SickGear/lib/sg_helpers.py

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# encoding:utf-8
# ---------------
# functions are placed here to remove cyclic import issues from placement in helpers
#
from __future__ import division
import ast
import codecs
import datetime
import getpass
import hashlib
import io
import logging
import os
import re
import shutil
import socket
import stat
import subprocess
import sys
import tempfile
import threading
import time
import traceback
import unicodedata
from exceptions_helper import ex, ConnectionSkipException
from json_helper import json_loads
from cachecontrol import CacheControl, caches
# from lib.tmdbsimple.configuration import Configuration
# from lib.tmdbsimple.genres import Genres
from cfscrape import CloudflareScraper
from send2trash import send2trash
# noinspection PyPep8Naming
import encodingKludge as ek
import requests
from _23 import decode_bytes, filter_list, html_unescape, list_range, \
ordered_dict, Popen, scandir, urlparse, urlsplit, urlunparse
from six import integer_types, iteritems, iterkeys, itervalues, moves, PY2, string_types, text_type
import zipfile
# py7z hardwired removed, see comment below
py7zr = None
# noinspection PyUnreachableCode
if False:
from _23 import DirEntry
from lxml_etree import etree
try:
# py7z hardwired removed because Python 3.9 interpreter crashes with a process kill signal 9 when memory is
# low/exhausted during a native 7z compress action on Linux. Therefore, the native functions cannot be trusted.
# `import` moved to this non-runtime scope to preserve code resolution in case reinstated at a later PY release
# noinspection PyUnresolvedReferences,PyPackageRequirements
import py7zr
except ImportError:
py7zr = None
# sickgear is strictly used here for resolution, this is only possible because
# this section is not used at runtime which would create circular reference issues
# noinspection PyPep8Naming
from sickgear import db, notifiers as NOTIFIERS
# noinspection PyUnresolvedReferences
from typing import Any, AnyStr, Dict, Generator, NoReturn, integer_types, Iterable, Iterator, List, Optional, \
Tuple, Union
html_convert_fractions = {0: '', 25: '¼', 50: '½', 75: '¾', 100: 1}
PROG_DIR = ek.ek(os.path.join, os.path.dirname(os.path.normpath(os.path.abspath(__file__))), '..')
# Mapping error status codes to official W3C names
http_error_code = {
300: 'Multiple Choices',
301: 'Moved Permanently',
302: 'Found',
303: 'See Other',
304: 'Not Modified',
305: 'Use Proxy',
307: 'Temporary Redirect',
308: 'Permanent Redirect',
400: 'Bad Request',
401: 'Unauthorized',
402: 'Payment Required',
403: 'Forbidden',
404: 'Not Found',
405: 'Method Not Allowed',
406: 'Not Acceptable',
407: 'Proxy Authentication Required',
408: 'Request Timeout',
409: 'Conflict',
410: 'Gone',
411: 'Length Required',
412: 'Precondition Failed',
413: 'Request Entity Too Large',
414: 'Request-URI Too Long',
415: 'Unsupported Media Type',
416: 'Requested Range Not Satisfiable',
417: 'Expectation Failed',
429: 'Too Many Requests',
431: 'Request Header Fields Too Large',
444: 'No Response',
451: 'Unavailable For Legal Reasons',
500: 'Internal Server Error',
501: 'Not Implemented',
502: 'Bad Gateway',
503: 'Service Unavailable',
504: 'Gateway Timeout',
505: 'HTTP Version Not Supported',
511: 'Network Authentication Required'}
logger = logging.getLogger('sg.helper')
logger.addHandler(logging.NullHandler())
USER_AGENT = ''
CACHE_DIR = None
DATA_DIR = None
PROXY_SETTING = None
TRASH_REMOVE_SHOW = False
REMOVE_FILENAME_CHARS = None
MEMCACHE = {}
FLARESOLVERR_HOST = None
# noinspection PyRedeclaration
db = None
# noinspection PyRedeclaration
NOTIFIERS = None
class ConnectionFailTypes(object):
http = 1
connection = 2
connection_timeout = 3
timeout = 4
other = 5
limit = 6
nodata = 7
names = {http: 'http', timeout: 'timeout',
connection: 'connection', connection_timeout: 'connection_timeout',
nodata: 'nodata', other: 'other', limit: 'limit'}
def __init__(self):
pass
class ConnectionFail(object):
def __init__(self, fail_type=ConnectionFailTypes.other, code=None, fail_time=None):
self.code = code
self.fail_type = fail_type
self.fail_time = (datetime.datetime.now(), fail_time)[isinstance(fail_time, datetime.datetime)]
class ConnectionFailDict(object):
def __init__(self):
self.domain_list = {} # type: Dict[AnyStr, ConnectionFailList]
self.lock = threading.RLock()
self.load_from_db()
def load_from_db(self):
if None is not db:
with self.lock:
my_db = db.DBConnection('cache.db')
if my_db.hasTable('connection_fails'):
domains = my_db.select('SELECT DISTINCT domain_url from connection_fails')
for domain in domains:
self.domain_list[domain['domain_url']] = ConnectionFailList(domain['domain_url'])
@staticmethod
def get_domain(url):
# type: (AnyStr) -> Optional[AnyStr]
try:
return urlsplit(url).hostname.lower()
except (BaseException, Exception):
pass
def add_failure(self, url, fail_type):
# type: (AnyStr, ConnectionFail) -> None
host = self.get_domain(url)
if None is not host:
with self.lock:
self.domain_list.setdefault(host, ConnectionFailList(host)).add_fail(fail_type)
def inc_failure_count(self,
url, # type: AnyStr
*args, **kwargs):
host = self.get_domain(url)
if None is not host:
with self.lock:
if host in self.domain_list:
domain = self.domain_list[host]
fail_type = ('fail_type' in kwargs and kwargs['fail_type'].fail_type) or \
(isinstance(args, tuple) and isinstance(args[0], ConnectionFail) and args[0].fail_type)
# noinspection PyProtectedMember
if not isinstance(domain.failure_time, datetime.datetime) or \
fail_type != domain._last_fail_type or \
domain.fail_newest_delta() > datetime.timedelta(seconds=3):
domain.failure_count += 1
domain.failure_time = datetime.datetime.now()
domain._last_fail_type = fail_type
domain.add_fail(*args, **kwargs)
else:
logger.debug('%s: Not logging same failure within 3 seconds' % url)
def should_skip(self, url, log_warning=True, use_tmr_limit=True):
# type: (AnyStr, bool, bool) -> bool
host = self.get_domain(url)
if None is not host:
with self.lock:
if host in self.domain_list:
return self.domain_list[host].should_skip(log_warning=log_warning, use_tmr_limit=use_tmr_limit)
return False
DOMAIN_FAILURES = ConnectionFailDict()
sp = 8
trakt_fail_times = {(i * sp) + m: s for m in range(1, 1 + sp) for i, s in
enumerate([(0, 5), (0, 15), (0, 30), (1, 0), (2, 0)])}
trakt_fail_times.update({i: s for i, s in enumerate([(3, 0), (6, 0), (12, 0), (24, 0)], len(trakt_fail_times))})
domain_fail_times = {'api.trakt.tv': trakt_fail_times}
default_fail_times = {1: (0, 15), 2: (0, 30), 3: (1, 0), 4: (2, 0), 5: (3, 0), 6: (6, 0), 7: (12, 0), 8: (24, 0)}
class ConnectionFailList(object):
