#ifndef Py_BUILD_CORE_BUILTIN # define Py_BUILD_CORE_MODULE 1 #endif #include "Python.h" #include "pycore_dict.h" // _PyDict_GetItem_KnownHash() #include "pycore_modsupport.h" // _PyArg_CheckPositional() #include "pycore_moduleobject.h" // _PyModule_GetState() #include "pycore_pyerrors.h" // _PyErr_ClearExcState() #include "pycore_pylifecycle.h" // _Py_IsInterpreterFinalizing() #include "pycore_pystate.h" // _PyThreadState_GET() #include "pycore_runtime_init.h" // _Py_ID() #include // offsetof() /*[clinic input] module _asyncio [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=8fd17862aa989c69]*/ #define FI_FREELIST_MAXLEN 255 typedef struct futureiterobject futureiterobject; /* State of the _asyncio module */ typedef struct { PyTypeObject *FutureIterType; PyTypeObject *TaskStepMethWrapper_Type; PyTypeObject *FutureType; PyTypeObject *TaskType; PyObject *asyncio_mod; PyObject *context_kwname; /* Dictionary containing tasks that are currently active in all running event loops. {EventLoop: Task} */ PyObject *current_tasks; /* WeakSet containing all tasks scheduled to run on event loops. */ PyObject *scheduled_tasks; /* Set containing all eagerly executing tasks. */ PyObject *eager_tasks; /* An isinstance type cache for the 'is_coroutine()' function. */ PyObject *iscoroutine_typecache; /* Imports from asyncio.events. */ PyObject *asyncio_get_event_loop_policy; /* Imports from asyncio.base_futures. */ PyObject *asyncio_future_repr_func; /* Imports from asyncio.exceptions. */ PyObject *asyncio_CancelledError; PyObject *asyncio_InvalidStateError; /* Imports from asyncio.base_tasks. */ PyObject *asyncio_task_get_stack_func; PyObject *asyncio_task_print_stack_func; PyObject *asyncio_task_repr_func; /* Imports from asyncio.coroutines. */ PyObject *asyncio_iscoroutine_func; /* Imports from traceback. */ PyObject *traceback_extract_stack; /* Counter for autogenerated Task names */ uint64_t task_name_counter; #ifndef Py_GIL_DISABLED futureiterobject *fi_freelist; Py_ssize_t fi_freelist_len; #endif } asyncio_state; static inline asyncio_state * get_asyncio_state(PyObject *mod) { asyncio_state *state = _PyModule_GetState(mod); assert(state != NULL); return state; } static inline asyncio_state * get_asyncio_state_by_cls(PyTypeObject *cls) { asyncio_state *state = (asyncio_state *)_PyType_GetModuleState(cls); assert(state != NULL); return state; } static struct PyModuleDef _asynciomodule; static inline asyncio_state * get_asyncio_state_by_def(PyObject *self) { PyTypeObject *tp = Py_TYPE(self); PyObject *mod = PyType_GetModuleByDef(tp, &_asynciomodule); assert(mod != NULL); return get_asyncio_state(mod); } typedef enum { STATE_PENDING, STATE_CANCELLED, STATE_FINISHED } fut_state; #define FutureObj_HEAD(prefix) \ PyObject_HEAD \ PyObject *prefix##_loop; \ PyObject *prefix##_callback0; \ PyObject *prefix##_context0; \ PyObject *prefix##_callbacks; \ PyObject *prefix##_exception; \ PyObject *prefix##_exception_tb; \ PyObject *prefix##_result; \ PyObject *prefix##_source_tb; \ PyObject *prefix##_cancel_msg; \ PyObject *prefix##_cancelled_exc; \ fut_state prefix##_state; \ /* These bitfields need to be at the end of the struct so that these and bitfields from TaskObj are contiguous. */ \ unsigned prefix##_log_tb: 1; \ unsigned prefix##_blocking: 1; typedef struct { FutureObj_HEAD(fut) } FutureObj; typedef struct { FutureObj_HEAD(task) unsigned task_must_cancel: 1; unsigned task_log_destroy_pending: 1; int task_num_cancels_requested; PyObject *task_fut_waiter; PyObject *task_coro; PyObject *task_name; PyObject *task_context; } TaskObj; typedef struct { PyObject_HEAD TaskObj *sw_task; PyObject *sw_arg; } TaskStepMethWrapper; #define Future_CheckExact(state, obj) Py_IS_TYPE(obj, state->FutureType) #define Task_CheckExact(state, obj) Py_IS_TYPE(obj, state->TaskType) #define Future_Check(state, obj) PyObject_TypeCheck(obj, state->FutureType) #define Task_Check(state, obj) PyObject_TypeCheck(obj, state->TaskType) #include "clinic/_asynciomodule.c.h" /*[clinic input] class _asyncio.Future "FutureObj *" "&Future_Type" [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=00d3e4abca711e0f]*/ /* Get FutureIter from Future */ static PyObject * future_new_iter(PyObject *); static PyObject * task_step_handle_result_impl(asyncio_state *state, TaskObj *task, PyObject *result); static int _is_coroutine(asyncio_state *state, PyObject *coro) { /* 'coro' is not a native coroutine, call asyncio.iscoroutine() to check if it's another coroutine flavour. Do this check after 'future_init()'; in case we need to raise an error, __del__ needs a properly initialized object. */ PyObject *res = PyObject_CallOneArg(state->asyncio_iscoroutine_func, coro); if (res == NULL) { return -1; } int is_res_true = PyObject_IsTrue(res); Py_DECREF(res); if (is_res_true <= 0) { return is_res_true; } if (PySet_GET_SIZE(state->iscoroutine_typecache) < 100) { /* Just in case we don't want to cache more than 100 positive types. That shouldn't ever happen, unless someone stressing the system on purpose. */ if (PySet_Add(state->iscoroutine_typecache, (PyObject*) Py_TYPE(coro))) { return -1; } } return 1; } static inline int is_coroutine(asyncio_state *state, PyObject *coro) { if (PyCoro_CheckExact(coro)) { return 1; } /* Check if `type(coro)` is in the cache. Caching makes is_coroutine() function almost as fast as PyCoro_CheckExact() for non-native coroutine-like objects (like coroutines compiled with Cython). asyncio.iscoroutine() has its own type caching mechanism. This cache allows us to avoid the cost of even calling a pure-Python function in 99.9% cases. */ int has_it = PySet_Contains( state->iscoroutine_typecache, (PyObject*) Py_TYPE(coro)); if (has_it == 0) { /* type(coro) is not in iscoroutine_typecache */ return _is_coroutine(state, coro); } /* either an error has occurred or type(coro) is in iscoroutine_typecache */ return has_it; } static PyObject * get_future_loop(asyncio_state *state, PyObject *fut) { /* Implementation of `asyncio.futures._get_loop` */ PyObject *getloop; if (Future_CheckExact(state, fut) || Task_CheckExact(state, fut)) { PyObject *loop = ((FutureObj *)fut)->fut_loop; return Py_NewRef(loop); } if (PyObject_GetOptionalAttr(fut, &_Py_ID(get_loop), &getloop) < 0) { return NULL; } if (getloop != NULL) { PyObject *res = PyObject_CallNoArgs(getloop); Py_DECREF(getloop); return res; } return PyObject_GetAttr(fut, &_Py_ID(_loop)); } static PyObject * get_event_loop(asyncio_state *state) { PyObject *loop; PyObject *policy; _PyThreadStateImpl *ts = (_PyThreadStateImpl *)_PyThreadState_GET(); loop = Py_XNewRef(ts->asyncio_running_loop); if (loop != NULL) { return loop; } policy = PyObject_CallNoArgs(state->asyncio_get_event_loop_policy); if (policy == NULL) { return NULL; } loop = PyObject_CallMethodNoArgs(policy, &_Py_ID(get_event_loop)); Py_DECREF(policy); return loop; } static int call_soon(asyncio_state *state, PyObject *loop, PyObject *func, PyObject *arg, PyObject *ctx) { PyObject *handle; if (ctx == NULL) { PyObject *stack[] = {loop, func, arg}; size_t nargsf = 3 | PY_VECTORCALL_ARGUMENTS_OFFSET; handle = PyObject_VectorcallMethod(&_Py_ID(call_soon), stack, nargsf, NULL); } else { /* All refs in 'stack' are borrowed. */ PyObject *stack[4]; size_t nargs = 2; stack[0] = loop; stack[1] = func; if (arg != NULL) { stack[2] = arg; nargs++; } stack[nargs] = (PyObject *)ctx; size_t nargsf = nargs | PY_VECTORCALL_ARGUMENTS_OFFSET; handle = PyObject_VectorcallMethod(&_Py_ID(call_soon), stack, nargsf, state->context_kwname); } if (handle == NULL) { return -1; } Py_DECREF(handle); return 0; } static inline int future_is_alive(FutureObj *fut) { return fut->fut_loop != NULL; } static inline int future_ensure_alive(FutureObj *fut) { if (!future_is_alive(fut)) { PyErr_SetString(PyExc_RuntimeError, "Future object is not initialized."); return -1; } return 0; } #define ENSURE_FUTURE_ALIVE(state, fut) \ do { \ assert(Future_Check(state, fut) || Task_Check(state, fut)); \ (void)state; \ if (future_ensure_alive((FutureObj*)fut)) { \ return NULL; \ } \ } while(0); static int future_schedule_callbacks(asyncio_state *state, FutureObj *fut) { Py_ssize_t len; Py_ssize_t i; if (fut->fut_callback0 != NULL) { /* There's a 1st callback */ int ret = call_soon(state, fut->fut_loop, fut->fut_callback0, (PyObject *)fut, fut->fut_context0); Py_CLEAR(fut->fut_callback0); Py_CLEAR(fut->fut_context0); if (ret) { /* If an error occurs in pure-Python implementation, all callbacks are cleared. */ Py_CLEAR(fut->fut_callbacks); return ret; } /* we called the first callback, now try calling callbacks from the 'fut_callbacks' list. */ } if (fut->fut_callbacks == NULL) { /* No more callbacks, return. */ return 0; } len = PyList_GET_SIZE(fut->fut_callbacks); if (len == 0) { /* The list of callbacks was empty; clear it and return. */ Py_CLEAR(fut->fut_callbacks); return 0; } for (i = 0; i < len; i++) { PyObject *cb_tup = PyList_GET_ITEM(fut->fut_callbacks, i); PyObject *cb = PyTuple_GET_ITEM(cb_tup, 0); PyObject *ctx = PyTuple_GET_ITEM(cb_tup, 1); if (call_soon(state, fut->fut_loop, cb, (PyObject *)fut, ctx)) { /* If an error occurs in pure-Python implementation, all callbacks are cleared. */ Py_CLEAR(fut->fut_callbacks); return -1; } } Py_CLEAR(fut->fut_callbacks); return 0; } static int future_init(FutureObj *fut, PyObject *loop) { PyObject *res; int is_true; Py_CLEAR(fut->fut_loop); Py_CLEAR(fut->fut_callback0); Py_CLEAR(fut->fut_context0); Py_CLEAR(fut->fut_callbacks); Py_CLEAR(fut->fut_result); Py_CLEAR(fut->fut_exception); Py_CLEAR(fut->fut_exception_tb); Py_CLEAR(fut->fut_source_tb); Py_CLEAR(fut->fut_cancel_msg); Py_CLEAR(fut->fut_cancelled_exc); fut->fut_state = STATE_PENDING; fut->fut_log_tb = 0; fut->fut_blocking = 0; if (loop == Py_None) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); loop = get_event_loop(state); if (loop == NULL) { return -1; } } else { Py_INCREF(loop); } fut->fut_loop = loop; res = PyObject_CallMethodNoArgs(fut->fut_loop, &_Py_ID(get_debug)); if (res == NULL) { return -1; } is_true = PyObject_IsTrue(res); Py_DECREF(res); if (is_true < 0) { return -1; } if (is_true && !_Py_IsInterpreterFinalizing(_PyInterpreterState_GET())) { /* Only try to capture the traceback if the interpreter is not being finalized. The original motivation to add a `Py_IsFinalizing()` call was to prevent SIGSEGV when a Future is created in a __del__ method, which is called during the interpreter shutdown and the traceback module is already unloaded. */ asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); fut->fut_source_tb = PyObject_CallNoArgs(state->traceback_extract_stack); if (fut->fut_source_tb == NULL) { return -1; } } return 0; } static PyObject * future_set_result(asyncio_state *state, FutureObj *fut, PyObject *res) { if (future_ensure_alive(fut)) { return NULL; } if (fut->fut_state != STATE_PENDING) { PyErr_SetString(state->asyncio_InvalidStateError, "invalid state"); return NULL; } assert(!fut->fut_result); fut->fut_result = Py_NewRef(res); fut->fut_state = STATE_FINISHED; if (future_schedule_callbacks(state, fut) == -1) { return NULL; } Py_RETURN_NONE; } static PyObject * future_set_exception(asyncio_state *state, FutureObj *fut, PyObject *exc) { PyObject *exc_val = NULL; if (fut->fut_state != STATE_PENDING) { PyErr_SetString(state->asyncio_InvalidStateError, "invalid state"); return NULL; } if (PyExceptionClass_Check(exc)) { exc_val = PyObject_CallNoArgs(exc); if (exc_val == NULL) { return NULL; } if (fut->fut_state != STATE_PENDING) { Py_DECREF(exc_val); PyErr_SetString(state->asyncio_InvalidStateError, "invalid state"); return NULL; } } else { exc_val = Py_NewRef(exc); } if (!PyExceptionInstance_Check(exc_val)) { Py_DECREF(exc_val); PyErr_SetString(PyExc_TypeError, "invalid exception object"); return NULL; } if (PyErr_GivenExceptionMatches(exc_val, PyExc_StopIteration)) { const char *msg = "StopIteration interacts badly with " "generators and cannot be raised into a " "Future"; PyObject *message = PyUnicode_FromString(msg); if (message == NULL) { Py_DECREF(exc_val); return NULL; } PyObject *err = PyObject_CallOneArg(PyExc_RuntimeError, message); Py_DECREF(message); if (err == NULL) { Py_DECREF(exc_val); return NULL; } assert(PyExceptionInstance_Check(err)); PyException_SetCause(err, Py_NewRef(exc_val)); PyException_SetContext(err, Py_NewRef(exc_val)); Py_DECREF(exc_val); exc_val = err; } assert(!fut->fut_exception); assert(!fut->fut_exception_tb); fut->fut_exception = exc_val; fut->fut_exception_tb = PyException_GetTraceback(exc_val); fut->fut_state = STATE_FINISHED; if (future_schedule_callbacks(state, fut) == -1) { return NULL; } fut->fut_log_tb = 1; Py_RETURN_NONE; } static PyObject * create_cancelled_error(asyncio_state *state, FutureObj *fut) { PyObject *exc; if (fut->fut_cancelled_exc != NULL) { /* transfer ownership */ exc = fut->fut_cancelled_exc; fut->fut_cancelled_exc = NULL; return exc; } PyObject *msg = fut->fut_cancel_msg; if (msg == NULL || msg == Py_None) { exc = PyObject_CallNoArgs(state->asyncio_CancelledError); } else { exc = PyObject_CallOneArg(state->asyncio_CancelledError, msg); } return exc; } static void future_set_cancelled_error(asyncio_state *state, FutureObj *fut) { PyObject *exc = create_cancelled_error(state, fut); if (exc == NULL) { return; } PyErr_SetObject(state->asyncio_CancelledError, exc); Py_DECREF(exc); } static int future_get_result(asyncio_state *state, FutureObj *fut, PyObject **result) { if (fut->fut_state == STATE_CANCELLED) { future_set_cancelled_error(state, fut); return -1; } if (fut->fut_state != STATE_FINISHED) { PyErr_SetString(state->asyncio_InvalidStateError, "Result is not set."); return -1; } fut->fut_log_tb = 0; if (fut->fut_exception != NULL) { PyObject *tb = fut->fut_exception_tb; if (tb == NULL) { tb = Py_None; } if (PyException_SetTraceback(fut->fut_exception, tb) < 0) { return -1; } *result = Py_NewRef(fut->fut_exception); Py_CLEAR(fut->fut_exception_tb); return 1; } *result = Py_NewRef(fut->fut_result); return 0; } static PyObject * future_add_done_callback(asyncio_state *state, FutureObj *fut, PyObject *arg, PyObject *ctx) { if (!future_is_alive(fut)) { PyErr_SetString(PyExc_RuntimeError, "uninitialized Future object"); return NULL; } if (fut->fut_state != STATE_PENDING) { /* The future is done/cancelled, so schedule the callback right away. */ if (call_soon(state, fut->fut_loop, arg, (PyObject*) fut, ctx)) { return NULL; } } else { /* The future is pending, add a callback. Callbacks in the future object are stored as follows: callback0 -- a pointer to the first callback callbacks -- a list of 2nd, 3rd, ... callbacks Invariants: * callbacks != NULL: There are some callbacks in in the list. Just add the new callback to it. * callbacks == NULL and callback0 == NULL: This is the first callback. Set it to callback0. * callbacks == NULL and callback0 != NULL: This is a second callback. Initialize callbacks with a new list and add the new callback to it. */ if (fut->fut_callbacks == NULL && fut->fut_callback0 == NULL) { fut->fut_callback0 = Py_NewRef(arg); fut->fut_context0 = Py_NewRef(ctx); } else { PyObject *tup = PyTuple_New(2); if (tup == NULL) { return NULL; } Py_INCREF(arg); PyTuple_SET_ITEM(tup, 0, arg); Py_INCREF(ctx); PyTuple_SET_ITEM(tup, 1, (PyObject *)ctx); if (fut->fut_callbacks != NULL) { int err = PyList_Append(fut->fut_callbacks, tup); if (err) { Py_DECREF(tup); return NULL; } Py_DECREF(tup); } else { fut->fut_callbacks = PyList_New(1); if (fut->fut_callbacks == NULL) { Py_DECREF(tup); return NULL; } PyList_SET_ITEM(fut->fut_callbacks, 0, tup); /* borrow */ } } } Py_RETURN_NONE; } static PyObject * future_cancel(asyncio_state *state, FutureObj *fut, PyObject *msg) { fut->fut_log_tb = 0; if (fut->fut_state != STATE_PENDING) { Py_RETURN_FALSE; } fut->fut_state = STATE_CANCELLED; Py_XINCREF(msg); Py_XSETREF(fut->fut_cancel_msg, msg); if (future_schedule_callbacks(state, fut) == -1) { return NULL; } Py_RETURN_TRUE; } /*[clinic input] _asyncio.Future.__init__ * loop: object = None This class is *almost* compatible with concurrent.futures.Future. Differences: - result() and exception() do not take a timeout argument and raise an exception when the future isn't done yet. - Callbacks registered with add_done_callback() are always called via the event loop's call_soon_threadsafe(). - This class is not compatible with the wait() and as_completed() methods in the concurrent.futures package. [clinic start generated code]*/ static int _asyncio_Future___init___impl(FutureObj *self, PyObject *loop) /*[clinic end generated code: output=9ed75799eaccb5d6 input=89af317082bc0bf8]*/ { return future_init(self, loop); } static int FutureObj_clear(FutureObj *fut) { Py_CLEAR(fut->fut_loop); Py_CLEAR(fut->fut_callback0); Py_CLEAR(fut->fut_context0); Py_CLEAR(fut->fut_callbacks); Py_CLEAR(fut->fut_result); Py_CLEAR(fut->fut_exception); Py_CLEAR(fut->fut_exception_tb); Py_CLEAR(fut->fut_source_tb); Py_CLEAR(fut->fut_cancel_msg); Py_CLEAR(fut->fut_cancelled_exc); PyObject_ClearManagedDict((PyObject *)fut); return 0; } static int FutureObj_traverse(FutureObj *fut, visitproc visit, void *arg) { Py_VISIT(Py_TYPE(fut)); Py_VISIT(fut->fut_loop); Py_VISIT(fut->fut_callback0); Py_VISIT(fut->fut_context0); Py_VISIT(fut->fut_callbacks); Py_VISIT(fut->fut_result); Py_VISIT(fut->fut_exception); Py_VISIT(fut->fut_exception_tb); Py_VISIT(fut->fut_source_tb); Py_VISIT(fut->fut_cancel_msg); Py_VISIT(fut->fut_cancelled_exc); PyObject_VisitManagedDict((PyObject *)fut, visit, arg); return 0; } /*[clinic input] _asyncio.Future.result Return the result this future represents. If the future has been cancelled, raises CancelledError. If the future's result isn't yet available, raises InvalidStateError. If the future is done and has an exception set, this exception is raised. [clinic start generated code]*/ static PyObject * _asyncio_Future_result_impl(FutureObj *self) /*[clinic end generated code: output=f35f940936a4b1e5 input=49ecf9cf5ec50dc5]*/ { asyncio_state *state = get_asyncio_state_by_def((PyObject *)self); PyObject *result; if (!future_is_alive(self)) { PyErr_SetString(state->asyncio_InvalidStateError, "Future object is not initialized."); return NULL; } int res = future_get_result(state, self, &result); if (res == -1) { return NULL; } if (res == 0) { return result; } assert(res == 1); PyErr_SetObject(PyExceptionInstance_Class(result), result); Py_DECREF(result); return NULL; } /*[clinic input] _asyncio.Future.exception cls: defining_class / Return the exception that was set on this future. The exception (or None if no exception was set) is returned only if the future is done. If the future has been cancelled, raises CancelledError. If the future isn't done yet, raises InvalidStateError. [clinic start generated code]*/ static PyObject * _asyncio_Future_exception_impl(FutureObj *self, PyTypeObject *cls) /*[clinic end generated code: output=ce75576b187c905b input=3faf15c22acdb60d]*/ { if (!future_is_alive(self)) { asyncio_state *state = get_asyncio_state_by_cls(cls); PyErr_SetString(state->asyncio_InvalidStateError, "Future object is not initialized."); return NULL; } if (self->fut_state == STATE_CANCELLED) { asyncio_state *state = get_asyncio_state_by_cls(cls); future_set_cancelled_error(state, self); return NULL; } if (self->fut_state != STATE_FINISHED) { asyncio_state *state = get_asyncio_state_by_cls(cls); PyErr_SetString(state->asyncio_InvalidStateError, "Exception is not set."); return NULL; } if (self->fut_exception != NULL) { self->fut_log_tb = 0; return Py_NewRef(self->fut_exception); } Py_RETURN_NONE; } /*[clinic input] _asyncio.Future.set_result cls: defining_class result: object / Mark the future done and set its result. If the future is already done when this method is called, raises InvalidStateError. [clinic start generated code]*/ static PyObject * _asyncio_Future_set_result_impl(FutureObj *self, PyTypeObject *cls, PyObject *result) /*[clinic end generated code: output=99afbbe78f99c32d input=d5a41c1e353acc2e]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); ENSURE_FUTURE_ALIVE(state, self) return future_set_result(state, self, result); } /*[clinic input] _asyncio.Future.set_exception cls: defining_class exception: object / Mark the future done and set an exception. If the future is already done when this method is called, raises InvalidStateError. [clinic start generated code]*/ static PyObject * _asyncio_Future_set_exception_impl(FutureObj *self, PyTypeObject *cls, PyObject *exception) /*[clinic end generated code: output=0a5e8b5a52f058d6 input=a245cd49d3df939b]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); ENSURE_FUTURE_ALIVE(state, self) return future_set_exception(state, self, exception); } /*[clinic input] _asyncio.Future.add_done_callback cls: defining_class fn: object / * context: object = NULL Add a callback to be run when the future becomes done. The callback is called with a single argument - the future object. If the future is already done when this is called, the callback is scheduled with call_soon. [clinic start generated code]*/ static PyObject * _asyncio_Future_add_done_callback_impl(FutureObj *self, PyTypeObject *cls, PyObject *fn, PyObject *context) /*[clinic end generated code: output=922e9a4cbd601167 input=599261c521458cc2]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); if (context == NULL) { context = PyContext_CopyCurrent(); if (context == NULL) { return NULL; } PyObject *res = future_add_done_callback(state, self, fn, context); Py_DECREF(context); return res; } return future_add_done_callback(state, self, fn, context); } /*[clinic input] _asyncio.Future.remove_done_callback cls: defining_class fn: object / Remove all instances of a callback from the "call when done" list. Returns the number of callbacks removed. [clinic start generated code]*/ static PyObject * _asyncio_Future_remove_done_callback_impl(FutureObj *self, PyTypeObject *cls, PyObject *fn) /*[clinic end generated code: output=2da35ccabfe41b98 input=c7518709b86fc747]*/ { PyObject *newlist; Py_ssize_t len, i, j=0; Py_ssize_t cleared_callback0 = 0; asyncio_state *state = get_asyncio_state_by_cls(cls); ENSURE_FUTURE_ALIVE(state, self) if (self->fut_callback0 != NULL) { int cmp = PyObject_RichCompareBool(self->fut_callback0, fn, Py_EQ); if (cmp == -1) { return NULL; } if (cmp == 1) { /* callback0 == fn */ Py_CLEAR(self->fut_callback0); Py_CLEAR(self->fut_context0); cleared_callback0 = 1; } } if (self->fut_callbacks == NULL) { return PyLong_FromSsize_t(cleared_callback0); } len = PyList_GET_SIZE(self->fut_callbacks); if (len == 0) { Py_CLEAR(self->fut_callbacks); return PyLong_FromSsize_t(cleared_callback0); } if (len == 1) { PyObject *cb_tup = PyList_GET_ITEM(self->fut_callbacks, 0); int cmp = PyObject_RichCompareBool( PyTuple_GET_ITEM(cb_tup, 0), fn, Py_EQ); if (cmp == -1) { return NULL; } if (cmp == 1) { /* callbacks[0] == fn */ Py_CLEAR(self->fut_callbacks); return PyLong_FromSsize_t(1 + cleared_callback0); } /* callbacks[0] != fn and len(callbacks) == 1 */ return PyLong_FromSsize_t(cleared_callback0); } newlist = PyList_New(len); if (newlist == NULL) { return NULL; } // Beware: PyObject_RichCompareBool below may change fut_callbacks. // See GH-97592. for (i = 0; self->fut_callbacks != NULL && i < PyList_GET_SIZE(self->fut_callbacks); i++) { int ret; PyObject *item = PyList_GET_ITEM(self->fut_callbacks, i); Py_INCREF(item); ret = PyObject_RichCompareBool(PyTuple_GET_ITEM(item, 0), fn, Py_EQ); if (ret == 0) { if (j < len) { PyList_SET_ITEM(newlist, j, item); j++; continue; } ret = PyList_Append(newlist, item); } Py_DECREF(item); if (ret < 0) { goto fail; } } // Note: fut_callbacks may have been cleared. if (j == 0 || self->fut_callbacks == NULL) { Py_CLEAR(self->fut_callbacks); Py_DECREF(newlist); return PyLong_FromSsize_t(len + cleared_callback0); } if (j < len) { Py_SET_SIZE(newlist, j); } j = PyList_GET_SIZE(newlist); len = PyList_GET_SIZE(self->fut_callbacks); if (j != len) { if (PyList_SetSlice(self->fut_callbacks, 0, len, newlist) < 0) { goto fail; } } Py_DECREF(newlist); return PyLong_FromSsize_t(len - j + cleared_callback0); fail: Py_DECREF(newlist); return NULL; } /*[clinic input] _asyncio.Future.cancel cls: defining_class / msg: object = None Cancel the future and schedule callbacks. If the future is already done or cancelled, return False. Otherwise, change the future's state to cancelled, schedule the callbacks and return True. [clinic start generated code]*/ static PyObject * _asyncio_Future_cancel_impl(FutureObj *self, PyTypeObject *cls, PyObject *msg) /*[clinic end generated code: output=074956f35904b034 input=bba8f8b786941a94]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); ENSURE_FUTURE_ALIVE(state, self) return future_cancel(state, self, msg); } /*[clinic input] _asyncio.Future.cancelled Return True if the future was cancelled. [clinic start generated code]*/ static PyObject * _asyncio_Future_cancelled_impl(FutureObj *self) /*[clinic end generated code: output=145197ced586357d input=943ab8b7b7b17e45]*/ { if (future_is_alive(self) && self->fut_state == STATE_CANCELLED) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } /*[clinic input] _asyncio.Future.done Return True if the future is done. Done means either that a result / exception are available, or that the future was cancelled. [clinic start generated code]*/ static PyObject * _asyncio_Future_done_impl(FutureObj *self) /*[clinic end generated code: output=244c5ac351145096 input=28d7b23fdb65d2ac]*/ { if (!future_is_alive(self) || self->fut_state == STATE_PENDING) { Py_RETURN_FALSE; } else { Py_RETURN_TRUE; } } /*[clinic input] _asyncio.Future.get_loop cls: defining_class / Return the event loop the Future is bound to. [clinic start generated code]*/ static PyObject * _asyncio_Future_get_loop_impl(FutureObj *self, PyTypeObject *cls) /*[clinic end generated code: output=f50ea6c374d9ee97 input=163c2c498b45a1f0]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); ENSURE_FUTURE_ALIVE(state, self) return Py_NewRef(self->fut_loop); } static PyObject * FutureObj_get_blocking(FutureObj *fut, void *Py_UNUSED(ignored)) { if (future_is_alive(fut) && fut->fut_blocking) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int FutureObj_set_blocking(FutureObj *fut, PyObject *val, void *Py_UNUSED(ignored)) { if (future_ensure_alive(fut)) { return -1; } if (val == NULL) { PyErr_SetString(PyExc_AttributeError, "cannot delete attribute"); return -1; } int is_true = PyObject_IsTrue(val); if (is_true < 0) { return -1; } fut->fut_blocking = is_true; return 0; } static PyObject * FutureObj_get_log_traceback(FutureObj *fut, void *Py_UNUSED(ignored)) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); ENSURE_FUTURE_ALIVE(state, fut) if (fut->fut_log_tb) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int FutureObj_set_log_traceback(FutureObj *fut, PyObject *val, void *Py_UNUSED(ignored)) { if (val == NULL) { PyErr_SetString(PyExc_AttributeError, "cannot delete attribute"); return -1; } int is_true = PyObject_IsTrue(val); if (is_true < 0) { return -1; } if (is_true) { PyErr_SetString(PyExc_ValueError, "_log_traceback can only be set to False"); return -1; } fut->fut_log_tb = is_true; return 0; } static PyObject * FutureObj_get_loop(FutureObj *fut, void *Py_UNUSED(ignored)) { if (!future_is_alive(fut)) { Py_RETURN_NONE; } return Py_NewRef(fut->fut_loop); } static PyObject * FutureObj_get_callbacks(FutureObj *fut, void *Py_UNUSED(ignored)) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); Py_ssize_t i; ENSURE_FUTURE_ALIVE(state, fut) if (fut->fut_callback0 == NULL) { if (fut->fut_callbacks == NULL) { Py_RETURN_NONE; } return Py_NewRef(fut->fut_callbacks); } Py_ssize_t len = 1; if (fut->fut_callbacks != NULL) { len += PyList_GET_SIZE(fut->fut_callbacks); } PyObject *new_list = PyList_New(len); if (new_list == NULL) { return NULL; } PyObject *tup0 = PyTuple_New(2); if (tup0 == NULL) { Py_DECREF(new_list); return NULL; } Py_INCREF(fut->fut_callback0); PyTuple_SET_ITEM(tup0, 0, fut->fut_callback0); assert(fut->fut_context0 != NULL); Py_INCREF(fut->fut_context0); PyTuple_SET_ITEM(tup0, 1, (PyObject *)fut->fut_context0); PyList_SET_ITEM(new_list, 0, tup0); if (fut->fut_callbacks != NULL) { for (i = 0; i < PyList_GET_SIZE(fut->fut_callbacks); i++) { PyObject *cb = PyList_GET_ITEM(fut->fut_callbacks, i); Py_INCREF(cb); PyList_SET_ITEM(new_list, i + 1, cb); } } return new_list; } static PyObject * FutureObj_get_result(FutureObj *fut, void *Py_UNUSED(ignored)) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); ENSURE_FUTURE_ALIVE(state, fut) if (fut->fut_result == NULL) { Py_RETURN_NONE; } return Py_NewRef(fut->fut_result); } static PyObject * FutureObj_get_exception(FutureObj *fut, void *Py_UNUSED(ignored)) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); ENSURE_FUTURE_ALIVE(state, fut) if (fut->fut_exception == NULL) { Py_RETURN_NONE; } return Py_NewRef(fut->fut_exception); } static PyObject * FutureObj_get_source_traceback(FutureObj *fut, void *Py_UNUSED(ignored)) { if (!future_is_alive(fut) || fut->fut_source_tb == NULL) { Py_RETURN_NONE; } return Py_NewRef(fut->fut_source_tb); } static PyObject * FutureObj_get_cancel_message(FutureObj *fut, void *Py_UNUSED(ignored)) { if (fut->fut_cancel_msg == NULL) { Py_RETURN_NONE; } return Py_NewRef(fut->fut_cancel_msg); } static int FutureObj_set_cancel_message(FutureObj *fut, PyObject *msg, void *Py_UNUSED(ignored)) { if (msg == NULL) { PyErr_SetString(PyExc_AttributeError, "cannot delete attribute"); return -1; } Py_INCREF(msg); Py_XSETREF(fut->fut_cancel_msg, msg); return 0; } static PyObject * FutureObj_get_state(FutureObj *fut, void *Py_UNUSED(ignored)) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); PyObject *ret = NULL; ENSURE_FUTURE_ALIVE(state, fut) switch (fut->fut_state) { case STATE_PENDING: ret = &_Py_ID(PENDING); break; case STATE_CANCELLED: ret = &_Py_ID(CANCELLED); break; case STATE_FINISHED: ret = &_Py_ID(FINISHED); break; default: assert (0); } assert(_Py_IsImmortal(ret)); return ret; } static PyObject * FutureObj_repr(FutureObj *fut) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); ENSURE_FUTURE_ALIVE(state, fut) return PyObject_CallOneArg(state->asyncio_future_repr_func, (PyObject *)fut); } /*[clinic input] _asyncio.Future._make_cancelled_error Create the CancelledError to raise if the Future is cancelled. This should only be called once when handling a cancellation since it erases the context exception value. [clinic start generated code]*/ static PyObject * _asyncio_Future__make_cancelled_error_impl(FutureObj *self) /*[clinic end generated code: output=a5df276f6c1213de input=ac6effe4ba795ecc]*/ { asyncio_state *state = get_asyncio_state_by_def((PyObject *)self); return create_cancelled_error(state, self); } static void FutureObj_finalize(FutureObj *fut) { PyObject *context; PyObject *message = NULL; PyObject *func; if (!fut->fut_log_tb) { return; } assert(fut->fut_exception != NULL); fut->fut_log_tb = 0; /* Save the current exception, if any. */ PyObject *exc = PyErr_GetRaisedException(); context = PyDict_New(); if (context == NULL) { goto finally; } message = PyUnicode_FromFormat( "%s exception was never retrieved", _PyType_Name(Py_TYPE(fut))); if (message == NULL) { goto finally; } if (PyDict_SetItem(context, &_Py_ID(message), message) < 0 || PyDict_SetItem(context, &_Py_ID(exception), fut->fut_exception) < 0 || PyDict_SetItem(context, &_Py_ID(future), (PyObject*)fut) < 0) { goto finally; } if (fut->fut_source_tb != NULL) { if (PyDict_SetItem(context, &_Py_ID(source_traceback), fut->fut_source_tb) < 0) { goto finally; } } func = PyObject_GetAttr(fut->fut_loop, &_Py_ID(call_exception_handler)); if (func != NULL) { PyObject *res = PyObject_CallOneArg(func, context); if (res == NULL) { PyErr_WriteUnraisable(func); } else { Py_DECREF(res); } Py_DECREF(func); } finally: Py_XDECREF(context); Py_XDECREF(message); /* Restore the saved exception. */ PyErr_SetRaisedException(exc); } static PyMethodDef FutureType_methods[] = { _ASYNCIO_FUTURE_RESULT_METHODDEF _ASYNCIO_FUTURE_EXCEPTION_METHODDEF _ASYNCIO_FUTURE_SET_RESULT_METHODDEF _ASYNCIO_FUTURE_SET_EXCEPTION_METHODDEF _ASYNCIO_FUTURE_ADD_DONE_CALLBACK_METHODDEF _ASYNCIO_FUTURE_REMOVE_DONE_CALLBACK_METHODDEF _ASYNCIO_FUTURE_CANCEL_METHODDEF _ASYNCIO_FUTURE_CANCELLED_METHODDEF _ASYNCIO_FUTURE_DONE_METHODDEF _ASYNCIO_FUTURE_GET_LOOP_METHODDEF _ASYNCIO_FUTURE__MAKE_CANCELLED_ERROR_METHODDEF {"__class_getitem__", Py_GenericAlias, METH_O|METH_CLASS, PyDoc_STR("See PEP 585")}, {NULL, NULL} /* Sentinel */ }; #define FUTURE_COMMON_GETSETLIST \ {"_state", (getter)FutureObj_get_state, NULL, NULL}, \ {"_asyncio_future_blocking", (getter)FutureObj_get_blocking, \ (setter)FutureObj_set_blocking, NULL}, \ {"_loop", (getter)FutureObj_get_loop, NULL, NULL}, \ {"_callbacks", (getter)FutureObj_get_callbacks, NULL, NULL}, \ {"_result", (getter)FutureObj_get_result, NULL, NULL}, \ {"_exception", (getter)FutureObj_get_exception, NULL, NULL}, \ {"_log_traceback", (getter)FutureObj_get_log_traceback, \ (setter)FutureObj_set_log_traceback, NULL}, \ {"_source_traceback", (getter)FutureObj_get_source_traceback, \ NULL, NULL}, \ {"_cancel_message", (getter)FutureObj_get_cancel_message, \ (setter)FutureObj_set_cancel_message, NULL}, static PyGetSetDef FutureType_getsetlist[] = { FUTURE_COMMON_GETSETLIST {NULL} /* Sentinel */ }; static void FutureObj_dealloc(PyObject *self); static PyType_Slot Future_slots[] = { {Py_tp_dealloc, FutureObj_dealloc}, {Py_tp_repr, (reprfunc)FutureObj_repr}, {Py_tp_doc, (void *)_asyncio_Future___init____doc__}, {Py_tp_traverse, (traverseproc)FutureObj_traverse}, {Py_tp_clear, (inquiry)FutureObj_clear}, {Py_tp_iter, (getiterfunc)future_new_iter}, {Py_tp_methods, FutureType_methods}, {Py_tp_getset, FutureType_getsetlist}, {Py_tp_init, (initproc)_asyncio_Future___init__}, {Py_tp_new, PyType_GenericNew}, {Py_tp_finalize, (destructor)FutureObj_finalize}, // async slots {Py_am_await, (unaryfunc)future_new_iter}, {0, NULL}, }; static PyType_Spec Future_spec = { .name = "_asyncio.Future", .basicsize = sizeof(FutureObj), .flags = (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC | Py_TPFLAGS_BASETYPE | Py_TPFLAGS_IMMUTABLETYPE | Py_TPFLAGS_MANAGED_DICT | Py_TPFLAGS_MANAGED_WEAKREF), .slots = Future_slots, }; static void FutureObj_dealloc(PyObject *self) { FutureObj *fut = (FutureObj *)self; if (PyObject_CallFinalizerFromDealloc(self) < 0) { // resurrected. return; } PyTypeObject *tp = Py_TYPE(fut); PyObject_GC_UnTrack(self); PyObject_ClearWeakRefs(self); (void)FutureObj_clear(fut); tp->tp_free(fut); Py_DECREF(tp); } /*********************** Future Iterator **************************/ typedef struct futureiterobject { PyObject_HEAD FutureObj *future; } futureiterobject; static void FutureIter_dealloc(futureiterobject *it) { PyTypeObject *tp = Py_TYPE(it); assert(_PyType_HasFeature(tp, Py_TPFLAGS_HEAPTYPE)); PyObject_GC_UnTrack(it); tp->tp_clear((PyObject *)it); #ifndef Py_GIL_DISABLED // GH-115874: We can't use PyType_GetModuleByDef here as the type might have // already been cleared, which is also why we must check if ht_module != NULL. PyObject *module = ((PyHeapTypeObject*)tp)->ht_module; asyncio_state *state = NULL; if (module && _PyModule_GetDef(module) == &_asynciomodule) { state = get_asyncio_state(module); } // TODO GH-121621: This should be moved to thread state as well. if (state && state->fi_freelist_len < FI_FREELIST_MAXLEN) { state->fi_freelist_len++; it->future = (FutureObj*) state->fi_freelist; state->fi_freelist = it; } else #endif { PyObject_GC_Del(it); Py_DECREF(tp); } } static PySendResult FutureIter_am_send(futureiterobject *it, PyObject *Py_UNUSED(arg), PyObject **result) { /* arg is unused, see the