gpodder/src/gpodder/util.py

2053 lines
62 KiB
Python

# -*- coding: utf-8 -*-
#
# gPodder - A media aggregator and podcast client
# Copyright (c) 2005-2018 The gPodder Team
# Copyright (c) 2011 Neal H. Walfield
#
# gPodder is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# gPodder 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
#
# util.py -- Misc utility functions
# Thomas Perl <thp@perli.net> 2007-08-04
#
"""Miscellaneous helper functions for gPodder
This module provides helper and utility functions for gPodder that
are not tied to any specific part of gPodder.
"""
import collections
import datetime
import glob
import gzip
import http.client
import io
import itertools
import json
import locale
import logging
import mimetypes
import os
import os.path
import platform
import re
import shlex
import shutil
import socket
import stat
import string
import subprocess
import sys
import threading
import time
import urllib.error
import urllib.parse
import urllib.request
import webbrowser
import xml.dom.minidom
from html.entities import entitydefs
import gpodder
logger = logging.getLogger(__name__)
if sys.hexversion < 0x03000000:
from html.parser import HTMLParser
from html.entities import name2codepoint
else:
from html.parser import HTMLParser
from html.entities import name2codepoint
try:
import html5lib
except ImportError:
logger.warn('html5lib not found, falling back to HTMLParser')
html5lib = None
if gpodder.ui.win32:
try:
import gpodder.utilwin32ctypes as win32file
except ImportError:
logger.warn('Running on Win32 but utilwin32ctypes can\'t be loaded.')
win32file = None
_ = gpodder.gettext
N_ = gpodder.ngettext
try:
locale.setlocale(locale.LC_ALL, '')
except Exception as e:
logger.warn('Cannot set locale (%s)', e, exc_info=True)
# Native filesystem encoding detection
encoding = sys.getfilesystemencoding()
if encoding is None:
if 'LANG' in os.environ and '.' in os.environ['LANG']:
lang = os.environ['LANG']
(language, encoding) = lang.rsplit('.', 1)
logger.info('Detected encoding: %s', encoding)
elif gpodder.ui.win32:
# To quote http://docs.python.org/howto/unicode.html:
# ,,on Windows, Python uses the name "mbcs" to refer
# to whatever the currently configured encoding is``
encoding = 'mbcs'
else:
encoding = 'iso-8859-15'
logger.info('Assuming encoding: ISO-8859-15 ($LANG not set).')
# Filename / folder name sanitization
def _sanitize_char(c):
if c in string.whitespace:
return b' '
elif c in ',-.()':
return c.encode('utf-8')
elif c in string.punctuation or ord(c) <= 31 or ord(c) >= 127:
return b'_'
return c.encode('utf-8')
SANITIZATION_TABLE = b''.join(map(_sanitize_char, list(map(chr, list(range(256))))))
del _sanitize_char
_MIME_TYPE_LIST = [
('.aac', 'audio/aac'),
('.axa', 'audio/annodex'),
('.flac', 'audio/flac'),
('.m4b', 'audio/m4b'),
('.m4a', 'audio/mp4'),
('.mp3', 'audio/mpeg'),
('.spx', 'audio/ogg'),
('.oga', 'audio/ogg'),
('.ogg', 'audio/ogg'),
('.wma', 'audio/x-ms-wma'),
('.3gp', 'video/3gpp'),
('.axv', 'video/annodex'),
('.divx', 'video/divx'),
('.m4v', 'video/m4v'),
('.mp4', 'video/mp4'),
('.ogv', 'video/ogg'),
('.mov', 'video/quicktime'),
('.flv', 'video/x-flv'),
('.mkv', 'video/x-matroska'),
('.wmv', 'video/x-ms-wmv'),
('.opus', 'audio/opus'),
]
_MIME_TYPES = dict((k, v) for v, k in _MIME_TYPE_LIST)
_MIME_TYPES_EXT = dict(_MIME_TYPE_LIST)
def make_directory(path):
"""
Tries to create a directory if it does not exist already.
Returns True if the directory exists after the function
call, False otherwise.
"""
if os.path.isdir(path):
return True
try:
os.makedirs(path)
except:
logger.warn('Could not create directory: %s', path)
return False
return True
def normalize_feed_url(url):
"""
Converts any URL to http:// or ftp:// so that it can be
used with "wget". If the URL cannot be converted (invalid
or unknown scheme), "None" is returned.
This will also normalize feed:// and itpc:// to http://.
>>> normalize_feed_url('itpc://example.org/podcast.rss')
'http://example.org/podcast.rss'
If no URL scheme is defined (e.g. "curry.com"), we will
simply assume the user intends to add a http:// feed.
>>> normalize_feed_url('curry.com')
'http://curry.com/'
There are even some more shortcuts for advanced users
and lazy typists (see the source for details).
>>> normalize_feed_url('fb:43FPodcast')
'http://feeds.feedburner.com/43FPodcast'
It will also take care of converting the domain name to
all-lowercase (because domains are not case sensitive):
>>> normalize_feed_url('http://Example.COM/')
'http://example.com/'
Some other minimalistic changes are also taken care of,
e.g. a ? with an empty query is removed:
>>> normalize_feed_url('http://example.org/test?')
'http://example.org/test'
Username and password in the URL must not be affected
by URL normalization (see gPodder bug 1942):
>>> normalize_feed_url('http://UserName:PassWord@Example.com/')
'http://UserName:PassWord@example.com/'
"""
if not url or len(url) < 8:
return None
# This is a list of prefixes that you can use to minimize the amount of
# keystrokes that you have to use.
# Feel free to suggest other useful prefixes, and I'll add them here.
PREFIXES = {
'fb:': 'http://feeds.feedburner.com/%s',
'yt:': 'http://www.youtube.com/rss/user/%s/videos.rss',
'sc:': 'https://soundcloud.com/%s',
# YouTube playlists. To get a list of playlists per-user, use:
# https://gdata.youtube.com/feeds/api/users/<username>/playlists
'ytpl:': 'http://gdata.youtube.com/feeds/api/playlists/%s',
}
for prefix, expansion in PREFIXES.items():
if url.startswith(prefix):
url = expansion % (url[len(prefix):],)
break
# Assume HTTP for URLs without scheme
if '://' not in url:
url = 'http://' + url
scheme, netloc, path, query, fragment = urllib.parse.urlsplit(url)
# Domain name is case insensitive, but username/password is not (bug 1942)
if '@' in netloc:
authentication, netloc = netloc.rsplit('@', 1)
netloc = '@'.join((authentication, netloc.lower()))
else:
netloc = netloc.lower()
# Schemes and domain names are case insensitive
scheme = scheme.lower()
# Normalize empty paths to "/"
if path == '':
path = '/'
# feed://, itpc:// and itms:// are really http://
if scheme in ('feed', 'itpc', 'itms'):
scheme = 'http'
if scheme not in ('http', 'https', 'ftp', 'file'):
return None
# urlunsplit might return "a slighty different, but equivalent URL"
return urllib.parse.urlunsplit((scheme, netloc, path, query, fragment))
def username_password_from_url(url):
r"""
Returns a tuple (username,password) containing authentication
data from the specified URL or (None,None) if no authentication
data can be found in the URL.