def __init__(self, url):
# type: (AnyStr) -> None
self.url = url
self._fails = [] # type: List[ConnectionFail]
self.lock = threading.Lock()
self.clear_old()
self.load_list()
self.last_save = datetime.datetime.now() # type: datetime.datetime
self._failure_count = 0 # type: int
self._failure_time = None # type: Optional[datetime.datetime]
self._tmr_limit_count = 0 # type: int
self._tmr_limit_time = None # type: Optional[datetime.datetime]
self._tmr_limit_wait = None # type: Optional[datetime.timedelta]
self._last_fail_type = None # type: Optional[ConnectionFail]
self.has_limit = False # type: bool
self.fail_times = domain_fail_times.get(url, default_fail_times) # type: Dict[integer_types, Tuple[int, int]]
self._load_fail_values()
self.dirty = False # type: bool
@property
def failure_time(self):
# type: (...) -> Union[None, datetime.datetime]
return self._failure_time
@failure_time.setter
def failure_time(self, value):
if None is value or isinstance(value, datetime.datetime):
changed_val = self._failure_time != value
self._failure_time = value
if changed_val:
# noinspection PyCallByClass,PyTypeChecker
self._save_fail_value('failure_time', (_totimestamp(value), value)[None is value])
@property
def tmr_limit_count(self):
# type: (...) -> int
return self._tmr_limit_count
@tmr_limit_count.setter
def tmr_limit_count(self, value):
changed_val = self._tmr_limit_count != value
self._tmr_limit_count = value
if changed_val:
self._save_fail_value('tmr_limit_count', value)
def tmr_limit_update(self, period, unit, desc):
# type: (Optional[AnyStr], Optional[AnyStr], AnyStr) -> None
self.tmr_limit_time = datetime.datetime.now()
self.tmr_limit_count += 1
limit_set = False
if None not in (period, unit):
limit_set = True
if unit in ('s', 'sec', 'secs', 'seconds', 'second'):
self.tmr_limit_wait = datetime.timedelta(seconds=try_int(period))
elif unit in ('m', 'min', 'mins', 'minutes', 'minute'):
self.tmr_limit_wait = datetime.timedelta(minutes=try_int(period))
elif unit in ('h', 'hr', 'hrs', 'hours', 'hour'):
self.tmr_limit_wait = datetime.timedelta(hours=try_int(period))
elif unit in ('d', 'days', 'day'):
self.tmr_limit_wait = datetime.timedelta(days=try_int(period))
else:
limit_set = False
if not limit_set:
time_index = self.fail_time_index(base_limit=0)
self.tmr_limit_wait = self.wait_time(time_index)
logger.warning('Request limit reached. Waiting for %s until next retry. Message: %s' %
(self.tmr_limit_wait, desc or 'none found'))
@property
def tmr_limit_time(self):
# type: (...) -> Union[None, datetime.datetime]
return self._tmr_limit_time
@tmr_limit_time.setter
def tmr_limit_time(self, value):
if None is value or isinstance(value, datetime.datetime):
changed_val = self._tmr_limit_time != value
self._tmr_limit_time = value
if changed_val:
# noinspection PyCallByClass,PyTypeChecker
self._save_fail_value('tmr_limit_time', (_totimestamp(value), value)[None is value])
@property
def last_fail(self):
# type: (...) -> Optional[int]
try:
return sorted(self.fails, key=lambda x: x.fail_time, reverse=True)[0].fail_type
except (BaseException, Exception):
pass
@property
def failure_count(self):
# type: (...) -> int
return self._failure_count
@failure_count.setter
def failure_count(self, value):
changed_val = self._failure_count != value
self._failure_count = value
if changed_val:
self._save_fail_value('failure_count', value)
def is_waiting(self):
# type: (...) -> bool
return self.fail_newest_delta() < self.wait_time()
@property
def max_index(self):
# type: (...) -> int
return len(self.fail_times)
@property
def tmr_limit_wait(self):
# type: (...) -> Optional[datetime.timedelta]
return self._tmr_limit_wait
@tmr_limit_wait.setter
def tmr_limit_wait(self, value):
if isinstance(getattr(self, 'fails', None), ConnectionFailList) and isinstance(value, datetime.timedelta):
self.add_fail(ConnectionFail(fail_type=ConnectionFailTypes.limit))
changed_val = self._tmr_limit_wait != value
self._tmr_limit_wait = value
if changed_val:
if None is value:
self._save_fail_value('tmr_limit_wait', value)
elif isinstance(value, datetime.timedelta):
self._save_fail_value('tmr_limit_wait', value.total_seconds())
def fail_time_index(self, base_limit=2):
# type: (int) -> int
i = max(self.failure_count - base_limit, 1)
if i not in self.fail_times:
i = list(self.fail_times)[-1]
return (i, self.max_index)[i >= self.max_index]
def valid_tmr_time(self):
# type: (...) -> bool
return isinstance(self.tmr_limit_wait, datetime.timedelta) and \
isinstance(self.tmr_limit_time, datetime.datetime)
def wait_time(self, time_index=None):
# type: (Optional[int]) -> datetime.timedelta
"""
Return a suitable wait time, selected by parameter, or based on the current failure count
:param time_index: A key value index into the fail_times dict, or selects using failure count if None
:return: Time
"""
if None is time_index:
time_index = self.fail_time_index()
return datetime.timedelta(hours=self.fail_times[time_index][0], minutes=self.fail_times[time_index][1])
def fail_newest_delta(self):
# type: (...) -> datetime.timedelta
"""
Return how long since most recent failure
:return: Period since most recent failure on record
"""
try:
return datetime.datetime.now() - self.failure_time
except (BaseException, Exception):
return datetime.timedelta(days=1000)
@property
def get_next_try_time(self):
# type: (...) -> datetime.timedelta
n = None
h = datetime.timedelta(seconds=0)
f = datetime.timedelta(seconds=0)
if self.valid_tmr_time():
h = self.tmr_limit_time + self.tmr_limit_wait - datetime.datetime.now()
if 3 <= self.failure_count and isinstance(self.failure_time, datetime.datetime) and self.is_waiting():
h = self.failure_time + self.wait_time() - datetime.datetime.now()
if datetime.timedelta(seconds=0) < max((h, f)):
n = max((h, f))
return n
def retry_next(self):
if self.valid_tmr_time():
self.tmr_limit_time = datetime.datetime.now() - self.tmr_limit_wait
if 3 <= self.failure_count and isinstance(self.failure_time, datetime.datetime) and self.is_waiting():
self.failure_time = datetime.datetime.now() - self.wait_time()
@staticmethod
def fmt_delta(delta):
# type: (Union[datetime.datetime, datetime.timedelta]) -> AnyStr
return str(delta).rsplit('.')[0]
def should_skip(self, log_warning=True, use_tmr_limit=True):
# type: (bool, bool) -> bool
"""
Determine if a subsequent server request should be skipped. The result of this logic is based on most recent
server connection activity including, exhausted request limits, and counting connect failures to determine a
"cool down" period before recommending reconnection attempts; by returning False.
:param log_warning: Output to log if True (default) otherwise set False for no output.
