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Direktori : /proc/thread-self/root/opt/cloudlinux/venv/lib/python3.11/site-packages/sentry_sdk/ |
Current File : //proc/thread-self/root/opt/cloudlinux/venv/lib/python3.11/site-packages/sentry_sdk/sessions.py |
import os import time 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._types import TYPE_CHECKING from sentry_sdk.utils import format_timestamp 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] """Utility function to find out if session tracking is enabled.""" 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] """Starts and stops a session automatically around a block.""" if hub is None: hub = sentry_sdk.Hub.current 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() 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(object): 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 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 thread.start() 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()