def fetch_git_sha(path, head=None): """ >>> fetch_git_sha(os.path.dirname(__file__)) """ if not head: head_path = os.path.join(path, '.git', 'HEAD') if not os.path.exists(head_path): raise InvalidGitRepository( 'Cannot identify HEAD for git repository at %s' % (path, )) with open(head_path, 'r') as fp: head = six.text_type(fp.read()).strip() if head.startswith('ref: '): revision_file = os.path.join(path, '.git', *head.rsplit(' ', 1)[-1].split('/')) else: return head else: revision_file = os.path.join(path, '.git', 'refs', 'heads', head) if not os.path.exists(revision_file): if not os.path.exists(os.path.join(path, '.git')): raise InvalidGitRepository( '%s does not seem to be the root of a git repository' % (path, )) raise InvalidGitRepository( 'Unable to find ref to head "%s" in repository' % (head, )) fh = open(revision_file, 'r') try: return six.text_type(fh.read()).strip() finally: fh.close()
def fetch_git_sha(path, head=None): """ >>> fetch_git_sha(os.path.dirname(__file__)) """ if not head: head_path = os.path.join(path, '.git', 'HEAD') if not os.path.exists(head_path): raise InvalidGitRepository('Cannot identify HEAD for git repository at %s' % (path,)) with open(head_path, 'r') as fp: head = six.text_type(fp.read()).strip() if head.startswith('ref: '): revision_file = os.path.join( path, '.git', *head.rsplit(' ', 1)[-1].split('/') ) else: revision_file = os.path.join(path, '.git', head) else: revision_file = os.path.join(path, '.git', 'refs', 'heads', head) if not os.path.exists(revision_file): if not os.path.exists(os.path.join(path, '.git')): raise InvalidGitRepository('%s does not seem to be the root of a git repository' % (path,)) raise InvalidGitRepository('Unable to find ref to head "%s" in repository' % (head,)) fh = open(revision_file, 'r') try: return six.text_type(fh.read()).strip() finally: fh.close()
def transform(self, value, **kwargs): """ Primary function which handles recursively transforming values via their serializers """ if value is None: return None objid = id(value) if objid in self.context: return '<...>' self.context.add(objid) try: for serializer in self.serializers: if serializer.can(value): try: return serializer.serialize(value, **kwargs) except Exception as e: logger.exception(e) return six.text_type(type(value)) # if all else fails, lets use the repr of the object try: return repr(value) except Exception as e: logger.exception(e) # It's common case that a model's __unicode__ definition may try to query the database # which if it was not cleaned up correctly, would hit a transaction aborted exception return six.text_type(type(value)) finally: self.context.remove(objid)
def test_dict_keys_utf8_as_unicode(self): x = { six.text_type('\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'): 'bar' } result = transform(x) assert type(result) is dict keys = list(result.keys()) assert len(keys) == 1 assert keys[0] == six.text_type("u'\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'")
def _emit(self, record, **kwargs): data = { 'user': {'id': self.client.name} } extra = getattr(record, 'data', None) if not isinstance(extra, dict): if extra: extra = {'data': extra} else: extra = {} for k, v in six.iteritems(vars(record)): if k in RESERVED: continue if k.startswith('_'): continue if '.' not in k and k not in ('culprit', 'server_name'): extra[k] = v else: data[k] = v stack = getattr(record, 'stack', None) if stack is True: stack = iter_stack_frames() if stack: stack = self._get_targetted_stack(stack, record) date = datetime.datetime.utcfromtimestamp(record.created) event_type = 'raven.events.Message' handler_kwargs = { 'params': record.args, } try: handler_kwargs['message'] = six.text_type(record.msg) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs['message'] = repr(record.msg)[1:-1] try: handler_kwargs['formatted'] = six.text_type(record.message) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs['formatted'] = repr(record.message)[1:-1] # If there's no exception being processed, exc_info may be a 3-tuple of None # http://docs.python.org/library/sys.html#sys.exc_info try: exc_info = self._exc_info(record) except Exception, ex: log.info('Unable to retrieve exception info - %s', ex, exc_info=True) exc_info = None