:param use_tmr_limit: Setting this to False will ignore a tmr limit being reached and will instead return False.
:return: True for any known issue that would prevent a subsequent server connection, otherwise False.
"""
if self.valid_tmr_time():
time_left = self.tmr_limit_time + self.tmr_limit_wait - datetime.datetime.now()
if time_left > datetime.timedelta(seconds=0):
if log_warning:
logger.warning('%sToo many requests reached at %s, waiting for %s' % (
self.url, self.fmt_delta(self.tmr_limit_time), self.fmt_delta(time_left)))
return use_tmr_limit
else:
self.tmr_limit_time = None
self.tmr_limit_wait = None
if 3 <= self.failure_count:
if None is self.failure_time:
self.failure_time = datetime.datetime.now()
if self.is_waiting():
if log_warning:
time_left = self.wait_time() - self.fail_newest_delta()
logger.warning('Failed %s times, skipping domain %s for %s, '
'last failure at %s with fail type: %s' %
(self.failure_count, self.url, self.fmt_delta(time_left),
self.fmt_delta(self.failure_time), ConnectionFailTypes.names.get(
self.last_fail, ConnectionFailTypes.names[ConnectionFailTypes.other])))
return True
return False
@property
def fails(self):
# type: (...) -> List
return self._fails
@property
def fails_sorted(self):
# type: (...) -> List
fail_dict = {}
b_d = {'count': 0}
for e in self._fails:
fail_date = e.fail_time.date()
fail_hour = e.fail_time.time().hour
date_time = datetime.datetime.combine(fail_date, datetime.time(hour=fail_hour))
if ConnectionFailTypes.names[e.fail_type] not in fail_dict.get(date_time, {}):
default = {'date': str(fail_date), 'date_time': date_time,
'timestamp': try_int(_totimestamp(e.fail_time)), 'multirow': False}
for et in itervalues(ConnectionFailTypes.names):
default[et] = b_d.copy()
fail_dict.setdefault(date_time, default)[ConnectionFailTypes.names[e.fail_type]]['count'] = 1
else:
fail_dict[date_time][ConnectionFailTypes.names[e.fail_type]]['count'] += 1
if ConnectionFailTypes.http == e.fail_type:
if e.code in fail_dict[date_time].get(ConnectionFailTypes.names[e.fail_type],
{'code': {}}).get('code', {}):
fail_dict[date_time][ConnectionFailTypes.names[e.fail_type]]['code'][e.code] += 1
else:
fail_dict[date_time][ConnectionFailTypes.names[e.fail_type]].setdefault('code', {})[e.code] = 1
row_count = {}
for (k, v) in iteritems(fail_dict):
row_count.setdefault(v.get('date'), 0)
if v.get('date') in row_count:
row_count[v.get('date')] += 1
for (k, v) in iteritems(fail_dict):
if 1 < row_count.get(v.get('date')):
fail_dict[k]['multirow'] = True
fail_list = sorted([fail_dict[k] for k in iterkeys(fail_dict)], key=lambda y: y.get('date_time'), reverse=True)
totals = {}
for fail_date in set([fail.get('date') for fail in fail_list]):
daytotals = {}
for et in itervalues(ConnectionFailTypes.names):
daytotals.update({et: sum([x.get(et).get('count') for x in fail_list if fail_date == x.get('date')])})
totals.update({fail_date: daytotals})
for (fail_date, total) in iteritems(totals):
for i, item in enumerate(fail_list):
if fail_date == item.get('date'):
if item.get('multirow'):
fail_list[i:i] = [item.copy()]
for et in itervalues(ConnectionFailTypes.names):
fail_list[i][et] = {'count': total[et]}
if et == ConnectionFailTypes.names[ConnectionFailTypes.http]:
fail_list[i][et]['code'] = {}
break
return fail_list
def add_fail(self,
fail # type: ConnectionFail
):
if isinstance(fail, ConnectionFail):
with self.lock:
self.dirty = True
self._fails.append(fail)
logger.debug('Adding fail.%s for %s' % (ConnectionFailTypes.names.get(
fail.fail_type, ConnectionFailTypes.names[ConnectionFailTypes.other]), self.url))
self.save_list()
def _load_fail_values(self):
if None is not DATA_DIR:
my_db = db.DBConnection('cache.db')
if my_db.hasTable('connection_fails_count'):
r = my_db.select('SELECT * FROM connection_fails_count WHERE domain_url = ?', [self.url])
if r:
self._failure_count = try_int(r[0]['failure_count'], 0)
if r[0]['failure_time']:
self._failure_time = datetime.datetime.fromtimestamp(r[0]['failure_time'])
else:
self._failure_time = None
self._tmr_limit_count = try_int(r[0]['tmr_limit_count'], 0)
if r[0]['tmr_limit_time']:
self._tmr_limit_time = datetime.datetime.fromtimestamp(r[0]['tmr_limit_time'])
else:
self._tmr_limit_time = None
if r[0]['tmr_limit_wait']:
self._tmr_limit_wait = datetime.timedelta(seconds=try_int(r[0]['tmr_limit_wait'], 0))
else:
self._tmr_limit_wait = None
self._last_fail_type = self.last_fail
def _save_fail_value(self, field, value):
my_db = db.DBConnection('cache.db')
if my_db.hasTable('connection_fails_count'):
r = my_db.action('UPDATE connection_fails_count SET %s = ? WHERE domain_url = ?' % field,
[value, self.url])
if 0 == r.rowcount:
my_db.action('REPLACE INTO connection_fails_count (domain_url, %s) VALUES (?,?)' % field,
[self.url, value])
def save_list(self):
if self.dirty:
self.clear_old()
if None is not db:
with self.lock:
try:
my_db = db.DBConnection('cache.db')
cl = []
for f in self._fails:
cl.append(['INSERT OR IGNORE INTO connection_fails (domain_url, fail_type, fail_code, '
'fail_time) '
'VALUES (?,?,?,?)', [self.url, f.fail_type, f.code,
_totimestamp(f.fail_time)]])
self.dirty = False
if cl:
my_db.mass_action(cl)
except (BaseException, Exception):
pass
self.last_save = datetime.datetime.now()
def load_list(self):
if None is not db:
with self.lock:
try:
my_db = db.DBConnection('cache.db')
if my_db.hasTable('connection_fails'):
results = my_db.select('SELECT * FROM connection_fails WHERE domain_url = ?', [self.url])
self._fails = []
for r in results:
try:
self._fails.append(ConnectionFail(
fail_type=try_int(r['fail_type']), code=try_int(r['fail_code']),
fail_time=datetime.datetime.fromtimestamp(try_int(r['fail_time']))))
except (BaseException, Exception):
continue
except (BaseException, Exception):
pass
def clear_old(self):
if None is not db:
with self.lock:
try:
my_db = db.DBConnection('cache.db')
