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647 lines
25 KiB
Python
647 lines
25 KiB
Python
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"""
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JPEG picture parser.
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Information:
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- APP14 documents
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http://partners.adobe.com/public/developer/en/ps/sdk/5116.DCT_Filter.pdf
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http://java.sun.com/j2se/1.5.0/docs/api/javax/imageio/metadata/doc-files/jpeg_metadata.html#color
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- APP12:
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http://search.cpan.org/~exiftool/Image-ExifTool/lib/Image/ExifTool/TagNames.pod
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- JPEG Data Format
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http://www.w3.org/Graphics/JPEG/itu-t81.pdf
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Author: Victor Stinner, Robert Xiao
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"""
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from hachoir.parser import Parser
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from hachoir.field import (FieldSet, ParserError, FieldError,
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UInt8, UInt16, Enum, Field,
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Bit, Bits, NullBits, NullBytes, PaddingBits,
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String, RawBytes)
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from hachoir.parser.image.common import PaletteRGB
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from hachoir.core.endian import BIG_ENDIAN
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from hachoir.core.text_handler import textHandler, hexadecimal
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from hachoir.parser.image.exif import Exif
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from hachoir.parser.image.photoshop_metadata import PhotoshopMetadata
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from hachoir.parser.archive.zlib import build_tree
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from hachoir.core.tools import paddingSize, alignValue
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MAX_FILESIZE = 100 * 1024 * 1024
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# The four tables (hash/sum for color/grayscale JPEG) comes
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# from ImageMagick project
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QUALITY_HASH_COLOR = (
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1020, 1015, 932, 848, 780, 735, 702, 679, 660, 645,
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632, 623, 613, 607, 600, 594, 589, 585, 581, 571,
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555, 542, 529, 514, 494, 474, 457, 439, 424, 410,
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397, 386, 373, 364, 351, 341, 334, 324, 317, 309,
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299, 294, 287, 279, 274, 267, 262, 257, 251, 247,
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243, 237, 232, 227, 222, 217, 213, 207, 202, 198,
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192, 188, 183, 177, 173, 168, 163, 157, 153, 148,
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143, 139, 132, 128, 125, 119, 115, 108, 104, 99,
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94, 90, 84, 79, 74, 70, 64, 59, 55, 49,
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45, 40, 34, 30, 25, 20, 15, 11, 6, 4,
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0)
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QUALITY_SUM_COLOR = (
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32640, 32635, 32266, 31495, 30665, 29804, 29146, 28599, 28104, 27670,
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27225, 26725, 26210, 25716, 25240, 24789, 24373, 23946, 23572, 22846,
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21801, 20842, 19949, 19121, 18386, 17651, 16998, 16349, 15800, 15247,
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14783, 14321, 13859, 13535, 13081, 12702, 12423, 12056, 11779, 11513,
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11135, 10955, 10676, 10392, 10208, 9928, 9747, 9564, 9369, 9193,
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9017, 8822, 8639, 8458, 8270, 8084, 7896, 7710, 7527, 7347,
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7156, 6977, 6788, 6607, 6422, 6236, 6054, 5867, 5684, 5495,
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5305, 5128, 4945, 4751, 4638, 4442, 4248, 4065, 3888, 3698,
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3509, 3326, 3139, 2957, 2775, 2586, 2405, 2216, 2037, 1846,
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1666, 1483, 1297, 1109, 927, 735, 554, 375, 201, 128,
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0)
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QUALITY_HASH_GRAY = (
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510, 505, 422, 380, 355, 338, 326, 318, 311, 305,
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300, 297, 293, 291, 288, 286, 284, 283, 281, 280,
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279, 278, 277, 273, 262, 251, 243, 233, 225, 218,
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211, 205, 198, 193, 186, 181, 177, 172, 168, 164,
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158, 156, 152, 148, 145, 142, 139, 136, 133, 131,
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129, 126, 123, 120, 118, 115, 113, 110, 107, 105,
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102, 100, 97, 94, 92, 89, 87, 83, 81, 79,
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76, 74, 70, 68, 66, 63, 61, 57, 55, 52,
