utils2.py
1148 lines
| 33.1 KiB
| text/x-python
|
PythonLexer
r1 | # -*- coding: utf-8 -*- | |||
r4306 | # Copyright (C) 2011-2020 RhodeCode GmbH | |||
r1 | # | |||
# This program is free software: you can redistribute it and/or modify | ||||
# it under the terms of the GNU Affero General Public License, version 3 | ||||
# (only), as published by the Free Software Foundation. | ||||
# | ||||
# This program is distributed in the hope that it will be useful, | ||||
# but WITHOUT ANY WARRANTY; without even the implied warranty of | ||||
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | ||||
# GNU General Public License for more details. | ||||
# | ||||
# You should have received a copy of the GNU Affero General Public License | ||||
# along with this program. If not, see <http://www.gnu.org/licenses/>. | ||||
# | ||||
# This program is dual-licensed. If you wish to learn more about the | ||||
# RhodeCode Enterprise Edition, including its added features, Support services, | ||||
# and proprietary license terms, please see https://rhodecode.com/licenses/ | ||||
""" | ||||
Some simple helper functions | ||||
""" | ||||
import collections | ||||
import datetime | ||||
import dateutil.relativedelta | ||||
import hashlib | ||||
import logging | ||||
import re | ||||
import sys | ||||
import time | ||||
import urllib | ||||
import urlobject | ||||
import uuid | ||||
r2497 | import getpass | |||
r4696 | from functools import update_wrapper, partial, wraps | |||
r1 | ||||
import pygments.lexers | ||||
import sqlalchemy | ||||
import sqlalchemy.engine.url | ||||
r1963 | import sqlalchemy.exc | |||
import sqlalchemy.sql | ||||
r1 | import webob | |||
r2108 | import pyramid.threadlocal | |||
r3425 | from pyramid import compat | |||
r3301 | from pyramid.settings import asbool | |||
r1 | ||||
import rhodecode | ||||
r1317 | from rhodecode.translation import _, _pluralize | |||
r1 | ||||
def md5(s): | ||||
return hashlib.md5(s).hexdigest() | ||||
def md5_safe(s): | ||||
return md5(safe_str(s)) | ||||
r2834 | def sha1(s): | |||
return hashlib.sha1(s).hexdigest() | ||||
def sha1_safe(s): | ||||
return sha1(safe_str(s)) | ||||
r796 | def __get_lem(extra_mapping=None): | |||
r1 | """ | |||
Get language extension map based on what's inside pygments lexers | ||||
""" | ||||
d = collections.defaultdict(lambda: []) | ||||
def __clean(s): | ||||
s = s.lstrip('*') | ||||
s = s.lstrip('.') | ||||
if s.find('[') != -1: | ||||
exts = [] | ||||
start, stop = s.find('['), s.find(']') | ||||
for suffix in s[start + 1:stop]: | ||||
exts.append(s[:s.find('[')] + suffix) | ||||
return [e.lower() for e in exts] | ||||
else: | ||||
return [s.lower()] | ||||
for lx, t in sorted(pygments.lexers.LEXERS.items()): | ||||
m = map(__clean, t[-2]) | ||||
if m: | ||||
m = reduce(lambda x, y: x + y, m) | ||||
for ext in m: | ||||
desc = lx.replace('Lexer', '') | ||||
d[ext].append(desc) | ||||
r796 | data = dict(d) | |||
extra_mapping = extra_mapping or {} | ||||
if extra_mapping: | ||||
for k, v in extra_mapping.items(): | ||||
if k not in data: | ||||
# register new mapping2lexer | ||||
data[k] = [v] | ||||
return data | ||||
r1 | ||||
def str2bool(_str): | ||||
""" | ||||
r1094 | returns True/False value from given string, it tries to translate the | |||
r1 | string into boolean | |||
:param _str: string value to translate into boolean | ||||
:rtype: boolean | ||||
:returns: boolean from given string | ||||
""" | ||||
if _str is None: | ||||
return False | ||||
if _str in (True, False): | ||||
return _str | ||||
_str = str(_str).strip().lower() | ||||
return _str in ('t', 'true', 'y', 'yes', 'on', '1') | ||||
def aslist(obj, sep=None, strip=True): | ||||
""" | ||||
Returns given string separated by sep as list | ||||
:param obj: | ||||
:param sep: | ||||
:param strip: | ||||
""" | ||||
r796 | if isinstance(obj, (basestring,)): | |||
r1 | lst = obj.split(sep) | |||
if strip: | ||||
lst = [v.strip() for v in lst] | ||||
return lst | ||||
elif isinstance(obj, (list, tuple)): | ||||
return obj | ||||
elif obj is None: | ||||
return [] | ||||
else: | ||||
return [obj] | ||||
def convert_line_endings(line, mode): | ||||
""" | ||||
Converts a given line "line end" accordingly to given mode | ||||
Available modes are:: | ||||
0 - Unix | ||||
1 - Mac | ||||
2 - DOS | ||||
:param line: given line to convert | ||||
:param mode: mode to convert to | ||||
