com/android/ex/photo/util/Exif.java - platform/prebuilts/fullsdk/sources/android-29 - Git at Google

 /*
  * Copyright (C) 2013 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 package com.android.ex.photo.util;

 import android.util.Log;

 import java.io.ByteArrayInputStream;
 import java.io.InputStream;

 public class Exif {
     private static final String TAG = "CameraExif";

     /**
      * Returns the degrees in clockwise. Values are 0, 90, 180, or 270.
      * @param inputStream The input stream will not be closed for you.
      * @param byteSize Recommended parameter declaring the length of the input stream. If you
      *                 pass in -1, we will have to read more from the input stream.
      * @return 0, 90, 180, or 270.
      */
     public static int getOrientation(final InputStream inputStream, final long byteSize) {
         if (inputStream == null) {
             return 0;
         }

         /*
           Looking at this algorithm, we never look ahead more than 8 bytes. As long as we call
           advanceTo() at the end of every loop, we should never have to reallocate a larger buffer.

           Also, the most we ever read backwards is 4 bytes. pack() reads backwards if the encoding
           is in little endian format. These following two lines potentially reads 4 bytes backwards:

           int tag = pack(jpeg, offset, 4, false);
           count = pack(jpeg, offset - 2, 2, littleEndian);

           To be safe, we will always advance to some index-4, so we'll need 4 more for the +8
           look ahead, which makes it a +12 look ahead total. Use 16 just in case my analysis is off.

           This means we only need to allocate a single 16 byte buffer.

           Note: If you do not pass in byteSize parameter, a single large allocation will occur.
           For a 1MB image, I see one 30KB allocation. This is due to the line containing:

           has(jpeg, byteSize, offset + length - 1)

           where length is a variable int (around 30KB above) read from the EXIF headers.

           This is still much better than allocating a 1MB byte[] which we were doing before.
          */

         final int lookAhead = 16;
         final int readBackwards = 4;
         final InputStreamBuffer jpeg = new InputStreamBuffer(inputStream, lookAhead, false);

         int offset = 0;
         int length = 0;

         if (has(jpeg, byteSize, 1)) {
             // JPEG image files begin with FF D8. Only JPEG images have EXIF data.
             final boolean possibleJpegFormat = jpeg.get(0) == (byte) 0xFF
                     && jpeg.get(1) == (byte) 0xD8;
             if (!possibleJpegFormat) {
                 return 0;
             }
         }

         // ISO/IEC 10918-1:1993(E)
         while (has(jpeg, byteSize, offset + 3) && (jpeg.get(offset++) & 0xFF) == 0xFF) {
             final int marker = jpeg.get(offset) & 0xFF;

             // Check if the marker is a padding.
             if (marker == 0xFF) {
                 continue;
             }
             offset++;

             // Check if the marker is SOI or TEM.
             if (marker == 0xD8 || marker == 0x01) {
                 continue;
             }
             // Check if the marker is EOI or SOS.
             if (marker == 0xD9 || marker == 0xDA) {
                 // Loop ends.
                 jpeg.advanceTo(offset - readBackwards);
                 break;
             }

             // Get the length and check if it is reasonable.
             length = pack(jpeg, offset, 2, false);
             if (length < 2 || !has(jpeg, byteSize, offset + length - 1)) {
                 Log.e(TAG, "Invalid length");
                 return 0;
             }

             // Break if the marker is EXIF in APP1.
             if (marker == 0xE1 && length >= 8 &&
                     pack(jpeg, offset + 2, 4, false) == 0x45786966 &&
                     pack(jpeg, offset + 6, 2, false) == 0) {
                 offset += 8;
                 length -= 8;
                 // Loop ends.
                 jpeg.advanceTo(offset - readBackwards);
                 break;
             }

             // Skip other markers.
             offset += length;
             length = 0;

             // Loop ends.
             jpeg.advanceTo(offset - readBackwards);
         }

         // JEITA CP-3451 Exif Version 2.2
         if (length > 8) {
             // Identify the byte order.
             int tag = pack(jpeg, offset, 4, false);
             if (tag != 0x49492A00 && tag != 0x4D4D002A) {
                 Log.e(TAG, "Invalid byte order");
                 return 0;
             }
             final boolean littleEndian = (tag == 0x49492A00);