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50, 48, 44, 42, 39, 37, 34, 31, 29, 26,
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24, 21, 18, 16, 13, 11, 8, 6, 3, 2,
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0)
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QUALITY_SUM_GRAY = (
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16320, 16315, 15946, 15277, 14655, 14073, 13623, 13230, 12859, 12560,
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12240, 11861, 11456, 11081, 10714, 10360, 10027, 9679, 9368, 9056,
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8680, 8331, 7995, 7668, 7376, 7084, 6823, 6562, 6345, 6125,
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5939, 5756, 5571, 5421, 5240, 5086, 4976, 4829, 4719, 4616,
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4463, 4393, 4280, 4166, 4092, 3980, 3909, 3835, 3755, 3688,
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3621, 3541, 3467, 3396, 3323, 3247, 3170, 3096, 3021, 2952,
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2874, 2804, 2727, 2657, 2583, 2509, 2437, 2362, 2290, 2211,
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2136, 2068, 1996, 1915, 1858, 1773, 1692, 1620, 1552, 1477,
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1398, 1326, 1251, 1179, 1109, 1031, 961, 884, 814, 736,
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667, 592, 518, 441, 369, 292, 221, 151, 86, 64,
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0)
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JPEG_NATURAL_ORDER = (
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0, 1, 8, 16, 9, 2, 3, 10,
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17, 24, 32, 25, 18, 11, 4, 5,
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12, 19, 26, 33, 40, 48, 41, 34,
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27, 20, 13, 6, 7, 14, 21, 28,
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35, 42, 49, 56, 57, 50, 43, 36,
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29, 22, 15, 23, 30, 37, 44, 51,
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58, 59, 52, 45, 38, 31, 39, 46,
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53, 60, 61, 54, 47, 55, 62, 63)
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class JpegChunkApp0(FieldSet):
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UNIT_NAME = {
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0: "pixels",
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1: "dots per inch",
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2: "dots per cm",
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}
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def createFields(self):
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yield String(self, "jfif", 5, "JFIF string", charset="ASCII")
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if self["jfif"].value != "JFIF\0":
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raise ParserError(
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"Stream doesn't look like JPEG chunk (wrong JFIF signature)")
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yield UInt8(self, "ver_maj", "Major version")
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yield UInt8(self, "ver_min", "Minor version")
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yield Enum(UInt8(self, "units", "Units"), self.UNIT_NAME)
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if self["units"].value == 0:
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yield UInt16(self, "aspect_x", "Aspect ratio (X)")
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yield UInt16(self, "aspect_y", "Aspect ratio (Y)")
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else:
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yield UInt16(self, "x_density", "X density")
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yield UInt16(self, "y_density", "Y density")
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yield UInt8(self, "thumb_w", "Thumbnail width")
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yield UInt8(self, "thumb_h", "Thumbnail height")
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thumb_size = self["thumb_w"].value * self["thumb_h"].value
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if thumb_size != 0:
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yield PaletteRGB(self, "thumb_palette", 256)
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yield RawBytes(self, "thumb_data", thumb_size, "Thumbnail data")
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class Ducky(FieldSet):
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BLOCK_TYPE = {
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0: "end",
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1: "Quality",
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2: "Comment",
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3: "Copyright",
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}
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def createFields(self):
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yield Enum(UInt16(self, "type"), self.BLOCK_TYPE)
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if self["type"].value == 0:
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return
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yield UInt16(self, "size")
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size = self["size"].value
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if size:
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yield RawBytes(self, "data", size)
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class APP12(FieldSet):
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"""
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The JPEG APP12 "Picture Info" segment was used by some older cameras, and
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contains ASCII-based meta information.