comment on FutureIter_send for clarification */ PyObject *res; FutureObj *fut = it->future; *result = NULL; if (fut == NULL) { return PYGEN_ERROR; } if (fut->fut_state == STATE_PENDING) { if (!fut->fut_blocking) { fut->fut_blocking = 1; *result = Py_NewRef(fut); return PYGEN_NEXT; } PyErr_SetString(PyExc_RuntimeError, "await wasn't used with future"); return PYGEN_ERROR; } it->future = NULL; res = _asyncio_Future_result_impl(fut); if (res != NULL) { Py_DECREF(fut); *result = res; return PYGEN_RETURN; } Py_DECREF(fut); return PYGEN_ERROR; } static PyObject * FutureIter_iternext(futureiterobject *it) { PyObject *result; switch (FutureIter_am_send(it, Py_None, &result)) { case PYGEN_RETURN: (void)_PyGen_SetStopIterationValue(result); Py_DECREF(result); return NULL; case PYGEN_NEXT: return result; case PYGEN_ERROR: return NULL; default: Py_UNREACHABLE(); } } static PyObject * FutureIter_send(futureiterobject *self, PyObject *unused) { /* Future.__iter__ doesn't care about values that are pushed to the * generator, it just returns self.result(). */ return FutureIter_iternext(self); } static PyObject * FutureIter_throw(futureiterobject *self, PyObject *const *args, Py_ssize_t nargs) { PyObject *type, *val = NULL, *tb = NULL; if (!_PyArg_CheckPositional("throw", nargs, 1, 3)) { return NULL; } if (nargs > 1) { if (PyErr_WarnEx(PyExc_DeprecationWarning, "the (type, exc, tb) signature of throw() is deprecated, " "use the single-arg signature instead.", 1) < 0) { return NULL; } } type = args[0]; if (nargs == 3) { val = args[1]; tb = args[2]; } else if (nargs == 2) { val = args[1]; } if (val == Py_None) { val = NULL; } if (tb == Py_None ) { tb = NULL; } else if (tb != NULL && !PyTraceBack_Check(tb)) { PyErr_SetString(PyExc_TypeError, "throw() third argument must be a traceback"); return NULL; } Py_INCREF(type); Py_XINCREF(val); Py_XINCREF(tb); if (PyExceptionClass_Check(type)) { PyErr_NormalizeException(&type, &val, &tb); /* No need to call PyException_SetTraceback since we'll be calling PyErr_Restore for `type`, `val`, and `tb`. */ } else if (PyExceptionInstance_Check(type)) { if (val) { PyErr_SetString(PyExc_TypeError, "instance exception may not have a separate value"); goto fail; } val = type; type = PyExceptionInstance_Class(type); Py_INCREF(type); if (tb == NULL) tb = PyException_GetTraceback(val); } else { PyErr_SetString(PyExc_TypeError, "exceptions must be classes deriving BaseException or " "instances of such a class"); goto fail; } Py_CLEAR(self->future); PyErr_Restore(type, val, tb); return NULL; fail: Py_DECREF(type); Py_XDECREF(val); Py_XDECREF(tb); return NULL; } static int FutureIter_clear(futureiterobject *it) { Py_CLEAR(it->future); return 0; } static PyObject * FutureIter_close(futureiterobject *self, PyObject *arg) { (void)FutureIter_clear(self); Py_RETURN_NONE; } static int FutureIter_traverse(futureiterobject *it, visitproc visit, void *arg) { Py_VISIT(Py_TYPE(it)); Py_VISIT(it->future); return 0; } static PyMethodDef FutureIter_methods[] = { {"send", (PyCFunction)FutureIter_send, METH_O, NULL}, {"throw", _PyCFunction_CAST(FutureIter_throw), METH_FASTCALL, NULL}, {"close", (PyCFunction)FutureIter_close, METH_NOARGS, NULL}, {NULL, NULL} /* Sentinel */ }; static PyType_Slot FutureIter_slots[] = { {Py_tp_dealloc, (destructor)FutureIter_dealloc}, {Py_tp_getattro, PyObject_GenericGetAttr}, {Py_tp_traverse, (traverseproc)FutureIter_traverse}, {Py_tp_clear, FutureIter_clear}, {Py_tp_iter, PyObject_SelfIter}, {Py_tp_iternext, (iternextfunc)FutureIter_iternext}, {Py_tp_methods, FutureIter_methods}, // async methods {Py_am_send, (sendfunc)FutureIter_am_send}, {0, NULL}, }; static PyType_Spec FutureIter_spec = { .name = "_asyncio.FutureIter", .basicsize = sizeof(futureiterobject), .flags = (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC | Py_TPFLAGS_IMMUTABLETYPE), .slots = FutureIter_slots, }; static PyObject * future_new_iter(PyObject *fut) { futureiterobject *it; asyncio_state *state = get_asyncio_state_by_def((PyObject *)fut); ENSURE_FUTURE_ALIVE(state, fut) #ifndef Py_GIL_DISABLED if (state->fi_freelist_len) { state->fi_freelist_len--; it = state->fi_freelist; state->fi_freelist = (futureiterobject*) it->future; it->future = NULL; _Py_NewReference((PyObject*) it); } else #endif { it = PyObject_GC_New(futureiterobject, state->FutureIterType); if (it == NULL) { return NULL; } } it->future = (FutureObj*)Py_NewRef(fut); PyObject_GC_Track(it); return (PyObject*)it; } /*********************** Task **************************/ /*[clinic input] class _asyncio.Task "TaskObj *" "&Task_Type" [clinic start generated code]*/ /*[clinic end generated code: output=da39a3ee5e6b4b0d input=719dcef0fcc03b37]*/ static int task_call_step_soon(asyncio_state *state, TaskObj *, PyObject *); static PyObject * task_wakeup(TaskObj *, PyObject *); static PyObject * task_step(asyncio_state *, TaskObj *, PyObject *); static int task_eager_start(asyncio_state *state, TaskObj *task); /* ----- Task._step wrapper */ static int TaskStepMethWrapper_clear(TaskStepMethWrapper *o) { Py_CLEAR(o->sw_task); Py_CLEAR(o->sw_arg); return 0; } static void TaskStepMethWrapper_dealloc(TaskStepMethWrapper *o) { PyTypeObject *tp = Py_TYPE(o); PyObject_GC_UnTrack(o); (void)TaskStepMethWrapper_clear(o); Py_TYPE(o)->tp_free(o); Py_DECREF(tp); } static PyObject * TaskStepMethWrapper_call(TaskStepMethWrapper *o, PyObject *args, PyObject *kwds) { if (kwds != NULL && PyDict_GET_SIZE(kwds) != 0) { PyErr_SetString(PyExc_TypeError, "function takes no keyword arguments"); return NULL; } if (args != NULL && PyTuple_GET_SIZE(args) != 0) { PyErr_SetString(PyExc_TypeError, "function takes no positional arguments"); return NULL; } asyncio_state *state = get_asyncio_state_by_def((PyObject *)o); return task_step(state, o->sw_task, o->sw_arg); } static int TaskStepMethWrapper_traverse(TaskStepMethWrapper *o, visitproc visit, void *arg) { Py_VISIT(Py_TYPE(o)); Py_VISIT(o->sw_task); Py_VISIT(o->sw_arg); return 