if my_db.hasTable('connection_fails'):
# noinspection PyCallByClass,PyTypeChecker
time_limit = _totimestamp(datetime.datetime.now() - datetime.timedelta(days=28))
my_db.action('DELETE FROM connection_fails WHERE fail_time < ?', [time_limit])
except (BaseException, Exception):
pass
def _totimestamp(dt=None):
# type: (Optional[datetime.datetime]) -> integer_types
""" This function should only be used in this module due to its 1970s+ limitation as that's all we need here and
sgdatatime can't be used at this module level
"""
try:
if PY2:
import time
return int(time.mktime(dt.timetuple()))
return int(datetime.datetime.timestamp(dt))
except (BaseException, Exception):
return 0
def _log_failure_url(url, post_data=None, post_json=None):
# type: (AnyStr, Optional[AnyStr], Optional[AnyStr]) -> None
if DOMAIN_FAILURES.should_skip(url, log_warning=False):
post = []
if post_data:
post += [' .. Post params: [%s]' % '&'.join([post_data])]
if post_json:
post += [' .. Json params: [%s]' % '&'.join([post_json])]
logger.warning('Failure URL: %s%s' % (url, ''.join(post)))
# try to convert to int, if the value is not already int
def try_ord(c):
# type: (Union[int, chr]) -> int
if isinstance(c, int):
return c
return ord(c)
# try to convert to int, if it fails the default will be returned
def try_int(s, s_default=0):
try:
return int(s)
except (BaseException, Exception):
return s_default
def _maybe_request_url(e, def_url=''):
return hasattr(e, 'request') and hasattr(e.request, 'url') and ' ' + e.request.url or def_url
def clean_data(data):
# type: (Any) -> Any
"""Cleans up strings, lists, dicts returned
Issues corrected:
- Replaces &amp; with &
- Trailing whitespace
- Decode html entities
:param data: data
:type data: List or Dict or AnyStr
:return:
:rtype: List or Dict or AnyStr
"""
if isinstance(data, list):
return [clean_data(d) for d in data]
if isinstance(data, set):
return set(clean_data(d) for d in data)
if isinstance(data, dict):
return {k: clean_data(v) for k, v in iteritems(data)}
if isinstance(data, string_types):
return unicodedata.normalize('NFKD', html_unescape(data).strip().replace(u'&amp;', u'&'))
return data
def get_system_temp_dir():
"""
:return: Returns the [system temp dir]/tvdb_api-u501 (or tvdb_api-myuser)
:rtype: AnyStr
"""
if hasattr(os, 'getuid'):
uid = 'u%d' % (os.getuid())
else:
# For Windows
try:
uid = getpass.getuser()
except ImportError:
return ek.ek(os.path.join, tempfile.gettempdir(), 'SickGear')
return ek.ek(os.path.join, tempfile.gettempdir(), 'SickGear-%s' % uid)
def proxy_setting(setting, request_url, force=False):
"""
Returns a list of a) proxy_setting address value or a PAC is fetched and parsed if proxy_setting
starts with "PAC:" (case-insensitive) and b) True/False if "PAC" is found in the proxy_setting.
The PAC data parser is crude, javascript is not eval'd. The first "PROXY URL" found is extracted with a list
of "url_a_part.url_remaining", "url_b_part.url_remaining", "url_n_part.url_remaining" and so on.
Also, PAC data items are escaped for matching therefore regular expression items will not match a request_url.
If force is True or request_url contains a PAC parsed data item then the PAC proxy address is returned else False.
None is returned in the event of an error fetching PAC data.
"""
# check for "PAC" usage
match = re.search(r'^\s*PAC:\s*(.*)', setting, re.I)
if not match:
return setting, False
pac_url = match.group(1)
# prevent a recursive test with existing proxy setting when fetching PAC url
global PROXY_SETTING
proxy_setting_backup = PROXY_SETTING
PROXY_SETTING = ''
resp = ''
try:
resp = get_url(pac_url)
except (BaseException, Exception):
pass
PROXY_SETTING = proxy_setting_backup
if not resp:
return None, False
proxy_address = None
request_url_match = False
parsed_url = urlparse(request_url)
netloc = parsed_url.netloc
for pac_data in re.finditer(r"""(?:[^'"]*['"])([^.]+\.[^'"]*)(?:['"])""", resp, re.I):
data = re.search(r"""PROXY\s+([^'"]+)""", pac_data.group(1), re.I)
if data:
if force:
return data.group(1), True
# noinspection PyUnresolvedReferences
proxy_address = (proxy_address, data.group(1))[None is proxy_address]
elif re.search(re.escape(pac_data.group(1)), netloc, re.I):
request_url_match = True
if None is not proxy_address:
break
if None is proxy_address:
return None, True
return (False, proxy_address)[request_url_match], True
def get_url(url, # type: AnyStr
post_data=None, # type: Optional
params=None, # type: Optional
headers=None, # type: Optional[Dict]
timeout=30, # type: int
session=None, # type: Optional[requests.Session]
parse_json=False, # type: bool
memcache_cookies=None, # type: dict
raise_status_code=False, # type: bool
raise_exceptions=False, # type: bool
as_binary=False, # type: bool
encoding=None, # type: Optional[AnyStr]
failure_monitor=True, # type: bool
use_tmr_limit=True, # type: bool
raise_skip_exception=False, # type: bool
exclude_client_http_codes=True, # type: bool
exclude_http_codes=(404, 429), # type: Tuple[integer_types]
exclude_no_data=True, # type: bool
use_method=None, # type: Optional[AnyStr]
return_response=False, # type: bool
**kwargs):
# type: (...) -> Optional[Union[AnyStr, bool, bytes, Dict, Tuple[Union[Dict, List], requests.Session], requests.Response]]
"""
Return data from a URI with a possible check for authentication prior to the data fetch.
Raised errors and no data in responses are tracked for making future logic decisions.
# param url_solver=sickgear.FLARESOLVERR_HOST must be passed if url is behind CF for use in cf_scrape/__init__.py
Returned data is either:
1) a byte-string retrieved from the URL provider.
2) a boolean if successfully used kwargs 'savefile' set to file pathname.
3) JSON dict if parse_json is True, and `Requests::session` when kwargs 'resp_sess' True.
4) `Requests::response`, and `Requests::session` when kwargs 'resp_sess' is True.
