Esempio n. 1
0
  protected void setBinaries(Map<CLDevice, byte[]> binaries) {
    if (this.devices == null) {
      this.devices = new CLDevice[binaries.size()];
      int iDevice = 0;
      for (CLDevice device : binaries.keySet()) this.devices[iDevice++] = device;
    }
    int nDevices = this.devices.length;
    NativeSize[] lengths = new NativeSize[nDevices];
    cl_device_id[] deviceIds = new cl_device_id[nDevices];
    Memory binariesArray = new Memory(Pointer.SIZE * nDevices);
    Memory[] binariesMems = new Memory[nDevices];

    for (int iDevice = 0; iDevice < nDevices; iDevice++) {
      CLDevice device = devices[iDevice];
      byte[] binary = binaries.get(device);

      Memory binaryMem = binariesMems[iDevice] = new Memory(binary.length);
      binaryMem.write(0, binary, 0, binary.length);
      binariesArray.setPointer(iDevice * Pointer.SIZE, binaryMem);

      lengths[iDevice] = toNS(binary.length);
      deviceIds[iDevice] = device.getEntity();
    }
    PointerByReference binariesPtr = new PointerByReference();
    binariesPtr.setPointer(binariesArray);

    IntBuffer errBuff = NIOUtils.directInts(1, ByteOrder.nativeOrder());
    int previousAttempts = 0;
    IntBuffer statuses = NIOUtils.directInts(nDevices, ByteOrder.nativeOrder());
    do {
      entity =
          CL.clCreateProgramWithBinary(
              context.getEntity(), nDevices, deviceIds, lengths, binariesPtr, statuses, errBuff);
    } while (failedForLackOfMemory(errBuff.get(0), previousAttempts++));
  }
Esempio n. 2
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    public synchronized void fail() throws Fail {
      int err = GetLastError();
      Memory buffer = new Memory(2048);
      int res =
          FormatMessageW(
              FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS,
              null,
              err,
              MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
              buffer,
              (int) buffer.size(),
              null);

      log =
          log
              && log(
                  1,
                  "fail() %s, Windows GetLastError()= %d, %s\n",
                  lineno(1),
                  err,
                  buffer.getString(0, true));

      // FIXME here convert from Windows error code to 'posix' error code

      Fail f = new Fail();
      throw f;
    }
Esempio n. 3
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 public static File getTempDir() {
   Memory buf = new Memory(1024);
   if (Kernel32.INSTANCE.GetTempPathW(1024, buf) != 0) {
     return new File(buf.getString(0, true));
   } else {
     return null;
   }
 }
Esempio n. 4
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  private Memory toPointer(String input) {
    byte[] data = Native.toByteArray(input);
    Memory pointer = new Memory(data.length + 1);
    pointer.write(0, data, 0, data.length);
    pointer.setByte(data.length, (byte) 0);

    return pointer;
  }
  /**
   * converts a string to a pointer
   *
   * @param string
   * @return pointer to a copy of the string
   */
  private Pointer str(String string) {
    if (string == null) {
      return null;
    }

    Memory mem = new Memory(string.length() + 1);
    mem.setString(0, string);
    return mem;
  }
Esempio n. 6
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 /**
  * String representation of the buffer.
  *
  * @return Unicode string.
  */
 public String getString() {
   byte[] data = Buffer.getByteArray(0, Length);
   if (data.length < 2 || data[data.length - 1] != 0) {
     Memory newdata = new Memory(data.length + 2);
     newdata.write(0, data, 0, data.length);
     return newdata.getString(0, true);
   }
   return Buffer.getString(0, true);
 }
  @Override
  public synchronized int onEvent(
      int evtSubscribeNotifyAction, WinDef.PVOID userContext, WinNT.HANDLE eventHandle) {
    if (logger.isDebugEnabled()) {
      logger.debug("onEvent(" + evtSubscribeNotifyAction + ", " + userContext + ", " + eventHandle);
    }

