관리-도구
편집 파일: sessions.py
import os import time import warnings from threading import Thread, Lock from contextlib import contextmanager import sentry_sdk from sentry_sdk.envelope import Envelope from sentry_sdk.session import Session from sentry_sdk.utils import format_timestamp from typing import TYPE_CHECKING if TYPE_CHECKING: from typing import Any from typing import Callable from typing import Dict from typing import Generator from typing import List from typing import Optional from typing import Union def is_auto_session_tracking_enabled(hub=None): # type: (Optional[sentry_sdk.Hub]) -> Union[Any, bool, None] """DEPRECATED: Utility function to find out if session tracking is enabled.""" # Internal callers should use private _is_auto_session_tracking_enabled, instead. warnings.warn( "This function is deprecated and will be removed in the next major release. " "There is no public API replacement.", DeprecationWarning, stacklevel=2, ) if hub is None: hub = sentry_sdk.Hub.current should_track = hub.scope._force_auto_session_tracking if should_track is None: client_options = hub.client.options if hub.client else {} should_track = client_options.get("auto_session_tracking", False) return should_track @contextmanager def auto_session_tracking(hub=None, session_mode="application"): # type: (Optional[sentry_sdk.Hub], str) -> Generator[None, None, None] """DEPRECATED: Use track_session instead Starts and stops a session automatically around a block. """ warnings.warn( "This function is deprecated and will be removed in the next major release. " "Use track_session instead.", DeprecationWarning, stacklevel=2, ) if hub is None: hub = sentry_sdk.Hub.current with warnings.catch_warnings(): warnings.simplefilter("ignore", DeprecationWarning) should_track = is_auto_session_tracking_enabled(hub) if should_track: hub.start_session(session_mode=session_mode) try: yield finally: if should_track: hub.end_session() def is_auto_session_tracking_enabled_scope(scope): # type: (sentry_sdk.Scope) -> bool """ DEPRECATED: Utility function to find out if session tracking is enabled. """ warnings.warn( "This function is deprecated and will be removed in the next major release. " "There is no public API replacement.", DeprecationWarning, stacklevel=2, ) # Internal callers should use private _is_auto_session_tracking_enabled, instead. return _is_auto_session_tracking_enabled(scope) def _is_auto_session_tracking_enabled(scope): # type: (sentry_sdk.Scope) -> bool """ Utility function to find out if session tracking is enabled. """ should_track = scope._force_auto_session_tracking if should_track is None: client_options = sentry_sdk.get_client().options should_track = client_options.get("auto_session_tracking", False) return should_track @contextmanager def auto_session_tracking_scope(scope, session_mode="application"): # type: (sentry_sdk.Scope, str) -> Generator[None, None, None] """DEPRECATED: This function is a deprecated alias for track_session. Starts and stops a session automatically around a block. """ warnings.warn( "This function is a deprecated alias for track_session and will be removed in the next major release.", DeprecationWarning, stacklevel=2, ) with track_session(scope, session_mode=session_mode): yield @contextmanager def track_session(scope, session_mode="application"): # type: (sentry_sdk.Scope, str) -> Generator[None, None, None] """ Start a new session in the provided scope, assuming session tracking is enabled. This is a no-op context manager if session tracking is not enabled. """ should_track = _is_auto_session_tracking_enabled(scope) if should_track: scope.start_session(session_mode=session_mode) try: yield finally: if should_track: scope.end_session() TERMINAL_SESSION_STATES = ("exited", "abnormal", "crashed") MAX_ENVELOPE_ITEMS = 100 def make_aggregate_envelope(aggregate_states, attrs): # type: (Any, Any) -> Any return {"attrs": dict(attrs), "aggregates": list(aggregate_states.values())} class SessionFlusher: def __init__( self, capture_func, # type: Callable[[Envelope], None] flush_interval=60, # type: int ): # type: (...) -> None self.capture_func = capture_func self.flush_interval = flush_interval self.pending_sessions = [] # type: List[Any] self.pending_aggregates = {} # type: Dict[Any, Any] self._thread = None # type: Optional[Thread] self._thread_lock = Lock() self._aggregate_lock = Lock() self._thread_for_pid = None # type: Optional[int] self._running = True def flush(self): # type: (...) -> None pending_sessions = self.pending_sessions self.pending_sessions = [] with self._aggregate_lock: pending_aggregates = self.pending_aggregates self.pending_aggregates = {} envelope = Envelope() for session in pending_sessions: if len(envelope.items) == MAX_ENVELOPE_ITEMS: self.capture_func(envelope) envelope = Envelope() envelope.add_session(session) for attrs, states in pending_aggregates.items(): if len(envelope.items) == MAX_ENVELOPE_ITEMS: self.capture_func(envelope) envelope = Envelope() envelope.add_sessions(make_aggregate_envelope(states, attrs)) if len(envelope.items) > 0: self.capture_func(envelope) def _ensure_running(self): # type: (...) -> None """ Check that we have an active thread to run in, or create one if not. Note that this might fail (e.g. in Python 3.12 it's not possible to spawn new threads at interpreter shutdown). In that case self._running will be False after running this function. """ if self._thread_for_pid == os.getpid() and self._thread is not None: return None with self._thread_lock: if self._thread_for_pid == os.getpid() and self._thread is not None: return None def _thread(): # type: (...) -> None while self._running: time.sleep(self.flush_interval) if self._running: self.flush() thread = Thread(target=_thread) thread.daemon = True try: thread.start() except RuntimeError: # Unfortunately at this point the interpreter is in a state that no # longer allows us to spawn a thread and we have to bail. self._running = False return None self._thread = thread self._thread_for_pid = os.getpid() return None def add_aggregate_session( self, session # type: Session ): # type: (...) -> None # NOTE on `session.did`: # the protocol can deal with buckets that have a distinct-id, however # in practice we expect the python SDK to have an extremely high cardinality # here, effectively making aggregation useless, therefore we do not # aggregate per-did. # For this part we can get away with using the global interpreter lock with self._aggregate_lock: attrs = session.get_json_attrs(with_user_info=False) primary_key = tuple(sorted(attrs.items())) secondary_key = session.truncated_started # (, session.did) states = self.pending_aggregates.setdefault(primary_key, {}) state = states.setdefault(secondary_key, {}) if "started" not in state: state["started"] = format_timestamp(session.truncated_started) # if session.did is not None: # state["did"] = session.did if session.status == "crashed": state["crashed"] = state.get("crashed", 0) + 1 elif session.status == "abnormal": state["abnormal"] = state.get("abnormal", 0) + 1 elif session.errors > 0: state["errored"] = state.get("errored", 0) + 1 else: state["exited"] = state.get("exited", 0) + 1 def add_session( self, session # type: Session ): # type: (...) -> None if session.session_mode == "request": self.add_aggregate_session(session) else: self.pending_sessions.append(session.to_json()) self._ensure_running() def kill(self): # type: (...) -> None self._running = False def __del__(self): # type: (...) -> None self.kill()