def test_import_string(): new_raven = import_string('raven') assert new_raven is raven # this will test unicode on python2 new_raven = import_string(six.text_type('raven')) assert new_raven is raven new_client = import_string('raven.Client') assert new_client is raven.Client # this will test unicode on python2 new_client = import_string(six.text_type('raven.Client')) assert new_client is raven.Client
def recurse(self, value, max_depth=6, _depth=0, **kwargs): """ Given ``value``, recurse (using the parent serializer) to handle coercing of newly defined values. """ _depth += 1 if _depth >= max_depth: try: value = six.text_type(repr(value)) except Exception as e: import traceback traceback.print_exc() self.manager.logger.exception(e) return six.text_type(type(value)) return self.manager.transform(value, max_depth=max_depth, _depth=_depth, **kwargs)
def __init__(self, dsn=None, raise_send_errors=False, transport=None, install_sys_hook=True, **options): global Raven o = options self.configure_logging() self.raise_send_errors = raise_send_errors # configure loggers first cls = self.__class__ self.state = ClientState() self.logger = logging.getLogger( '%s.%s' % (cls.__module__, cls.__name__)) self.error_logger = logging.getLogger('sentry.errors') self.uncaught_logger = logging.getLogger('sentry.errors.uncaught') self._transport_cache = {} self.set_dsn(dsn, transport) self.include_paths = set(o.get('include_paths') or []) self.exclude_paths = set(o.get('exclude_paths') or []) self.name = six.text_type(o.get('name') or o.get('machine') or defaults.NAME) self.auto_log_stacks = bool( o.get('auto_log_stacks') or defaults.AUTO_LOG_STACKS) self.capture_locals = bool( o.get('capture_locals', defaults.CAPTURE_LOCALS)) self.string_max_length = int( o.get('string_max_length') or defaults.MAX_LENGTH_STRING) self.list_max_length = int( o.get('list_max_length') or defaults.MAX_LENGTH_LIST) self.site = o.get('site') self.include_versions = o.get('include_versions', True) self.processors = o.get('processors') if self.processors is None: self.processors = defaults.PROCESSORS context = o.get('context') if context is None: context = {'sys.argv': sys.argv[:]} self.extra = context self.tags = o.get('tags') or {} self.environment = o.get('environment') or None self.release = o.get('release') or os.environ.get('HEROKU_SLUG_COMMIT') self.module_cache = ModuleProxyCache() if not self.is_enabled(): self.logger.info( 'Raven is not configured (logging is disabled). Please see the' ' documentation for more information.') if Raven is None: Raven = self self._context = Context() if install_sys_hook: self.install_sys_hook()
def serialize(self, value, **kwargs): # try to return a reasonable string that can be decoded # correctly by the server so it doesn't show up as \uXXX for each # unicode character # e.g. we want the output to be like: "u'רונית מגן'" string_max_length = kwargs.get('string_max_length', None) return repr(six.text_type('%s')) % (value[:string_max_length],)
def serialize(self, value, **kwargs): # try to return a reasonable string that can be decoded # correctly by the server so it doesn't show up as \uXXX for each # unicode character # e.g. we want the output to be like: "u'רונית מגן'" string_max_length = kwargs.get('string_max_length', None) return repr(six.text_type('%s')) % (value[:string_max_length], )
def serialize(self, value, **kwargs): # EPIC HACK # handles lazy model instances (which are proxy values that dont easily give you the actual function) pre = value.__class__.__name__[1:] if hasattr(value, '%s__func' % pre): value = getattr(value, '%s__func' % pre)(*getattr(value, '%s__args' % pre), **getattr(value, '%s__kw' % pre)) else: return self.recurse(six.text_type(value)) return self.recurse(value, **kwargs)