    if (evtSubscribeNotifyAction == WEvtApi.EvtSubscribeNotifyAction.ERROR) {
      if (eventHandle.getPointer().getInt(0)
          == WEvtApi.EvtSubscribeErrors.ERROR_EVT_QUERY_RESULT_STALE) {
        logger.error(MISSING_EVENT_MESSAGE);
      } else {
        logger.error(RECEIVED_THE_FOLLOWING_WIN32_ERROR + eventHandle.getPointer().getInt(0));
      }
    } else if (evtSubscribeNotifyAction == WEvtApi.EvtSubscribeNotifyAction.DELIVER) {
      wEvtApi.EvtRender(
          null, eventHandle, WEvtApi.EvtRenderFlags.EVENT_XML, size, buffer, used, propertyCount);

      // Not enough room in buffer, resize so it's big enough
      if (kernel32.GetLastError() == W32Errors.ERROR_INSUFFICIENT_BUFFER) {
        int newMaxSize = used.getInt(0);
        // Check for overflow or too big
        if (newMaxSize < size || newMaxSize > maxBufferSize) {
          logger.error(
              "Dropping event "
                  + eventHandle
                  + " because it couldn't be rendered within "
                  + maxBufferSize
                  + " bytes.");
          // Ignored, see
          // https://msdn.microsoft.com/en-us/library/windows/desktop/aa385577(v=vs.85).aspx
          return 0;
        }
        size = newMaxSize;
        buffer = new Memory(size);
        wEvtApi.EvtRender(
            null, eventHandle, WEvtApi.EvtRenderFlags.EVENT_XML, size, buffer, used, propertyCount);
      }

      int lastError = kernel32.GetLastError();
      if (lastError == W32Errors.ERROR_SUCCESS) {
        int usedBytes = used.getInt(0);
        String string = Charsets.UTF_16LE.decode(buffer.getByteBuffer(0, usedBytes)).toString();
        if (string.endsWith("\u0000")) {
          string = string.substring(0, string.length() - 1);
        }
        consumer.accept(string);
      } else {
        logger.error(
            EVT_RENDER_RETURNED_THE_FOLLOWING_ERROR_CODE + errorLookup.getLastError() + ".");
      }
    }
    // Ignored, see https://msdn.microsoft.com/en-us/library/windows/desktop/aa385577(v=vs.85).aspx
    return 0;
  }
Esempio n. 8
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 @Override
 public void display(
     DirectMediaPlayer mediaPlayer, Memory[] nativeBuffers, BufferFormat bufferFormat) {
   Memory nativeBuffer = nativeBuffers[0];
   ByteBuffer byteBuffer = nativeBuffer.getByteBuffer(0, nativeBuffer.size());
   pixelWriter.setPixels(
       0,
       0,
       bufferFormat.getWidth(),
       bufferFormat.getHeight(),
       pixelFormat,
       byteBuffer,
       bufferFormat.getPitches()[0]);
 }
Esempio n. 9
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 public SockFProg(SockFilter filters[]) {
   len = (short) filters.length;
   // serialize struct sock_filter * explicitly, its less confusing than the JNA magic we would
   // need
   Memory filter = new Memory(len * 8);
   ByteBuffer bbuf = filter.getByteBuffer(0, len * 8);
   bbuf.order(ByteOrder.nativeOrder()); // little endian
   for (SockFilter f : filters) {
     bbuf.putShort(f.code);
     bbuf.put(f.jt);
     bbuf.put(f.jf);
     bbuf.putInt(f.k);
   }
   this.filter = filter;
 }
Esempio n. 10
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  private void writeNative(byte[] bs) throws SerialPortException {
    Memory mem = new Memory(Byte.SIZE * bs.length + 1);
    mem.clear();