:rtype: str | ||||
:return: converted line according to mode | ||||
""" | ||||
if mode == 0: | ||||
line = line.replace('\r\n', '\n') | ||||
line = line.replace('\r', '\n') | ||||
elif mode == 1: | ||||
line = line.replace('\r\n', '\r') | ||||
line = line.replace('\n', '\r') | ||||
elif mode == 2: | ||||
line = re.sub('\r(?!\n)|(?<!\r)\n', '\r\n', line) | ||||
return line | ||||
def detect_mode(line, default): | ||||
""" | ||||
Detects line break for given line, if line break couldn't be found | ||||
given default value is returned | ||||
:param line: str line | ||||
:param default: default | ||||
:rtype: int | ||||
:return: value of line end on of 0 - Unix, 1 - Mac, 2 - DOS | ||||
""" | ||||
if line.endswith('\r\n'): | ||||
return 2 | ||||
elif line.endswith('\n'): | ||||
return 0 | ||||
elif line.endswith('\r'): | ||||
return 1 | ||||
else: | ||||
return default | ||||
def safe_int(val, default=None): | ||||
""" | ||||
Returns int() of val if val is not convertable to int use default | ||||
instead | ||||
:param val: | ||||
:param default: | ||||
""" | ||||
try: | ||||
val = int(val) | ||||
except (ValueError, TypeError): | ||||
val = default | ||||
return val | ||||
r4109 | def safe_unicode(str_, from_encoding=None, use_chardet=False): | |||
r1 | """ | |||
safe unicode function. Does few trick to turn str_ into unicode | ||||
In case of UnicodeDecode error, we try to return it with encoding detected | ||||
by chardet library if it fails fallback to unicode with errors replaced | ||||
:param str_: string to decode | ||||
:rtype: unicode | ||||
:returns: unicode object | ||||
""" | ||||
if isinstance(str_, unicode): | ||||
return str_ | ||||
if not from_encoding: | ||||
DEFAULT_ENCODINGS = aslist(rhodecode.CONFIG.get('default_encoding', | ||||
'utf8'), sep=',') | ||||
from_encoding = DEFAULT_ENCODINGS | ||||
if not isinstance(from_encoding, (list, tuple)): | ||||
from_encoding = [from_encoding] | ||||
try: | ||||
return unicode(str_) | ||||
except UnicodeDecodeError: | ||||
pass | ||||
for enc in from_encoding: | ||||
try: | ||||
return unicode(str_, enc) | ||||
except UnicodeDecodeError: | ||||
pass | ||||
r4109 | if use_chardet: | |||
try: | ||||
import chardet | ||||
encoding = chardet.detect(str_)['encoding'] | ||||
if encoding is None: | ||||
raise Exception() | ||||
return str_.decode(encoding) | ||||
except (ImportError, UnicodeDecodeError, Exception): | ||||
return unicode(str_, from_encoding[0], 'replace') | ||||
else: | ||||
r1 | return unicode(str_, from_encoding[0], 'replace') | |||
r4109 | def safe_str(unicode_, to_encoding=None, use_chardet=False): | |||
r1 | """ | |||
safe str function. Does few trick to turn unicode_ into string | ||||
In case of UnicodeEncodeError, we try to return it with encoding detected | ||||
by chardet library if it fails fallback to string with errors replaced | ||||
:param unicode_: unicode to encode | ||||
:rtype: str | ||||
:returns: str object | ||||
""" | ||||
# if it's not basestr cast to str | ||||
r3425 | if not isinstance(unicode_, compat.string_types): | |||
r1 | return str(unicode_) | |||
if isinstance(unicode_, str): | ||||
return unicode_ | ||||
if not to_encoding: | ||||
DEFAULT_ENCODINGS = aslist(rhodecode.CONFIG.get('default_encoding', | ||||
'utf8'), sep=',') | ||||
to_encoding = DEFAULT_ENCODINGS | ||||
if not isinstance(to_encoding, (list, tuple)): | ||||
to_encoding = [to_encoding] | ||||
for enc in to_encoding: | ||||
try: | ||||
return unicode_.encode(enc) | ||||
except UnicodeEncodeError: | ||||
pass | ||||
r4109 | if use_chardet: | |||
try: | ||||
import chardet | ||||
encoding = chardet.detect(unicode_)['encoding'] | ||||
if encoding is None: | ||||
raise UnicodeEncodeError() | ||||
r1 | ||||
r4109 | return unicode_.encode(encoding) | |||
except (ImportError, UnicodeEncodeError): | ||||
return unicode_.encode(to_encoding[0], 'replace') | ||||
else: | ||||
r1 | return unicode_.encode(to_encoding[0], 'replace') | |||
def remove_suffix(s, suffix): | ||||
if s.endswith(suffix): | ||||
s = s[:-1 * len(suffix)] | ||||
return s | ||||
def remove_prefix(s, prefix): | ||||
if s.startswith(prefix): | ||||
s = s[len(prefix):] | ||||
return s | ||||
def find_calling_context(ignore_modules=None): | ||||
""" | ||||
Look through the calling stack and return the frame which called | ||||
this function and is part of core module ( ie. rhodecode.* ) | ||||