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"""
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def createFields(self):
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yield String(self, "ducky", 5, '"Ducky" string', charset="ASCII")
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while not self.eof:
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yield Ducky(self, "item[]")
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class SOFComponent(FieldSet):
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def createFields(self):
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yield UInt8(self, "component_id")
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yield Bits(self, "horiz_sample", 4, "Horizontal sampling factor")
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yield Bits(self, "vert_sample", 4, "Vertical sampling factor")
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yield UInt8(self, "quant_table", "Quantization table destination selector")
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class StartOfFrame(FieldSet):
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def createFields(self):
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yield UInt8(self, "precision")
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yield UInt16(self, "height")
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yield UInt16(self, "width")
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yield UInt8(self, "nr_components")
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for index in range(self["nr_components"].value):
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yield SOFComponent(self, "component[]")
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class Comment(FieldSet):
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def createFields(self):
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yield String(self, "comment", self.size // 8, strip="\0")
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class AdobeChunk(FieldSet):
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COLORSPACE_TRANSFORMATION = {
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1: "YCbCr (converted from RGB)",
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2: "YCCK (converted from CMYK)",
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}
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def createFields(self):
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if self.stream.readBytes(self.absolute_address, 5) != b"Adobe":
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yield RawBytes(self, "raw", self.size // 8, "Raw data")
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return
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yield String(self, "adobe", 5, "\"Adobe\" string", charset="ASCII")
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yield UInt16(self, "version", "DCT encoder version")
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yield Enum(Bit(self, "flag00"),
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{False: "Chop down or subsampling", True: "Blend"})
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yield NullBits(self, "flags0_reserved", 15)
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yield NullBytes(self, "flags1", 2)
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yield Enum(UInt8(self, "color_transform", "Colorspace transformation code"), self.COLORSPACE_TRANSFORMATION)
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class SOSComponent(FieldSet):
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def createFields(self):
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comp_id = UInt8(self, "component_id")
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yield comp_id
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if not(1 <= comp_id.value <= self["../nr_components"].value):
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raise ParserError("JPEG error: Invalid component-id")
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yield Bits(self, "dc_coding_table", 4, "DC entropy coding table destination selector")
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yield Bits(self, "ac_coding_table", 4, "AC entropy coding table destination selector")
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class StartOfScan(FieldSet):
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def createFields(self):
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yield UInt8(self, "nr_components")
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for index in range(self["nr_components"].value):
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yield SOSComponent(self, "component[]")
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yield UInt8(self, "spectral_start", "Start of spectral or predictor selection")
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yield UInt8(self, "spectral_end", "End of spectral selection")
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yield Bits(self, "bit_pos_high", 4, "Successive approximation bit position high")
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yield Bits(self, "bit_pos_low", 4, "Successive approximation bit position low or point transform")
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class RestartInterval(FieldSet):
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def createFields(self):
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yield UInt16(self, "interval", "Restart interval")
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class QuantizationTable(FieldSet):
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def createFields(self):
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# Code based on function get_dqt() (jdmarker.c from libjpeg62)
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yield Bits(self, "is_16bit", 4)
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yield Bits(self, "index", 4)
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if self["index"].value >= 4:
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raise ParserError("Invalid quantification index (%s)" %
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self["index"].value)
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if self["is_16bit"].value:
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coeff_type = UInt16
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else:
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coeff_type = UInt8
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for index in range(64):
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natural = JPEG_NATURAL_ORDER[index]
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yield coeff_type(self, "coeff[%u]" % natural)
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def createDescription(self):
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return "Quantification table #%u" % self["index"].value
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class DefineQuantizationTable(FieldSet):
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def createFields(self):
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while self.current_size < self.size:
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yield QuantizationTable(self, "qt[]")
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class HuffmanTable(FieldSet):
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def createFields(self):
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# http://www.w3.org/Graphics/JPEG/itu-t81.pdf, page 40-41
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yield Enum(Bits(self, "table_class", 4, "Table class"), {
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0: "DC or Lossless Table",
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1: "AC Table"})
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yield Bits(self, "index", 4, "Huffman table destination identifier")
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for i in range(1, 17):
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yield UInt8(self, "count[%i]" % i, "Number of codes of length %i" % i)
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lengths = []
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remap = {}
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for i in range(1, 17):
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for j in range(self["count[%i]" % i].value):
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field = UInt8(self, "value[%i][%i]" % (
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i, j), "Value of code #%i of length %i" % (j, i))
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yield field
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remap[len(lengths)] = field.value
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lengths.append(i)
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self.tree = {}
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for i, j in build_tree(lengths).items():
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self.tree[i] = remap[j]
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class DefineHuffmanTable(FieldSet):
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def createFields(self):
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while self.current_size < self.size:
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yield HuffmanTable(self, "huffman_table[]")
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class HuffmanCode(Field):
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"""Huffman code. Uses tree parameter as the Huffman tree."""