See Section 3.1 of RFC 1738 (http://www.ietf.org/rfc/rfc1738.txt)
>>> username_password_from_url('https://@host.com/')
('', None)
>>> username_password_from_url('telnet://host.com/')
(None, None)
>>> username_password_from_url('ftp://foo:@host.com/')
('foo', '')
>>> username_password_from_url('http://a:b@host.com/')
('a', 'b')
>>> username_password_from_url(1)
Traceback (most recent call last):
...
ValueError: URL has to be a string.
>>> username_password_from_url(None)
Traceback (most recent call last):
...
ValueError: URL has to be a string.
>>> username_password_from_url('http://a@b:c@host.com/')
('a@b', 'c')
>>> username_password_from_url('ftp://a:b:c@host.com/')
('a', 'b:c')
>>> username_password_from_url('http://i%2Fo:P%40ss%3A@host.com/')
('i/o', 'P@ss:')
>>> username_password_from_url('ftp://%C3%B6sterreich@host.com/')
('österreich', None)
>>> username_password_from_url('http://w%20x:y%20z@example.org/')
('w x', 'y z')
>>> username_password_from_url('http://example.com/x@y:z@test.com/')
(None, None)
"""
if not isinstance(url, str):
raise ValueError('URL has to be a string.')
(username, password) = (None, None)
(scheme, netloc, path, params, query, fragment) = urllib.parse.urlparse(url)
if '@' in netloc:
(authentication, netloc) = netloc.rsplit('@', 1)
if ':' in authentication:
(username, password) = authentication.split(':', 1)
# RFC1738 dictates that we should not allow ['/', '@', ':']
# characters in the username and password field (Section 3.1):
#
# 1. The "/" can't be in there at this point because of the way
# urlparse (which we use above) works.
# 2. Due to gPodder bug 1521, we allow "@" in the username and
# password field. We use netloc.rsplit('@', 1), which will
# make sure that we split it at the last '@' in netloc.
# 3. The colon must be excluded (RFC2617, Section 2) in the
# username, but is apparently allowed in the password. This
# is handled by the authentication.split(':', 1) above, and
# will cause any extraneous ':'s to be part of the password.
username = urllib.parse.unquote(username)
password = urllib.parse.unquote(password)
else:
username = urllib.parse.unquote(authentication)
return (username, password)
def directory_is_writable(path):
"""
Returns True if the specified directory exists and is writable
by the current user.
"""
return os.path.isdir(path) and os.access(path, os.W_OK)
def calculate_size(path):
"""
Tries to calculate the size of a directory, including any
subdirectories found. The returned value might not be
correct if the user doesn't have appropriate permissions
to list all subdirectories of the given path.
"""
if path is None:
return 0
if os.path.dirname(path) == '/':
return 0
if os.path.isfile(path):
return os.path.getsize(path)
if os.path.isdir(path) and not os.path.islink(path):
sum = os.path.getsize(path)
try:
for item in os.listdir(path):
try:
sum += calculate_size(os.path.join(path, item))
except:
logger.warn('Cannot get size for %s', path, exc_info=True)
except:
logger.warn('Cannot access %s', path, exc_info=True)
return sum
return 0
def file_modification_datetime(filename):
"""
Returns the modification date of the specified file
as a datetime.datetime object or None if the modification
date cannot be determined.
"""
if filename is None:
return None
if not os.access(filename, os.R_OK):
return None
try:
s = os.stat(filename)
timestamp = s[stat.ST_MTIME]
return datetime.datetime.fromtimestamp(timestamp)
except:
logger.warn('Cannot get mtime for %s', filename, exc_info=True)
return None
def file_age_in_days(filename):
"""
Returns the age of the specified filename in days or
zero if the modification date cannot be determined.
"""
dt = file_modification_datetime(filename)
if dt is None:
return 0
else:
return (datetime.datetime.now() - dt).days
def file_modification_timestamp(filename):
"""
Returns the modification date of the specified file as a number
or -1 if the modification date cannot be determined.
"""
if filename is None:
return -1
try:
s = os.stat(filename)
return s[stat.ST_MTIME]
except:
logger.warn('Cannot get modification timestamp for %s', filename)
return -1
def file_age_to_string(days):
"""
Converts a "number of days" value to a string that
can be used in the UI to display the file age.
>>> file_age_to_string(0)
''
>>> file_age_to_string(1)
'1 day ago'
>>> file_age_to_string(2)
'2 days ago'
"""
if days < 1:
return ''
else:
return N_('%(count)d day ago', '%(count)d days ago', days) % {'count': days}
def is_system_file(filename):
"""
Checks to see if the given file is a system file.
"""
if gpodder.ui.win32 and win32file is not None:
result = win32file.GetFileAttributes(filename)
# -1 / 0xffffffff is returned by GetFileAttributes when an error occurs
# 0x4 is the FILE_ATTRIBUTE_SYSTEM constant
return result != -1 and result != 0xffffffff and result & 0x4 != 0
else:
return False
def get_free_disk_space_win32(path):
"""
Win32-specific code to determine the free disk space remaining
for a given path. Uses code from:
http://mail.python.org/pipermail/python-list/2003-May/203223.html
"""
if win32file is None:
# Cannot determine free disk space
return -1
drive, tail = os.path.splitdrive(path)
userFree, userTotal, freeOnDisk = win32file.GetDiskFreeSpaceEx(drive)
return userFree
def get_free_disk_space(path):
"""
Calculates the free disk space available to the current user
on the file system that contains the given path.
If the path (or its parent folder) does not yet exist, this
function returns zero.
"""
if not os.path.exists(path):
return -1
if gpodder.ui.win32:
return get_free_disk_space_win32(path)
s = os.statvfs(path)
return s.f_bavail * s.f_bsize
def format_date(timestamp):
"""
Converts a UNIX timestamp to a date representation. This
function returns "Today", "Yesterday", a weekday name or
the date in %x format, which (according to the Python docs)
is the "Locale's appropriate date representation".
Returns None if there has been an error converting the
timestamp to a string representation.
"""
if timestamp is None:
return None
seconds_in_a_day = 60 * 60 * 24
today = time.localtime()[:3]
yesterday = time.localtime(time.time() - seconds_in_a_day)[:3]
try:
timestamp_date = time.localtime(timestamp)[:3]
except ValueError as ve:
logger.warn('Cannot convert timestamp', exc_info=True)
return None
except TypeError as te:
logger.warn('Cannot convert timestamp', exc_info=True)
return None
if timestamp_date == today:
return _('Today')
elif timestamp_date == yesterday:
return _('Yesterday')
try:
diff = int((time.time() - timestamp) / seconds_in_a_day)
except:
logger.warn('Cannot convert "%s" to date.', timestamp, exc_info=True)
return None
try:
timestamp = datetime.datetime.fromtimestamp(timestamp)
except:
return None
if diff < 7:
# Weekday name
return timestamp.strftime('%A')
else:
# Locale's appropriate date representation
return timestamp.strftime('%x')
def format_filesize(bytesize, use_si_units=False, digits=2):
"""
Formats the given size in bytes to be human-readable,
Returns a localized "(unknown)" string when the bytesize
has a negative value.