:param ignore_modules: list of modules to ignore eg. ['rhodecode.lib'] | ||||
""" | ||||
ignore_modules = ignore_modules or [] | ||||
f = sys._getframe(2) | ||||
while f.f_back is not None: | ||||
name = f.f_globals.get('__name__') | ||||
if name and name.startswith(__name__.split('.')[0]): | ||||
if name not in ignore_modules: | ||||
return f | ||||
f = f.f_back | ||||
return None | ||||
r1963 | def ping_connection(connection, branch): | |||
if branch: | ||||
# "branch" refers to a sub-connection of a connection, | ||||
# we don't want to bother pinging on these. | ||||
return | ||||
# turn off "close with result". This flag is only used with | ||||
# "connectionless" execution, otherwise will be False in any case | ||||
save_should_close_with_result = connection.should_close_with_result | ||||
connection.should_close_with_result = False | ||||
try: | ||||
# run a SELECT 1. use a core select() so that | ||||
# the SELECT of a scalar value without a table is | ||||
# appropriately formatted for the backend | ||||
connection.scalar(sqlalchemy.sql.select([1])) | ||||
except sqlalchemy.exc.DBAPIError as err: | ||||
# catch SQLAlchemy's DBAPIError, which is a wrapper | ||||
# for the DBAPI's exception. It includes a .connection_invalidated | ||||
# attribute which specifies if this connection is a "disconnect" | ||||
# condition, which is based on inspection of the original exception | ||||
# by the dialect in use. | ||||
if err.connection_invalidated: | ||||
# run the same SELECT again - the connection will re-validate | ||||
# itself and establish a new connection. The disconnect detection | ||||
# here also causes the whole connection pool to be invalidated | ||||
# so that all stale connections are discarded. | ||||
connection.scalar(sqlalchemy.sql.select([1])) | ||||
else: | ||||
raise | ||||
finally: | ||||
# restore "close with result" | ||||
connection.should_close_with_result = save_should_close_with_result | ||||
r1 | def engine_from_config(configuration, prefix='sqlalchemy.', **kwargs): | |||
"""Custom engine_from_config functions.""" | ||||
log = logging.getLogger('sqlalchemy.engine') | ||||
r3301 | use_ping_connection = asbool(configuration.pop('sqlalchemy.db1.ping_connection', None)) | |||
r4141 | debug = asbool(configuration.pop('sqlalchemy.db1.debug_query', None)) | |||
r2770 | ||||
r1 | engine = sqlalchemy.engine_from_config(configuration, prefix, **kwargs) | |||
def color_sql(sql): | ||||
color_seq = '\033[1;33m' # This is yellow: code 33 | ||||
normal = '\x1b[0m' | ||||
return ''.join([color_seq, sql, normal]) | ||||
r3301 | if use_ping_connection: | |||
log.debug('Adding ping_connection on the engine config.') | ||||
r2760 | sqlalchemy.event.listen(engine, "engine_connect", ping_connection) | |||
r3301 | if debug: | |||
r1 | # attach events only for debug configuration | |||
def before_cursor_execute(conn, cursor, statement, | ||||
parameters, context, executemany): | ||||
setattr(conn, 'query_start_time', time.time()) | ||||
log.info(color_sql(">>>>> STARTING QUERY >>>>>")) | ||||
calling_context = find_calling_context(ignore_modules=[ | ||||
r249 | 'rhodecode.lib.caching_query', | |||
'rhodecode.model.settings', | ||||
r1 | ]) | |||
if calling_context: | ||||
log.info(color_sql('call context %s:%s' % ( | ||||
calling_context.f_code.co_filename, | ||||
calling_context.f_lineno, | ||||
))) | ||||
def after_cursor_execute(conn, cursor, statement, | ||||
parameters, context, executemany): | ||||
delattr(conn, 'query_start_time') | ||||
r3301 | sqlalchemy.event.listen(engine, "before_cursor_execute", before_cursor_execute) | |||
sqlalchemy.event.listen(engine, "after_cursor_execute", after_cursor_execute) | ||||
r1 | ||||
return engine | ||||
r261 | def get_encryption_key(config): | |||
r268 | secret = config.get('rhodecode.encrypted_values.secret') | |||
default = config['beaker.session.secret'] | ||||
return secret or default | ||||
r261 | ||||
r1 | def age(prevdate, now=None, show_short_version=False, show_suffix=True, | |||
short_format=False): | ||||
""" | ||||
Turns a datetime into an age string. | ||||
If show_short_version is True, this generates a shorter string with | ||||
an approximate age; ex. '1 day ago', rather than '1 day and 23 hours ago'. | ||||
* IMPORTANT* | ||||
Code of this function is written in special way so it's easier to | ||||
