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import os import sys import linecache import logging from contextlib import contextmanager from datetime import datetime from sentry_sdk._compat import ( urlparse, text_type, implements_str, string_types, number_types, int_types, PY2, ) if False: from typing import Any from typing import Dict from typing import Union from typing import Iterator from typing import Tuple from typing import Optional from typing import List from typing import Set from typing import Type from sentry_sdk.consts import ClientOptions ExcInfo = Tuple[ Optional[Type[BaseException]], Optional[BaseException], Optional[Any] ] if PY2: # Importing ABCs from collections is deprecated, and will stop working in 3.8 # https://github.com/python/cpython/blob/master/Lib/collections/__init__.py#L49 from collections import Mapping, Sequence else: # New in 3.3 # https://docs.python.org/3/library/collections.abc.html from collections.abc import Mapping, Sequence epoch = datetime(1970, 1, 1) # The logger is created here but initialized in the debug support module logger = logging.getLogger("sentry_sdk.errors") CYCLE_MARKER = object() global_repr_processors = [] def add_global_repr_processor(processor): global_repr_processors.append(processor) def _get_debug_hub(): # This function is replaced by debug.py pass @contextmanager def capture_internal_exceptions(): # type: () -> Iterator try: yield except Exception: hub = _get_debug_hub() if hub is not None: hub._capture_internal_exception(sys.exc_info()) def to_timestamp(value): return (value - epoch).total_seconds() def event_hint_with_exc_info(exc_info=None): # type: (ExcInfo) -> Dict[str, Optional[ExcInfo]] """Creates a hint with the exc info filled in.""" if exc_info is None: exc_info = sys.exc_info() else: exc_info = exc_info_from_error(exc_info) if exc_info[0] is None: exc_info = None return {"exc_info": exc_info} class BadDsn(ValueError): """Raised on invalid DSNs.""" @implements_str class Dsn(object): """Represents a DSN.""" def __init__(self, value): if isinstance(value, Dsn): self.__dict__ = dict(value.__dict__) return parts = urlparse.urlsplit(text_type(value)) if parts.scheme not in (u"http", u"https"): raise BadDsn("Unsupported scheme %r" % parts.scheme) self.scheme = parts.scheme self.host = parts.hostname self.port = parts.port if self.port is None: self.port = self.scheme == "https" and 443 or 80 self.public_key = parts.username if not self.public_key: raise BadDsn("Missing public key") self.secret_key = parts.password path = parts.path.rsplit("/", 1) try: self.project_id = text_type(int(path.pop())) except (ValueError, TypeError): raise BadDsn("Invalid project in DSN (%r)" % (parts.path or "")[1:]) self.path = "/".join(path) + "/" @property def netloc(self): """The netloc part of a DSN.""" rv = self.host if (self.scheme, self.port) not in (("http", 80), ("https", 443)): rv = "%s:%s" % (rv, self.port) return rv def to_auth(self, client=None): """Returns the auth info object for this dsn.""" return Auth( scheme=self.scheme, host=self.netloc, path=self.path, project_id=self.project_id, public_key=self.public_key, secret_key=self.secret_key, client=client, ) def __str__(self): return "%s://%s%s@%s%s%s" % ( self.scheme, self.public_key, self.secret_key and "@" + self.secret_key or "", self.netloc, self.path, self.project_id, ) class Auth(object): """Helper object that represents the auth info.""" def __init__( self, scheme, host, project_id, public_key, secret_key=None, version=7, client=None, path="/", ): self.scheme = scheme self.host = host self.path = path self.project_id = project_id self.public_key = public_key self.secret_key = secret_key self.version = version self.client = client @property def store_api_url(self): """Returns the API url for storing events.""" return "%s://%s%sapi/%s/store/" % ( self.scheme, self.host, self.path, self.project_id, ) def to_header(self, timestamp=None): """Returns the auth header a string.""" rv = [("sentry_key", self.public_key), ("sentry_version", self.version)] if timestamp is not None: rv.append(("sentry_timestamp", str(to_timestamp(timestamp)))) if self.client is not None: rv.append(("sentry_client", self.client)) if self.secret_key is not None: rv.append(("sentry_secret", self.secret_key)) return u"Sentry " + u", ".join("%s=%s" % (key, value) for