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def __init__(self, parent, name, tree, description=""):
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Field.__init__(self, parent, name, 0, description)
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endian = self.parent.endian
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stream = self.parent.stream
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addr = self.absolute_address
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value = 0
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met_ff = False
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while (self.size, value) not in tree:
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if addr % 8 == 0:
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last_byte = stream.readBytes(addr - 8, 1)
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if last_byte == b'\xFF':
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next_byte = stream.readBytes(addr, 1)
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if next_byte != b'\x00':
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raise FieldError(
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"Unexpected byte sequence %r!" % (last_byte + next_byte))
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addr += 8 # hack hack hack
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met_ff = True
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self._description = "[skipped 8 bits after 0xFF] "
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bit = stream.readBits(addr, 1, endian)
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value <<= 1
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value += bit
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self._size += 1
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addr += 1
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self.createValue = lambda: value
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self.realvalue = tree[(self.size, value)]
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if met_ff:
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self._size += 8
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class JpegHuffmanImageUnit(FieldSet):
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"""8x8 block of sample/coefficient values"""
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def __init__(self, parent, name, dc_tree, ac_tree, *args, **kwargs):
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FieldSet.__init__(self, parent, name, *args, **kwargs)
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self.dc_tree = dc_tree
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self.ac_tree = ac_tree
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def createFields(self):
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field = HuffmanCode(self, "dc_data", self.dc_tree)
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field._description = "DC Code %i (Huffman Code %i)" % (
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field.realvalue, field.value) + field._description
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yield field
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if field.realvalue != 0:
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extra = Bits(self, "dc_data_extra", field.realvalue)
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if extra.value < 2**(field.realvalue - 1):
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corrected_value = extra.value + (-1 << field.realvalue) + 1
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else:
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corrected_value = extra.value
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extra._description = "Extra Bits: Corrected DC Value %i" % corrected_value
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yield extra
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data = []
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while len(data) < 63:
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field = HuffmanCode(self, "ac_data[]", self.ac_tree)
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value_r = field.realvalue >> 4
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if value_r:
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data += [0] * value_r
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value_s = field.realvalue & 0x0F
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if value_r == value_s == 0:
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field._description = "AC Code Block Terminator (0, 0) (Huffman Code %i)" % field.value + \
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field._description
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yield field
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return
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field._description = "AC Code %i, %i (Huffman Code %i)" % (
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value_r, value_s, field.value) + field._description
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yield field
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if value_s != 0:
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extra = Bits(self, "ac_data_extra[%s" %
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field.name.split('[')[1], value_s)
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if extra.value < 2**(value_s - 1):
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corrected_value = extra.value + (-1 << value_s) + 1
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else:
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corrected_value = extra.value
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extra._description = "Extra Bits: Corrected AC Value %i" % corrected_value
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data.append(corrected_value)
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yield extra
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else:
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data.append(0)
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class JpegImageData(FieldSet):
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def __init__(self, parent, name, frame, scan, restart_interval, restart_offset=0, *args, **kwargs):
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FieldSet.__init__(self, parent, name, *args, **kwargs)
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self.frame = frame
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self.scan = scan
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||
|
self.restart_interval = restart_interval
|
||
|
self.restart_offset = restart_offset
|
||
|
# try to figure out where this field ends
|
||
|
start = self.absolute_address
|
||
|
while True:
|
||
|
end = self.stream.searchBytes(b"\xff", start, MAX_FILESIZE * 8)
|
||
|
if end is None:
|
||
|
# this is a bad sign, since it means there is no terminator
|
||
|
# we ignore this; it likely means a truncated image
|
||
|
break
|
||
|
if self.stream.readBytes(end, 2) == b'\xff\x00':
|
||
|
# padding: false alarm
|
||
|
start = end + 16
|
||
|
continue
|
||
|
else:
|
||
|
self._size = end - self.absolute_address
|
||
|
break
|
||
|
|
||
|
def createFields(self):
|
||
|
if self.frame["../type"].value in [0xC0, 0xC1]:
