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sentry_sdk
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files >> //opt/hc_python/lib64/python3.8/site-packages/sentry_sdk/integrations/threading.py
import sys from functools import wraps from threading import Thread, current_thread import sentry_sdk from sentry_sdk.integrations import Integration from sentry_sdk.scope import use_isolation_scope, use_scope from sentry_sdk.utils import ( event_from_exception, capture_internal_exceptions, logger, reraise, ) from typing import TYPE_CHECKING if TYPE_CHECKING: from typing import Any from typing import TypeVar from typing import Callable from typing import Optional from sentry_sdk._types import ExcInfo F = TypeVar("F", bound=Callable[..., Any]) class ThreadingIntegration(Integration): identifier = "threading" def __init__(self, propagate_hub=None, propagate_scope=True): # type: (Optional[bool], bool) -> None if propagate_hub is not None: logger.warning( "Deprecated: propagate_hub is deprecated. This will be removed in the future." ) # Note: propagate_hub did not have any effect on propagation of scope data # scope data was always propagated no matter what the value of propagate_hub was # This is why the default for propagate_scope is True self.propagate_scope = propagate_scope if propagate_hub is not None: self.propagate_scope = propagate_hub @staticmethod def setup_once(): # type: () -> None old_start = Thread.start @wraps(old_start) def sentry_start(self, *a, **kw): # type: (Thread, *Any, **Any) -> Any integration = sentry_sdk.get_client().get_integration(ThreadingIntegration) if integration is None: return old_start(self, *a, **kw) if integration.propagate_scope: isolation_scope = sentry_sdk.get_isolation_scope() current_scope = sentry_sdk.get_current_scope() else: isolation_scope = None current_scope = None # Patching instance methods in `start()` creates a reference cycle if # done in a naive way. See # https://github.com/getsentry/sentry-python/pull/434 # # In threading module, using current_thread API will access current thread instance # without holding it to avoid a reference cycle in an easier way. with capture_internal_exceptions(): new_run = _wrap_run( isolation_scope, current_scope, getattr(self.run, "__func__", self.run), ) self.run = new_run # type: ignore return old_start(self, *a, **kw) Thread.start = sentry_start # type: ignore def _wrap_run(isolation_scope_to_use, current_scope_to_use, old_run_func): # type: (Optional[sentry_sdk.Scope], Optional[sentry_sdk.Scope], F) -> F @wraps(old_run_func) def run(*a, **kw): # type: (*Any, **Any) -> Any def _run_old_run_func(): # type: () -> Any try: self = current_thread() return old_run_func(self, *a, **kw) except Exception: reraise(*_capture_exception()) if isolation_scope_to_use is not None and current_scope_to_use is not None: with use_isolation_scope(isolation_scope_to_use): with use_scope(current_scope_to_use): return _run_old_run_func() else: return _run_old_run_func() return run # type: ignore def _capture_exception(): # type: () -> ExcInfo exc_info = sys.exc_info() client = sentry_sdk.get_client() if client.get_integration(ThreadingIntegration) is not None: event, hint = event_from_exception( exc_info, client_options=client.options, mechanism={"type": "threading", "handled": False}, ) sentry_sdk.capture_event(event, hint=hint) return exc_info
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