backport it to javascript. If you mean to update it, please also update | ||||
`jquery.timeago-extension.js` file | ||||
:param prevdate: datetime object | ||||
:param now: get current time, if not define we use | ||||
`datetime.datetime.now()` | ||||
:param show_short_version: if it should approximate the date and | ||||
return a shorter string | ||||
:param show_suffix: | ||||
:param short_format: show short format, eg 2D instead of 2 days | ||||
:rtype: unicode | ||||
:returns: unicode words describing age | ||||
""" | ||||
def _get_relative_delta(now, prevdate): | ||||
base = dateutil.relativedelta.relativedelta(now, prevdate) | ||||
return { | ||||
'year': base.years, | ||||
'month': base.months, | ||||
'day': base.days, | ||||
'hour': base.hours, | ||||
'minute': base.minutes, | ||||
'second': base.seconds, | ||||
} | ||||
def _is_leap_year(year): | ||||
return year % 4 == 0 and (year % 100 != 0 or year % 400 == 0) | ||||
def get_month(prevdate): | ||||
return prevdate.month | ||||
def get_year(prevdate): | ||||
return prevdate.year | ||||
now = now or datetime.datetime.now() | ||||
order = ['year', 'month', 'day', 'hour', 'minute', 'second'] | ||||
deltas = {} | ||||
future = False | ||||
if prevdate > now: | ||||
now_old = now | ||||
now = prevdate | ||||
prevdate = now_old | ||||
future = True | ||||
if future: | ||||
prevdate = prevdate.replace(microsecond=0) | ||||
# Get date parts deltas | ||||
for part in order: | ||||
rel_delta = _get_relative_delta(now, prevdate) | ||||
deltas[part] = rel_delta[part] | ||||
# Fix negative offsets (there is 1 second between 10:59:59 and 11:00:00, | ||||
# not 1 hour, -59 minutes and -59 seconds) | ||||
offsets = [[5, 60], [4, 60], [3, 24]] | ||||
for element in offsets: # seconds, minutes, hours | ||||
num = element[0] | ||||
length = element[1] | ||||
part = order[num] | ||||
carry_part = order[num - 1] | ||||
if deltas[part] < 0: | ||||
deltas[part] += length | ||||
deltas[carry_part] -= 1 | ||||
# Same thing for days except that the increment depends on the (variable) | ||||
# number of days in the month | ||||
month_lengths = [31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31] | ||||
if deltas['day'] < 0: | ||||
if get_month(prevdate) == 2 and _is_leap_year(get_year(prevdate)): | ||||
deltas['day'] += 29 | ||||
else: | ||||
deltas['day'] += month_lengths[get_month(prevdate) - 1] | ||||
deltas['month'] -= 1 | ||||
if deltas['month'] < 0: | ||||
deltas['month'] += 12 | ||||
deltas['year'] -= 1 | ||||
# Format the result | ||||
if short_format: | ||||
fmt_funcs = { | ||||
'year': lambda d: u'%dy' % d, | ||||
'month': lambda d: u'%dm' % d, | ||||
'day': lambda d: u'%dd' % d, | ||||
'hour': lambda d: u'%dh' % d, | ||||
'minute': lambda d: u'%dmin' % d, | ||||
'second': lambda d: u'%dsec' % d, | ||||
} | ||||
else: | ||||
fmt_funcs = { | ||||
r1317 | 'year': lambda d: _pluralize(u'${num} year', u'${num} years', d, mapping={'num': d}).interpolate(), | |||
'month': lambda d: _pluralize(u'${num} month', u'${num} months', d, mapping={'num': d}).interpolate(), | ||||
'day': lambda d: _pluralize(u'${num} day', u'${num} days', d, mapping={'num': d}).interpolate(), | ||||
'hour': lambda d: _pluralize(u'${num} hour', u'${num} hours', d, mapping={'num': d}).interpolate(), | ||||
'minute': lambda d: _pluralize(u'${num} minute', u'${num} minutes', d, mapping={'num': d}).interpolate(), | ||||
'second': lambda d: _pluralize(u'${num} second', u'${num} seconds', d, mapping={'num': d}).interpolate(), | ||||
r1 | } | |||
i = 0 | ||||
for part in order: | ||||
value = deltas[part] | ||||
if value != 0: | ||||
if i < 5: | ||||
sub_part = order[i + 1] | ||||
sub_value = deltas[sub_part] | ||||
else: | ||||
sub_value = 0 | ||||
if sub_value == 0 or show_short_version: | ||||
_val = fmt_funcs[part](value) | ||||
if future: | ||||
if show_suffix: | ||||
r1317 | return _(u'in ${ago}', mapping={'ago': _val}) | |||
r1 | else: | |||
r1317 | return _(_val) | |||
r1 | ||||
else: | ||||
if show_suffix: | ||||
r1317 | return _(u'${ago} ago', mapping={'ago': _val}) | |||
r1 | else: | |||
r1317 | return _(_val) | |||
r1 | ||||
val = fmt_funcs[part](value) | ||||
val_detail = fmt_funcs[sub_part](sub_value) | ||||
r1317 | mapping = {'val': val, 'detail': val_detail} | |||
r1 | ||||
if short_format: | ||||
r1317 | datetime_tmpl = _(u'${val}, ${detail}', mapping=mapping) | |||