|
||
|
# yay, huffman coding!
|
||
|
if not hasattr(self, "huffman_tables"):
|
||
|
self.huffman_tables = {}
|
||
|
for huffman in self.parent.array("huffman"):
|
||
|
for table in huffman["content"].array("huffman_table"):
|
||
|
for _dummy_ in table:
|
||
|
# exhaust table, so the huffman tree is built
|
||
|
pass
|
||
|
self.huffman_tables[table["table_class"].value, table[
|
||
|
"index"].value] = table.tree
|
||
|
components = [] # sos_comp, samples
|
||
|
max_vert = 0
|
||
|
max_horiz = 0
|
||
|
for component in self.scan.array("component"):
|
||
|
for sof_comp in self.frame.array("component"):
|
||
|
if sof_comp["component_id"].value == component["component_id"].value:
|
||
|
vert = sof_comp["vert_sample"].value
|
||
|
horiz = sof_comp["horiz_sample"].value
|
||
|
components.append((component, vert * horiz))
|
||
|
max_vert = max(max_vert, vert)
|
||
|
max_horiz = max(max_horiz, horiz)
|
||
|
mcu_height = alignValue(
|
||
|
self.frame["height"].value, 8 * max_vert) // (8 * max_vert)
|
||
|
mcu_width = alignValue(
|
||
|
self.frame["width"].value, 8 * max_horiz) // (8 * max_horiz)
|
||
|
if self.restart_interval and self.restart_offset > 0:
|
||
|
mcu_number = self.restart_interval * self.restart_offset
|
||
|
else:
|
||
|
mcu_number = 0
|
||
|
initial_mcu = mcu_number
|
||
|
while True:
|
||
|
if (self.restart_interval and mcu_number != initial_mcu and mcu_number % self.restart_interval == 0) or\
|
||
|
mcu_number == mcu_height * mcu_width:
|
||
|
padding = paddingSize(self.current_size, 8)
|
||
|
if padding:
|
||
|
yield PaddingBits(self, "padding[]", padding) # all 1s
|
||
|
last_byte = self.stream.readBytes(
|
||
|
self.absolute_address + self.current_size - 8, 1)
|
||
|
if last_byte == b'\xFF':
|
||
|
next_byte = self.stream.readBytes(
|
||
|
self.absolute_address + self.current_size, 1)
|
||
|
if next_byte != b'\x00':
|
||
|
raise FieldError(
|
||
|
"Unexpected byte sequence %r!" % (last_byte + next_byte))
|
||
|
yield NullBytes(self, "stuffed_byte[]", 1)
|
||
|
break
|
||
|
for sos_comp, num_units in components:
|
||
|
for interleave_count in range(num_units):
|
||
|
yield JpegHuffmanImageUnit(self, "block[%i]component[%i][]" % (mcu_number, sos_comp["component_id"].value),
|
||
|
self.huffman_tables[
|
||
|
0, sos_comp["dc_coding_table"].value],
|
||
|
self.huffman_tables[1, sos_comp["ac_coding_table"].value])
|
||
|
mcu_number += 1
|
||
|
else:
|
||
|
self.warning(
|
||
|
"Sorry, only supporting Baseline & Extended Sequential JPEG images so far!")
|
||
|
return
|
||
|
|
||
|
|
||
|
class JpegChunk(FieldSet):
|
||
|
TAG_SOI = 0xD8
|
||
|
TAG_EOI = 0xD9
|
||
|
TAG_SOS = 0xDA
|
||
|
TAG_DQT = 0xDB
|
||
|
TAG_DRI = 0xDD
|
||
|
TAG_INFO = {
|
||
|
0xC4: ("huffman[]", "Define Huffman Table (DHT)", DefineHuffmanTable),
|
||
|
0xD8: ("start_image", "Start of image (SOI)", None),
|