    PointerByReference inipar = new PointerByReference();
    inipar.setPointer(mem);
    for (int i = 0; i < bs.length; i++) {
      inipar.getPointer().setByte(i * Byte.SIZE / 8, bs[i]);
    }
    byte c = '\n';
    inipar.getPointer().setByte((bs.length + 1) * Byte.SIZE / 8, c);
    int rt = NativeLoader.getInstance().serialport_write(getFd(), inipar);
    if (rt != 0) {
      logger.error("Warning fail to write store " + bs.length);
      throw new SerialPortException("The serial port is closed " + getFd());
    }
  }
Esempio n. 11
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  /**
   * Get the binaries of the program (one for each device, in order)
   *
   * @return map from each device the program was compiled for to the corresponding binary data
   */
  public Map<CLDevice, byte[]> getBinaries() throws CLBuildException {
    synchronized (this) {
      if (!built) build();
    }

    Memory s = infos.getMemory(getEntity(), CL_PROGRAM_BINARY_SIZES);
    int n = (int) s.getSize() / Native.SIZE_T_SIZE;
    NativeSize[] sizes = readNSArray(s, n);
    // int[] sizes = new int[n];
    // for (int i = 0; i < n; i++) {
    //	sizes[i] = s.getNativeLong(i * Native.LONG_SIZE).intValue();
    // }

    Memory[] binMems = new Memory[n];
    Memory ptrs = new Memory(n * Native.POINTER_SIZE);
    for (int i = 0; i < n; i++) {
      ptrs.setPointer(i * Native.POINTER_SIZE, binMems[i] = new Memory(sizes[i].intValue()));
    }
    error(
        infos.getInfo(
            getEntity(),
            CL_PROGRAM_BINARIES,
            toNS(ptrs.getSize() * Native.POINTER_SIZE),
            ptrs,
            null));

    Map<CLDevice, byte[]> ret = new HashMap<CLDevice, byte[]>(devices.length);
    int iBin = n == devices.length + 1 ? 1 : 0;
    for (int i = 0; i < n; i++) {
      CLDevice device = devices[i];
      Memory bytes = binMems[iBin + i];
      if (bytes != null) ret.put(device, bytes.getByteArray(0, sizes[iBin + i].intValue()));
    }
    return ret;
  }
Esempio n. 12
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  // https://github.com/twall/jna/issues/53
  public String hack(Memory m) {
    String str = "";

    for (int i = 0; i < m.size(); i += 2) {
      byte b1 = m.getByte(i + 0);
      byte b2 = m.getByte(i + 1);

      String s;
      try {
        s = new String(new byte[] {-2, -1, b2, b1}, "UTF-16");
      } catch (UnsupportedEncodingException e) {
        throw new RuntimeException(e);
      }
      str += s;
    }

    return str;
  }
Esempio n. 13
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  protected static void write(int level, String message, UnixSyslogConfig config)
      throws SyslogRuntimeException {
    synchronized (libraryInstance) {
      if (currentFacility != config.getFacility()) {
        if (openlogCalled) {
          libraryInstance.closelog();
          openlogCalled = false;
        }

        currentFacility = config.getFacility();
      }

      if (!openlogCalled) {
        String ident = config.getIdent();

        if (ident != null && "".equals(ident.trim())) {
          ident = null;
        }

        Memory identBuffer = ident == null ? null : (Memory) identMap.get(ident);

        if (ident != null && identBuffer == null) {
          identBuffer = new Memory(128);
          identBuffer.setString(0, ident, false);
          identMap.put(ident, identBuffer);
        }

        libraryInstance.openlog(identBuffer, config.getOption(), currentFacility);
        openlogCalled = true;
      }

      int priority = currentFacility | level;

      libraryInstance.syslog(priority, "%s", message);
    }
  }
Esempio n. 14
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  // TODO: this method isn't very safe to leave public, perhaps some
  // setPropertyData[String/UInt32/etc.] methods would be better
  // hansi: i like having as much as possible public. it's nice for people who know what they're
  // doing.
  @SuppressWarnings("unchecked")
  public static <T> T getPropertyDataAdvanced(
      final EdsBaseRef ref, final EdsPropertyID property, final long param)
      throws IllegalArgumentException, IllegalStateException {