key, value in rv) def get_type_name(cls): # type: (Any) -> str return getattr(cls, "__qualname__", None) or getattr(cls, "__name__", None) def get_type_module(cls): # type: (Any) -> Optional[Any] mod = getattr(cls, "__module__", None) if mod not in (None, "builtins", "__builtins__"): return mod return None def should_hide_frame(frame): # type: (Any) -> bool try: mod = frame.f_globals["__name__"] return mod.startswith("sentry_sdk.") except (AttributeError, KeyError): pass for flag_name in "__traceback_hide__", "__tracebackhide__": try: if frame.f_locals[flag_name]: return True except Exception: pass return False def iter_stacks(tb): # type: (Any) -> Iterator[Any] while tb is not None: if not should_hide_frame(tb.tb_frame): yield tb tb = tb.tb_next def slim_string(value, length=512): # type: (str, int) -> str if not value: return value if len(value) > length: return value[: length - 3] + "..." return value[:length] def get_lines_from_file( filename, # type: str lineno, # type: int loader=None, # type: Any module=None, # type: str ): # type: (...) -> Tuple[List[str], Optional[str], List[str]] context_lines = 5 source = None if loader is not None and hasattr(loader, "get_source"): try: source_str = loader.get_source(module) except (ImportError, IOError): source_str = None if source_str is not None: source = source_str.splitlines() if source is None: try: source = linecache.getlines(filename) except (OSError, IOError): return [], None, [] if not source: return [], None, [] lower_bound = max(0, lineno - context_lines) upper_bound = min(lineno + 1 + context_lines, len(source)) try: pre_context = [ slim_string(line.strip("\r\n")) for line in source[lower_bound:lineno] ] context_line = slim_string(source[lineno].strip("\r\n")) post_context = [ slim_string(line.strip("\r\n")) for line in source[(lineno + 1) : upper_bound] ] return pre_context, context_line, post_context except IndexError: # the file may have changed since it was loaded into memory return [], None, [] def get_source_context(frame, tb_lineno): # type: (Any, int) -> Tuple[List[str], Optional[str], List[str]] try: abs_path = frame.f_code.co_filename except Exception: abs_path = None try: module = frame.f_globals["__name__"] except Exception: return [], None, [] try: loader = frame.f_globals["__loader__"] except Exception: loader = None lineno = tb_lineno - 1 if lineno is not None and abs_path: return get_lines_from_file(abs_path, lineno, loader, module) return [], None, [] def safe_str(value): # type: (Any) -> str try: return text_type(value) except Exception: return safe_repr(value) def safe_repr(value): # type: (Any) -> str try: rv = repr(value) if isinstance(rv, bytes): rv = rv.decode("utf-8", "replace") # At this point `rv` contains a bunch of literal escape codes, like # this (exaggerated example): # # u"\\x2f" # # But we want to show this string as: # # u"/" try: # unicode-escape does this job, but can only decode latin1. So we # attempt to encode in latin1. return rv.encode("latin1").decode("unicode-escape") except Exception: # Since usually strings aren't latin1 this can break. In those # cases we just give up. return rv except Exception: # If e.g. the call to `repr` already fails return u"<broken repr>" def object_to_json(obj, remaining_depth=4, memo=None): with capture_internal_exceptions(): if memo is None: memo = Memo() if memo.memoize(obj): return CYCLE_MARKER try: if remaining_depth > 0: hints = {"memo": memo, "remaining_depth": remaining_depth} for processor in global_repr_processors: with capture_internal_exceptions(): result = processor(obj, hints) if result is not NotImplemented: return result if isinstance(obj, (list, tuple)): # It is not safe to iterate over another sequence types as this may raise errors or # bring undesired side-effects (e.g. Django querysets are executed during iteration) return [ object_to_json( x, remaining_depth=remaining_depth - 1, memo=memo ) for x in obj ] if isinstance(obj, Mapping): return { safe_str(k): object_to_json( v, remaining_depth=remaining_depth - 1, memo=memo ) for k, v in list(obj.items()) } return safe_repr(obj) finally: memo.unmemoize(obj) return u"<broken repr>" def extract_locals(frame): # type: (Any) -> Dict[str, Any] rv = {} for key, value in frame.f_locals.items(): rv[str(key)] = object_to_json(value) return rv def filename_for_module(module, abs_path): # type: (str, str) -> str try: if abs_path.endswith(".pyc"): abs_path = abs_path[:-1] base_module = module.split(".", 1)[0] if base_module == module: return os.path.basename(abs_path) base_module_path = sys.modules[base_module].