r1 | if show_suffix: | |||
r1317 | datetime_tmpl = _(u'${val}, ${detail} ago', mapping=mapping) | |||
r1 | if future: | |||
r1317 | datetime_tmpl = _(u'in ${val}, ${detail}', mapping=mapping) | |||
r1 | else: | |||
r1317 | datetime_tmpl = _(u'${val} and ${detail}', mapping=mapping) | |||
r1 | if show_suffix: | |||
r1317 | datetime_tmpl = _(u'${val} and ${detail} ago', mapping=mapping) | |||
r1 | if future: | |||
r1317 | datetime_tmpl = _(u'in ${val} and ${detail}', mapping=mapping) | |||
r1 | ||||
r1317 | return datetime_tmpl | |||
r1 | i += 1 | |||
return _(u'just now') | ||||
r3386 | def age_from_seconds(seconds): | |||
seconds = safe_int(seconds) or 0 | ||||
prevdate = time_to_datetime(time.time() + seconds) | ||||
return age(prevdate, show_suffix=False, show_short_version=True) | ||||
Bartłomiej Wołyńczyk
|
r1452 | def cleaned_uri(uri): | ||
""" | ||||
Quotes '[' and ']' from uri if there is only one of them. | ||||
according to RFC3986 we cannot use such chars in uri | ||||
:param uri: | ||||
:return: uri without this chars | ||||
""" | ||||
return urllib.quote(uri, safe='@$:/') | ||||
r1 | def credentials_filter(uri): | |||
""" | ||||
Returns a url with removed credentials | ||||
:param uri: | ||||
""" | ||||
r4399 | import urlobject | |||
r4667 | if isinstance(uri, rhodecode.lib.encrypt.InvalidDecryptedValue): | |||
return 'InvalidDecryptionKey' | ||||
r4399 | url_obj = urlobject.URLObject(cleaned_uri(uri)) | |||
url_obj = url_obj.without_password().without_username() | ||||
r1 | ||||
r4399 | return url_obj | |||
r1 | ||||
r4046 | def get_host_info(request): | |||
""" | ||||
Generate host info, to obtain full url e.g https://server.com | ||||
use this | ||||
`{scheme}://{netloc}` | ||||
""" | ||||
if not request: | ||||
return {} | ||||
qualified_home_url = request.route_url('home') | ||||
parsed_url = urlobject.URLObject(qualified_home_url) | ||||
decoded_path = safe_unicode(urllib.unquote(parsed_url.path.rstrip('/'))) | ||||
return { | ||||
'scheme': parsed_url.scheme, | ||||
'netloc': parsed_url.netloc+decoded_path, | ||||
'hostname': parsed_url.hostname, | ||||
} | ||||
r4133 | def get_clone_url(request, uri_tmpl, repo_name, repo_id, repo_type, **override): | |||
r4046 | qualified_home_url = request.route_url('home') | |||
parsed_url = urlobject.URLObject(qualified_home_url) | ||||
r1 | decoded_path = safe_unicode(urllib.unquote(parsed_url.path.rstrip('/'))) | |||
r2497 | ||||
r1 | args = { | |||
'scheme': parsed_url.scheme, | ||||
'user': '', | ||||
r2497 | 'sys_user': getpass.getuser(), | |||
r1 | # path if we use proxy-prefix | |||
'netloc': parsed_url.netloc+decoded_path, | ||||
r2497 | 'hostname': parsed_url.hostname, | |||
r1 | 'prefix': decoded_path, | |||
'repo': repo_name, | ||||
r4133 | 'repoid': str(repo_id), | |||
'repo_type': repo_type | ||||
r1 | } | |||
args.update(override) | ||||
args['user'] = urllib.quote(safe_str(args['user'])) | ||||
for k, v in args.items(): | ||||
uri_tmpl = uri_tmpl.replace('{%s}' % k, v) | ||||
r4133 | # special case for SVN clone url | |||
if repo_type == 'svn': | ||||
uri_tmpl = uri_tmpl.replace('ssh://', 'svn+ssh://') | ||||
r1 | # remove leading @ sign if it's present. Case of empty user | |||
url_obj = urlobject.URLObject(uri_tmpl) | ||||
url = url_obj.with_netloc(url_obj.netloc.lstrip('@')) | ||||
return safe_unicode(url) | ||||
r4299 | def get_commit_safe(repo, commit_id=None, commit_idx=None, pre_load=None, | |||
r4653 | maybe_unreachable=False, reference_obj=None): | |||
r1 | """ | |||
Safe version of get_commit if this commit doesn't exists for a | ||||
repository it returns a Dummy one instead | ||||
:param repo: repository instance | ||||
:param commit_id: commit id as str | ||||
r4299 | :param commit_idx: numeric commit index | |||
r1 | :param pre_load: optional list of commit attributes to load | |||
r4299 | :param maybe_unreachable: translate unreachable commits on git repos | |||
r4653 | :param reference_obj: explicitly search via a reference obj in git. E.g "branch:123" would mean branch "123" | |||
r1 | """ | |||
# TODO(skreft): remove these circular imports | ||||
from rhodecode.lib.vcs.backends.base import BaseRepository, EmptyCommit | ||||
from rhodecode.lib.vcs.exceptions import RepositoryError | ||||
if not isinstance(repo, BaseRepository): | ||||
raise Exception('You must pass an Repository ' | ||||
'object as first argument got %s', type(repo)) | ||||