    final int size = (int) CanonUtils.getPropertySize(ref, property, param);
    final EdsDataType type = CanonUtils.getPropertyType(ref, property, param);

    final Memory memory = new Memory(size > 0 ? size : 1);

    final EdsError err = CanonUtils.getPropertyData(ref, property, param, size, memory);
    if (err == EdsError.EDS_ERR_OK) {
      switch (type) {
        case kEdsDataType_Unknown: // Unknown
          return null;
        case kEdsDataType_String: // EdsChar[]
          return (T) memory.getString(0);
        case kEdsDataType_Int8: // EdsInt8
        case kEdsDataType_UInt8: // EdsUInt8
          return (T) Byte.valueOf(memory.getByte(0));
        case kEdsDataType_Int16: // EdsInt16
        case kEdsDataType_UInt16: // EdsUInt16
          return (T) Short.valueOf(memory.getShort(0));
        case kEdsDataType_Int32: // EdsInt32
        case kEdsDataType_UInt32: // EdsUInt32
          return (T) Long.valueOf(memory.getNativeLong(0).longValue());
        case kEdsDataType_Int64: // EdsInt64
        case kEdsDataType_UInt64: // EdsUInt64
          return (T) Long.valueOf(memory.getLong(0));
        case kEdsDataType_Float: // EdsFloat
          return (T) Float.valueOf(memory.getFloat(0));
        case kEdsDataType_Double: // EdsDouble
          return (T) Double.valueOf(memory.getDouble(0));
        case kEdsDataType_ByteBlock: // Byte Block // TODO: According to API, is either EdsInt8[] or
                                     // EdsUInt32[], but perhaps former is a typo or an old value
          return (T) memory.getIntArray(0, size / 4);
        case kEdsDataType_Rational: // EdsRational
          return (T) new EdsRational(memory);
        case kEdsDataType_Point: // EdsPoint
          return (T) new EdsPoint(memory);
        case kEdsDataType_Rect: // EdsRect
          return (T) new EdsRect(memory);
        case kEdsDataType_Time: // EdsTime
          return (T) new EdsTime(memory);
        case kEdsDataType_FocusInfo: // EdsFocusInfo
          return (T) new EdsFocusInfo(memory);
        case kEdsDataType_PictureStyleDesc: // EdsPictureStyleDesc
          return (T) new EdsPictureStyleDesc(memory);
        case kEdsDataType_Int8_Array: // EdsInt8[]
        case kEdsDataType_UInt8_Array: // EdsUInt8[]
          return (T) memory.getByteArray(0, size);
        case kEdsDataType_Int16_Array: // EdsInt16[]
        case kEdsDataType_UInt16_Array: // EdsUInt16[]
          return (T) memory.getShortArray(0, size / 2);
        case kEdsDataType_Int32_Array: // EdsInt32[]
        case kEdsDataType_UInt32_Array: // EdsUInt32[]
          return (T) memory.getIntArray(0, size / 4);
        case kEdsDataType_Bool: // EdsBool // TODO: implement
        case kEdsDataType_Bool_Array: // EdsBool[] // TODO: implement
        case kEdsDataType_Rational_Array: // EdsRational[] // TODO: implement
        default:
          throw new IllegalStateException(
              type.description()
                  + " ("
                  + type.name()
                  + ") is not currently supported by GetPropertyCommand");
      }
    }

    throw new IllegalArgumentException(
        "An error occurred while getting "
            + property.name()
            + " data (error "
            + err.value()
            + ": "
            + err.name()
            + " - "
            + err.description()
            + ")");
  }
 @Override
 public synchronized void dispose() {
   super.dispose();
 }
Esempio n. 16
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  /** Returns the context of this program */
  public synchronized CLProgram build() throws CLBuildException {
    if (built) throw new IllegalThreadStateException("Program was already built !");