"""
si_units = (
('kB', 10**3),
('MB', 10**6),
('GB', 10**9),
)
binary_units = (
('KiB', 2**10),
('MiB', 2**20),
('GiB', 2**30),
)
try:
bytesize = float(bytesize)
except:
return _('(unknown)')
if bytesize < 0:
return _('(unknown)')
if use_si_units:
units = si_units
else:
units = binary_units
(used_unit, used_value) = ('B', bytesize)
for (unit, value) in units:
if bytesize >= value:
used_value = bytesize / float(value)
used_unit = unit
return ('%.' + str(digits) + 'f %s') % (used_value, used_unit)
def delete_file(filename):
"""Delete a file from the filesystem
Errors (permissions errors or file not found)
are silently ignored.
"""
try:
os.remove(filename)
except:
pass
def is_html(text):
"""Heuristically tell if text is HTML
By looking for an open tag (more or less:)
>>> is_html('<h1>HELLO</h1>')
True
>>> is_html('a < b < c')
False
"""
html_test = re.compile('<[a-z][a-z0-9]*(?:\s.*?>|\/?>)', re.IGNORECASE | re.DOTALL)
return bool(html_test.search(text))
def remove_html_tags(html):
"""
Remove HTML tags from a string and replace numeric and
named entities with the corresponding character, so the
HTML text can be displayed in a simple text view.
"""
if html is None:
return None
# If we would want more speed, we could make these global
re_strip_tags = re.compile('<[^>]*>')
re_unicode_entities = re.compile('&#(\d{2,4});')
re_html_entities = re.compile('&(.{2,8});')
re_newline_tags = re.compile('(<br[^>]*>|<[/]?ul[^>]*>|</li>)', re.I)
re_listing_tags = re.compile('<li[^>]*>', re.I)
result = html
# Convert common HTML elements to their text equivalent
result = re_newline_tags.sub('\n', result)
result = re_listing_tags.sub('\n * ', result)
result = re.sub('<[Pp]>', '\n\n', result)
# Remove all HTML/XML tags from the string
result = re_strip_tags.sub('', result)
# Convert numeric XML entities to their unicode character
result = re_unicode_entities.sub(lambda x: chr(int(x.group(1))), result)
# Convert named HTML entities to their unicode character
result = re_html_entities.sub(lambda x: entitydefs.get(x.group(1), ''), result)
# Convert more than two newlines to two newlines
result = re.sub('([\r\n]{2})([\r\n])+', '\\1', result)
return result.strip()
class HyperlinkExtracter(object):
def __init__(self):
self.parts = []
self.target_stack = [None]
def get_result(self):
# Group together multiple consecutive parts with same link target,
# and remove excessive newlines.
group_it = itertools.groupby(self.parts, key=lambda x: x[0])
result = []
for target, parts in group_it:
t = ''.join(text for _, text in parts if text is not None)
# Remove trailing spaces
t = re.sub(' +\n', '\n', t)
# Convert more than two newlines to two newlines
t = t.replace('\r', '')
t = re.sub(r'\n\n\n+', '\n\n', t)
result.append((target, t))
# Strip leading and trailing whitespace
result[0] = (result[0][0], result[0][1].lstrip())
result[-1] = (result[-1][0], result[-1][1].rstrip())
return result
def htmlws(self, s):
# Replace whitespaces with a single space per HTML spec.
if s is not None:
return re.sub(r'[ \t\n\r]+', ' ', s)
def handle_starttag(self, tag_name, attrs):
try:
handler = getattr(self, 'handle_start_' + tag_name)
except AttributeError:
pass
else:
handler(collections.OrderedDict(attrs))
def handle_endtag(self, tag_name):
try:
handler = getattr(self, 'handle_end_' + tag_name)
except AttributeError:
pass
else:
handler()
def handle_start_a(self, attrs):
self.target_stack.append(attrs.get('href'))
def handle_end_a(self):
if len(self.target_stack) > 1:
self.target_stack.pop()
def output(self, text):
self.parts.append((self.target_stack[-1], text))
def handle_data(self, data):
self.output(self.htmlws(data))
def handle_entityref(self, name):
c = chr(name2codepoint[name])
self.output(c)
def handle_charref(self, name):
if name.startswith('x'):
c = chr(int(name[1:], 16))
else:
c = chr(int(name))
self.output(c)
def output_newline(self, attrs=None):
self.output('\n')
def output_double_newline(self, attrs=None):
self.output('\n')
def handle_start_img(self, attrs):
self.output(self.htmlws(attrs.get('alt', '')))
def handle_start_li(self, attrs):
self.output('\n * ')
handle_end_li = handle_end_ul = handle_start_br = output_newline
handle_start_p = handle_end_p = output_double_newline
class ExtractHyperlinkedText(object):
def __call__(self, document):
self.extracter = HyperlinkExtracter()
self.visit(document)
return self.extracter.get_result()
def visit(self, element):
NS = '{http://www.w3.org/1999/xhtml}'
tag_name = (element.tag[len(NS):] if element.tag.startswith(NS) else element.tag).lower()
self.extracter.handle_starttag(tag_name, list(element.items()))
if element.text is not None:
self.extracter.handle_data(element.text)
for child in element:
self.visit(child)
if child.tail is not None:
self.extracter.handle_data(child.tail)
self.extracter.handle_endtag(tag_name)
class ExtractHyperlinkedTextHTMLParser(HTMLParser):
def __call__(self, html):
self.extracter = HyperlinkExtracter()
self.target_stack = [None]
self.feed(html)
self.close()
return self.extracter.get_result()
def handle_starttag(self, tag, attrs):
self.extracter.handle_starttag(tag, attrs)
def handle_endtag(self, tag):
self.extracter.handle_endtag(tag)
def handle_data(self, data):
self.extracter.handle_data(data)
def handle_entityref(self, name):
self.extracter.handle_entityref(name)
def handle_charref(self, name):
self.extracter.handle_charref(name)
def extract_hyperlinked_text(html):
"""
Convert HTML to hyperlinked text.
The output is a list of (target, text) tuples, where target is either a URL
or None, and text is a piece of plain text for rendering in a TextView.
"""
if '<' not in html:
# Probably plain text. We would remove all the newlines
# if we treated it as HTML, so just pass it back as-is.
return [(None, html)]
if html5lib is not None:
return ExtractHyperlinkedText()(html5lib.parseFragment(html))
else:
return ExtractHyperlinkedTextHTMLParser()(html)
def wrong_extension(extension):
"""
Determine if a given extension looks like it's
wrong (e.g. empty, extremely long or spaces)
Returns True if the extension most likely is a
wrong one and should be replaced.
>>> wrong_extension('.mp3')
False
>>> wrong_extension('.divx')
False
>>> wrong_extension('mp3')
True
>>> wrong_extension('')
True
>>> wrong_extension('.12 - Everybody')
True
>>> wrong_extension('.mp3 ')
True
>>> wrong_extension('.')