def force_text(s, encoding='utf-8', strings_only=False, errors='strict'): """ Similar to smart_text, except that lazy instances are resolved to strings, rather than kept as lazy objects. If strings_only is True, don't convert (some) non-string-like objects. """ # Handle the common case first, saves 30-40% when s is an instance of # six.text_type. This function gets called often in that setting. if isinstance(s, six.text_type): return s if strings_only and is_protected_type(s): return s try: if not isinstance(s, six.string_types): if hasattr(s, '__unicode__'): s = s.__unicode__() else: if six.PY3: if isinstance(s, bytes): s = six.text_type(s, encoding, errors) else: s = six.text_type(s) else: s = six.text_type(bytes(s), encoding, errors) else: # Note: We use .decode() here, instead of six.text_type(s, encoding, # errors), so that if s is a SafeBytes, it ends up being a # SafeText at the end. s = s.decode(encoding, errors) except UnicodeDecodeError as e: if not isinstance(s, Exception): raise UnicodeDecodeError(s, *e.args) else: # If we get to here, the caller has passed in an Exception # subclass populated with non-ASCII bytestring data without a # working unicode method. Try to handle this without raising a # further exception by individually forcing the exception args # to unicode. s = ' '.join([force_text(arg, encoding, strings_only, errors) for arg in s]) return s
def force_text(s, encoding='utf-8', strings_only=False, errors='strict'): """ Similar to smart_text, except that lazy instances are resolved to strings, rather than kept as lazy objects. If strings_only is True, don't convert (some) non-string-like objects. """ # Handle the common case first, saves 30-40% when s is an instance of # six.text_type. This function gets called often in that setting. if isinstance(s, six.text_type): return s if strings_only and is_protected_type(s): return s try: if not isinstance(s, six.string_types): if hasattr(s, '__unicode__'): s = s.__unicode__() else: if six.PY3: if isinstance(s, bytes): s = six.text_type(s, encoding, errors) else: s = six.text_type(s) else: s = six.text_type(bytes(s), encoding, errors) else: # Note: We use .decode() here, instead of six.text_type(s, encoding, # errors), so that if s is a SafeBytes, it ends up being a # SafeText at the end. s = s.decode(encoding, errors) except UnicodeDecodeError as e: if not isinstance(s, Exception): raise UnicodeDecodeError(s, *e.args) else: # If we get to here, the caller has passed in an Exception # subclass populated with non-ASCII bytestring data without a # working unicode method. Try to handle this without raising a # further exception by individually forcing the exception args # to unicode. s = ' '.join( [force_text(arg, encoding, strings_only, errors) for arg in s]) return s
def to_unicode(value): try: value = six.text_type(force_text(value)) except (UnicodeEncodeError, UnicodeDecodeError): value = '(Error decoding value)' except Exception: # in some cases we get a different exception try: value = six.binary_type(repr(type(value))) except Exception: value = '(Error decoding value)' return value
def test_dict_keys_utf8_as_unicode(self): x = {six.text_type("\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df"): "bar"} result = transform(x) assert type(result) is dict keys = list(result.keys()) assert len(keys) == 1 if six.PY3: expected = "'\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'" else: expected = "u'\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'" assert keys[0] == expected
def serialize(self, value, **kwargs): # EPIC HACK # handles lazy model instances (which are proxy values that don't easily give you the actual function) pre = value.__class__.__name__[1:] if hasattr(value, '%s__func' % pre): value = getattr(value, '%s__func' % pre)(*getattr(value, '%s__args' % pre), **getattr(value, '%s__kw' % pre)) else: return self.recurse(six.text_type(value)) return self.recurse(value, **kwargs)
def test_dict_keys_utf8_as_unicode(self): x = { six.text_type('\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'): 'bar' } result = transform(x) assert type(result) is dict keys = list(result.keys()) assert len(keys) == 1 if six.PY3: expected = "'\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'" else: expected = "u'\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'" assert keys[0] == expected
def sanitize(self, key, value): if value is None: return if isinstance(value, six.string_types) and self.VALUES_RE.match(value): return self.MASK if not key: # key can be a NoneType return value key = six.text_type(key).lower() for field in self.FIELDS: if field in key: # store mask as a fixed length for security return self.MASK return value
def gethostname(): if not hasattr(socket, 'gethostname'): return None hostname = socket.gethostname() if isinstance(hostname, six.text_type): return hostname try: return six.text_type(hostname) except UnicodeError: pass try: return hostname.decode('unicode-escape') except UnicodeError: pass return None
