""" PNG picture file parser. Documents: - RFC 2083 http://www.faqs.org/rfcs/rfc2083.html Author: Victor Stinner """ from hachoir.parser import Parser from hachoir.field import (FieldSet, Fragment, ParserError, MissingField, UInt8, UInt16, UInt32, String, CString, Bytes, RawBytes, Bit, NullBits, Enum, CompressedField) from hachoir.parser.image.common import RGB from hachoir.core.text_handler import textHandler, hexadecimal from hachoir.core.endian import NETWORK_ENDIAN from hachoir.core.tools import humanFilesize from datetime import datetime MAX_FILESIZE = 500 * 1024 * 1024 # 500 MB try: from zlib import decompressobj class Gunzip: def __init__(self, stream): self.gzip = decompressobj() def __call__(self, size, data=None): if data is None: data = self.gzip.unconsumed_tail return self.gzip.decompress(data, size) has_deflate = True except ImportError: has_deflate = False UNIT_NAME = {1: "Meter"} COMPRESSION_NAME = { 0: "deflate" # with 32K sliding window } MAX_CHUNK_SIZE = 5 * 1024 * 1024 # Maximum chunk size (5 MB) def headerParse(parent): yield UInt32(parent, "width", "Width (pixels)") yield UInt32(parent, "height", "Height (pixels)") yield UInt8(parent, "bit_depth", "Bit depth") yield NullBits(parent, "reserved", 5) yield Bit(parent, "has_alpha", "Has alpha channel?") yield Bit(parent, "color", "Color used?") yield Bit(parent, "has_palette", "Has a color palette?") yield Enum(UInt8(parent, "compression", "Compression method"), COMPRESSION_NAME) yield UInt8(parent, "filter", "Filter method") yield UInt8(parent, "interlace", "Interlace method") def headerDescription(parent): return "Header: %ux%u pixels and %u bits/pixel" % \ (parent["width"].value, parent[ "height"].value, getBitsPerPixel(parent)) def paletteParse(parent): size = parent["size"].value if (size % 3) != 0: raise ParserError( "Palette have invalid size (%s), should be 3*n!" % size) nb_colors = size // 3 for index in range(nb_colors): yield RGB(parent, "color[]") def paletteDescription(parent): return "Palette: %u colors" % (parent["size"].value // 3) def gammaParse(parent): yield UInt32(parent, "gamma", "Gamma (x100,000)") def gammaValue(parent): return float(parent["gamma"].value) / 100000 def gammaDescription(parent): return "Gamma: %.3f" % parent.value def textParse(parent): yield CString(parent, "keyword", "Keyword", charset="ISO-8859-1") length = parent["size"].value - parent["keyword"].size // 8 if length: yield String(parent, "text", length, "Text", charset="ISO-8859-1") def textDescription(parent): if "text" in parent: return 'Text: %s' % parent["text"].display else: return 'Text' def timestampParse(parent): yield UInt16(parent, "year", "Year") yield UInt8(parent, "month", "Month") yield UInt8(parent, "day", "Day") yield UInt8(parent, "hour", "Hour") yield UInt8(parent, "minute", "Minute") yield UInt8(parent, "second", "Second") def timestampValue(parent): value = datetime( parent["year"].value, parent["month"].value, parent["day"].value, parent["hour"].value, parent["minute"].value, parent["second"].value) return value def physicalParse(parent): yield UInt32(parent, "pixel_per_unit_x", "Pixel per unit, X axis") yield UInt32(parent, "pixel_per_unit_y", "Pixel per unit, Y axis") yield Enum(UInt8(parent, "unit", "Unit type"), UNIT_NAME) def physicalDescription(parent): x = parent["pixel_per_unit_x"].value y = parent["pixel_per_unit_y"].value desc = "Physical: %ux%u pixels" % (x, y) if parent["unit"].value == 1: desc += " per meter" return desc def parseBackgroundColor(parent): yield UInt16(parent, "red") yield UInt16(parent, "green") yield UInt16(parent, "blue") def backgroundColorDesc(parent): rgb = parent["red"].value, parent["green"].value, parent["blue"].value name = RGB.color_name.get(rgb) if not name: name = "#%02X%02X%02X" % rgb return "Background color: %s" % name class ImageData(Fragment): def __init__(self, parent, name="compressed_data"): Fragment.