||
|
0xD9: ("end_image", "End of image (EOI)", None),
|
||
|
0xD0: ("restart_marker_0[]", "Restart Marker (RST0)", None),
|
||
|
0xD1: ("restart_marker_1[]", "Restart Marker (RST1)", None),
|
||
|
0xD2: ("restart_marker_2[]", "Restart Marker (RST2)", None),
|
||
|
0xD3: ("restart_marker_3[]", "Restart Marker (RST3)", None),
|
||
|
0xD4: ("restart_marker_4[]", "Restart Marker (RST4)", None),
|
||
|
0xD5: ("restart_marker_5[]", "Restart Marker (RST5)", None),
|
||
|
0xD6: ("restart_marker_6[]", "Restart Marker (RST6)", None),
|
||
|
0xD7: ("restart_marker_7[]", "Restart Marker (RST7)", None),
|
||
|
0xDA: ("start_scan[]", "Start Of Scan (SOS)", StartOfScan),
|
||
|
0xDB: ("quantization[]", "Define Quantization Table (DQT)", DefineQuantizationTable),
|
||
|
0xDC: ("nb_line", "Define number of Lines (DNL)", None),
|
||
|
0xDD: ("restart_interval", "Define Restart Interval (DRI)", RestartInterval),
|
||
|
0xE0: ("app0", "APP0", JpegChunkApp0),
|
||
|
0xE1: ("exif", "Exif metadata", Exif),
|
||
|
0xE2: ("icc", "ICC profile", None),
|
||
|
0xEC: ("app12", "APP12", APP12),
|
||
|
0xED: ("photoshop", "Photoshop", PhotoshopMetadata),
|
||
|
0xEE: ("adobe", "Image encoding information for DCT filters (Adobe)", AdobeChunk),
|
||
|
0xFE: ("comment[]", "Comment", Comment),
|
||
|
}
|
||
|
START_OF_FRAME = {
|
||
|
0xC0: "Baseline",
|
||
|
0xC1: "Extended sequential",
|
||
|
0xC2: "Progressive",
|
||
|
0xC3: "Lossless",
|
||
|
0xC5: "Differential sequential",
|
||
|
0xC6: "Differential progressive",
|
||
|
0xC7: "Differential lossless",
|
||
|
0xC9: "Extended sequential, arithmetic coding",
|
||
|
0xCA: "Progressive, arithmetic coding",
|
||
|
0xCB: "Lossless, arithmetic coding",
|
||
|
0xCD: "Differential sequential, arithmetic coding",
|
||
|
0xCE: "Differential progressive, arithmetic coding",
|
||
|
0xCF: "Differential lossless, arithmetic coding",
|
||
|
}
|
||
|
for key, text in START_OF_FRAME.items():
|
||
|
TAG_INFO[key] = ("start_frame", "Start of frame (%s)" %
|
||
|
text.lower(), StartOfFrame)
|
||
|
|
||
|
def __init__(self, parent, name, description=None):
|
||
|
FieldSet.__init__(self, parent, name, description)
|
||
|
tag = self["type"].value
|
||
|
if tag == 0xE1:
|
||
|
# Hack for Adobe extension: XAP metadata (as XML)
|
||
|
bytes = self.stream.readBytes(self.absolute_address + 32, 6)
|
||
|
if bytes == b"Exif\0\0":
|
||
|
self._name = "exif"
|
||
|
self._description = "EXIF"
|
||
|
self._parser = Exif
|
||
|
else:
|
||
|
self._parser = None
|
||
|
elif tag in self.TAG_INFO:
|
||
|
self._name, self._description, self._parser = self.TAG_INFO[tag]
|
||
|
else:
|
||
|
self._parser = None
|
||
|
|
||
|
def createFields(self):
|
||
|
yield textHandler(UInt8(self, "header", "Header"), hexadecimal)
|
||
|
if self["header"].value != 0xFF:
|
||
|
raise ParserError("JPEG: Invalid chunk header!")