__file__ return abs_path.split(base_module_path.rsplit(os.sep, 2)[0], 1)[-1].lstrip( os.sep ) except Exception: return abs_path def serialize_frame(frame, tb_lineno=None, with_locals=True): # type: (Any, int, bool) -> Dict[str, Any] f_code = getattr(frame, "f_code", None) if f_code: abs_path = frame.f_code.co_filename function = frame.f_code.co_name else: abs_path = None function = None try: module = frame.f_globals["__name__"] except Exception: module = None if tb_lineno is None: tb_lineno = frame.f_lineno pre_context, context_line, post_context = get_source_context(frame, tb_lineno) rv = { "filename": filename_for_module(module, abs_path) or None, "abs_path": os.path.abspath(abs_path) if abs_path else None, "function": function or "<unknown>", "module": module, "lineno": tb_lineno, "pre_context": pre_context, "context_line": context_line, "post_context": post_context, } if with_locals: rv["vars"] = extract_locals(frame) return rv def stacktrace_from_traceback(tb=None, with_locals=True): # type: (Any, bool) -> Dict[str, List[Dict[str, Any]]] return { "frames": [ serialize_frame( tb.tb_frame, tb_lineno=tb.tb_lineno, with_locals=with_locals ) for tb in iter_stacks(tb) ] } def current_stacktrace(with_locals=True): __tracebackhide__ = True frames = [] f = sys._getframe() while f is not None: if not should_hide_frame(f): frames.append(serialize_frame(f, with_locals=with_locals)) f = f.f_back frames.reverse() return {"frames": frames} def get_errno(exc_value): # type: (BaseException) -> Optional[Any] return getattr(exc_value, "errno", None) def single_exception_from_error_tuple( exc_type, # type: Optional[type] exc_value, # type: Optional[BaseException] tb, # type: Optional[Any] client_options=None, # type: Optional[ClientOptions] mechanism=None, # type: Dict[str, Any] ): # type: (...) -> Dict[str, Any] if exc_value is not None: errno = get_errno(exc_value) else: errno = None if errno is not None: mechanism = mechanism or {} mechanism_meta = mechanism.setdefault("meta", {}) mechanism_meta.setdefault("errno", {"code": errno}) if client_options is None: with_locals = True else: with_locals = client_options["with_locals"] return { "module": get_type_module(exc_type), "type": get_type_name(exc_type), "value": safe_str(exc_value), "mechanism": mechanism, "stacktrace": stacktrace_from_traceback(tb, with_locals), } HAS_CHAINED_EXCEPTIONS = hasattr(Exception, "__suppress_context__") if HAS_CHAINED_EXCEPTIONS: def walk_exception_chain(exc_info): # type: (ExcInfo) -> Iterator[ExcInfo] exc_type, exc_value, tb = exc_info seen_exceptions = [] seen_exception_ids = set() # type: Set[int] while ( exc_type is not None and exc_value is not None and id(exc_value) not in seen_exception_ids ): yield exc_type, exc_value, tb # Avoid hashing random types we don't know anything # about. Use the list to keep a ref so that the `id` is # not used for another object. seen_exceptions.append(exc_value) seen_exception_ids.add(id(exc_value)) if exc_value.__suppress_context__: # type: ignore cause = exc_value.__cause__ else: cause = exc_value.__context__ if cause is None: break exc_type = type(cause) exc_value = cause tb = getattr(cause, "__traceback__", None) else: def walk_exception_chain(exc_info): # type: (ExcInfo) -> Iterator[ExcInfo] yield exc_info def exceptions_from_error_tuple( exc_info, # type: ExcInfo client_options=None, # type: Optional[ClientOptions] mechanism=None, # type: Dict[str, Any] ): # type: (...) -> List[Dict[str, Any]] exc_type, exc_value, tb = exc_info rv = [] for exc_type, exc_value, tb in walk_exception_chain(exc_info): rv.append( single_exception_from_error_tuple( exc_type, exc_value, tb, client_options, mechanism ) ) return rv def to_string(value): # type: (str) -> str try: return text_type(value) except UnicodeDecodeError: return repr(value)[1:-1] def iter_event_stacktraces(event): # type: (Dict[str, Any]) -> Iterator[Dict[str, Any]] if "stacktrace" in event: yield event["stacktrace"] if "exception" in event: for exception in event["exception"].get("values") or (): if "stacktrace" in exception: yield