:param url: address to request fetch data from
:param post_data: if this or `post_json` is set, then request POST method is used to send this data
:param params:
:param headers: headers to add
:param timeout: timeout
:param session: optional session object
:param parse_json: return JSON Dict
:param memcache_cookies: memory persistent store for cookies
:param raise_status_code: raise exception for status codes
:param raise_exceptions: raise exceptions
:param as_binary: return bytes instead of text
:param encoding: overwrite encoding return header if as_binary is False
:param failure_monitor: if True, will enable failure monitor for this request
:param use_tmr_limit: an API limit can be +ve before a fetch, but unwanted, set False to short should_skip
:param raise_skip_exception: if True, will raise ConnectionSkipException if this request should be skipped
:param exclude_client_http_codes: if True, exclude client http codes 4XX from failure monitor
:param exclude_http_codes: http codes to exclude from failure monitor, default: (404, 429)
:param exclude_no_data: exclude no data as failure
:param use_method: force any supported method by Session(): get, put, post, delete
:param return_response: return response object
:param kwargs: keyword params to passthru to Requests
:return: None or data fetched from address
"""
domain = None
if failure_monitor:
domain = DOMAIN_FAILURES.get_domain(url)
if domain not in DOMAIN_FAILURES.domain_list:
DOMAIN_FAILURES.domain_list[domain] = ConnectionFailList(domain)
if DOMAIN_FAILURES.should_skip(url, use_tmr_limit=use_tmr_limit):
if raise_skip_exception:
raise ConnectionSkipException
return
response_attr = ('text', 'content')[as_binary]
# selectively mute some errors
mute = filter_list(lambda x: kwargs.pop(x, False), [
'mute_connect_err', 'mute_read_timeout', 'mute_connect_timeout', 'mute_http_error'])
# reuse or instantiate request session
resp_sess = kwargs.pop('resp_sess', None)
if None is session:
session = CloudflareScraper.create_scraper()
session.headers.update({'User-Agent': USER_AGENT})
proxy_browser = kwargs.get('proxy_browser')
if isinstance(memcache_cookies, dict):
parsed_url = urlparse(url)
domain = parsed_url.netloc
if domain in memcache_cookies:
session.cookies.update(memcache_cookies[domain])
# download and save file or simply fetch url
savename = kwargs.pop('savename', None)
if savename:
# session streaming
session.stream = True
if not kwargs.pop('nocache', False):
cache_dir = CACHE_DIR or get_system_temp_dir()
session = CacheControl(sess=session, cache=caches.FileCache(ek.ek(os.path.join, cache_dir, 'sessions')))
provider = kwargs.pop('provider', None)
# handle legacy uses of `json` param
if kwargs.get('json'):
parse_json = kwargs.pop('json')
post_json = kwargs.pop('post_json', None)
# session main headers
req_headers = {'Accept': 'text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8',
'Accept-Encoding': 'gzip,deflate'}
if headers:
req_headers.update(headers)
if hasattr(session, 'reserved') and 'headers' in session.reserved:
req_headers.update(session.reserved['headers'] or {})
session.headers.update(req_headers)
# session parameters
session.params = params
# session ssl verify
session.verify = False
# don't trust os environments (auth, proxies, ...)
session.trust_env = False
result = response = raised = connection_fail_params = log_failure_url = None
try:
# sanitise url
parsed = list(urlparse(url))
parsed[2] = re.sub('/{2,}', '/', parsed[2]) # replace two or more / with one
url = urlunparse(parsed)
# session proxies
if PROXY_SETTING:
(proxy_address, pac_found) = proxy_setting(PROXY_SETTING, url)
msg = '%sproxy for url: %s' % (('', 'PAC parsed ')[pac_found], url)
if None is proxy_address:
logger.debug('Proxy error, aborted the request using %s' % msg)
return
elif proxy_address:
logger.debug('Using %s' % msg)
session.proxies = {'http': proxy_address, 'https': proxy_address}
if None is not use_method:
method = getattr(session, use_method.strip().lower())
elif post_data or post_json: # decide if to post data or send a get request to server
if True is post_data:
post_data = None
if post_data:
kwargs.setdefault('data', post_data)
if post_json:
kwargs.setdefault('json', post_json)
method = session.post
else:
method = session.get
for r in range(0, 5):
response = method(url, timeout=timeout, **kwargs)
if not savename and response.ok and not response.content:
if 'url=' in response.headers.get('Refresh', '').lower():
url = response.headers.get('Refresh').lower().split('url=')[1].strip('/')
if not url.startswith('http'):
parsed[2] = '/%s' % url
url = urlunparse(parsed)
response = session.get(url, timeout=timeout, **kwargs)
elif 'github' in url:
time.sleep(2)
continue
break
# if encoding is not in header try to use best guess
# ignore downloads with savename
if not savename and not as_binary:
if encoding:
response.encoding = encoding
elif not response.encoding or 'charset' not in response.headers.get('Content-Type', ''):
response.encoding = response.apparent_encoding
# noinspection PyProtectedMember
if provider and provider._has_signature(response.text):
result = getattr(response, response_attr)
else:
if raise_status_code:
response.raise_for_status()
if not response.ok:
http_err_text = 'CloudFlare Ray ID' in response.text and \
'CloudFlare reports, "Website is offline"; ' or ''
if response.status_code in http_error_code:
http_err_text += http_error_code[response.status_code]
elif response.status_code in range(520, 527):
http_err_text += 'Origin server connection failure'
else:
http_err_text = 'Custom HTTP error code'
if 'mute_http_error' not in mute:
logger.debug(u'Response not ok. %s: %s from requested url %s'
% (response.status_code, http_err_text, url))
except requests.exceptions.HTTPError as e:
raised = e
is_client_error = 400 <= e.response.status_code < 500
if failure_monitor and e.response.status_code not in exclude_http_codes and \
not (exclude_client_http_codes and is_client_error):
connection_fail_params = dict(fail_type=ConnectionFailTypes.http, code=e.response.status_code)
if not raise_status_code:
logger.warning(u'HTTP error %s while loading URL%s' % (e.errno, _maybe_request_url(e)))
except requests.exceptions.ConnectionError as e:
raised = e
if 'mute_connect_err' not in mute:
logger.warning(u'Connection error msg:%s while loading URL%s' % (ex(e), _maybe_request_url(e)))
if failure_monitor:
connection_fail_params = dict(fail_type=ConnectionFailTypes.connection)
except requests.exceptions.ReadTimeout as e:
raised = e
if 'mute_read_timeout' not in mute:
logger.warning(u'Read timed out msg:%s while loading URL%s' % (ex(e), _maybe_request_url(e)))
if failure_monitor:
connection_fail_params = dict(fail_type=ConnectionFailTypes.timeout)
except (requests.exceptions.Timeout, socket.timeout) as e:
raised = e
if 'mute_connect_timeout' not in mute:
logger.warning(u'Connection timed out msg:%s while loading URL %s' % (ex(e), _maybe_request_url(e, url)))
if failure_monitor:
connection_fail_params = dict(fail_type=ConnectionFailTypes.connection_timeout)
except (BaseException, Exception) as e:
raised = e
logger.warning((u'Exception caught while loading URL {0}\r\nDetail... %s\r\n{1}' % ex(e),
u'Unknown exception while loading URL {0}\r\nDetail... {1}')[not ex(e)]
.format(url, traceback.format_exc()))
if failure_monitor:
