mirror of https://github.com/python/cpython
165 lines
6.4 KiB
ReStructuredText
165 lines
6.4 KiB
ReStructuredText
.. highlight:: c
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.. _monitoring:
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Monitoring C API
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================
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Added in version 3.13.
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An extension may need to interact with the event monitoring system. Subscribing
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to events and registering callbacks can be done via the Python API exposed in
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:mod:`sys.monitoring`.
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Generating Execution Events
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===========================
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The functions below make it possible for an extension to fire monitoring
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events as it emulates the execution of Python code. Each of these functions
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accepts a ``PyMonitoringState`` struct which contains concise information
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about the activation state of events, as well as the event arguments, which
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include a ``PyObject*`` representing the code object, the instruction offset
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and sometimes additional, event-specific arguments (see :mod:`sys.monitoring`
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for details about the signatures of the different event callbacks).
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The ``codelike`` argument should be an instance of :class:`types.CodeType`
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or of a type that emulates it.
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The VM disables tracing when firing an event, so there is no need for user
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code to do that.
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Monitoring functions should not be called with an exception set,
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except those listed below as working with the current exception.
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.. c:type:: PyMonitoringState
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Representation of the state of an event type. It is allocated by the user
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while its contents are maintained by the monitoring API functions described below.
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All of the functions below return 0 on success and -1 (with an exception set) on error.
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See :mod:`sys.monitoring` for descriptions of the events.
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.. c:function:: int PyMonitoring_FirePyStartEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``PY_START`` event.
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.. c:function:: int PyMonitoring_FirePyResumeEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``PY_RESUME`` event.
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.. c:function:: int PyMonitoring_FirePyReturnEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject* retval)
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Fire a ``PY_RETURN`` event.
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.. c:function:: int PyMonitoring_FirePyYieldEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject* retval)
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Fire a ``PY_YIELD`` event.
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.. c:function:: int PyMonitoring_FireCallEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject* callable, PyObject *arg0)
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Fire a ``CALL`` event.
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.. c:function:: int PyMonitoring_FireLineEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, int lineno)
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Fire a ``LINE`` event.
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.. c:function:: int PyMonitoring_FireJumpEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject *target_offset)
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Fire a ``JUMP`` event.
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.. c:function:: int PyMonitoring_FireBranchEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject *target_offset)
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Fire a ``BRANCH`` event.
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.. c:function:: int PyMonitoring_FireCReturnEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject *retval)
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Fire a ``C_RETURN`` event.
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.. c:function:: int PyMonitoring_FirePyThrowEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``PY_THROW`` event with the current exception (as returned by
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:c:func:`PyErr_GetRaisedException`).
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.. c:function:: int PyMonitoring_FireRaiseEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``RAISE`` event with the current exception (as returned by
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:c:func:`PyErr_GetRaisedException`).
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.. c:function:: int PyMonitoring_FireCRaiseEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``C_RAISE`` event with the current exception (as returned by
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:c:func:`PyErr_GetRaisedException`).
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.. c:function:: int PyMonitoring_FireReraiseEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``RERAISE`` event with the current exception (as returned by
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:c:func:`PyErr_GetRaisedException`).
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.. c:function:: int PyMonitoring_FireExceptionHandledEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire an ``EXCEPTION_HANDLED`` event with the current exception (as returned by
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:c:func:`PyErr_GetRaisedException`).
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.. c:function:: int PyMonitoring_FirePyUnwindEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset)
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Fire a ``PY_UNWIND`` event with the current exception (as returned by
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:c:func:`PyErr_GetRaisedException`).
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.. c:function:: int PyMonitoring_FireStopIterationEvent(PyMonitoringState *state, PyObject *codelike, int32_t offset, PyObject *value)
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Fire a ``STOP_ITERATION`` event. If ``value`` is an instance of :exc:`StopIteration`, it is used. Otherwise,
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a new :exc:`StopIteration` instance is created with ``value`` as its argument.
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Managing the Monitoring State
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-----------------------------
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Monitoring states can be managed with the help of monitoring scopes. A scope
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would typically correspond to a python function.
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.. :c:function:: int PyMonitoring_EnterScope(PyMonitoringState *state_array, uint64_t *version, const uint8_t *event_types, Py_ssize_t length)
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Enter a monitored scope. ``event_types`` is an array of the event IDs for
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events that may be fired from the scope. For example, the ID of a ``PY_START``
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event is the value ``PY_MONITORING_EVENT_PY_START``, which is numerically equal
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to the base-2 logarithm of ``sys.monitoring.events.PY_START``.
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``state_array`` is an array with a monitoring state entry for each event in
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``event_types``, it is allocated by the user but populated by
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``PyMonitoring_EnterScope`` with information about the activation state of
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the event. The size of ``event_types`` (and hence also of ``state_array``)
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is given in ``length``.
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The ``version`` argument is a pointer to a value which should be allocated
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by the user together with ``state_array`` and initialized to 0,
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and then set only by ``PyMonitoring_EnterScope`` itelf. It allows this
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function to determine whether event states have changed since the previous call,
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and to return quickly if they have not.
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The scopes referred to here are lexical scopes: a function, class or method.
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``PyMonitoring_EnterScope`` should be called whenever the lexical scope is
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entered. Scopes can be reentered, reusing the same *state_array* and *version*,
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in situations like when emulating a recursive Python function. When a code-like's
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execution is paused, such as when emulating a generator, the scope needs to
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be exited and re-entered.
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.. :c:function:: int PyMonitoring_ExitScope(void)
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Exit the last scope that was entered with ``PyMonitoring_EnterScope``.
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