exception["stacktrace"] def iter_event_frames(event): # type: (Dict[str, Any]) -> Iterator[Dict[str, Any]] for stacktrace in iter_event_stacktraces(event): for frame in stacktrace.get("frames") or (): yield frame def handle_in_app(event, in_app_exclude=None, in_app_include=None): # type: (Dict[str, Any], List, List) -> Dict[str, Any] for stacktrace in iter_event_stacktraces(event): handle_in_app_impl( stacktrace.get("frames"), in_app_exclude=in_app_exclude, in_app_include=in_app_include, ) return event def handle_in_app_impl(frames, in_app_exclude, in_app_include): if not frames: return any_in_app = False for frame in frames: in_app = frame.get("in_app") if in_app is not None: if in_app: any_in_app = True continue module = frame.get("module") if not module: continue elif _module_in_set(module, in_app_include): frame["in_app"] = True any_in_app = True elif _module_in_set(module, in_app_exclude): frame["in_app"] = False if not any_in_app: for frame in frames: if frame.get("in_app") is None: frame["in_app"] = True return frames def exc_info_from_error(error): # type: (Union[BaseException, ExcInfo]) -> ExcInfo if isinstance(error, tuple) and len(error) == 3: exc_type, exc_value, tb = error elif isinstance(error, BaseException): tb = getattr(error, "__traceback__", None) if tb is not None: exc_type = type(error) exc_value = error else: exc_type, exc_value, tb = sys.exc_info() if exc_value is not error: tb = None exc_value = error exc_type = type(error) else: raise ValueError() return exc_type, exc_value, tb def event_from_exception( exc_info, # type: Union[BaseException, ExcInfo] client_options=None, # type: Optional[ClientOptions] mechanism=None, # type: Dict[str, Any] ): # type: (...) -> Tuple[Dict[str, Any], Dict[str, Any]] exc_info = exc_info_from_error(exc_info) hint = event_hint_with_exc_info(exc_info) return ( { "level": "error", "exception": { "values": exceptions_from_error_tuple( exc_info, client_options, mechanism ) }, }, hint, ) def _module_in_set(name, set): # type: (str, Optional[List]) -> bool if not set: return False for item in set or (): if item == name or name.startswith(item + "."): return True return False class AnnotatedValue(object): def __init__(self, value, metadata): # type: (Optional[Any], Dict[str, Any]) -> None self.value = value self.metadata = metadata def flatten_metadata(obj): # type: (Dict[str, Any]) -> Dict[str, Any] def inner(obj): # type: (Any) -> Any if isinstance(obj, Mapping): dict_rv = {} meta = {} for k, v in obj.items(): # if we actually have "" keys in our data, throw them away. It's # unclear how we would tell them apart from metadata if k == "": continue dict_rv[k], meta[k] = inner(v) if meta[k] is None: del meta[k] if dict_rv[k] is None: del dict_rv[k] return dict_rv, (meta or None) if isinstance(obj, Sequence) and not isinstance(obj, (text_type, bytes)): list_rv = [] meta = {} for i, v in enumerate(obj): new_v, meta[str(i)] = inner(v) list_rv.append(new_v) if meta[str(i)] is None: del meta[str(i)] return list_rv, (meta or None) if isinstance(obj, AnnotatedValue): return (inner(obj.value)[0], {"": obj.metadata}) return obj, None obj, meta = inner(obj) if meta is not None: obj["_meta"] = meta return obj def strip_event_mut(event): # type: (Dict[str, Any]) -> None strip_stacktrace_mut(event.get("stacktrace", None)) exception = event.get("exception", None) if exception: for exception in exception.get("values", None) or (): strip_stacktrace_mut(exception.get("stacktrace", None)) strip_request_mut(event.get("request", None)) strip_breadcrumbs_mut(event.get("breadcrumbs", None)) def strip_stacktrace_mut(stacktrace): # type: (Optional[Dict[str, List[Dict[str, Any]]]]) -> None if not stacktrace: return for frame in stacktrace.get("frames", None) or (): strip_frame_mut(frame) def strip_request_mut(request): # type: (Dict[str, Any]) -> None if not request: return data = request.get("data", None) if not data: return request["data"] = strip_databag(data) def strip_breadcrumbs_mut(breadcrumbs): if not breadcrumbs: return for i in range(len(breadcrumbs)): breadcrumbs[i] = strip_databag(breadcrumbs[i]) def strip_frame_mut(frame): # type: (Dict[str, Any]) -> None if "vars" in frame: frame["vars"] = strip_databag(frame["vars"]) class Memo(object): def __init__(self): self._inner = {} def memoize(self, obj): if id(obj) in self._inner: return True self._inner[id(obj)] = obj return False def unmemoize(self, obj): self._inner.pop(id(obj), None) def convert_types(obj): # type: (Any) -> Any if obj is None: return None if obj is CYCLE_MARKER: return u"<cyclic>" if isinstance(obj, datetime): return text_type(obj.strftime("%Y-%m-%dT%H:%M:%SZ")) if isinstance(obj, Mapping): return {k: convert_types(v) for k, v in obj.items()} if isinstance(obj, Sequence) and not isinstance(obj, (text_type, bytes)): return [convert_types(v) for v in obj] if isinstance(obj, AnnotatedValue): return AnnotatedValue(convert_types(obj.value), obj.metadata) if not isinstance(obj, string_types + number_types): return safe_repr(obj) if isinstance(obj, bytes): return obj.decode("utf-8", "replace") return obj def strip_databag(obj, remaining_depth=20, max_breadth=20): # type: (Any, int, int) -> Any assert not isinstance(obj, bytes), "bytes should have been normalized before" if remaining_depth <= 0: return AnnotatedValue(None, {"rem": [["!limit", "x"]]}) if isinstance(obj, text_type): return strip_string(obj) if isinstance(obj, Mapping): rv_dict = {} # type: Dict[Any, Any] for i, (k, v) in enumerate(obj.items()): if i >= max_breadth: return AnnotatedValue(rv_dict, {"len": max_breadth}) rv_dict[k] = strip_databag( v, remaining_depth=remaining_depth - 1, max_breadth=max_breadth ) return rv_dict if isinstance(obj, Sequence): rv_list = [] # type: List[Any] for i, v in enumerate(obj): if i >= max_breadth: return AnnotatedValue(rv_list, {"len": max_breadth}) rv_list.append( strip_databag( v, remaining_depth=remaining_depth - 1, max_breadth=max_breadth ) ) return rv_list return obj def strip_string(value, max_length=512): # type: (str, int) -> Union[AnnotatedValue, str] # TODO: read max_length from config if not value: return value length = len(value) if length > max_length: return AnnotatedValue( value=value[: max_length - 3] + u"...", metadata={ "len": length, "rem": [["!limit", "x", max_length - 3, max_length]], }, ) return value def format_and_strip(template, params, strip_string=strip_string): """Format a string containing %s for placeholders and call `strip_string` on each parameter. The string template itself does not have a maximum length. TODO: handle other placeholders, not just %s """ chunks = template.split(u"%s") if not chunks: raise ValueError("No formatting placeholders found") params = list(reversed(params)) rv_remarks = [] rv_original_length = 0 rv_length = 0 rv = [] def realign_remark(remark): return [ (rv_length + x if isinstance(x, int_types) and i < 4 else x) for i, x in enumerate(remark) ] for chunk in chunks[:-1]: rv.append(chunk) rv_length += len(chunk) rv_original_length += len(chunk) if not params: raise ValueError("Not enough params.") param = params.pop() stripped_param = strip_string(param) if isinstance(stripped_param, AnnotatedValue): rv_remarks.extend( realign_remark(remark) for remark in stripped_param.metadata["rem"] ) stripped_param = stripped_param.value rv_original_length += len(param) rv_length += len(stripped_param) rv.append(stripped_param) rv.append(chunks[-1]) rv_length += len(chunks[-1]) rv_original_length += len(chunks[-1]) rv = u"".join(rv) assert len(rv) == rv_length if not rv_remarks: return rv return AnnotatedValue( value=rv, metadata={"len": rv_original_length, "rem": rv_remarks} ) HAS_REAL_CONTEXTVARS = True try: from contextvars import ContextVar # type: ignore if not PY2 and sys.version_info < (3, 7): import aiocontextvars # type: ignore # noqa except ImportError: HAS_REAL_CONTEXTVARS = False from threading import local class ContextVar(object): # type: ignore # Super-limited impl of ContextVar def __init__(self, name): self._name = name self._local = local() def get(self, default): return getattr(self._local, "value", default) def set(self, value): setattr(self._local, "value", value) def transaction_from_function(func): # Methods in Python 2 try: return "%s.%s.%s" % ( func.im_class.__module__, func.im_class.__name__, func.__name__, ) except Exception: pass func_qualname = ( getattr(func, "__qualname__", None) or getattr(func, "__name__", None) or None ) if not func_qualname: # No idea what it is return None # Methods in Python 3 # Functions # Classes try: return "%s.%s" % (func.__module__, func_qualname) except Exception: pass # Possibly a lambda return func_qualname