    /**
     * If dwFlags specifies STARTF_USESTDHANDLES, this member is the standard output handle for the
     * process. Otherwise, this member is ignored and the default for standard output is the console
     * window's buffer.
     */
    public HANDLE hStdOutput;

    /**
     * If dwFlags specifies STARTF_USESTDHANDLES, this member is the standard error handle for the
     * process. Otherwise, this member is ignored and the default for standard error is the console
     * window's buffer.
     */
    public HANDLE hStdError;

    public STARTUPINFO() {
      cb = new DWORD(size());
    }
  }

  /**
   * Contains information about a newly created process and its primary thread. It is used with the
   * CreateProcess, CreateProcessAsUser, CreateProcessWithLogonW, or CreateProcessWithTokenW
   * function.
   */
  public static class PROCESS_INFORMATION extends Structure {

    /**
     * A handle to the newly created process. The handle is used to specify the process in all
     * functions that perform operations on the process object.
     */
    public HANDLE hProcess;

    /**
     * A handle to the primary thread of the newly created process. The handle is used to specify
     * the thread in all functions that perform operations on the thread object.
     */
    public HANDLE hThread;

    /**
     * A value that can be used to identify a process. The value is valid from the time the process
     * is created until all handles to the process are closed and the process object is freed; at
     * this point, the identifier may be reused.
     */
    public DWORD dwProcessId;

    /**
     * A value that can be used to identify a thread. The value is valid from the time the thread is
     * created until all handles to the thread are closed and the thread object is freed; at this
     * point, the identifier may be reused.
     */
    public DWORD dwThreadId;

    public static class ByReference extends PROCESS_INFORMATION implements Structure.ByReference {
      public ByReference() {}

      public ByReference(Pointer memory) {
        super(memory);
      }
    }

    public PROCESS_INFORMATION() {}

    public PROCESS_INFORMATION(Pointer memory) {
      super(memory);
      read();
    }
  }

  /**
   * If the file is to be moved to a different volume, the function simulates the move by using the
   * CopyFile and DeleteFile functions.
   *
   * <p>This value cannot be used with MOVEFILE_DELAY_UNTIL_REBOOT.
   */
  int MOVEFILE_COPY_ALLOWED = 0x2;

  /** Reserved for future use. */
  int MOVEFILE_CREATE_HARDLINK = 0x10;

  /**
   * The system does not move the file until the operating system is restarted. The system moves the
   * file immediately after AUTOCHK is executed, but before creating any paging files. Consequently,
   * this parameter enables the function to delete paging files from previous startups.
   *
   * <p>This value can be used only if the process is in the context of a user who belongs to the
   * administrators group or the LocalSystem account.
   *
   * <p>This value cannot be used with MOVEFILE_COPY_ALLOWED.
   *
   * <p>Windows Server 2003 and Windows XP: For information about special situations where this
   * functionality can fail, and a suggested workaround solution, see Files are not exchanged when
   * Windows Server 2003 restarts if you use the MoveFileEx function to schedule a replacement for
   * some files in the Help and Support Knowledge Base.
   *
   * <p>Windows 2000: If you specify the MOVEFILE_DELAY_UNTIL_REBOOT flag for dwFlags, you cannot
   * also prepend the file name that is specified by lpExistingFileName with "\\?".
   */
  int MOVEFILE_DELAY_UNTIL_REBOOT = 0x4;

  /**
   * The function fails if the source file is a link source, but the file cannot be tracked after
   * the move. This situation can occur if the destination is a volume formatted with the FAT file
   * system.
   */
  int MOVEFILE_FAIL_IF_NOT_TRACKABLE = 0x20;

  /**
   * If a file named lpNewFileName exists, the function replaces its contents with the contents of
   * the lpExistingFileName file, provided that security requirements regarding access control lists
   * (ACLs) are met. For more information, see the Remarks section of this topic.
   *
   * <p>This value cannot be used if lpNewFileName or lpExistingFileName names a directory.
   */
  int MOVEFILE_REPLACE_EXISTING = 0x1;

  /**
   * The function does not return until the file is actually moved on the disk.
   *
   * <p>Setting this value guarantees that a move performed as a copy and delete operation is
   * flushed to disk before the function returns. The flush occurs at the end of the copy operation.
   *
   * <p>This value has no effect if MOVEFILE_DELAY_UNTIL_REBOOT is set.
   */
  int MOVEFILE_WRITE_THROUGH = 0x8;
}