             // Get the offset and check if it is reasonable.
             int count = pack(jpeg, offset + 4, 4, littleEndian) + 2;
             if (count < 10 || count > length) {
                 Log.e(TAG, "Invalid offset");
                 return 0;
             }
             offset += count;
             length -= count;

             // Offset has changed significantly.
             jpeg.advanceTo(offset - readBackwards);

             // Get the count and go through all the elements.
             count = pack(jpeg, offset - 2, 2, littleEndian);

             while (count-- > 0 && length >= 12) {
                 // Get the tag and check if it is orientation.
                 tag = pack(jpeg, offset, 2, littleEndian);
                 if (tag == 0x0112) {
                     // We do not really care about type and count, do we?
                     final int orientation = pack(jpeg, offset + 8, 2, littleEndian);
                     switch (orientation) {
                         case 1:
                             return 0;
                         case 3:
                             return 180;
                         case 6:
                             return 90;
                         case 8:
                             return 270;
                     }
                     Log.i(TAG, "Unsupported orientation");
                     return 0;
                 }
                 offset += 12;
                 length -= 12;

                 // Loop ends.
                 jpeg.advanceTo(offset - readBackwards);
             }
         }

         return 0;
     }

     private static int pack(final InputStreamBuffer bytes, int offset, int length,
             final boolean littleEndian) {
         int step = 1;
         if (littleEndian) {
             offset += length - 1;
             step = -1;
         }

         int value = 0;
         while (length-- > 0) {
             value = (value << 8) | (bytes.get(offset) & 0xFF);
             offset += step;
         }
         return value;
     }

     private static boolean has(final InputStreamBuffer jpeg, final long byteSize, final int index) {
         if (byteSize >= 0) {
             return index < byteSize;
         } else {
             // For large values of index, this will cause the internal buffer to resize.
             return jpeg.has(index);
         }
     }

     @Deprecated
     public static int getOrientation(final byte[] jpeg) {
         return getOrientation(new ByteArrayInputStream(jpeg), jpeg.length);
     }
 }
	/*
	* Copyright (C) 2013 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	package com.android.ex.photo.util;

	import android.util.Log;

	import java.io.ByteArrayInputStream;
	import java.io.InputStream;

	public class Exif {
	private static final String TAG = "CameraExif";

	/**
	* Returns the degrees in clockwise. Values are 0, 90, 180, or 270.
	* @param inputStream The input stream will not be closed for you.
	* @param byteSize Recommended parameter declaring the length of the input stream. If you
	* pass in -1, we will have to read more from the input stream.
	* @return 0, 90, 180, or 270.
	*/
	public static int getOrientation(final InputStream inputStream, final long byteSize) {
	if (inputStream == null) {
	return 0;
	}

	/*
	Looking at this algorithm, we never look ahead more than 8 bytes. As long as we call
	advanceTo() at the end of every loop, we should never have to reallocate a larger buffer.

	Also, the most we ever read backwards is 4 bytes. pack() reads backwards if the encoding
	is in little endian format. These following two lines potentially reads 4 bytes backwards:

	int tag = pack(jpeg, offset, 4, false);
	count = pack(jpeg, offset - 2, 2, littleEndian);

	To be safe, we will always advance to some index-4, so we'll need 4 more for the +8
	look ahead, which makes it a +12 look ahead total. Use 16 just in case my analysis is off.

	This means we only need to allocate a single 16 byte buffer.

	Note: If you do not pass in byteSize parameter, a single large allocation will occur.
	For a 1MB image, I see one 30KB allocation. This is due to the line containing:

	has(jpeg, byteSize, offset + length - 1)

	where length is a variable int (around 30KB above) read from the EXIF headers.