def __init__(self, dsn=None, raise_send_errors=False, **options): global Raven o = options self.configure_logging() self.raise_send_errors = raise_send_errors # configure loggers first cls = self.__class__ self.state = ClientState() self.logger = logging.getLogger("%s.%s" % (cls.__module__, cls.__name__)) self.error_logger = logging.getLogger("sentry.errors") if dsn is None and os.environ.get("SENTRY_DSN"): msg = "Configuring Raven from environment variable 'SENTRY_DSN'" self.logger.debug(msg) dsn = os.environ["SENTRY_DSN"] if dsn: # TODO: should we validate other options weren't sent? urlparts = urlparse(dsn) self.logger.debug( "Configuring Raven for host: %s://%s:%s" % (urlparts.scheme, urlparts.netloc, urlparts.path) ) dsn_config = raven.load(dsn, transport_registry=self._registry) servers = dsn_config["SENTRY_SERVERS"] project = dsn_config["SENTRY_PROJECT"] public_key = dsn_config["SENTRY_PUBLIC_KEY"] secret_key = dsn_config["SENTRY_SECRET_KEY"] transport_options = dsn_config.get("SENTRY_TRANSPORT_OPTIONS", {}) else: if o.get("servers"): warnings.warn("Manually configured connections are deprecated. Switch to a DSN.", DeprecationWarning) servers = o.get("servers") project = o.get("project") public_key = o.get("public_key") secret_key = o.get("secret_key") transport_options = {} self.servers = servers self.public_key = public_key self.secret_key = secret_key self.project = project or defaults.PROJECT self.transport_options = transport_options self.include_paths = set(o.get("include_paths") or []) self.exclude_paths = set(o.get("exclude_paths") or []) self.name = six.text_type(o.get("name") or defaults.NAME) self.auto_log_stacks = bool(o.get("auto_log_stacks") or defaults.AUTO_LOG_STACKS) self.capture_locals = bool(o.get("capture_locals", defaults.CAPTURE_LOCALS)) self.string_max_length = int(o.get("string_max_length") or defaults.MAX_LENGTH_STRING) self.list_max_length = int(o.get("list_max_length") or defaults.MAX_LENGTH_LIST) self.site = o.get("site", defaults.SITE) self.include_versions = o.get("include_versions", True) self.processors = o.get("processors") if self.processors is None: self.processors = defaults.PROCESSORS context = o.get("context") if context is None: context = {"sys.argv": sys.argv[:]} self.extra = context self.tags = o.get("tags") or {} self.module_cache = ModuleProxyCache() # servers may be set to a NoneType (for Django) if not self.is_enabled(): self.logger.info( "Raven is not configured (logging is disabled). Please see the" " documentation for more information." ) if Raven is None: Raven = self self._context = Context()
def test_real_gettext_lazy(self): d = {six.text_type('lazy_translation'): gettext_lazy(six.text_type('testing'))} key = "'lazy_translation'" if six.PY3 else "u'lazy_translation'" value = "'testing'" if six.PY3 else "u'testing'" assert transform(d) == {key: value}
def _emit(self, record, **kwargs): data = {} extra = getattr(record, 'data', None) if not isinstance(extra, dict): if extra: extra = {'data': extra} else: extra = {} for k, v in six.iteritems(vars(record)): if k in RESERVED: continue if k.startswith('_'): continue if '.' not in k and k not in ('culprit', 'server_name', 'fingerprint'): extra[k] = v else: data[k] = v stack = getattr(record, 'stack', None) if stack is True: stack = iter_stack_frames() if stack: stack = self._get_targetted_stack(stack, record) date = datetime.datetime.utcfromtimestamp(record.created) event_type = 'raven.events.Message' handler_kwargs = { 'params': record.args, } try: handler_kwargs['message'] = six.text_type(record.msg) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs['message'] = repr(record.msg)[1:-1] try: handler_kwargs['formatted'] = six.text_type(record.message) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs['formatted'] = repr(record.message)[1:-1] # If there's no exception being processed, exc_info may be a 3-tuple of None # http://docs.python.org/library/sys.html#sys.exc_info if record.exc_info and all(record.exc_info): # capture the standard message first so that we ensure # the event is recorded as an exception, in addition to having our # message interface attached handler = self.client.get_handler(event_type) data.update(handler.capture(**handler_kwargs)) event_type = 'raven.events.Exception' handler_kwargs = {'exc_info': record.exc_info} # HACK: discover a culprit when we normally couldn't elif not (data.get('stacktrace') or data.get('culprit')) and (record.name or record.funcName): culprit = label_from_frame({'module': record.name, 'function': record.funcName}) if culprit: data['culprit'] = culprit data['level'] = record.levelno data['logger'] = record.name if hasattr(record, 'tags'): kwargs['tags'] = record.tags elif self.tags: kwargs['tags'] = self.tags kwargs.update(handler_kwargs) return self.client.capture( event_type, stack=stack, data=data, extra=extra, date=date, **kwargs)