connection_fail_params = dict(fail_type=ConnectionFailTypes.other)
log_failure_url = True
finally:
if None is not connection_fail_params:
DOMAIN_FAILURES.inc_failure_count(url, ConnectionFail(**connection_fail_params))
save_failure(url, domain, log_failure_url, post_data, post_json)
if isinstance(raised, Exception):
if raise_exceptions or raise_status_code:
try:
if not hasattr(raised, 'text') and hasattr(response, 'text'):
raised.text = response.text
except (BaseException, Exception):
pass
raise raised
return
if return_response:
result = response
elif None is result and None is not response and response.ok:
if isinstance(memcache_cookies, dict):
parsed_url = urlparse(url)
domain = parsed_url.netloc
memcache_cookies[domain] = session.cookies.copy()
if parse_json or proxy_browser:
try:
data_json = json_loads(requests_response=response)
if proxy_browser:
result = ({}, data_json.get('solution', {}).get('response', {}))[isinstance(data_json, dict)]
else:
result = ({}, data_json)[isinstance(data_json, (dict, list))]
if resp_sess:
result = result, session
except (TypeError, Exception) as e:
raised = e
logger.warning(u'%s data issue from URL %s\r\nDetail... %s' % (
('Proxy browser', 'JSON')[parse_json], url, ex(e)))
elif savename:
try:
write_file(savename, response, raw=True, raise_exceptions=raise_exceptions)
result = True
except (BaseException, Exception) as e:
raised = e
else:
result = getattr(response, response_attr)
if resp_sess:
result = result, session
if raise_exceptions and isinstance(raised, Exception):
raise raised
if failure_monitor:
if return_response or (result and not isinstance(result, tuple)
or isinstance(result, tuple) and result[0]):
domain = DOMAIN_FAILURES.get_domain(url)
if 0 != DOMAIN_FAILURES.domain_list[domain].failure_count:
logger.info('Unblocking: %s' % domain)
DOMAIN_FAILURES.domain_list[domain].failure_count = 0
DOMAIN_FAILURES.domain_list[domain].failure_time = None
save_failure(url, domain, False, post_data, post_json)
elif not exclude_no_data:
DOMAIN_FAILURES.inc_failure_count(url, ConnectionFail(fail_type=ConnectionFailTypes.nodata))
save_failure(url, domain, True, post_data, post_json)
return result
def save_failure(url, domain, log_failure_url, post_data, post_json):
DOMAIN_FAILURES.domain_list[domain].save_list()
if log_failure_url:
_log_failure_url(url, post_data, post_json)
def scantree(path, # type: AnyStr
exclude=None, # type: Optional[AnyStr, List[AnyStr]]
include=None, # type: Optional[AnyStr, List[AnyStr]]
follow_symlinks=False, # type: bool
filter_kind=None, # type: Optional[bool]
recurse=True # type: bool
):
# type: (...) -> Generator[DirEntry, None, None]
"""Yield DirEntry objects for given path. Returns without yield if path fails sanity check
:param path: Path to scan, sanity check is_dir and exists
:param exclude: Escaped regex string(s) to exclude
:param include: Escaped regex string(s) to include
:param follow_symlinks: Follow symlinks
:param filter_kind: None to yield everything, True yields directories, False yields files
:param recurse: Recursively scan the tree
"""
if isinstance(path, string_types) and path and ek.ek(os.path.isdir, path):
rc_exc, rc_inc = [re.compile(rx % '|'.join(
[x for x in (param, ([param], [])[None is param])[not isinstance(param, list)]]))
for rx, param in ((r'(?i)^(?:(?!%s).)*$', exclude), (r'(?i)%s', include))]
for entry in ek.ek(scandir, path):
is_dir = entry.is_dir(follow_symlinks=follow_symlinks)
is_file = entry.is_file(follow_symlinks=follow_symlinks)
no_filter = any([None is filter_kind, filter_kind and is_dir, not filter_kind and is_file])
if (rc_exc.search(entry.name), True)[not exclude] and (rc_inc.search(entry.name), True)[not include] \
and (no_filter or (not filter_kind and is_dir and recurse)):
if recurse and is_dir:
for subentry in scantree(entry.path, exclude, include, follow_symlinks, filter_kind, recurse):
yield subentry
if no_filter:
yield entry
def copy_file(src_file, dest_file):
if os.name.startswith('posix'):
ek.ek(subprocess.call, ['cp', src_file, dest_file])
else:
ek.ek(shutil.copyfile, src_file, dest_file)
try:
ek.ek(shutil.copymode, src_file, dest_file)
except OSError:
pass
def move_file(src_file, dest_file, raise_exceptions=False):
try:
ek.ek(shutil.move, src_file, dest_file)
fix_set_group_id(dest_file)
except OSError:
copy_file(src_file, dest_file)
if ek.ek(os.path.exists, dest_file):
fix_set_group_id(dest_file)
ek.ek(os.unlink, src_file)
elif raise_exceptions:
raise OSError('Destination file could not be created: %s' % dest_file)
def fix_set_group_id(child_path):
"""
:param child_path: path
:type child_path: AnyStr
:return:
:rtype: None
"""
if os.name in ('nt', 'ce'):
return
parent_path = ek.ek(os.path.dirname, child_path)
parent_stat = ek.ek(os.stat, parent_path)
parent_mode = stat.S_IMODE(parent_stat[stat.ST_MODE])
if parent_mode & stat.S_ISGID:
parent_gid = parent_stat[stat.ST_GID]
child_stat = ek.ek(os.stat, child_path)
child_gid = child_stat[stat.ST_GID]
if child_gid == parent_gid:
return
child_path_owner = child_stat.st_uid
user_id = os.geteuid() # only available on UNIX
if 0 != user_id and user_id != child_path_owner:
logger.debug(u'Not running as root or owner of %s, not trying to set the set-group-id' % child_path)
return
try:
ek.ek(os.chown, child_path, -1, parent_gid) # only available on UNIX
logger.debug(u'Respecting the set-group-ID bit on the parent directory for %s' % child_path)
except OSError:
logger.error(u'Failed to respect the set-group-id bit on the parent directory for %s (setting group id %i)'
% (child_path, parent_gid))
def remove_file_perm(filepath, log_err=True):
# type: (AnyStr, Optional[bool]) -> Optional[bool]
"""
Remove file
:param filepath: Path and file name
:param log_err: False to suppress log msgs
:return True if filepath does not exist else None if no removal
"""
if not ek.ek(os.path.exists, filepath):
return True
for t in list_range(10): # total seconds to wait 0 - 9 = 45s over 10 iterations
try:
ek.ek(os.remove, filepath)
except OSError as e:
if getattr(e, 'winerror', 0) not in (5, 32): # 5=access denied (e.g. av), 32=another process has lock
if log_err:
logger.warning('Unable to delete %s: %r / %s' % (filepath, e, ex(e)))
return
except (BaseException, Exception):
pass
time.sleep(t)
if not ek.ek(os.path.exists, filepath):
return True
if log_err:
logger.warning('Unable to delete %s' % filepath)
def remove_file(filepath, tree=False, prefix_failure='', log_level=logging.INFO):
"""
Remove file based on setting for trash v permanent delete
:param filepath: Path and file name
:type filepath: String
:param tree: Remove file tree
:type tree: Bool
:param prefix_failure: Text to prepend to error log, e.g. show id
:type prefix_failure: String
:param log_level: Log level to use for error
:type log_level: Int
:return: Type of removal ('Deleted' or 'Trashed') if filepath does not exist or None if no removal occurred
:rtype: String or None
"""
result = None
if filepath:
for t in list_range(10): # total seconds to wait 0 - 9 = 45s over 10 iterations
try:
result = 'Deleted'
if TRASH_REMOVE_SHOW:
result = 'Trashed'
ek.ek(send2trash, filepath)
elif tree:
ek.ek(shutil.rmtree, filepath)
else:
ek.ek(os.remove, filepath)
except OSError as e:
if getattr(e, 'winerror', 0) not in (5, 32): # 5=access denied (e.g. av), 32=another process has lock
logger.log(level=log_level, msg=u'%sUnable to %s %s %s: %s' %