True
>>> wrong_extension('.42')
True
"""
if not extension:
return True
elif len(extension) > 5:
return True
elif ' ' in extension:
return True
elif extension == '.':
return True
elif not extension.startswith('.'):
return True
else:
try:
# ".<number>" is an invalid extension
float(extension)
return True
except:
pass
return False
def extension_from_mimetype(mimetype):
"""
Simply guesses what the file extension should be from the mimetype
>>> extension_from_mimetype('audio/mp4')
'.m4a'
>>> extension_from_mimetype('audio/ogg')
'.ogg'
>>> extension_from_mimetype('audio/mpeg')
'.mp3'
>>> extension_from_mimetype('video/x-matroska')
'.mkv'
>>> extension_from_mimetype('wrong-mimetype')
''
"""
if mimetype in _MIME_TYPES:
return _MIME_TYPES[mimetype]
return mimetypes.guess_extension(mimetype) or ''
def mimetype_from_extension(extension):
"""
Simply guesses what the mimetype should be from the file extension
>>> mimetype_from_extension('.m4a')
'audio/mp4'
>>> mimetype_from_extension('.ogg')
'audio/ogg'
>>> mimetype_from_extension('.mp3')
'audio/mpeg'
>>> mimetype_from_extension('.mkv')
'video/x-matroska'
>>> mimetype_from_extension('._invalid_file_extension_')
''
"""
if extension in _MIME_TYPES_EXT:
return _MIME_TYPES_EXT[extension]
# Need to prepend something to the extension, so guess_type works
type, encoding = mimetypes.guess_type('file' + extension)
return type or ''
def extension_correct_for_mimetype(extension, mimetype):
"""
Check if the given filename extension (e.g. ".ogg") is a possible
extension for a given mimetype (e.g. "application/ogg") and return
a boolean value (True if it's possible, False if not). Also do
>>> extension_correct_for_mimetype('.ogg', 'application/ogg')
True
>>> extension_correct_for_mimetype('.ogv', 'video/ogg')
True
>>> extension_correct_for_mimetype('.ogg', 'audio/mpeg')
False
>>> extension_correct_for_mimetype('.m4a', 'audio/mp4')
True
>>> extension_correct_for_mimetype('mp3', 'audio/mpeg')
Traceback (most recent call last):
...
ValueError: "mp3" is not an extension (missing .)
>>> extension_correct_for_mimetype('.mp3', 'audio mpeg')
Traceback (most recent call last):
...
ValueError: "audio mpeg" is not a mimetype (missing /)
"""
if '/' not in mimetype:
raise ValueError('"%s" is not a mimetype (missing /)' % mimetype)
if not extension.startswith('.'):
raise ValueError('"%s" is not an extension (missing .)' % extension)
if (extension, mimetype) in _MIME_TYPE_LIST:
return True
# Create a "default" extension from the mimetype, e.g. "application/ogg"
# becomes ".ogg", "audio/mpeg" becomes ".mpeg", etc...
default = ['.' + mimetype.split('/')[-1]]
return extension in default + mimetypes.guess_all_extensions(mimetype)
def filename_from_url(url):
"""
Extracts the filename and (lowercase) extension (with dot)
from a URL, e.g. http://server.com/file.MP3?download=yes
will result in the string ("file", ".mp3") being returned.
This function will also try to best-guess the "real"
extension for a media file (audio, video) by
trying to match an extension to these types and recurse
into the query string to find better matches, if the
original extension does not resolve to a known type.
http://my.net/redirect.php?my.net/file.ogg => ("file", ".ogg")
http://server/get.jsp?file=/episode0815.MOV => ("episode0815", ".mov")
http://s/redirect.mp4?http://serv2/test.mp4 => ("test", ".mp4")
"""
(scheme, netloc, path, para, query, fragid) = urllib.parse.urlparse(url)
(filename, extension) = os.path.splitext(
os.path.basename(urllib.parse.unquote(path)))
if file_type_by_extension(extension) is not None and not \
query.startswith(scheme + '://'):
# We have found a valid extension (audio, video)
# and the query string doesn't look like a URL
return (filename, extension.lower())
# If the query string looks like a possible URL, try that first
if len(query.strip()) > 0 and query.find('/') != -1:
query_url = '://'.join((scheme, urllib.parse.unquote(query)))
(query_filename, query_extension) = filename_from_url(query_url)
if file_type_by_extension(query_extension) is not None:
return os.path.splitext(os.path.basename(query_url))
# No exact match found, simply return the original filename & extension
return (filename, extension.lower())
def file_type_by_extension(extension):
"""
Tries to guess the file type by looking up the filename
extension from a table of known file types. Will return
"audio", "video" or None.
>>> file_type_by_extension('.aif')
'audio'
>>> file_type_by_extension('.3GP')
'video'
>>> file_type_by_extension('.m4a')
'audio'
>>> file_type_by_extension('.txt') is None
True
>>> file_type_by_extension(None) is None
True
>>> file_type_by_extension('ogg')
Traceback (most recent call last):
...
ValueError: Extension does not start with a dot: ogg
"""
if not extension:
return None
if not extension.startswith('.'):
raise ValueError('Extension does not start with a dot: %s' % extension)
extension = extension.lower()
if extension in _MIME_TYPES_EXT:
return _MIME_TYPES_EXT[extension].split('/')[0]
# Need to prepend something to the extension, so guess_type works
type, encoding = mimetypes.guess_type('file' + extension)
if type is not None and '/' in type:
filetype, rest = type.split('/', 1)
if filetype in ('audio', 'video', 'image'):
return filetype
return None
def get_first_line(s):
"""
Returns only the first line of a string, stripped so
that it doesn't have whitespace before or after.
"""
return s.strip().split('\n')[0].strip()
def object_string_formatter(s, **kwargs):
"""
Makes attributes of object passed in as keyword
arguments available as {OBJECTNAME.ATTRNAME} in
the passed-in string and returns a string with
the above arguments replaced with the attribute
values of the corresponding object.
>>> class x: pass
>>> a = x()
>>> a.title = 'Hello world'
>>> object_string_formatter('{episode.title}', episode=a)
'Hello world'
>>> class x: pass
>>> a = x()
>>> a.published = 123
>>> object_string_formatter('Hi {episode.published} 456', episode=a)
'Hi 123 456'
"""
result = s
for key, o in kwargs.items():
matches = re.findall(r'\{%s\.([^\}]+)\}' % key, s)
for attr in matches:
if hasattr(o, attr):
try:
from_s = '{%s.%s}' % (key, attr)
to_s = str(getattr(o, attr))
result = result.replace(from_s, to_s)
except:
logger.warn('Replace of "%s" failed for "%s".', attr, s)
return result
def format_desktop_command(command, filenames, start_position=None):
"""
Formats a command template from the "Exec=" line of a .desktop
file to a string that can be invoked in a shell.
Handled format strings: %U, %u, %F, %f and a fallback that
appends the filename as first parameter of the command.
Also handles non-standard %p which is replaced with the start_position
(probably only makes sense if starting a single file). (see bug 1140)
See http://standards.freedesktop.org/desktop-entry-spec/1.0/ar01s06.html
Returns a list of commands to execute, either one for
each filename if the application does not support multiple
file names or one for all filenames (%U, %F or unknown).
"""
# Replace backslashes with slashes to fix win32 issues
# (even on win32, "/" works, but "\" does not)
command = command.replace('\\', '/')
if start_position is not None:
command = command.replace('%p', str(start_position))
command = shlex.split(command)
command_before = command
command_after = []
multiple_arguments = True
for fieldcode in ('%U', '%F', '%u', '%f'):
if fieldcode in command:
command_before = command[:command.index(fieldcode)]
command_after = command[command.index(fieldcode) + 1:]
multiple_arguments = fieldcode in ('%U', '%F')
break
if multiple_arguments:
return [command_before + filenames + command_after]
commands = []
for filename in filenames:
commands.append(command_before + [filename] + command_after)
return commands
def url_strip_authentication(url):
"""
Strips authentication data from an URL. Returns the URL with
the authentication data removed from it.