try: | ||||
commit = repo.get_commit( | ||||
r4299 | commit_id=commit_id, commit_idx=commit_idx, pre_load=pre_load, | |||
r4653 | maybe_unreachable=maybe_unreachable, reference_obj=reference_obj) | |||
r1 | except (RepositoryError, LookupError): | |||
commit = EmptyCommit() | ||||
return commit | ||||
def datetime_to_time(dt): | ||||
if dt: | ||||
return time.mktime(dt.timetuple()) | ||||
def time_to_datetime(tm): | ||||
if tm: | ||||
r3425 | if isinstance(tm, compat.string_types): | |||
r1 | try: | |||
tm = float(tm) | ||||
except ValueError: | ||||
return | ||||
return datetime.datetime.fromtimestamp(tm) | ||||
r155 | def time_to_utcdatetime(tm): | |||
if tm: | ||||
r3425 | if isinstance(tm, compat.string_types): | |||
r155 | try: | |||
tm = float(tm) | ||||
except ValueError: | ||||
return | ||||
return datetime.datetime.utcfromtimestamp(tm) | ||||
r1 | MENTIONS_REGEX = re.compile( | |||
# ^@ or @ without any special chars in front | ||||
r'(?:^@|[^a-zA-Z0-9\-\_\.]@)' | ||||
# main body starts with letter, then can be . - _ | ||||
r'([a-zA-Z0-9]{1}[a-zA-Z0-9\-\_\.]+)', | ||||
re.VERBOSE | re.MULTILINE) | ||||
def extract_mentioned_users(s): | ||||
""" | ||||
Returns unique usernames from given string s that have @mention | ||||
:param s: string to get mentions | ||||
""" | ||||
usrs = set() | ||||
for username in MENTIONS_REGEX.findall(s): | ||||
usrs.add(username) | ||||
return sorted(list(usrs), key=lambda k: k.lower()) | ||||
Bartłomiej Wołyńczyk
|
r2685 | class AttributeDictBase(dict): | ||
def __getstate__(self): | ||||
odict = self.__dict__ # get attribute dictionary | ||||
return odict | ||||
def __setstate__(self, dict): | ||||
self.__dict__ = dict | ||||
__setattr__ = dict.__setitem__ | ||||
__delattr__ = dict.__delitem__ | ||||
class StrictAttributeDict(AttributeDictBase): | ||||
r1194 | """ | |||
Strict Version of Attribute dict which raises an Attribute error when | ||||
requested attribute is not set | ||||
""" | ||||
r1192 | def __getattr__(self, attr): | |||
try: | ||||
return self[attr] | ||||
except KeyError: | ||||
r1255 | raise AttributeError('%s object has no attribute %s' % ( | |||
self.__class__, attr)) | ||||
r1192 | ||||
Bartłomiej Wołyńczyk
|
r2685 | class AttributeDict(AttributeDictBase): | ||
r1 | def __getattr__(self, attr): | |||
return self.get(attr, None) | ||||
Bartłomiej Wołyńczyk
|
r2685 | |||
r1 | ||||
r2975 | class OrderedDefaultDict(collections.OrderedDict, collections.defaultdict): | |||
def __init__(self, default_factory=None, *args, **kwargs): | ||||
# in python3 you can omit the args to super | ||||
super(OrderedDefaultDict, self).__init__(*args, **kwargs) | ||||
self.default_factory = default_factory | ||||
r1 | def fix_PATH(os_=None): | |||
""" | ||||
Get current active python path, and append it to PATH variable to fix | ||||
issues of subprocess calls and different python versions | ||||
""" | ||||
if os_ is None: | ||||
import os | ||||
else: | ||||
os = os_ | ||||
cur_path = os.path.split(sys.executable)[0] | ||||
if not os.environ['PATH'].startswith(cur_path): | ||||
os.environ['PATH'] = '%s:%s' % (cur_path, os.environ['PATH']) | ||||
def obfuscate_url_pw(engine): | ||||
_url = engine or '' | ||||
try: | ||||
_url = sqlalchemy.engine.url.make_url(engine) | ||||
if _url.password: | ||||
_url.password = 'XXXXX' | ||||
except Exception: | ||||
pass | ||||
return unicode(_url) | ||||
def get_server_url(environ): | ||||
req = webob.Request(environ) | ||||
return req.host_url + req.script_name | ||||
def unique_id(hexlen=32): | ||||
alphabet = "23456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghjklmnpqrstuvwxyz" | ||||
return suuid(truncate_to=hexlen, alphabet=alphabet) | ||||
def suuid(url=None, truncate_to=22, alphabet=None): | ||||
""" | ||||
Generate and return a short URL safe UUID. | ||||
If the url parameter is provided, set the namespace to the provided | ||||
URL and generate a UUID. | ||||
:param url to get the uuid for | ||||
:truncate_to: truncate the basic 22 UUID to shorter version | ||||
The IDs won't be universally unique any longer, but the probability of | ||||
a collision will still be very low. | ||||
""" | ||||
# Define our alphabet. | ||||
_ALPHABET = alphabet or "23456789ABCDEFGHJKLMNPQRSTUVWXYZ" | ||||
# If no URL is given, generate a random UUID. | ||||
if url is None: | ||||