def __unicode__(self): return six.text_type(self.base_url)
def decode_str(line): if isinstance(line, six.text_type): return line else: return six.text_type(line, encoding, 'replace')
def __unicode__(self): return six.text_type("%s: %s" % (self.message, self.code))
def __init__(self, dsn=None, **options): global Raven o = options self.configure_logging() # configure loggers first cls = self.__class__ self.state = ClientState() self.logger = logging.getLogger('%s.%s' % (cls.__module__, cls.__name__)) self.error_logger = logging.getLogger('sentry.errors') if dsn is None and os.environ.get('SENTRY_DSN'): msg = "Configuring Raven from environment variable 'SENTRY_DSN'" self.logger.debug(msg) dsn = os.environ['SENTRY_DSN'] if dsn: # TODO: should we validate other options werent sent? urlparts = urlparse(dsn) self.logger.debug( "Configuring Raven for host: %s://%s:%s" % (urlparts.scheme, urlparts.netloc, urlparts.path)) dsn_config = raven.load(dsn, transport_registry=self._registry) servers = dsn_config['SENTRY_SERVERS'] project = dsn_config['SENTRY_PROJECT'] public_key = dsn_config['SENTRY_PUBLIC_KEY'] secret_key = dsn_config['SENTRY_SECRET_KEY'] else: servers = o.get('servers') project = o.get('project') public_key = o.get('public_key') secret_key = o.get('secret_key') self.servers = servers self.public_key = public_key self.secret_key = secret_key self.project = project or defaults.PROJECT self.include_paths = set(o.get('include_paths') or []) self.exclude_paths = set(o.get('exclude_paths') or []) self.name = six.text_type(o.get('name') or defaults.NAME) self.auto_log_stacks = bool( o.get('auto_log_stacks') or defaults.AUTO_LOG_STACKS) self.string_max_length = int( o.get('string_max_length') or defaults.MAX_LENGTH_STRING) self.list_max_length = int( o.get('list_max_length') or defaults.MAX_LENGTH_LIST) self.site = o.get('site', defaults.SITE) self.include_versions = o.get('include_versions', True) self.processors = o.get('processors') if self.processors is None: self.processors = defaults.PROCESSORS context = o.get('context') if context is None: context = {'sys.argv': sys.argv[:]} self.extra = context self.tags = o.get('tags') or {} self.module_cache = ModuleProxyCache() # servers may be set to a NoneType (for Django) if not self.is_enabled(): self.logger.info( 'Raven is not configured (logging is disabled). Please see the' ' documentation for more information.') if Raven is None: Raven = self
def _emit(self, record, **kwargs): data = {} extra = getattr(record, 'data', None) if not isinstance(extra, dict): if extra: extra = {'data': extra} else: extra = {} for k, v in six.iteritems(vars(record)): if k in RESERVED: continue if k.startswith('_'): continue if '.' not in k and k not in ('culprit', 'server_name'): extra[k] = v else: data[k] = v stack = getattr(record, 'stack', None) if stack is True: stack = iter_stack_frames() if stack: stack = self._get_targetted_stack(stack, record) date = datetime.datetime.utcfromtimestamp(record.created) event_type = 'raven.events.Message' handler_kwargs = { 'params': record.args, } try: handler_kwargs['message'] = six.text_type(record.msg) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs['message'] = repr(record.msg)[1:-1] try: handler_kwargs['formatted'] = six.text_type(record.message) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs['formatted'] = repr(record.message)[1:-1] # If there's no exception being processed, exc_info may be a 3-tuple of None # http://docs.python.org/library/sys.html#sys.exc_info if record.exc_info and all(record.exc_info): # capture the standard message first so that we ensure # the event is recorded as an exception, in addition to having our # message interface