__init__(self, parent, name, None, 8 * parent["size"].value) data = parent.name.split('[') data, next = "../%s[%%u]" % data[0], int(data[1][:-1]) + 1 first = parent.getField(data % 0) if first is parent: first = None if has_deflate: CompressedField(self, Gunzip) else: first = first[name] try: _next = parent[data % next] def next(): return _next[name] except MissingField: next = None self.setLinks(first, next) def parseTransparency(parent): for i in range(parent["size"].value): yield UInt8(parent, "alpha_value[]", "Alpha value for palette entry %i" % i) def getBitsPerPixel(header): nr_component = 1 if header["has_alpha"].value: nr_component += 1 if header["color"].value and not header["has_palette"].value: nr_component += 2 return nr_component * header["bit_depth"].value class Chunk(FieldSet): TAG_INFO = { "tIME": ("time", timestampParse, "Timestamp", timestampValue), "pHYs": ("physical", physicalParse, physicalDescription, None), "IHDR": ("header", headerParse, headerDescription, None), "PLTE": ("palette", paletteParse, paletteDescription, None), "gAMA": ("gamma", gammaParse, gammaDescription, gammaValue), "tEXt": ("text[]", textParse, textDescription, None), "tRNS": ("transparency", parseTransparency, "Transparency Info", None), "bKGD": ("background", parseBackgroundColor, backgroundColorDesc, None), "IDAT": ("data[]", lambda parent: (ImageData(parent),), "Image data", None), "iTXt": ("utf8_text[]", None, "International text (encoded in UTF-8)", None), "zTXt": ("comp_text[]", None, "Compressed text", None), "IEND": ("end", None, "End", None) } def createValueFunc(self): return self.value_func(self) def __init__(self, parent, name, description=None): FieldSet.__init__(self, parent, name, description) self._size = (self["size"].value + 3 * 4) * 8 if MAX_CHUNK_SIZE < (self._size // 8): raise ParserError("PNG: Chunk is too big (%s)" % humanFilesize(self._size // 8)) tag = self["tag"].value self.desc_func = None self.value_func = None if tag in self.TAG_INFO: self._name, self.parse_func, desc, value_func = self.TAG_INFO[tag] if value_func: self.value_func = value_func self.createValue = self.createValueFunc if desc: if isinstance(desc, str): self._description = desc else: self.desc_func = desc else: self._description = "" self.parse_func = None def createFields(self): yield UInt32(self, "size", "Size") yield String(self, "tag", 4, "Tag", charset="ASCII") size = self["size"].value if size != 0: if self.parse_func: yield from self.parse_func(self) else: yield RawBytes(self, "content", size, "Data") yield textHandler(UInt32(self, "crc32", "CRC32"), hexadecimal) def createDescription(self): if self.desc_func: return self.desc_func(self) else: return "Chunk: %s" % self["tag"].display class PngFile(Parser): PARSER_TAGS = { "id": "png", "category": "image", "file_ext": ("png",), "mime": ("image/png", "image/x-png"), "min_size": 8 * 8, # just the identifier "magic": [(b'\x89PNG\r\n\x1A\n', 0)], "description": "Portable Network Graphics (PNG) picture" } endian = NETWORK_ENDIAN def validate(self): if self["id"].value != b'\x89PNG\r\n\x1A\n': return "Invalid signature" if self[1].name != "header": return "First chunk is not header" return True def createFields(self): yield Bytes(self, "id", 8, r"PNG identifier ('\x89PNG\r\n\x1A\n')") while not self.eof: yield Chunk(self, "chunk[]") def createDescription(self): header = self["header"] desc = "PNG picture: %ux%ux%u" % ( header["width"].value, header["height"].value, getBitsPerPixel(header)) if header["has_alpha"].value: desc += " (alpha layer)" return desc def createContentSize(self): field = self["header"] start = field.absolute_address + field.size end = MAX_FILESIZE * 8 pos = self.stream.searchBytes( b"\0\0\0\0IEND\xae\x42\x60\x82", start, end) if pos is not None: return pos + 12 * 8 return None