>>> url_strip_authentication('https://host.com/')
'https://host.com/'
>>> url_strip_authentication('telnet://foo:bar@host.com/')
'telnet://host.com/'
>>> url_strip_authentication('ftp://billy@example.org')
'ftp://example.org'
>>> url_strip_authentication('ftp://billy:@example.org')
'ftp://example.org'
>>> url_strip_authentication('http://aa:bc@localhost/x')
'http://localhost/x'
>>> url_strip_authentication('http://i%2Fo:P%40ss%3A@blubb.lan/u.html')
'http://blubb.lan/u.html'
>>> url_strip_authentication('http://c:d@x.org/')
'http://x.org/'
>>> url_strip_authentication('http://P%40%3A:i%2F@cx.lan')
'http://cx.lan'
>>> url_strip_authentication('http://x@x.com:s3cret@example.com/')
'http://example.com/'
"""
url_parts = list(urllib.parse.urlsplit(url))
# url_parts[1] is the HOST part of the URL
# Remove existing authentication data
if '@' in url_parts[1]:
url_parts[1] = url_parts[1].rsplit('@', 1)[1]
return urllib.parse.urlunsplit(url_parts)
def url_add_authentication(url, username, password):
"""
Adds authentication data (username, password) to a given
URL in order to construct an authenticated URL.
>>> url_add_authentication('https://host.com/', '', None)
'https://host.com/'
>>> url_add_authentication('http://example.org/', None, None)
'http://example.org/'
>>> url_add_authentication('telnet://host.com/', 'foo', 'bar')
'telnet://foo:bar@host.com/'
>>> url_add_authentication('ftp://example.org', 'billy', None)
'ftp://billy@example.org'
>>> url_add_authentication('ftp://example.org', 'billy', '')
'ftp://billy:@example.org'
>>> url_add_authentication('http://localhost/x', 'aa', 'bc')
'http://aa:bc@localhost/x'
>>> url_add_authentication('http://blubb.lan/u.html', 'i/o', 'P@ss:')
'http://i%2Fo:P@ss:@blubb.lan/u.html'
>>> url_add_authentication('http://a:b@x.org/', 'c', 'd')
'http://c:d@x.org/'
>>> url_add_authentication('http://i%2F:P%40%3A@cx.lan', 'P@x', 'i/')
'http://P@x:i%2F@cx.lan'
>>> url_add_authentication('http://x.org/', 'a b', 'c d')
'http://a%20b:c%20d@x.org/'
"""
if username is None or username == '':
return url
# Relaxations of the strict quoting rules (bug 1521):
# 1. Accept '@' in username and password
# 2. Acecpt ':' in password only
username = urllib.parse.quote(username, safe='@')
if password is not None:
password = urllib.parse.quote(password, safe='@:')
auth_string = ':'.join((username, password))
else:
auth_string = username
url = url_strip_authentication(url)
url_parts = list(urllib.parse.urlsplit(url))
# url_parts[1] is the HOST part of the URL
url_parts[1] = '@'.join((auth_string, url_parts[1]))
return urllib.parse.urlunsplit(url_parts)
def urlopen(url, headers=None, data=None, timeout=None):
"""
An URL opener with the User-agent set to gPodder (with version)
"""
username, password = username_password_from_url(url)
if username is not None or password is not None:
url = url_strip_authentication(url)
password_mgr = urllib.request.HTTPPasswordMgrWithDefaultRealm()
password_mgr.add_password(None, url, username, password)
handler = urllib.request.HTTPBasicAuthHandler(password_mgr)
opener = urllib.request.build_opener(handler)
else:
opener = urllib.request.build_opener()
if headers is None:
headers = {}
else:
headers = dict(headers)
headers.update({'User-agent': gpodder.user_agent})
request = urllib.request.Request(url, data=data, headers=headers)
if timeout is None:
return opener.open(request)
else:
return opener.open(request, timeout=timeout)
def get_real_url(url):
"""
Gets the real URL of a file and resolves all redirects.
"""
try:
return urlopen(url).geturl()
except:
logger.error('Getting real url for %s', url, exc_info=True)
return url
def find_command(command):
"""
Searches the system's PATH for a specific command that is
executable by the user. Returns the first occurence of an
executable binary in the PATH, or None if the command is
not available.
On Windows, this also looks for "<command>.bat" and
"<command>.exe" files if "<command>" itself doesn't exist.
"""
if 'PATH' not in os.environ:
return None
for path in os.environ['PATH'].split(os.pathsep):
command_file = os.path.join(path, command)
if gpodder.ui.win32 and not os.path.exists(command_file):
for extension in ('.bat', '.exe'):
cmd = command_file + extension
if os.path.isfile(cmd):
command_file = cmd
break
if os.path.isfile(command_file) and os.access(command_file, os.X_OK):
return command_file
return None
def idle_add(func, *args):
"""Run a function in the main GUI thread
This is a wrapper function that does the Right Thing depending on if we are
running on Gtk+, Qt or CLI.
You should use this function if you are calling from a Python thread and
modify UI data, so that you make sure that the function is called as soon
as possible from the main UI thread.
"""
if gpodder.ui.gtk:
from gi.repository import GObject
GObject.idle_add(func, *args)
else:
func(*args)
def bluetooth_available():
"""
Returns True or False depending on the availability
of bluetooth functionality on the system.
"""
if find_command('bluetooth-sendto') or \
find_command('gnome-obex-send'):
return True
else:
return False
def bluetooth_send_file(filename):
"""
Sends a file via bluetooth.
This function tries to use "bluetooth-sendto", and if
it is not available, it also tries "gnome-obex-send".
"""
command_line = None
if find_command('bluetooth-sendto'):
command_line = ['bluetooth-sendto']
elif find_command('gnome-obex-send'):
command_line = ['gnome-obex-send']
if command_line is not None:
command_line.append(filename)
return (Popen(command_line, close_fds=True).wait() == 0)
else:
logger.error('Cannot send file. Please install "bluetooth-sendto" or "gnome-obex-send".')
return False
def format_time(value):
"""Format a seconds value to a string
>>> format_time(0)
'00:00'
>>> format_time(20)
'00:20'
>>> format_time(3600)
'01:00:00'
>>> format_time(10921)
'03:02:01'
"""
dt = datetime.datetime.utcfromtimestamp(value)
if dt.hour == 0:
return dt.strftime('%M:%S')
else:
return dt.strftime('%H:%M:%S')
def parse_time(value):
"""Parse a time string into seconds
>>> parse_time('00:00')
0
>>> parse_time('00:00:00')
0
>>> parse_time('00:20')
20
>>> parse_time('00:00:20')
20
>>> parse_time('01:00:00')
3600
>>> parse_time('03:02:01')
10921
>>> parse_time('61:08')
3668
>>> parse_time('25:03:30')
90210
>>> parse_time('25:3:30')
90210
>>> parse_time('61.08')
3668
"""
if value == '':
return 0
if not value:
raise ValueError('Invalid value: %s' % (str(value),))
m = re.match(r'(\d+)[:.](\d\d?)[:.](\d\d?)', value)
if m:
hours, minutes, seconds = m.groups()
return (int(hours) * 60 + int(minutes)) * 60 + int(seconds)
m = re.match(r'(\d+)[:.](\d\d?)', value)
if m:
minutes, seconds = m.groups()
return int(minutes) * 60 + int(seconds)
return int(value)
def format_seconds_to_hour_min_sec(seconds):
"""
Take the number of seconds and format it into a
human-readable string (duration).