|
||
|
yield textHandler(UInt8(self, "type", "Type"), hexadecimal)
|
||
|
tag = self["type"].value
|
||
|
# D0 - D7 inclusive are the restart markers
|
||
|
if tag in [self.TAG_SOI, self.TAG_EOI] + list(range(0xD0, 0xD8)):
|
||
|
return
|
||
|
yield UInt16(self, "size", "Size")
|
||
|
size = (self["size"].value - 2)
|
||
|
if 0 < size:
|
||
|
if self._parser:
|
||
|
yield self._parser(self, "content", "Chunk content", size=size * 8)
|
||
|
else:
|
||
|
yield RawBytes(self, "data", size, "Data")
|
||
|
|
||
|
def createDescription(self):
|
||
|
return "Chunk: %s" % self["type"].display
|
||
|
|
||
|
|
||
|
class JpegFile(Parser):
|
||
|
endian = BIG_ENDIAN
|
||
|
PARSER_TAGS = {
|
||
|
"id": "jpeg",
|
||
|
"category": "image",
|
||
|
"file_ext": ("jpg", "jpeg"),
|
||
|
"mime": ("image/jpeg",),
|
||
|
"magic": (
|
||
|
(b"\xFF\xD8\xFF\xE0", 0), # (Start Of Image, APP0)
|
||
|
(b"\xFF\xD8\xFF\xE1", 0), # (Start Of Image, EXIF)
|
||
|
(b"\xFF\xD8\xFF\xEE", 0), # (Start Of Image, Adobe)
|
||
|
),
|
||
|
"min_size": 22 * 8,
|
||
|
"description": "JPEG picture",
|
||
|
"subfile": "skip",
|
||
|
}
|
||
|
|
||
|
def validate(self):
|
||
|
if self.stream.readBytes(0, 2) != b"\xFF\xD8":
|
||
|
return "Invalid file signature"
|
||
|
try:
|
||
|
for index, field in enumerate(self):
|
||
|
chunk_type = field["type"].value
|
||
|
if chunk_type not in JpegChunk.TAG_INFO:
|
||
|
return "Unknown chunk type: 0x%02X (chunk #%s)" % (chunk_type, index)
|
||
|
if index == 2:
|
||
|
# Only check 3 fields
|
||
|
break
|
||
|
except Exception:
|
||
|
return "Unable to parse at least three chunks"
|
||
|
return True
|
||
|
|
||
|
def createFields(self):
|
||
|
frame = None
|
||
|
scan = None
|
||
|
restart_interval = None
|
||
|
restart_offset = 0
|
||
|
while not self.eof:
|
||
|
chunk = JpegChunk(self, "chunk[]")
|
||
|
yield chunk
|
||
|
if chunk["type"].value in JpegChunk.START_OF_FRAME:
|
||
|
# SOF0 [Baseline], SOF1 [Extended Sequential]
|
||
|
if chunk["type"].value not in [0xC0, 0xC1]:
|
||
|
self.warning(
|
||
|
"Only supporting Baseline & Extended Sequential JPEG images so far!")
|
||
|
frame = chunk["content"]
|
||
|
if chunk["type"].value == JpegChunk.TAG_SOS:
|
||
|
if not frame:
|
||
|
self.warning("Missing or invalid SOF marker before SOS!")
|
||
|
continue
|
||
|
scan = chunk["content"]
|
||
|
# hack: scan only the fields seen so far (in _fields): don't
|
||
|
# use the generator
|
||
|
if "restart_interval" in self._fields:
|
||
|
restart_interval = self[
|
||
|
"restart_interval/content/interval"].value
|
||
|
else:
|
||
|
restart_interval = None
|
||
|
yield JpegImageData(self, "image_data[]", frame, scan, restart_interval)
|
||
|
elif chunk["type"].value in range(0xD0, 0xD8):
|
||
|
restart_offset += 1
|
||
|
yield JpegImageData(self, "image_data[]", frame, scan, restart_interval, restart_offset)
|
||
|
|
||
|
# TODO: is it possible to handle piped input?
|
||
|
if self._size is None:
|
||
|
raise NotImplementedError
|
||
|
|
||
|
has_end = False
|
||
|
size = (self._size - self.current_size) // 8
|
||
|
if size:
|
||
|
if 2 < size \
|
||
|
and self.stream.readBytes(self._size - 16, 2) == b"\xff\xd9":
|
||
|
has_end = True
|
||
|
size -= 2
|
||
|
yield RawBytes(self, "data", size, "JPEG data")
|
||
|
if has_end:
|
||
|
yield JpegChunk(self, "chunk[]")
|
||
|
|
||
|
def createDescription(self):
|
||
|
desc = "JPEG picture"
|
||
|
if "start_frame/content" in self:
|
||
|
header = self["start_frame/content"]
|
||
|
desc += ": %ux%u pixels" % (header["width"].value,
|
||
|
header["height"].value)
|
||
|
return desc
|
||
|
|
||
|
def createContentSize(self):
|
||
|
if "end" in self:
|
||
|
return self["end"].absolute_address + self["end"].size
|
||
|
if "data" in self:
|
||
|
start = self["data"].absolute_address
|
||
|
elif "image_data[0]" in self:
|
||
|
start = self["image_data[0]"].absolute_address
|
||
|
else:
|
||
|
return None
|
||
|
end = self.stream.searchBytes(b"\xff\xd9", start, MAX_FILESIZE * 8)
|
||
|
if end is not None:
|
||
|
return end + 16
|
||
|
return None
|