unique_id = uuid.uuid4().int | ||||
else: | ||||
unique_id = uuid.uuid3(uuid.NAMESPACE_URL, url).int | ||||
alphabet_length = len(_ALPHABET) | ||||
output = [] | ||||
while unique_id > 0: | ||||
digit = unique_id % alphabet_length | ||||
output.append(_ALPHABET[digit]) | ||||
unique_id = int(unique_id / alphabet_length) | ||||
return "".join(output)[:truncate_to] | ||||
r2358 | def get_current_rhodecode_user(request=None): | |||
r1 | """ | |||
r2108 | Gets rhodecode user from request | |||
r1 | """ | |||
r2358 | pyramid_request = request or pyramid.threadlocal.get_current_request() | |||
r2108 | ||||
# web case | ||||
if pyramid_request and hasattr(pyramid_request, 'user'): | ||||
return pyramid_request.user | ||||
# api case | ||||
if pyramid_request and hasattr(pyramid_request, 'rpc_user'): | ||||
return pyramid_request.rpc_user | ||||
r1 | ||||
return None | ||||
def action_logger_generic(action, namespace=''): | ||||
""" | ||||
A generic logger for actions useful to the system overview, tries to find | ||||
an acting user for the context of the call otherwise reports unknown user | ||||
:param action: logging message eg 'comment 5 deleted' | ||||
:param type: string | ||||
:param namespace: namespace of the logging message eg. 'repo.comments' | ||||
:param type: string | ||||
""" | ||||
logger_name = 'rhodecode.actions' | ||||
if namespace: | ||||
logger_name += '.' + namespace | ||||
log = logging.getLogger(logger_name) | ||||
# get a user if we can | ||||
user = get_current_rhodecode_user() | ||||
logfunc = log.info | ||||
if not user: | ||||
user = '<unknown user>' | ||||
logfunc = log.warning | ||||
logfunc('Logging action by {}: {}'.format(user, action)) | ||||
def escape_split(text, sep=',', maxsplit=-1): | ||||
r""" | ||||
Allows for escaping of the separator: e.g. arg='foo\, bar' | ||||
It should be noted that the way bash et. al. do command line parsing, those | ||||
single quotes are required. | ||||
""" | ||||
escaped_sep = r'\%s' % sep | ||||
if escaped_sep not in text: | ||||
return text.split(sep, maxsplit) | ||||
before, _mid, after = text.partition(escaped_sep) | ||||
startlist = before.split(sep, maxsplit) # a regular split is fine here | ||||
unfinished = startlist[-1] | ||||
startlist = startlist[:-1] | ||||
# recurse because there may be more escaped separators | ||||
endlist = escape_split(after, sep, maxsplit) | ||||
# finish building the escaped value. we use endlist[0] becaue the first | ||||
# part of the string sent in recursion is the rest of the escaped value. | ||||
unfinished += sep + endlist[0] | ||||
return startlist + [unfinished] + endlist[1:] # put together all the parts | ||||
class OptionalAttr(object): | ||||
""" | ||||
Special Optional Option that defines other attribute. Example:: | ||||
def test(apiuser, userid=Optional(OAttr('apiuser')): | ||||
user = Optional.extract(userid) | ||||
# calls | ||||
""" | ||||
def __init__(self, attr_name): | ||||
self.attr_name = attr_name | ||||
def __repr__(self): | ||||
return '<OptionalAttr:%s>' % self.attr_name | ||||
def __call__(self): | ||||
return self | ||||
# alias | ||||
OAttr = OptionalAttr | ||||
class Optional(object): | ||||
""" | ||||
Defines an optional parameter:: | ||||
param = param.getval() if isinstance(param, Optional) else param | ||||
param = param() if isinstance(param, Optional) else param | ||||
is equivalent of:: | ||||
param = Optional.extract(param) | ||||
""" | ||||
def __init__(self, type_): | ||||
self.type_ = type_ | ||||
def __repr__(self): | ||||
return '<Optional:%s>' % self.type_.__repr__() | ||||
def __call__(self): | ||||
return self.getval() | ||||
def getval(self): | ||||
""" | ||||
returns value from this Optional instance | ||||
""" | ||||
if isinstance(self.type_, OAttr): | ||||
# use params name | ||||
return self.type_.attr_name | ||||
return self.type_ | ||||
@classmethod | ||||
def extract(cls, val): | ||||
""" | ||||
Extracts value from Optional() instance | ||||
:param val: | ||||
:return: original value if it's not Optional instance else | ||||
value of instance | ||||
""" | ||||
if isinstance(val, cls): | ||||
return val.getval() | ||||
return val | ||||
r419 | ||||
r821 | def glob2re(pat): | |||
""" | ||||
Translate a shell PATTERN to a regular expression. | ||||
There is no way to quote meta-characters. | ||||
""" | ||||
i, n = 0, len(pat) | ||||
res = '' | ||||
while i < n: | ||||