attached handler = self.client.get_handler(event_type) data.update(handler.capture(**handler_kwargs)) event_type = 'raven.events.Exception' handler_kwargs = {'exc_info': record.exc_info} # HACK: discover a culprit when we normally couldn't elif not (data.get('stacktrace') or data.get('culprit')) and (record.name or record.funcName): culprit = label_from_frame({ 'module': record.name, 'function': record.funcName }) if culprit: data['culprit'] = culprit data['level'] = record.levelno data['logger'] = record.name if hasattr(record, 'tags'): kwargs['tags'] = record.tags kwargs.update(handler_kwargs) return self.client.capture(event_type, stack=stack, data=data, extra=extra, date=date, **kwargs)
def get_lines_from_file(filename, lineno, context_lines, loader=None, module_name=None): """ Returns context_lines before and after lineno from file. Returns (pre_context_lineno, pre_context, context_line, post_context). """ source = None if loader is not None and hasattr(loader, "get_source"): try: source = loader.get_source(module_name) except ImportError: # Traceback (most recent call last): # File "/Users/dcramer/Development/django-sentry/sentry/client/handlers.py", line 31, in emit # get_client().create_from_record(record, request=request) # File "/Users/dcramer/Development/django-sentry/sentry/client/base.py", line 325, in create_from_record # data['__sentry__']['frames'] = varmap(shorten, get_stack_info(stack)) # File "/Users/dcramer/Development/django-sentry/sentry/utils/stacks.py", line 112, in get_stack_info # pre_context_lineno, pre_context, context_line, post_context = get_lines_from_file(filename, lineno, 7, loader, module_name) # File "/Users/dcramer/Development/django-sentry/sentry/utils/stacks.py", line 24, in get_lines_from_file # source = loader.get_source(module_name) # File "/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/pkgutil.py", line 287, in get_source # fullname = self._fix_name(fullname) # File "/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/pkgutil.py", line 262, in _fix_name # "module %s" % (self.fullname, fullname)) # ImportError: Loader for module cProfile cannot handle module __main__ source = None if source is not None: source = source.splitlines() if source is None: try: f = open(filename, 'rb') try: source = f.readlines() finally: f.close() except (OSError, IOError): pass if source is None: return None, None, None encoding = 'utf8' for line in source[:2]: # File coding may be specified. Match pattern from PEP-263 # (http://www.python.org/dev/peps/pep-0263/) match = _coding_re.search(line.decode('utf8')) # let's assume utf8 if match: encoding = match.group(1) break source = [six.text_type(sline, encoding, 'replace') for sline in source] lower_bound = max(0, lineno - context_lines) upper_bound = min(lineno + 1 + context_lines, len(source)) try: pre_context = [line.strip('\r\n') for line in source[lower_bound:lineno]] context_line = source[lineno].strip('\r\n') post_context = [line.strip('\r\n') for line in source[(lineno + 1):upper_bound]] except IndexError: # the file may have changed since it was loaded into memory return None, None, None return pre_context, context_line, post_context
def _emit(self, record, **kwargs): data = {} extra = getattr(record, "data", None) if not isinstance(extra, dict): if extra: extra = {"data": extra} else: extra = {} for k, v in six.iteritems(vars(record)): if k in RESERVED: continue if k.startswith("_"): continue if "." not in k and k not in ("culprit", "server_name"): extra[k] = v else: data[k] = v stack = getattr(record, "stack", None) if stack is True: stack = iter_stack_frames() if stack: stack = self._get_targetted_stack(stack, record) date = datetime.datetime.utcfromtimestamp(record.created) event_type = "raven.events.Message" handler_kwargs = {"params": record.args} try: handler_kwargs["message"] = six.text_type(record.msg) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs["message"] = repr(record.msg)[1:-1] try: handler_kwargs["formatted"] = six.text_type(record.message) except UnicodeDecodeError: # Handle binary strings where it should be unicode... handler_kwargs["formatted"] = repr(record.message)[1:-1] # If there's no exception being processed, exc_info may be a 3-tuple of None # http://docs.python.org/library/sys.html#sys.exc_info if record.exc_info and