>>> format_seconds_to_hour_min_sec(3834)
'1 hour, 3 minutes and 54 seconds'
>>> format_seconds_to_hour_min_sec(3600)
'1 hour'
>>> format_seconds_to_hour_min_sec(62)
'1 minute and 2 seconds'
"""
if seconds < 1:
return N_('%(count)d second', '%(count)d seconds',
seconds) % {'count': seconds}
result = []
seconds = int(seconds)
hours = seconds // 3600
seconds = seconds % 3600
minutes = seconds // 60
seconds = seconds % 60
if hours:
result.append(N_('%(count)d hour', '%(count)d hours',
hours) % {'count': hours})
if minutes:
result.append(N_('%(count)d minute', '%(count)d minutes',
minutes) % {'count': minutes})
if seconds:
result.append(N_('%(count)d second', '%(count)d seconds',
seconds) % {'count': seconds})
if len(result) > 1:
return (' ' + _('and') + ' ').join((', '.join(result[:-1]), result[-1]))
else:
return result[0]
def http_request(url, method='HEAD'):
(scheme, netloc, path, parms, qry, fragid) = urllib.parse.urlparse(url)
conn = http.client.HTTPConnection(netloc)
start = len(scheme) + len('://') + len(netloc)
conn.request(method, url[start:])
return conn.getresponse()
def gui_open(filename):
"""
Open a file or folder with the default application set
by the Desktop environment. This uses "xdg-open" on all
systems with a few exceptions:
on Win32, os.startfile() is used
"""
try:
if gpodder.ui.win32:
os.startfile(filename)
elif gpodder.ui.osx:
Popen(['open', filename], close_fds=True)
else:
Popen(['xdg-open', filename], close_fds=True)
return True
except:
logger.error('Cannot open file/folder: "%s"', filename, exc_info=True)
return False
def open_website(url):
"""
Opens the specified URL using the default system web
browser. This uses Python's "webbrowser" module, so
make sure your system is set up correctly.
"""
run_in_background(lambda: webbrowser.open(url))
def convert_bytes(d):
"""
Convert byte strings to unicode strings
This function will decode byte strings into unicode
strings. Any other data types will be left alone.
>>> convert_bytes(None)
>>> convert_bytes(4711)
4711
>>> convert_bytes(True)
True
>>> convert_bytes(3.1415)
3.1415
>>> convert_bytes('Hello')
'Hello'
>>> type(convert_bytes(b'hoho'))
<class 'bytes'>
"""
if d is None:
return d
elif isinstance(d, bytes):
return d
elif any(isinstance(d, t) for t in (int, int, bool, float)):
return d
elif not isinstance(d, str):
return d.decode('utf-8', 'ignore')
return d
def sanitize_filename(filename, max_length):
"""
Generate a sanitized version of a filename; trim filename
if greater than max_length (0 = no limit).
>>> sanitize_filename('https://www.host.name/feed', 0)
'https___www.host.name_feed'
>>> sanitize_filename('Binärgewitter', 0)
'Binärgewitter'
>>> sanitize_filename('Cool feed (ogg)', 0)
'Cool feed (ogg)'
>>> sanitize_filename('Cool feed (ogg)', 1)
'C'
"""
if max_length > 0 and len(filename) > max_length:
logger.info('Limiting file/folder name "%s" to %d characters.', filename, max_length)
filename = filename[:max_length]
# see #361 - at least slash must be removed
filename = re.sub(r"[\"*/:<>?\\|]", "_", filename)
return filename.strip('.' + string.whitespace)
def find_mount_point(directory):
"""
Try to find the mount point for a given directory.
If the directory is itself a mount point, return
it. If not, remove the last part of the path and
re-check if it's a mount point. If the directory
resides on your root filesystem, "/" is returned.
>>> find_mount_point('/')
'/'
>>> find_mount_point(b'/something')
Traceback (most recent call last):
...
ValueError: Convert bytes objects to str first.
>>> find_mount_point(None)
Traceback (most recent call last):
...
ValueError: Directory names should be of type str.
>>> find_mount_point(42)
Traceback (most recent call last):
...
ValueError: Directory names should be of type str.
>>> from minimock import mock, restore
>>> mocked_mntpoints = ('/', '/home', '/media/usbdisk', '/media/cdrom')
>>> mock('os.path.ismount', returns_func=lambda x: x in mocked_mntpoints)
>>>
>>> # For mocking os.getcwd(), we simply use a lambda to avoid the
>>> # massive output of "Called os.getcwd()" lines in this doctest
>>> os.getcwd = lambda: '/home/thp'
>>>
>>> find_mount_point('.')
Called os.path.ismount('/home/thp')
Called os.path.ismount('/home')
'/home'
>>> find_mount_point('relativity')
Called os.path.ismount('/home/thp/relativity')
Called os.path.ismount('/home/thp')
Called os.path.ismount('/home')
'/home'
>>> find_mount_point('/media/usbdisk/')
Called os.path.ismount('/media/usbdisk')
'/media/usbdisk'
>>> find_mount_point('/home/thp/Desktop')
Called os.path.ismount('/home/thp/Desktop')
Called os.path.ismount('/home/thp')
Called os.path.ismount('/home')
'/home'
>>> find_mount_point('/media/usbdisk/Podcasts/With Spaces')
Called os.path.ismount('/media/usbdisk/Podcasts/With Spaces')
Called os.path.ismount('/media/usbdisk/Podcasts')
Called os.path.ismount('/media/usbdisk')
'/media/usbdisk'
>>> find_mount_point('/home/')
Called os.path.ismount('/home')
'/home'
>>> find_mount_point('/media/cdrom/../usbdisk/blubb//')
Called os.path.ismount('/media/usbdisk/blubb')
Called os.path.ismount('/media/usbdisk')
'/media/usbdisk'
>>> restore()
"""
if isinstance(directory, bytes):
# We do not accept byte strings, because they could fail when
# trying to be converted to some native encoding, so fail loudly
# and leave it up to the callee to decode from the proper encoding.
raise ValueError('Convert bytes objects to str first.')
if not isinstance(directory, str):
# In Python 2, we assumed it's a byte str; in Python 3, we assume
# that it's a unicode str. The abspath/ismount/split functions of
# os.path work with unicode str in Python 3, but not in Python 2.
raise ValueError('Directory names should be of type str.')
directory = os.path.abspath(directory)
while directory != '/':
if os.path.ismount(directory):
return directory
else:
(directory, tail_data) = os.path.split(directory)
return '/'
# matches http:// and ftp:// and mailto://
protocolPattern = re.compile(r'^\w+://')
def isabs(string):
"""
@return true if string is an absolute path or protocoladdress
for addresses beginning in http:// or ftp:// or ldap:// -
they are considered "absolute" paths.
