import os import re from typing import Union, Any, Dict import cairo import gi gi.require_version('GdkPixbuf', '2.0') gi.require_version('Rsvg', '2.0') from gi.repository import GdkPixbuf, GLib, Rsvg from . import exiftool, abstract # Make pyflakes happy assert Any class SVGParser(exiftool.ExiftoolParser): mimetypes = {'image/svg+xml', } meta_allowlist = {'Directory', 'ExifToolVersion', 'FileAccessDate', 'FileInodeChangeDate', 'FileModifyDate', 'FileName', 'FilePermissions', 'FileSize', 'FileType', 'FileTypeExtension', 'ImageHeight', 'ImageWidth', 'MIMEType', 'SVGVersion', 'SourceFile', 'ViewBox' } def remove_all(self) -> bool: try: svg = Rsvg.Handle.new_from_file(self.filename) except GLib.GError: raise ValueError try: _, _, _, _, has_viewbox, viewbox = svg.get_intrinsic_dimensions() if has_viewbox is False: raise ValueError _, width, height = svg.get_intrinsic_size_in_pixels() except AttributeError: dimensions = svg.get_dimensions() height, width = dimensions.height, dimensions.width surface = cairo.SVGSurface(self.output_filename, height, width) context = cairo.Context(surface) try: svg.render_document(context, viewbox) except AttributeError: svg.render_cairo(context) surface.finish() return True def get_meta(self) -> Dict[str, Union[str, Dict]]: meta = super().get_meta() # The namespace is mandatory, but only the …/2000/svg is valid. ns = 'http://www.w3.org/2000/svg' if meta.get('Xmlns') == ns: meta.pop('Xmlns') return meta class PNGParser(exiftool.ExiftoolParser): mimetypes = {'image/png', } meta_allowlist = {'SourceFile', 'ExifToolVersion', 'FileName', 'Directory', 'FileSize', 'FileModifyDate', 'FileAccessDate', 'FileInodeChangeDate', 'FilePermissions', 'FileType', 'FileTypeExtension', 'MIMEType', 'ImageWidth', 'BitDepth', 'ColorType', 'Compression', 'Filter', 'Interlace', 'BackgroundColor', 'ImageSize', 'Megapixels', 'ImageHeight'} def __init__(self, filename): super().__init__(filename) try: # better fail here than later cairo.ImageSurface.create_from_png(self.filename) except: # pragma: no cover # Cairo is returning some weird exceptions :/ raise ValueError def remove_all(self) -> bool: if self.lightweight_cleaning: return self._lightweight_cleanup() surface = cairo.ImageSurface.create_from_png(self.filename) surface.write_to_png(self.output_filename) return True class GIFParser(exiftool.ExiftoolParser): mimetypes = {'image/gif'} meta_allowlist = {'AnimationIterations', 'BackgroundColor', 'BitsPerPixel', 'ColorResolutionDepth', 'Directory', 'Duration', 'ExifToolVersion', 'FileAccessDate', 'FileInodeChangeDate', 'FileModifyDate', 'FileName', 'FilePermissions', 'FileSize', 'FileType', 'FileTypeExtension', 'FrameCount', 'GIFVersion', 'HasColorMap', 'ImageHeight', 'ImageSize', 'ImageWidth', 'MIMEType', 'Megapixels', 'SourceFile',} def remove_all(self) -> bool: return self._lightweight_cleanup() class GdkPixbufAbstractParser(exiftool.ExiftoolParser): """ GdkPixbuf can handle a lot of surfaces, so we're rending images on it, this has the side-effect of completely removing metadata. """ _type = '' def __init__(self, filename): super().__init__(filename) try: GdkPixbuf.Pixbuf.new_from_file(self.filename) except GLib.GError: raise ValueError def remove_all(self) -> bool: if self.lightweight_cleaning: return self._lightweight_cleanup() _, extension = os.path.splitext(self.filename) pixbuf = GdkPixbuf.Pixbuf.new_from_file(self.filename) if extension.lower() == '.jpg': extension = '.jpeg' # gdk is picky elif extension.lower() == '.tif': extension = '.tiff' # gdk is picky try: pixbuf.savev(self.output_filename, type=extension[1:], option_keys=[], option_values=[]) except GLib.GError: # pragma: no cover return False return True class JPGParser(GdkPixbufAbstractParser): _type = 'jpeg' mimetypes = {'image/jpeg'} meta_allowlist = {'SourceFile', 'ExifToolVersion', 'FileName', 'Directory', 'FileSize', 'FileModifyDate', 'FileAccessDate', "FileInodeChangeDate", 'FilePermissions', 'FileType', 'FileTypeExtension', 'MIMEType', 'ImageWidth', 'ImageSize', 'BitsPerSample', 'ColorComponents', 'EncodingProcess', 'JFIFVersion', 'ResolutionUnit', 'XResolution', 'YCbCrSubSampling', 'YResolution', 'Megapixels', 'ImageHeight'} class TiffParser(GdkPixbufAbstractParser): _type = 'tiff' mimetypes = {'image/tiff'} meta_allowlist = {'Compression', 'ExifByteOrder', 'ExtraSamples', 'FillOrder', 'PhotometricInterpretation', 'PlanarConfiguration', 'RowsPerStrip', 'SamplesPerPixel', 'StripByteCounts', 'StripOffsets', 'BitsPerSample', 'Directory', 'ExifToolVersion', 'FileAccessDate', 'FileInodeChangeDate', 'FileModifyDate', 'FileName', 'FilePermissions', 'FileSize', 'FileType', 'FileTypeExtension', 'ImageHeight', 'ImageSize', 'ImageWidth', 'MIMEType', 'Megapixels', 'SourceFile'} class PPMParser(abstract.AbstractParser): mimetypes = {'image/x-portable-pixmap'} def get_meta(self) -> Dict[str, Union[str, Dict]]: meta = {} # type: Dict[str, Union[str, Dict[Any, Any]]] with open(self.filename) as f: for idx, line in enumerate(f): if line.lstrip().startswith('#'): meta[str(idx)] = line.lstrip().rstrip() return meta def remove_all(self) -> bool: with open(self.filename) as fin: with open(self.output_filename, 'w') as fout: for line in fin: if not line.lstrip().startswith('#'): line = re.sub(r"\s+", "", line, flags=re.UNICODE) fout.write(line) return True class HEICParser(exiftool.ExiftoolParser): mimetypes = {'image/heic'} meta_allowlist = {'SourceFile', 'ExifToolVersion', 'FileName', 'Directory', 'FileSize', 'FileModifyDate', 'FileAccessDate', 'FileInodeChangeDate', 'FilePermissions', 'FileType', 'FileTypeExtension', 'MIMEType', 'MajorBrand', 'MinorVersion', 'CompatibleBrands','HandlerType', 'PrimaryItemReference', 'HEVCConfigurationVersion', 'GeneralProfileSpace', 'GeneralTierFlag', 'GeneralProfileIDC', 'GenProfileCompatibilityFlags', 'ConstraintIndicatorFlags', 'GeneralLevelIDC', 'MinSpatialSegmentationIDC', 'ParallelismType','ChromaFormat', 'BitDepthLuma', 'BitDepthChroma', 'NumTemporalLayers', 'TemporalIDNested', 'ImageWidth', 'ImageHeight', 'ImageSpatialExtent', 'ImagePixelDepth', 'AverageFrameRate', 'ConstantFrameRate', 'MediaDataSize', 'MediaDataOffset','ImageSize', 'Megapixels'} def remove_all(self) -> bool: return self._lightweight_cleanup()