all(record.exc_info): # capture the standard message first so that we ensure # the event is recorded as an exception, in addition to having our # message interface attached handler = self.client.get_handler(event_type) data.update(handler.capture(**handler_kwargs)) event_type = "raven.events.Exception" handler_kwargs = {"exc_info": record.exc_info} # HACK: discover a culprit when we normally couldn't elif not (data.get("stacktrace") or data.get("culprit")) and (record.name or record.funcName): culprit = label_from_frame({"module": record.name, "function": record.funcName}) if culprit: data["culprit"] = culprit data["level"] = record.levelno data["logger"] = record.name if hasattr(record, "tags"): kwargs["tags"] = record.tags kwargs.update(handler_kwargs) return self.client.capture(event_type, stack=stack, data=data, extra=extra, date=date, **kwargs)
def test_correct_unicode(self): # 'רונית מגן' x = six.text_type('\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df') result = transform(x) assert result == six.text_type("u'\u05e8\u05d5\u05e0\u05d9\u05ea \u05de\u05d2\u05df'")
class ProxyClient(object): """ A proxy which represents the currently client at all times. """ # introspection support: __members__ = property(lambda x: x.__dir__()) # Need to pretend to be the wrapped class, for the sake of objects that care # about this (especially in equality tests) __class__ = property(lambda x: get_client().__class__) __dict__ = property(lambda o: get_client().__dict__) __repr__ = lambda x: repr(get_client()) __getattr__ = lambda x, o: getattr(get_client(), o) __setattr__ = lambda x, o, v: setattr(get_client(), o, v) __delattr__ = lambda x, o: delattr(get_client(), o) __lt__ = lambda x, o: get_client() < o __le__ = lambda x, o: get_client() <= o __eq__ = lambda x, o: get_client() == o __ne__ = lambda x, o: get_client() != o __gt__ = lambda x, o: get_client() > o __ge__ = lambda x, o: get_client() >= o if not six.PY3: __cmp__ = lambda x, o: cmp(get_client(), o) # NOQA __hash__ = lambda x: hash(get_client()) # attributes are currently not callable # __call__ = lambda x, *a, **kw: get_client()(*a, **kw) __nonzero__ = lambda x: bool(get_client()) __len__ = lambda x: len(get_client()) __getitem__ = lambda x, i: get_client()[i] __iter__ = lambda x: iter(get_client()) __contains__ = lambda x, i: i in get_client() __getslice__ = lambda x, i, j: get_client()[i:j] __add__ = lambda x, o: get_client() + o __sub__ = lambda x, o: get_client() - o __mul__ = lambda x, o: get_client() * o __floordiv__ = lambda x, o: get_client() // o __mod__ = lambda x, o: get_client() % o __divmod__ = lambda x, o: get_client().__divmod__(o) __pow__ = lambda x, o: get_client()**o __lshift__ = lambda x, o: get_client() << o __rshift__ = lambda x, o: get_client() >> o __and__ = lambda x, o: get_client() & o __xor__ = lambda x, o: get_client() ^ o __or__ = lambda x, o: get_client() | o __div__ = lambda x, o: get_client().__div__(o) __truediv__ = lambda x, o: get_client().__truediv__(o) __neg__ = lambda x: -(get_client()) __pos__ = lambda x: +(get_client()) __abs__ = lambda x: abs(get_client()) __invert__ = lambda x: ~(get_client()) __complex__ = lambda x: complex(get_client()) __int__ = lambda x: int(get_client()) if not six.PY3: __long__ = lambda x: long(get_client()) # NOQA __float__ = lambda x: float(get_client()) __str__ = lambda x: six.binary_type(get_client()) __unicode__ = lambda x: six.text_type(get_client()) __oct__ = lambda x: oct(get_client()) __hex__ = lambda x: hex(get_client()) __index__ = lambda x: get_client().__index__() __coerce__ = lambda x, o: x.__coerce__(x, o) __enter__ = lambda x: x.__enter__() __exit__ = lambda x, *a, **kw: x.__exit__(*a, **kw)