Source: http://code.activestate.com/recipes/208993/
"""
if protocolPattern.match(string): return 1
return os.path.isabs(string)
def commonpath(l1, l2, common=[]):
"""
helper functions for relpath
Source: http://code.activestate.com/recipes/208993/
"""
if len(l1) < 1: return (common, l1, l2)
if len(l2) < 1: return (common, l1, l2)
if l1[0] != l2[0]: return (common, l1, l2)
return commonpath(l1[1:], l2[1:], common + [l1[0]])
def relpath(p1, p2):
"""
Finds relative path from p1 to p2
Source: http://code.activestate.com/recipes/208993/
"""
def pathsplit(s):
return s.split(os.path.sep)
(common, l1, l2) = commonpath(pathsplit(p1), pathsplit(p2))
p = []
if len(l1) > 0:
p = [('..' + os.sep) * len(l1)]
p = p + l2
if len(p) is 0:
return "."
return os.path.join(*p)
def get_hostname():
"""Return the hostname of this computer
This can be implemented in a different way on each
platform and should yield a unique-per-user device ID.
"""
nodename = platform.node()
if nodename:
return nodename
# Fallback - but can this give us "localhost"?
return socket.gethostname()
def detect_device_type():
"""Device type detection for gpodder.net
This function tries to detect on which
kind of device gPodder is running on.
Possible return values:
desktop, laptop, mobile, server, other
"""
if glob.glob('/proc/acpi/battery/*'):
# Linux: If we have a battery, assume Laptop
return 'laptop'
return 'desktop'
def write_m3u_playlist(m3u_filename, episodes, extm3u=True):
"""Create an M3U playlist from a episode list
If the parameter "extm3u" is False, the list of
episodes should be a list of filenames, and no
extended information will be written into the
M3U files (#EXTM3U / #EXTINF).
If the parameter "extm3u" is True (default), then the
list of episodes should be PodcastEpisode objects,
as the extended metadata will be taken from them.
"""
f = open(m3u_filename, 'w')
if extm3u:
# Mandatory header for extended playlists
f.write('#EXTM3U\n')
for episode in episodes:
if not extm3u:
# Episode objects are strings that contain file names
f.write(episode + '\n')
continue
if episode.was_downloaded(and_exists=True):
filename = episode.local_filename(create=False)
assert filename is not None
if os.path.dirname(filename).startswith(os.path.dirname(m3u_filename)):
filename = filename[len(os.path.dirname(m3u_filename) + os.sep):]
f.write('#EXTINF:0,' + episode.playlist_title() + '\n')
f.write(filename + '\n')
f.close()
def generate_names(filename):
basename, ext = os.path.splitext(filename)
for i in itertools.count():
if i:
yield '%s (%d)%s' % (basename, i + 1, ext)
else:
yield filename
def is_known_redirecter(url):
"""Check if a URL redirect is expected, and no filenames should be updated
We usually honor URL redirects, and update filenames accordingly.
In some cases (e.g. Soundcloud) this results in a worse filename,
so we hardcode and detect these cases here to avoid renaming files
for which we know that a "known good default" exists.
The problem here is that by comparing the currently-assigned filename
with the new filename determined by the URL, we cannot really determine
which one is the "better" URL (e.g. "n5rMSpXrqmR9.128.mp3" for Soundcloud).
"""
# Soundcloud-hosted media downloads (we take the track name as filename)
if url.startswith('http://ak-media.soundcloud.com/'):
return True
return False
def atomic_rename(old_name, new_name):
"""Atomically rename/move a (temporary) file
This is usually used when updating a file safely by writing
the new contents into a temporary file and then moving the
temporary file over the original file to replace it.
"""
if gpodder.ui.win32:
# Win32 does not support atomic rename with os.rename
shutil.move(old_name, new_name)
else:
os.rename(old_name, new_name)
def check_command(self, cmd):
"""Check if a command line command/program exists"""
# Prior to Python 2.7.3, this module (shlex) did not support Unicode input.
program = shlex.split(cmd)[0]
return (find_command(program) is not None)
def rename_episode_file(episode, filename):
"""Helper method to update a PodcastEpisode object
Useful after renaming/converting its download file.
"""
if not os.path.exists(filename):
raise ValueError('Target filename does not exist.')
basename, extension = os.path.splitext(filename)
episode.download_filename = os.path.basename(filename)
episode.file_size = os.path.getsize(filename)
episode.mime_type = mimetype_from_extension(extension)
episode.save()
episode.db.commit()
def get_update_info():
"""
Get up to date release information from gpodder.org.
Returns a tuple: (up_to_date, latest_version, release_date, days_since)
Example result (up to date version, 20 days after release):
(True, '3.0.4', '2012-01-24', 20)
Example result (outdated version, 10 days after release):
(False, '3.0.5', '2012-02-29', 10)
"""
url = 'https://api.github.com/repos/gpodder/gpodder/releases/latest'
data = urlopen(url).read().decode('utf-8')
info = json.loads(data)
latest_version = info.get('tag_name', '').replace('gpodder-', '')
release_date = info['published_at']
release_parsed = datetime.datetime.strptime(release_date, '%Y-%m-%dT%H:%M:%SZ')
days_since_release = (datetime.datetime.today() - release_parsed).days
def convert(s):
return tuple(int(x) for x in s.split('.'))
up_to_date = (convert(gpodder.__version__) >= convert(latest_version))
return up_to_date, latest_version, release_date, days_since_release
def run_in_background(function, daemon=False):
logger.debug('run_in_background: %s (%s)', function, str(daemon))
thread = threading.Thread(target=function)
thread.setDaemon(daemon)
thread.start()
return thread
def linux_get_active_interfaces():
"""Get active network interfaces using 'ip link'
Returns a list of active network interfaces or an
empty list if the device is offline. The loopback
interface is not included.
"""
process = Popen(['ip', 'link'], close_fds=True, stdout=subprocess.PIPE)
data, _ = process.communicate()
for interface, _ in re.findall(r'\d+: ([^:]+):.*state (UP|UNKNOWN)', data.decode(locale.getpreferredencoding())):
if interface != 'lo':
yield interface
def osx_get_active_interfaces():
"""Get active network interfaces using 'ifconfig'
Returns a list of active network interfaces or an
empty list if the device is offline. The loopback
interface is not included.
"""
process = Popen(['ifconfig'], close_fds=True, stdout=subprocess.PIPE)
stdout, _ = process.communicate()
for i in re.split('\n(?!\t)', stdout.decode('utf-8'), re.MULTILINE):
b = re.match('(\\w+):.*status: (active|associated)$', i, re.MULTILINE | re.DOTALL)
if b:
yield b.group(1)
def unix_get_active_interfaces():
"""Get active network interfaces using 'ifconfig'
Returns a list of active network interfaces or an
empty list if the device is offline. The loopback
interface is not included.