(prefix_failure, ('delete', 'trash')[TRASH_REMOVE_SHOW],
('file', 'dir')[tree], filepath, ex(e)))
break
time.sleep(t)
if not ek.ek(os.path.exists, filepath):
break
return (None, result)[filepath and not ek.ek(os.path.exists, filepath)]
def touch_file(name, atime=None, dir_name=None):
# type: (AnyStr, int, AnyStr) -> bool
"""
create an empty named file and set access time of file
:param name: filename to touch with time
:param atime: access time as epoch
:param dir_name: create empty file and directory if file doesn't exist
:return: success
"""
if None is not dir_name:
name = ek.ek(os.path.join, dir_name, name)
if make_path(dir_name):
if not ek.ek(os.path.exists, name):
with io.open(name, 'w') as fh:
fh.flush()
if None is atime:
return True
if None is not atime:
try:
with open(name, 'a'):
ek.ek(os.utime, name, (atime, atime))
return True
except (BaseException, Exception):
logger.debug('File air date stamping not available on your OS')
return False
def make_path(name, syno=False):
# type: (AnyStr, bool) -> bool
"""
Create an entire directory path and
assign each subdir the parent permission
:param name: directory to create
:param syno: whether to trigger a syno library update for path
:return: success or dir exists
"""
if not ek.ek(os.path.isdir, name):
# Windows, create all missing folders
if os.name in ('nt', 'ce'):
try:
logger.debug(u'Path %s doesn\'t exist, creating it' % name)
ek.ek(os.makedirs, name)
except (OSError, IOError) as e:
logger.error(u'Failed creating %s : %s' % (name, ex(e)))
return False
# not Windows, create all missing folders and set permissions
else:
sofar = ''
folder_list = name.split(os.path.sep)
# look through each sub folder and make sure they all exist
for cur_folder in folder_list:
sofar += cur_folder + os.path.sep
# if it exists then just keep walking down the line
if ek.ek(os.path.isdir, sofar):
continue
try:
logger.debug(u'Path %s doesn\'t exist, creating it' % sofar)
ek.ek(os.mkdir, sofar)
# use normpath to remove end separator, otherwise checks permissions against itself
chmod_as_parent(ek.ek(os.path.normpath, sofar))
if syno:
# do the library update for synoindex
NOTIFIERS.NotifierFactory().get('SYNOINDEX').addFolder(sofar)
except (OSError, IOError) as e:
logger.error(u'Failed creating %s : %s' % (sofar, ex(e)))
return False
return True
def chmod_as_parent(child_path):
"""
:param child_path: path
:type child_path: AnyStr
:return:
:rtype: None
"""
if os.name in ('nt', 'ce'):
return
parent_path = ek.ek(os.path.dirname, child_path)
if not parent_path:
logger.debug(u'No parent path provided in %s, unable to get permissions from it' % child_path)
return
parent_path_stat = ek.ek(os.stat, parent_path)
parent_mode = stat.S_IMODE(parent_path_stat[stat.ST_MODE])
child_path_stat = ek.ek(os.stat, child_path)
child_path_mode = stat.S_IMODE(child_path_stat[stat.ST_MODE])
if ek.ek(os.path.isfile, child_path):
child_mode = file_bit_filter(parent_mode)
else:
child_mode = parent_mode
if child_path_mode == child_mode:
return
child_path_owner = child_path_stat.st_uid
user_id = os.geteuid() # only available on UNIX
if 0 != user_id and user_id != child_path_owner:
logger.debug(u'Not running as root or owner of %s, not trying to set permissions' % child_path)
return
try:
ek.ek(os.chmod, child_path, child_mode)
logger.debug(u'Setting permissions for %s to %o as parent directory has %o'
% (child_path, child_mode, parent_mode))
except OSError:
logger.error(u'Failed to set permission for %s to %o' % (child_path, child_mode))
def file_bit_filter(mode):
for bit in [stat.S_IXUSR, stat.S_IXGRP, stat.S_IXOTH, stat.S_ISUID, stat.S_ISGID]:
if mode & bit:
mode -= bit
return mode
def write_file(filepath, # type: AnyStr
data, # type: Union[AnyStr, etree.Element, requests.Response]
raw=False, # type: bool
xmltree=False, # type: bool
xml_header=False, # type: bool
utf8=False, # type: bool
raise_exceptions=False # type: bool
): # type: (...) -> bool
"""
:param filepath: filepath
:param data: data to write
:param raw: write binary or text
:param xmltree: use xmel tree
:param xml_header: prepend xmel header
:param utf8: use UTF8
:param raise_exceptions: raise excepitons
:return: succuess
"""
result = False
if make_path(ek.ek(os.path.dirname, filepath)):
try:
if raw:
empty_file = True
with ek.ek(io.FileIO, filepath, 'wb') as fh:
for chunk in data.iter_content(chunk_size=1024):
if chunk:
empty_file = False
fh.write(chunk)
fh.flush()
ek.ek(os.fsync, fh.fileno())
if empty_file:
remove_file_perm(filepath, log_err=False)
return result
else:
w_mode = 'w'
if utf8:
w_mode = 'a'
with ek.ek(io.FileIO, filepath, 'wb') as fh:
fh.write(codecs.BOM_UTF8)
if xmltree:
with ek.ek(io.FileIO, filepath, w_mode) as fh:
params = {}
if utf8:
params = dict(encoding='utf-8')
if xml_header:
params.update(dict(xml_declaration=True))
data.write(fh, **params)
else:
if isinstance(data, text_type):
with ek.ek(io.open, filepath, w_mode, encoding='utf-8') as fh:
fh.write(data)
else:
with ek.ek(io.FileIO, filepath, w_mode) as fh:
fh.write(data)
chmod_as_parent(filepath)
result = True
except (EnvironmentError, IOError) as e:
logger.error('Unable to write file %s : %s' % (filepath, ex(e)))
if raise_exceptions:
raise e
return result
def sanitize_filename(name):
"""
:param name: filename
:type name: AnyStr
:return: sanitized filename
:rtype: AnyStr
"""
# remove bad chars from the filename
name = re.sub(r'[\\/*]', '-', name)
name = re.sub(r'[:"<>|?]', '', name)
# remove leading/trailing periods and spaces
name = name.strip(' .')
for char in REMOVE_FILENAME_CHARS or []:
name = name.replace(char, '')
return name
def replace_extension(filename, new_ext):
# type: (AnyStr, AnyStr) -> AnyStr
"""
:param filename: filename
:param new_ext: new extension
:return: filename with new extension
"""
sep_file = filename.rpartition('.')
if '' == sep_file[0]:
return filename
return '%s.%s' % (sep_file[0], new_ext)
def long_path(path):
# type: (AnyStr) -> AnyStr
"""add long path prefix for Windows"""
if 'nt' == os.name and 260 < len(path) and not path.startswith('\\\\?\\') and ek.ek(os.path.isabs, path):
return '\\\\?\\' + path
return path
def compress_file(target, filename, prefer_7z=True, remove_source=True):
# type: (AnyStr, AnyStr, bool, bool) -> bool
"""
compress given file to zip or 7z archive
:param target: file to compress with full path
:param filename: filename inside the archive
:param prefer_7z: prefer 7z over zip compression if available
:param remove_source: remove source file after successful creation of archive
:return: success of compression
"""
try:
if prefer_7z and None is not py7zr:
z_name = '%s.7z' % target.rpartition('.')[0]
# noinspection PyUnresolvedReferences
with py7zr.SevenZipFile(z_name, 'w') as z_file:
z_file.write(target, filename)
else:
zip_name = '%s.zip' % target.rpartition('.')[0]
with zipfile.ZipFile(zip_name, 'w', zipfile.ZIP_DEFLATED) as zip_fh:
zip_fh.write(target, filename)
except (BaseException, Exception) as e:
logger.error('error compressing %s' % target)
logger.debug('traceback: %s' % ex(e))
return False
if remove_source:
remove_file_perm(target)
return True
def cmdline_runner(cmd, shell=False, suppress_stderr=False, env=None):
# type: (Union[AnyStr, List[AnyStr]], bool, bool, Dict) -> Tuple[AnyStr, Optional[AnyStr], int]
""" Execute a child program in a new process.