    String contentSignature = null;
    File cacheFile = null;
    boolean readBinaries = false;
    if (isCached()) {
      try {
        contentSignature = computeCacheSignature();
        byte[] sha =
            java.security.MessageDigest.getInstance("MD5")
                .digest(contentSignature.getBytes(textEncoding));
        StringBuilder shab = new StringBuilder();
        for (byte b : sha) shab.append(Integer.toHexString(b & 0xff));
        String hash = shab.toString();
        cacheFile = new File(JavaCL.userCacheDir, hash);
        if (cacheFile.exists()) {
          Pair<Map<CLDevice, byte[]>, String> bins =
              readBinaries(
                  Arrays.asList(getDevices()), contentSignature, new FileInputStream(cacheFile));
          setBinaries(bins.getFirst());
          this.source = bins.getSecond();
          assert log(Level.INFO, "Read binaries cache from '" + cacheFile + "'");
          readBinaries = true;
        }
      } catch (Exception ex) {
        assert log(Level.WARNING, "Failed to load cached program", ex);
        entity = null;
      }
    }

    if (entity == null) allocate();

    Runnable deleteTempFiles = null;
    if (!readBinaries)
      try {
        deleteTempFiles = copyIncludesToTemporaryDirectory();
      } catch (IOException ex) {
        throw new CLBuildException(this, ex.toString(), Collections.EMPTY_LIST);
      }

    int nDevices = devices.length;
    cl_device_id[] deviceIds = null;
    if (nDevices != 0) {
      deviceIds = new cl_device_id[nDevices];
      for (int i = 0; i < nDevices; i++) deviceIds[i] = devices[i].getEntity();
    }
    int err =
        CL.clBuildProgram(
            getEntity(), nDevices, deviceIds, readBinaries ? null : getOptionsString(), null, null);
    // int err = CL.clBuildProgram(getEntity(), 0, null, getOptionsString(), null, null);
    if (err != CL_SUCCESS) { // BUILD_PROGRAM_FAILURE) {
      NativeSizeByReference len = new NativeSizeByReference();
      int bufLen = 2048 * 32; // TODO find proper size
      Memory buffer = new Memory(bufLen);

      HashSet<String> errs = new HashSet<String>();
      if (deviceIds == null) {
        error(
            CL.clGetProgramBuildInfo(
                getEntity(), null, CL_PROGRAM_BUILD_LOG, toNS(bufLen), buffer, len));
        String s = buffer.getString(0);
        errs.add(s);
      } else
        for (cl_device_id device : deviceIds) {
          error(
              CL.clGetProgramBuildInfo(
                  getEntity(), device, CL_PROGRAM_BUILD_LOG, toNS(bufLen), buffer, len));
          String s = buffer.getString(0);
          errs.add(s);
        }

      throw new CLBuildException(this, "Compilation failure : " + errorString(err), errs);
    }
    built = true;
    if (deleteTempFiles != null) deleteTempFiles.run();

    if (isCached() && !readBinaries) {
      JavaCL.userCacheDir.mkdirs();
      try {
        Map<CLDevice, byte[]> binaries = getBinaries();
        if (!binaries.isEmpty()) {
          writeBinaries(
              getBinaries(), getSource(), contentSignature, new FileOutputStream(cacheFile));
          assert log(Level.INFO, "Wrote binaries cache to '" + cacheFile + "'");
        }
      } catch (Exception ex) {
        new IOException("[JavaCL] Failed to cache program", ex).printStackTrace();
      }
    }

    return this;
  }
Esempio n. 17
0
 @Override
 public void display(Memory memory) {
   if (BUFFER_SIZE <= 0) return;
   videoBuffer = memory.getByteBuffer(0, BUFFER_SIZE);
   newBuffer = true;
 }