"""
process = Popen(['ifconfig'], close_fds=True, stdout=subprocess.PIPE)
stdout, _ = process.communicate()
for i in re.split('\n(?!\t)', stdout.decode(locale.getpreferredencoding()), re.MULTILINE):
b = re.match('(\\w+):.*status: (active|associated)$', i, re.MULTILINE | re.DOTALL)
if b:
yield b.group(1)
def connection_available():
"""Check if an Internet connection is available
Returns True if a connection is available (or if there
is no way to determine the connection). Returns False
if no network interfaces are up (i.e. no connectivity).
"""
try:
if gpodder.ui.win32:
# FIXME: Implement for Windows
return True
elif gpodder.ui.osx:
return len(list(osx_get_active_interfaces())) > 0
else:
# By default, we assume we're not offline (bug 1730)
offline = False
if find_command('ifconfig') is not None:
# If ifconfig is available, and it says we don't have
# any active interfaces, assume we're offline
if len(list(unix_get_active_interfaces())) == 0:
offline = True
# If we assume we're offline, try the "ip" command as fallback
if offline and find_command('ip') is not None:
if len(list(linux_get_active_interfaces())) == 0:
offline = True
else:
offline = False
return not offline
return False
except Exception as e:
logger.warn('Cannot get connection status: %s', e, exc_info=True)
# When we can't determine the connection status, act as if we're online (bug 1730)
return True
def website_reachable(url):
"""
Check if a specific website is available.
"""
if not connection_available():
# No network interfaces up - assume website not reachable
return (False, None)
try:
response = urllib.request.urlopen(url, timeout=1)
return (True, response)
except urllib.error.URLError as err:
pass
return (False, None)
def delete_empty_folders(top):
for root, dirs, files in os.walk(top, topdown=False):
for name in dirs:
dirname = os.path.join(root, name)
if not os.listdir(dirname):
os.rmdir(dirname)
def guess_encoding(filename):
"""
read filename encoding as defined in PEP 263
- BOM marker => utf-8
- coding: xxx comment in first 2 lines
- else return None
>>> guess_encoding("not.there")
>>> guess_encoding("setup.py")
>>> guess_encoding("share/gpodder/extensions/mpris-listener.py")
'utf-8'
"""
def re_encoding(line):
m = re.match(b"""^[ \t\v]*#.*?coding[:=][ \t]*([-_.a-zA-Z0-9]+)""", line)
if m:
return m.group(1).decode()
else:
return None
if not filename or not os.path.exists(filename):
return None
with open(filename, "rb") as f:
fst = f.readline()
if fst[:3] == b"\xef\xbb\xbf":
return "utf-8"
encoding = re_encoding(fst)
if not encoding:
snd = f.readline()
encoding = re_encoding(snd)
return encoding
def iri_to_url(url):
"""
Properly escapes Unicode characters in the URL path section
TODO: Explore if this should also handle the domain
Based on: http://stackoverflow.com/a/18269491/1072626
In response to issue: https://github.com/gpodder/gpodder/issues/232
>>> iri_to_url('http://www.valpskott.se/Valpcast/MP3/Valpcast%20-%20Existentiella%20frågor.mp3')
'http://www.valpskott.se/Valpcast/MP3/Valpcast%20-%20Existentiella%20fr%C3%83%C2%A5gor.mp3'
See https://github.com/gpodder/gpodder/issues/399
>>> iri_to_url('//dts.podtrac.com/redirect.mp3/http://myhost/myepisode.mp3')
'//dts.podtrac.com/redirect.mp3/http://myhost/myepisode.mp3'
"""
url = urllib.parse.urlsplit(url)
url = list(url)
# First unquote to avoid escaping quoted content
url[2] = urllib.parse.unquote(url[2])
# extend safe with all allowed chars in path segment of URL, cf pchar rule
# in https://tools.ietf.org/html/rfc3986#appendix-A
url[2] = urllib.parse.quote(url[2], safe="/-._~!$&'()*+,;=:@")
url = urllib.parse.urlunsplit(url)
return url
class Popen(subprocess.Popen):
"""A Popen process that tries not to leak file descriptors.
This is a drop-in replacement for subprocess.Popen(), which takes the same
arguments.
'close_fds' will default to True, if omitted. This stops the process from
inheriting ALL of gPodder's file descriptors, which would keep them
'in-use'. That is of particular concern whenever the download queue is
active and interacting with the filesystem in the background.
On Windows however, redirection cannot coexist with 'close_fds=True'.
Specifying both will raise a ValueError. A message will appear in the log.
For communication with short-lived Windows commands, setting 'close_fds'
to False may be a tolerable risk. Otherwise as a last resort, sending
output to temp files to read afterward might work (probably involving
'shell=True').
See https://github.com/gpodder/gpodder/issues/420
"""
def __init__(self, *args, **kwargs):
self.__logged_returncode = False
if 'close_fds' not in kwargs:
kwargs['close_fds'] = True
try:
super(Popen, self).__init__(*args, **kwargs) # Python 2 syntax
except (ValueError) as e:
if gpodder.ui.win32 and kwargs['close_fds']:
if [(k, v) for (k, v) in kwargs.items() if k in ('stdin', 'stdout', 'stderr') and v]:
logger = logging.getLogger(__name__)
logger.error('util.Popen(close_fds=True) is incompatible with stream redirection on Windows.')
logger.error('With close_fds=False, the process keeps all currently open files locked. It might be tolerable for short-lived commands. Or use temp files.')
raise e
@classmethod
def testPopen():
# Problematic commands (write to stderr or read from stdin).
if gpodder.ui.win32:
cmd = ['findstr.exe', '/!']
cmd_pipe = ['findstr', 'hello']
else:
cmd = ['cat', '--helpp']
cmd_pipe = ['grep', 'hello']
logger.info('Test #1: Implicit close_fds=True, with no redirection')
logger.info('No race condition.')
logger.info('Streams left in the console.')
logger.info('Typical spawn and forget. Might as well wait().')
p = Popen(cmd)
out, err = p.communicate()
print("- - stderr - -\n{}\n- - - - - -\n".format(err))
logger.info('Test #2: Explicit close_fds=False, with redirection.')
logger.info('This has a race condition, but communicate() always returns streams.')
p = Popen(cmd, close_fds=False, stderr=subprocess.PIPE, universal_newlines=True)
out, err = p.communicate()
print("- - stderr - -\n{}\n- - - - - -\n".format(err))
try:
logger.info('Test #3: Implicit close_fds=True, with attempted redirection.')
logger.info('No race condition.')
logger.info('On Windows, this will raise ValueError.')
logger.info('Other platforms will have readable streams returned.')
p = Popen(cmd, stderr=subprocess.PIPE, universal_newlines=True)
out, err = p.communicate()
print("- - stderr - -\n{}\n- - - - - -\n".format(err))
except (ValueError) as e:
print("- - Caught - -\n{}: {}\n- - - - - -\n".format(e.__class__.__name__, e))
try:
logger.info('Test #4: Implicit close_fds=True, given input.')
p = Popen(cmd_pipe, stdin=subprocess.PIPE)
out, err = p.communicate(input=b'hello world')
print("NEVER REACHED ON WINDOWS")
print("- - stderr - -\n{}\n- - - - - -\n".format(err))
except (ValueError) as e:
print("- - Caught - -\n{}: {}\n- - - - - -\n".format(e.__class__.__name__, e))
logger.info('Log spam only occurs if returncode is non-zero or if explaining the Windows redirection error.')