	This is still much better than allocating a 1MB byte[] which we were doing before.
	*/

	final int lookAhead = 16;
	final int readBackwards = 4;
	final InputStreamBuffer jpeg = new InputStreamBuffer(inputStream, lookAhead, false);

	int offset = 0;
	int length = 0;

	if (has(jpeg, byteSize, 1)) {
	// JPEG image files begin with FF D8. Only JPEG images have EXIF data.
	final boolean possibleJpegFormat = jpeg.get(0) == (byte) 0xFF
	&& jpeg.get(1) == (byte) 0xD8;
	if (!possibleJpegFormat) {
	return 0;
	}
	}

	// ISO/IEC 10918-1:1993(E)
	while (has(jpeg, byteSize, offset + 3) && (jpeg.get(offset++) & 0xFF) == 0xFF) {
	final int marker = jpeg.get(offset) & 0xFF;

	// Check if the marker is a padding.
	if (marker == 0xFF) {
	continue;
	}
	offset++;

	// Check if the marker is SOI or TEM.
	if (marker == 0xD8 \|\| marker == 0x01) {
	continue;
	}
	// Check if the marker is EOI or SOS.
	if (marker == 0xD9 \|\| marker == 0xDA) {
	// Loop ends.
	jpeg.advanceTo(offset - readBackwards);
	break;
	}

	// Get the length and check if it is reasonable.
	length = pack(jpeg, offset, 2, false);
	if (length < 2 \|\| !has(jpeg, byteSize, offset + length - 1)) {
	Log.e(TAG, "Invalid length");
	return 0;
	}

	// Break if the marker is EXIF in APP1.
	if (marker == 0xE1 && length >= 8 &&
	pack(jpeg, offset + 2, 4, false) == 0x45786966 &&
	pack(jpeg, offset + 6, 2, false) == 0) {
	offset += 8;
	length -= 8;
	// Loop ends.
	jpeg.advanceTo(offset - readBackwards);
	break;
	}

	// Skip other markers.
	offset += length;
	length = 0;

	// Loop ends.
	jpeg.advanceTo(offset - readBackwards);
	}

	// JEITA CP-3451 Exif Version 2.2
	if (length > 8) {
	// Identify the byte order.
	int tag = pack(jpeg, offset, 4, false);
	if (tag != 0x49492A00 && tag != 0x4D4D002A) {
	Log.e(TAG, "Invalid byte order");
	return 0;
	}
	final boolean littleEndian = (tag == 0x49492A00);

	// Get the offset and check if it is reasonable.
	int count = pack(jpeg, offset + 4, 4, littleEndian) + 2;
	if (count < 10 \|\| count > length) {
	Log.e(TAG, "Invalid offset");
	return 0;
	}
	offset += count;
	length -= count;

	// Offset has changed significantly.
	jpeg.advanceTo(offset - readBackwards);

	// Get the count and go through all the elements.
	count = pack(jpeg, offset - 2, 2, littleEndian);

	while (count-- > 0 && length >= 12) {
	// Get the tag and check if it is orientation.
	tag = pack(jpeg, offset, 2, littleEndian);
	if (tag == 0x0112) {
	// We do not really care about type and count, do we?
	final int orientation = pack(jpeg, offset + 8, 2, littleEndian);
	switch (orientation) {
	case 1:
	return 0;
	case 3:
	return 180;
	case 6:
	return 90;
	case 8:
	return 270;
	}
	Log.i(TAG, "Unsupported orientation");
	return 0;
	}
	offset += 12;
	length -= 12;

	// Loop ends.
	jpeg.advanceTo(offset - readBackwards);
	}
	}

	return 0;
	}

	private static int pack(final InputStreamBuffer bytes, int offset, int length,
	final boolean littleEndian) {
	int step = 1;
	if (littleEndian) {
	offset += length - 1;
	step = -1;
	}

	int value = 0;
	while (length-- > 0) {
	value = (value << 8) \| (bytes.get(offset) & 0xFF);
	offset += step;
	}
	return value;
	}

	private static boolean has(final InputStreamBuffer jpeg, final long byteSize, final int index) {
	if (byteSize >= 0) {
	return index < byteSize;
	} else {
	// For large values of index, this will cause the internal buffer to resize.
	return jpeg.has(index);
	}
	}

	@Deprecated
	public static int getOrientation(final byte[] jpeg) {
	return getOrientation(new ByteArrayInputStream(jpeg), jpeg.length);
	}
	}