Can raise an exception to be caught in callee
:param cmd: A string, or a sequence of program arguments
:param shell: If true, the command will be executed through the shell.
:param suppress_stderr: Suppress stderr output if True
:param env: added env vars
"""
# noinspection PyUnresolvedReferences
kw = dict(cwd=PROG_DIR, shell=shell, stdin=subprocess.PIPE, stdout=subprocess.PIPE,
stderr=(open(os.devnull, 'w') if PY2 else subprocess.DEVNULL, subprocess.STDOUT)[not suppress_stderr])
if isinstance(env, dict):
kw.update(env=dict(os.environ, **env))
if not PY2:
kw.update(dict(encoding=ek.SYS_ENCODING, text=True, bufsize=0))
if 'win32' == sys.platform:
kw['creationflags'] = 0x08000000 # CREATE_NO_WINDOW (needed for py2exe)
with Popen(cmd, **kw) as p:
out, err = p.communicate()
if out:
out = out.strip()
return out, err, p.returncode
def md5_for_text(text):
"""
:param text: test
:type text: AnyStr
:return:
:rtype: AnyStr or None
"""
result = None
try:
md5 = hashlib.md5()
md5.update(decode_bytes(str(text)))
raw_md5 = md5.hexdigest()
result = raw_md5[17:] + raw_md5[9:17] + raw_md5[0:9]
except (BaseException, Exception):
pass
return result
def maybe_plural(subject=1):
"""
returns 's' or '' depending on numeric subject or length of subject
:param subject: number or list or dict
:type subject: int or list or dict
:return: returns s or ''
:rtype: AnyStr
"""
number = subject if not isinstance(subject, (list, dict)) else len(subject)
return ('s', '')[1 == number]
def time_to_int(dt):
# type: (Union[datetime.time, None]) -> Optional[integer_types]
"""
converts datetime.time to integer (hour + minute only)
:param dt: datetime.time obj
:return: integer of hour + min
"""
if None is dt:
return None
try:
return dt.hour * 100 + dt.minute
except (BaseException, Exception):
return 0
def int_to_time(d_int):
# type: (Union[integer_types, None]) -> Optional[datetime.time]
"""
convert integer from dt_to_int back to datetime.time
:param d_int: integer
:return: datetime.time
"""
if None is d_int:
return None
if isinstance(d_int, integer_types):
try:
return datetime.time(*divmod(d_int, 100))
except (BaseException, Exception):
pass
return datetime.time(hour=0, minute=0)
def indent_xml(elem, level=0):
"""
Does our pretty printing, makes Matt very happy
"""
i = '\n' + level * ' '
if len(elem):
if not elem.text or not ('%s' % elem.text).strip():
elem.text = i + ' '
if not elem.tail or not elem.tail.strip():
elem.tail = i
for elem in elem:
indent_xml(elem, level + 1)
if not elem.tail or not elem.tail.strip():
elem.tail = i
else:
# Strip out the newlines from text
if elem.text:
elem.text = ('%s' % elem.text).replace('\n', ' ')
if level and (not elem.tail or not elem.tail.strip()):
elem.tail = i
def ast_eval(value, default=None):
# type: (AnyStr, Any) -> Any
"""Convert string typed value into actual Python type and value
:param value: string value to convert
:param default: value to return if cannot convert
:return: converted type and value or default
"""
if not isinstance(value, string_types):
return default
if 'OrderedDict()' == value:
value = ordered_dict()
elif 'OrderedDict([(' == value[0:14]:
try:
list_of_tuples = ast.literal_eval(value[12:-1])
value = ordered_dict()
for cur_tuple in list_of_tuples:
value[cur_tuple[0]] = cur_tuple[1]
except (BaseException, Exception):
value = default
elif '{' == value[0:1] and '}' == value[-1]: # this way avoids index out of range with (value = '' and [-1])
try:
value = ast.literal_eval(value)
except (BaseException, Exception):
value = default
else:
value = default
return value
def download_file(url, filename, session=None, **kwargs):
"""
download given url to given filename
:param url: url to download
:type url: AnyStr
:param filename: filename to save the data to
:type filename: AnyStr
:param session: optional requests session object
:type session: requests.Session or None
:param kwargs:
:return: success of download
:rtype: bool
"""
MEMCACHE.setdefault('cookies', {})
if None is get_url(url, session=session, savename=filename,
url_solver=FLARESOLVERR_HOST, memcache_cookies=MEMCACHE['cookies'],
**kwargs):
remove_file_perm(filename)
return False
return True
def calc_age(birthday, deathday=None, date=None):
# type: (datetime.date, datetime.date, Optional[datetime.date]) -> Optional[int]
"""
returns age based on current date or given date
:param birthday: birth date
:param deathday: death date
:param date:
"""
if isinstance(birthday, datetime.date):
today = (datetime.date.today(), date)[isinstance(date, datetime.date)]
today = (today, deathday)[isinstance(deathday, datetime.date) and today > deathday]
try:
b_d = birthday.replace(year=today.year)
# raised when birth date is February 29
# and the current year is not a leap year
except ValueError:
b_d = birthday.replace(year=today.year, month=birthday.month + 1, day=1)
if b_d > today:
return today.year - birthday.year - 1
else:
return today.year - birthday.year
def convert_to_inch_faction_html(height):
# type: (float) -> AnyStr
"""
returns html string in foot and inches including fractions
:param height: height in cm
"""
total_inches = round(height / float(2.54), 2)
foot, inches = divmod(total_inches, 12)
_, fraction = '{0:.2f}'.format(total_inches).split('.')
fraction = int(fraction)
# fix rounding errors
fraction = next((html_convert_fractions.get(fraction + round_error)
or html_convert_fractions.get(fraction - round_error)
for round_error in moves.xrange(0, 25) if fraction + round_error in html_convert_fractions
or fraction - round_error in html_convert_fractions), '')
if 1 == fraction:
inches += 1
fraction = ''
if 12 <= inches:
foot += 1
inches = 0
inches = str(inches).split('.')[0]
return '%s\' %s%s%s' % (int(foot), (inches, '')['0' == inches], fraction,
('', '"')['0' != inches or '' != fraction])
def spoken_height(height):
# type: (float) -> AnyStr
"""
return text for spoken words of height
:param height: height in cm
"""
return convert_to_inch_faction_html(height).replace('\'', ' foot').replace('"', '')
def iterate_chunk(lst, n):
# type: (List, integer_types) -> Iterator
"""
Yield successive n-sized chunks from lst.
:param lst: list to split
:param n: length of chunks
"""
for i in moves.range(0, len(lst), n):
yield lst[i:i + n]