import copy import random import sys from datetime import datetime from contextlib import contextmanager from sentry_sdk._compat import with_metaclass from sentry_sdk.scope import Scope from sentry_sdk.client import Client from sentry_sdk.tracing import Span from sentry_sdk.utils import ( exc_info_from_error, event_from_exception, logger, ContextVar, ) from sentry_sdk._types import MYPY if MYPY: from typing import Union from typing import Any from typing import Optional from typing import Tuple from typing import List from typing import Callable from typing import Generator from typing import Type from typing import TypeVar from typing import overload from typing import ContextManager from sentry_sdk.integrations import Integration from sentry_sdk._types import Event, Hint, Breadcrumb, BreadcrumbHint, ExcInfo from sentry_sdk.consts import ClientConstructor T = TypeVar("T") else: def overload(x): # type: (T) -> T return x _local = ContextVar("sentry_current_hub") def _should_send_default_pii(): # type: () -> bool client = Hub.current.client if not client: return False return client.options["send_default_pii"] class _InitGuard(object): def __init__(self, client): # type: (Client) -> None self._client = client def __enter__(self): # type: () -> _InitGuard return self def __exit__(self, exc_type, exc_value, tb): # type: (Any, Any, Any) -> None c = self._client if c is not None: c.close() def _init(*args, **kwargs): # type: (*Optional[str], **Any) -> ContextManager[Any] """Initializes the SDK and optionally integrations. This takes the same arguments as the client constructor. """ client = Client(*args, **kwargs) # type: ignore Hub.current.bind_client(client) rv = _InitGuard(client) return rv from sentry_sdk._types import MYPY if MYPY: # Make mypy, PyCharm and other static analyzers think `init` is a type to # have nicer autocompletion for params. # # Use `ClientConstructor` to define the argument types of `init` and # `ContextManager[Any]` to tell static analyzers about the return type. class init(ClientConstructor, ContextManager[Any]): pass else: # Alias `init` for actual usage. Go through the lambda indirection to throw # PyCharm off of the weakly typed signature (it would otherwise discover # both the weakly typed signature of `_init` and our faked `init` type). init = (lambda: _init)() class HubMeta(type): @property def current(cls): # type: () -> Hub """Returns the current instance of the hub.""" rv = _local.get(None) if rv is None: rv = Hub(GLOBAL_HUB) _local.set(rv) return rv @property def main(cls): # type: () -> Hub """Returns the main instance of the hub.""" return GLOBAL_HUB class _ScopeManager(object): def __init__(self, hub): # type: (Hub) -> None self._hub = hub self._original_len = len(hub._stack) self._layer = hub._stack[-1] def __enter__(self): # type: () -> Scope scope = self._layer[1] assert scope is not None return scope def __exit__(self, exc_type, exc_value, tb): # type: (Any, Any, Any) -> None current_len = len(self._hub._stack) if current_len < self._original_len: logger.error( "Scope popped too soon. Popped %s scopes too many.", self._original_len - current_len, ) return elif current_len > self._original_len: logger.warning( "Leaked %s scopes: %s", current_len - self._original_len, self._hub._stack[self._original_len :], ) layer = self._hub._stack[self._original_len - 1] del self._hub._stack[self._original_len - 1 :] if layer[1] != self._layer[1]: logger.error( "Wrong scope found. Meant to pop %s, but popped %s.", layer[1], self._layer[1], ) elif layer[0] != self._layer[0]: warning = ( "init() called inside of pushed scope. This might be entirely " "legitimate but usually occurs when initializing the SDK inside " "a request handler or task/job function. Try to initialize the " "SDK as early as possible instead." ) logger.warning(warning) class Hub(with_metaclass(HubMeta)): # type: ignore """The hub wraps the concurrency management of the SDK. Each thread has its own hub but the hub might transfer with the flow of execution if context vars are available. If the hub is used with a with statement it's temporarily activated. """ _stack = None # type: List[Tuple[Optional[Client], Scope]] # Mypy doesn't pick up on the metaclass. if MYPY: current = None # type: Hub main = None # type: Hub def __init__( self, client_or_hub=None, # type: Optional[Union[Hub, Client]] scope=None, # type: Optional[Any] ): # type: (...) -> None if isinstance(client_or_hub, Hub): hub = client_or_hub client, other_scope = hub._stack[-1] if scope is None: scope = copy.copy(other_scope) else: client = client_or_hub if scope is None: scope = Scope() self._stack = [(client, scope)] self._last_event_id = None # type: Optional[str] self._old_hubs = [] # type: List[Hub] def __enter__(self): # type: () -> Hub self._old_hubs.append(Hub.current) _local.set(self) return self def __exit__( self, exc_type, # type: Optional[type] exc_value, # type: Optional[BaseException] tb, # type: Optional[Any] ): # type: (...) -> None old = self._old_hubs.pop() _local.set(old) def run( self, callback # type: Callable[[], T] ): # type: (...) -> T """Runs a callback in the context of the hub. Alternatively the with statement can be used on the hub directly. """ with self: return callback() def get_integration( self, name_or_class # type: Union[str, Type[Integration]] ): # type: (...) -> Any """Returns the integration for this hub by name or class. If there is no client bound or the client does not have that integration then `None` is returned. If the return value is not `None` the hub is guaranteed to have a client attached. """ if isinstance(name_or_class, str): integration_name = name_or_class elif name_or_class.identifier is not None: integration_name = name_or_class.identifier else: raise ValueError("Integration has no name") client = self._stack[-1][0] if client is not None: rv = client.integrations.get(integration_name) if rv is not None: return rv @property def client(self): # type: () -> Optional[Client] """Returns the current client on the hub.""" return self._stack[-1][0] @property def scope(self): # type: () -> Scope """Returns the current scope on the hub.""" return self._stack[-1][1] def last_event_id(self): # type: () -> Optional[str] """Returns the last event ID.""" return self._last_event_id def bind_client( self, new # type: Optional[Client] ): # type: (...) -> None """Binds a new client to the hub.""" top = self._stack[-1] self._stack[-1] = (new, top[1]) def capture_event( self, event, # type: Event hint=None, # type: Optional[Hint] ): # type: (...) -> Optional[str] """Captures an event. Alias of :py:meth:`sentry_sdk.Client.capture_event`. """ client, scope = self._stack[-1] if client is not None: rv = client.capture_event(event, hint, scope) if rv is not None: self._last_event_id = rv return rv return None def capture_message( self, message, # type: str level=None, # type: Optional[str] ): # type: (...) -> Optional[str] """Captures a message. The message is just a string. If no level is provided the default level is `info`. :returns: An `event_id` if the SDK decided to send the event (see :py:meth:`sentry_sdk.Client.capture_event`). """ if self.client is None: return None if level is None: level = "info" return self.capture_event({"message": message, "level": level}) def capture_exception( self, error=None # type: Optional[Union[BaseException, ExcInfo]] ): # type: (...) -> Optional[str] """Captures an exception. :param error: An exception to catch. If `None`, `sys.exc_info()` will be used. :returns: An `event_id` if the SDK decided to send the event (see :py:meth:`sentry_sdk.Client.capture_event`). """ client = self.client if client is None: return None if error is not None: exc_info = exc_info_from_error(error) else: exc_info = sys.exc_info() event, hint = event_from_exception(exc_info, client_options=client.options) try: return self.capture_event(event, hint=hint) except Exception: self._capture_internal_exception(sys.exc_info()) return None def _capture_internal_exception( self, exc_info # type: Any ): # type: (...) -> Any """ Capture an exception that is likely caused by a bug in the SDK itself. These exceptions do not end up in Sentry and are just logged instead. """ logger.error("Internal error in sentry_sdk", exc_info=exc_info) def add_breadcrumb( self, crumb=None, # type: Optional[Breadcrumb] hint=None, # type: Optional[BreadcrumbHint] **kwargs # type: Any ): # type: (...) -> None """ Adds a breadcrumb. :param crumb: Dictionary with the data as the sentry v7/v8 protocol expects. :param hint: An optional value that can be used by `before_breadcrumb` to customize the breadcrumbs that are emitted. """ client, scope = self._stack[-1] if client is None: logger.info("Dropped breadcrumb because no client bound") return crumb = dict(crumb or ()) # type: Breadcrumb crumb.update(kwargs) if not crumb: return hint = dict(hint or ()) # type: Hint if crumb.get("timestamp") is None: crumb["timestamp"] = datetime.utcnow() if crumb.get("type") is None: crumb["type"] = "default" if client.options["before_breadcrumb"] is not None: new_crumb = client.options["before_breadcrumb"](crumb, hint) else: new_crumb = crumb if new_crumb is not None: scope._breadcrumbs.append(new_crumb) else: logger.info("before breadcrumb dropped breadcrumb (%s)", crumb) max_breadcrumbs = client.options["max_breadcrumbs"] # type: int while len(scope._breadcrumbs) > max_breadcrumbs: scope._breadcrumbs.popleft() def start_span( self, span=None, # type: Optional[Span] **kwargs # type: Any ): # type: (...) -> Span """ Create a new span whose parent span is the currently active span, if any. The return value is the span object that can be used as a context manager to start and stop timing. Note that you will not see any span that is not contained within a transaction. Create a transaction with ``start_span(transaction="my transaction")`` if an integration doesn't already do this for you. """ client, scope = self._stack[-1] kwargs.setdefault("hub", self) if span is None: span = scope.span if span is not None: span = span.new_span(**kwargs) else: span = Span(**kwargs) if span.sampled is None and span.transaction is not None: sample_rate = client and client.options["traces_sample_rate"] or 0 span.sampled = random.random() < sample_rate if span.sampled: max_spans = ( client and client.options["_experiments"].get("max_spans") or 1000 ) span.init_finished_spans(maxlen=max_spans) return span @overload # noqa def push_scope( self, callback=None # type: Optional[None] ): # type: (...) -> ContextManager[Scope] pass @overload # noqa def push_scope( self, callback # type: Callable[[Scope], None] ): # type: (...) -> None pass def push_scope( # noqa self, callback=None # type: Optional[Callable[[Scope], None]] ): # type: (...) -> Optional[ContextManager[Scope]] """ Pushes a new layer on the scope stack. :param callback: If provided, this method pushes a scope, calls `callback`, and pops the scope again. :returns: If no `callback` is provided, a context manager that should be used to pop the scope again. """ if callback is not None: with self.push_scope() as scope: callback(scope) return None client, scope = self._stack[-1] new_layer = (client, copy.copy(scope)) self._stack.append(new_layer) return _ScopeManager(self) def pop_scope_unsafe(self): # type: () -> Tuple[Optional[Client], Scope] """ Pops a scope layer from the stack. Try to use the context manager :py:meth:`push_scope` instead. """ rv = self._stack.pop() assert self._stack, "stack must have at least one layer" return rv @overload # noqa def configure_scope( self, callback=None # type: Optional[None] ): # type: (...) -> ContextManager[Scope] pass @overload # noqa def configure_scope( self, callback # type: Callable[[Scope], None] ): # type: (...) -> None pass def configure_scope( # noqa self, callback=None # type: Optional[Callable[[Scope], None]] ): # noqa # type: (...) -> Optional[ContextManager[Scope]] """ Reconfigures the scope. :param callback: If provided, call the callback with the current scope. :returns: If no callback is provided, returns a context manager that returns the scope. """ client, scope = self._stack[-1] if callback is not None: if client is not None: callback(scope) return None @contextmanager def inner(): # type: () -> Generator[Scope, None, None] if client is not None: yield scope else: yield Scope() return inner() def flush( self, timeout=None, # type: Optional[float] callback=None, # type: Optional[Callable[[int, float], None]] ): # type: (...) -> None """ Alias for :py:meth:`sentry_sdk.Client.flush` """ client, scope = self._stack[-1] if client is not None: return client.flush(timeout=timeout, callback=callback) def iter_trace_propagation_headers(self): # type: () -> Generator[Tuple[str, str], None, None] # TODO: Document client, scope = self._stack[-1] span = scope.span if span is None: return propagate_traces = client and client.options["propagate_traces"] if not propagate_traces: return if client and client.options["traceparent_v2"]: traceparent = span.to_traceparent() else: traceparent = span.to_legacy_traceparent() yield "sentry-trace", traceparent GLOBAL_HUB = Hub() _local.set(GLOBAL_HUB)