Mercurial > libervia-backend
view sat/tools/image.py @ 3405:ecdb3728749e
plugin XEP-0353: Jingle Message Initiation implementation:
This plugin uses the new `XEP-0166_initiate` trigger to initiate a Jingle session with
messages if the peer jid has no resource specified.
On reception, if the sender is not in our roster, a confirmation is requested to user to
avoid leaking presence and IP. If user refuses the session for somebody not in roster,
nothing is sent at all (the request is just ignored).
author | Goffi <goffi@goffi.org> |
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date | Thu, 12 Nov 2020 14:53:15 +0100 |
parents | 1512cbd6c4ac |
children | 9498f32ba6f7 |
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#!/usr/bin/env python3 # SàT: an XMPP client # Copyright (C) 2009-2020 Jérôme Poisson (goffi@goffi.org) # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU Affero General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU Affero General Public License for more details. # You should have received a copy of the GNU Affero General Public License # along with this program. If not, see <http://www.gnu.org/licenses/>. """Methods to manipulate images""" import tempfile import mimetypes from PIL import Image, ImageOps from pathlib import Path from twisted.internet import threads from sat.core.i18n import _ from sat.core import exceptions from sat.core.log import getLogger log = getLogger(__name__) try: import cairosvg except Exception as e: log.warning(_("SVG support not available, please install cairosvg: {e}").format( e=e)) cairosvg = None def check(host, path, max_size=None): """Analyze image and return a report report will indicate if image is too large, and the recommended new size if this is the case @param host: SàT instance @param path(str, pathlib.Path): image to open @param max_size(tuple[int, int]): maximum accepted size of image None to use value set in config @return dict: report on image, with following keys: - too_large: true if image is oversized - recommended_size: if too_large is True, recommended size to use """ report = {} image = Image.open(path) if max_size is None: max_size = tuple(host.memory.getConfig(None, "image_max", (1200, 720))) if image.size > max_size: report['too_large'] = True if image.size[0] > max_size[0]: factor = max_size[0] / image.size[0] if image.size[1] * factor > max_size[1]: factor = max_size[1] / image.size[1] else: factor = max_size[1] / image.size[1] report['recommended_size'] = [int(image.width*factor), int(image.height*factor)] else: report['too_large'] = False return report def _resize_blocking(image_path, new_size, dest, fix_orientation): im_path = Path(image_path) im = Image.open(im_path) resized = im.resize(new_size, Image.LANCZOS) if fix_orientation: resized = ImageOps.fix_orientation(resized) if dest is None: dest = tempfile.NamedTemporaryFile(suffix=im_path.suffix, delete=False) elif isinstance(dest, Path): dest = dest.open('wb') with dest as f: resized.save(f, format=im.format) return Path(f.name) def resize(image_path, new_size, dest=None, fix_orientation=True): """Resize an image to a new file, and return its path @param image_path(str, Path): path of the original image @param new_size(tuple[int, int]): size to use for new image @param dest(None, Path, file): where the resized image must be stored, can be: - None: use a temporary file file will be converted to PNG - Path: path to the file to create/overwrite - file: a file object which must be opened for writing in binary mode @param fix_orientation: if True, use EXIF data to set orientation @return (Path): path of the resized file. The image at this path should be deleted after use """ return threads.deferToThread( _resize_blocking, image_path, new_size, dest, fix_orientation) def _convert_blocking(image_path, dest, extra): media_type = mimetypes.guess_type(str(image_path), strict=False)[0] if dest is None: dest = tempfile.NamedTemporaryFile(suffix=".png", delete=False) filepath = Path(dest.name) elif isinstance(dest, Path): filepath = dest else: # we should have a file-like object try: name = dest.name except AttributeError: name = None if name: try: filepath = Path(name) except TypeError: filepath = Path('noname.png') else: filepath = Path('noname.png') if media_type == "image/svg+xml": if cairosvg is None: raise exceptions.MissingModule( f"Can't convert SVG image at {image_path} due to missing CairoSVG module") width, height = extra.get('width'), extra.get('height') cairosvg.svg2png( url=str(image_path), write_to=dest, output_width=width, output_height=height ) else: suffix = filepath.suffix if not suffix: raise ValueError( "A suffix is missing for destination, it is needed to determine file " "format") if not suffix in Image.EXTENSION: Image.init() try: im_format = Image.EXTENSION[suffix] except KeyError: raise ValueError( "Dest image format can't be determined, {suffix!r} suffix is unknown" ) im = Image.open(image_path) im.save(dest, format=im_format) log.debug(f"image {image_path} has been converted to {filepath}") return filepath def convert(image_path, dest=None, extra=None): """Convert an image to a new file, and return its path @param image_path(str, Path): path of the image to convert @param dest(None, Path, file): where the converted image must be stored, can be: - None: use a temporary file - Path: path to the file to create/overwrite - file: a file object which must be opened for writing in binary mode @param extra(None, dict): conversion options if image_path link to a SVG file, following options can be used: - width: destination width - height: destination height @return (Path): path of the converted file. a generic name is used if dest is an unnamed file like object """ image_path = Path(image_path) if not image_path.is_file(): raise ValueError(f"There is no file at {image_path}!") if extra is None: extra = {} return threads.deferToThread(_convert_blocking, image_path, dest, extra) def __fix_orientation_blocking(image_path): im = Image.open(image_path) im_format = im.format exif = im.getexif() orientation = exif.get(0x0112) if orientation is None or orientation<2: # nothing to do return False im = ImageOps.exif_transpose(im) im.save(image_path, im_format) log.debug(f"image {image_path} orientation has been fixed") return True def fix_orientation(image_path: Path) -> bool: """Apply orientation found in EXIF data if any @param image_path: image location, image will be modified in place @return True if image has been modified """ return threads.deferToThread(__fix_orientation_blocking, image_path) def guess_type(source): """Guess image media type @param source(str, Path, file): image to guess type @return (str, None): media type, or None if we can't guess """ if isinstance(source, str): source = Path(source) if isinstance(source, Path): # we first try to guess from file name media_type = mimetypes.guess_type(source, strict=False)[0] if media_type is not None: return media_type # file name is not enough, we try to open it img = Image.open(source) try: return Image.MIME[img.format] except KeyError: return None