def __init__(self, dsn=None, **options): global Raven o = options self.configure_logging() # configure loggers first cls = self.__class__ self.state = ClientState() self.logger = logging.getLogger( '%s.%s' % (cls.__module__, cls.__name__)) self.error_logger = logging.getLogger('sentry.errors') if dsn is None and os.environ.get('SENTRY_DSN'): msg = "Configuring Raven from environment variable 'SENTRY_DSN'" self.logger.debug(msg) dsn = os.environ['SENTRY_DSN'] if dsn: # TODO: should we validate other options werent sent? urlparts = urlparse(dsn) self.logger.debug( "Configuring Raven for host: %s://%s:%s" % (urlparts.scheme, urlparts.netloc, urlparts.path)) dsn_config = raven.load(dsn, transport_registry=self._registry) servers = dsn_config['SENTRY_SERVERS'] project = dsn_config['SENTRY_PROJECT'] public_key = dsn_config['SENTRY_PUBLIC_KEY'] secret_key = dsn_config['SENTRY_SECRET_KEY'] else: servers = o.get('servers') project = o.get('project') public_key = o.get('public_key') secret_key = o.get('secret_key') self.servers = servers self.public_key = public_key self.secret_key = secret_key self.project = project or defaults.PROJECT self.include_paths = set(o.get('include_paths') or []) self.exclude_paths = set(o.get('exclude_paths') or []) self.name = six.text_type(o.get('name') or defaults.NAME) self.auto_log_stacks = bool( o.get('auto_log_stacks') or defaults.AUTO_LOG_STACKS) self.string_max_length = int( o.get('string_max_length') or defaults.MAX_LENGTH_STRING) self.list_max_length = int( o.get('list_max_length') or defaults.MAX_LENGTH_LIST) self.site = o.get('site', defaults.SITE) self.include_versions = o.get('include_versions', True) self.processors = o.get('processors') if self.processors is None: self.processors = defaults.PROCESSORS context = o.get('context') if context is None: context = {'sys.argv': sys.argv[:]} self.extra = context self.tags = o.get('tags') or {} self.module_cache = ModuleProxyCache() # servers may be set to a NoneType (for Django) if not self.is_enabled(): self.logger.info( 'Raven is not configured (logging is disabled). Please see the' ' documentation for more information.') if Raven is None: Raven = self
def get_lines_from_file(filename, lineno, context_lines, loader=None, module_name=None): """ Returns context_lines before and after lineno from file. Returns (pre_context_lineno, pre_context, context_line, post_context). """ source = None if loader is not None and hasattr(loader, "get_source"): try: source = loader.get_source(module_name) except ImportError: # Traceback (most recent call last): # File "/Users/dcramer/Development/django-sentry/sentry/client/handlers.py", line 31, in emit # get_client().create_from_record(record, request=request) # File "/Users/dcramer/Development/django-sentry/sentry/client/base.py", line 325, in create_from_record # data['__sentry__']['frames'] = varmap(shorten, get_stack_info(stack)) # File "/Users/dcramer/Development/django-sentry/sentry/utils/stacks.py", line 112, in get_stack_info # pre_context_lineno, pre_context, context_line, post_context = get_lines_from_file(filename, lineno, 7, loader, module_name) # File "/Users/dcramer/Development/django-sentry/sentry/utils/stacks.py", line 24, in get_lines_from_file # source = loader.get_source(module_name) # File "/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/pkgutil.py", line 287, in get_source # fullname = self._fix_name(fullname) # File "/System/Library/Frameworks/Python.framework/Versions/2.7/lib/python2.7/pkgutil.py", line 262, in _fix_name # "module %s" % (self.fullname, fullname)) # ImportError: Loader for module cProfile cannot handle module __main__ source = None if source is not None: source = source.splitlines() if source is None: try: f = open(filename, 'rb') try: source = f.readlines() finally: f.close() except (OSError, IOError): pass if source is None: return None, None, None encoding = 'ascii' for line in source[:2]: # File coding may be specified. Match pattern from PEP-263 # (http://www.python.org/dev/peps/pep-0263/) match = _coding_re.search(line.decode('ascii')) # let's assume ascii if match: encoding = match.group(1) break source = [six.text_type(sline, encoding, 'replace') for sline in source] lower_bound = max(0, lineno - context_lines) upper_bound = min(lineno + 1 + context_lines, len(source)) try: pre_context = [ line.strip('\r\n') for line in source[lower_bound:lineno] ] context_line = source[lineno].strip('\r\n') post_context = [ line.strip('\r\n') for line in source[(lineno + 1):upper_bound] ] except IndexError: # the file may have changed since it was loaded into memory return None, None, None return pre_context, context_line, post_context
def test_real_gettext_lazy(self): d = {six.text_type("lazy_translation"): gettext_lazy(six.text_type("testing"))} key = "'lazy_translation'" if six.PY3 else "u'lazy_translation'" value = "'testing'" if six.PY3 else "u'testing'" assert transform(d) == {key: value}