c = pat[i] | ||||
i = i+1 | ||||
if c == '*': | ||||
#res = res + '.*' | ||||
res = res + '[^/]*' | ||||
elif c == '?': | ||||
#res = res + '.' | ||||
res = res + '[^/]' | ||||
elif c == '[': | ||||
j = i | ||||
if j < n and pat[j] == '!': | ||||
j = j+1 | ||||
if j < n and pat[j] == ']': | ||||
j = j+1 | ||||
while j < n and pat[j] != ']': | ||||
j = j+1 | ||||
if j >= n: | ||||
res = res + '\\[' | ||||
else: | ||||
stuff = pat[i:j].replace('\\','\\\\') | ||||
i = j+1 | ||||
if stuff[0] == '!': | ||||
stuff = '^' + stuff[1:] | ||||
elif stuff[0] == '^': | ||||
stuff = '\\' + stuff | ||||
res = '%s[%s]' % (res, stuff) | ||||
else: | ||||
res = res + re.escape(c) | ||||
return res + '\Z(?ms)' | ||||
r3319 | ||||
def parse_byte_string(size_str): | ||||
match = re.match(r'(\d+)(MB|KB)', size_str, re.IGNORECASE) | ||||
if not match: | ||||
raise ValueError('Given size:%s is invalid, please make sure ' | ||||
'to use format of <num>(MB|KB)' % size_str) | ||||
_parts = match.groups() | ||||
num, type_ = _parts | ||||
return long(num) * {'mb': 1024*1024, 'kb': 1024}[type_.lower()] | ||||
r3842 | ||||
class CachedProperty(object): | ||||
""" | ||||
Lazy Attributes. With option to invalidate the cache by running a method | ||||
r4696 | >>> class Foo(object): | |||
... | ||||
... @CachedProperty | ||||
... def heavy_func(self): | ||||
... return 'super-calculation' | ||||
... | ||||
... foo = Foo() | ||||
... foo.heavy_func() # first computation | ||||
... foo.heavy_func() # fetch from cache | ||||
... foo._invalidate_prop_cache('heavy_func') | ||||
r3842 | ||||
# at this point calling foo.heavy_func() will be re-computed | ||||
""" | ||||
def __init__(self, func, func_name=None): | ||||
if func_name is None: | ||||
func_name = func.__name__ | ||||
self.data = (func, func_name) | ||||
update_wrapper(self, func) | ||||
def __get__(self, inst, class_): | ||||
if inst is None: | ||||
return self | ||||
func, func_name = self.data | ||||
value = func(inst) | ||||
inst.__dict__[func_name] = value | ||||
if '_invalidate_prop_cache' not in inst.__dict__: | ||||
inst.__dict__['_invalidate_prop_cache'] = partial( | ||||
self._invalidate_prop_cache, inst) | ||||
return value | ||||
def _invalidate_prop_cache(self, inst, name): | ||||
inst.__dict__.pop(name, None) | ||||
r4696 | ||||
def retry(func=None, exception=Exception, n_tries=5, delay=5, backoff=1, logger=True): | ||||
""" | ||||
Retry decorator with exponential backoff. | ||||
Parameters | ||||
---------- | ||||
func : typing.Callable, optional | ||||
Callable on which the decorator is applied, by default None | ||||
exception : Exception or tuple of Exceptions, optional | ||||
Exception(s) that invoke retry, by default Exception | ||||
n_tries : int, optional | ||||
Number of tries before giving up, by default 5 | ||||
delay : int, optional | ||||
Initial delay between retries in seconds, by default 5 | ||||
backoff : int, optional | ||||
Backoff multiplier e.g. value of 2 will double the delay, by default 1 | ||||
logger : bool, optional | ||||
Option to log or print, by default False | ||||
Returns | ||||
------- | ||||
typing.Callable | ||||
Decorated callable that calls itself when exception(s) occur. | ||||
Examples | ||||
-------- | ||||
>>> import random | ||||
>>> @retry(exception=Exception, n_tries=3) | ||||
... def test_random(text): | ||||
... x = random.random() | ||||
... if x < 0.5: | ||||
... raise Exception("Fail") | ||||
... else: | ||||
... print("Success: ", text) | ||||
>>> test_random("It works!") | ||||
""" | ||||
if func is None: | ||||
return partial( | ||||
retry, | ||||
exception=exception, | ||||
n_tries=n_tries, | ||||
delay=delay, | ||||
backoff=backoff, | ||||
logger=logger, | ||||
) | ||||
@wraps(func) | ||||
def wrapper(*args, **kwargs): | ||||
_n_tries, n_delay = n_tries, delay | ||||
log = logging.getLogger('rhodecode.retry') | ||||
while _n_tries > 1: | ||||
try: | ||||
return func(*args, **kwargs) | ||||
except exception as e: | ||||
e_details = repr(e) | ||||
msg = "Exception on calling func {func}: {e}, " \ | ||||
"Retrying in {n_delay} seconds..."\ | ||||
.format(func=func, e=e_details, n_delay=n_delay) | ||||
if logger: | ||||
log.warning(msg) | ||||
else: | ||||
print(msg) | ||||
time.sleep(n_delay) | ||||
_n_tries -= 1 | ||||
n_delay *= backoff | ||||
return func(*args, **kwargs) | ||||
return wrapper | ||||