0; } static PyObject * TaskStepMethWrapper_get___self__(TaskStepMethWrapper *o, void *Py_UNUSED(ignored)) { if (o->sw_task) { return Py_NewRef(o->sw_task); } Py_RETURN_NONE; } static PyGetSetDef TaskStepMethWrapper_getsetlist[] = { {"__self__", (getter)TaskStepMethWrapper_get___self__, NULL, NULL}, {NULL} /* Sentinel */ }; static PyType_Slot TaskStepMethWrapper_slots[] = { {Py_tp_getset, TaskStepMethWrapper_getsetlist}, {Py_tp_dealloc, (destructor)TaskStepMethWrapper_dealloc}, {Py_tp_call, (ternaryfunc)TaskStepMethWrapper_call}, {Py_tp_getattro, PyObject_GenericGetAttr}, {Py_tp_traverse, (traverseproc)TaskStepMethWrapper_traverse}, {Py_tp_clear, (inquiry)TaskStepMethWrapper_clear}, {0, NULL}, }; static PyType_Spec TaskStepMethWrapper_spec = { .name = "_asyncio.TaskStepMethWrapper", .basicsize = sizeof(TaskStepMethWrapper), .flags = (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC | Py_TPFLAGS_IMMUTABLETYPE), .slots = TaskStepMethWrapper_slots, }; static PyObject * TaskStepMethWrapper_new(TaskObj *task, PyObject *arg) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)task); TaskStepMethWrapper *o; o = PyObject_GC_New(TaskStepMethWrapper, state->TaskStepMethWrapper_Type); if (o == NULL) { return NULL; } o->sw_task = (TaskObj*)Py_NewRef(task); o->sw_arg = Py_XNewRef(arg); PyObject_GC_Track(o); return (PyObject*) o; } /* ----- Task._wakeup implementation */ static PyMethodDef TaskWakeupDef = { "task_wakeup", (PyCFunction)task_wakeup, METH_O, NULL }; /* ----- Task introspection helpers */ static int register_task(asyncio_state *state, PyObject *task) { PyObject *res = PyObject_CallMethodOneArg(state->scheduled_tasks, &_Py_ID(add), task); if (res == NULL) { return -1; } Py_DECREF(res); return 0; } static int register_eager_task(asyncio_state *state, PyObject *task) { return PySet_Add(state->eager_tasks, task); } static int unregister_task(asyncio_state *state, PyObject *task) { PyObject *res = PyObject_CallMethodOneArg(state->scheduled_tasks, &_Py_ID(discard), task); if (res == NULL) { return -1; } Py_DECREF(res); return 0; } static int unregister_eager_task(asyncio_state *state, PyObject *task) { return PySet_Discard(state->eager_tasks, task); } static int enter_task(asyncio_state *state, PyObject *loop, PyObject *task) { PyObject *item; int res = PyDict_SetDefaultRef(state->current_tasks, loop, task, &item); if (res < 0) { return -1; } else if (res == 1) { PyErr_Format( PyExc_RuntimeError, "Cannot enter into task %R while another " \ "task %R is being executed.", task, item, NULL); Py_DECREF(item); return -1; } Py_DECREF(item); return 0; } static int err_leave_task(PyObject *item, PyObject *task) { PyErr_Format( PyExc_RuntimeError, "Leaving task %R does not match the current task %R.", task, item); return -1; } static int leave_task_predicate(PyObject *item, void *task) { if (item != task) { return err_leave_task(item, (PyObject *)task); } return 1; } static int leave_task(asyncio_state *state, PyObject *loop, PyObject *task) /*[clinic end generated code: output=0ebf6db4b858fb41 input=51296a46313d1ad8]*/ { int res = _PyDict_DelItemIf(state->current_tasks, loop, leave_task_predicate, task); if (res == 0) { // task was not found return err_leave_task(Py_None, task); } return res; } static PyObject * swap_current_task(asyncio_state *state, PyObject *loop, PyObject *task) { PyObject *prev_task; if (task == Py_None) { if (PyDict_Pop(state->current_tasks, loop, &prev_task) < 0) { return NULL; } if (prev_task == NULL) { Py_RETURN_NONE; } return prev_task; } Py_hash_t hash; hash = PyObject_Hash(loop); if (hash == -1) { return NULL; } prev_task = _PyDict_GetItem_KnownHash(state->current_tasks, loop, hash); if (prev_task == NULL) { if (PyErr_Occurred()) { return NULL; } prev_task = Py_None; } Py_INCREF(prev_task); if (_PyDict_SetItem_KnownHash(state->current_tasks, loop, task, hash) == -1) { Py_DECREF(prev_task); return NULL; } return prev_task; } /* ----- Task */ /*[clinic input] _asyncio.Task.__init__ coro: object * loop: object = None name: object = None context: object = None eager_start: bool = False A coroutine wrapped in a Future. [clinic start generated code]*/ static int _asyncio_Task___init___impl(TaskObj *self, PyObject *coro, PyObject *loop, PyObject *name, PyObject *context, int eager_start) /*[clinic end generated code: output=7aced2d27836f1a1 input=18e3f113a51b829d]*/ { if (future_init((FutureObj*)self, loop)) { return -1; } asyncio_state *state = get_asyncio_state_by_def((PyObject *)self); int is_coro = is_coroutine(state, coro); if (is_coro == -1) { return -1; } if (is_coro == 0) { self->task_log_destroy_pending = 0; PyErr_Format(PyExc_TypeError, "a coroutine was expected, got %R", coro, NULL); return -1; } if (context == Py_None) { Py_XSETREF(self->task_context, PyContext_CopyCurrent()); if (self->task_context == NULL) { return -1; } } else { self->task_context = Py_NewRef(context); } Py_CLEAR(self->task_fut_waiter); self->task_must_cancel = 0; self->task_log_destroy_pending = 1; self->task_num_cancels_requested = 0; Py_INCREF(coro); Py_XSETREF(self->task_coro, coro); if (name == Py_None) { // optimization: defer task name formatting // store the task counter as PyLong in the name // for deferred formatting in get_name #ifdef Py_GIL_DISABLED unsigned long long counter = _Py_atomic_add_uint64(&state->task_name_counter, 1) + 1; #else unsigned long long counter = ++state->task_name_counter; #endif name = PyLong_FromUnsignedLongLong(counter); } else if (!PyUnicode_CheckExact(name)) { name = PyObject_Str(name); } else { Py_INCREF(name); } Py_XSETREF(self->task_name, name); if (self->task_name == NULL) { return -1; } if (eager_start) { PyObject *res = PyObject_CallMethodNoArgs(loop, &_Py_ID(is_running)); if (res == NULL) { return -1; } int is_loop_running = Py_IsTrue(res); Py_DECREF(res); if (is_loop_running) { if (task_eager_start(state, self)) { return -1; } return 0; } } if (task_call_step_soon(state, self, NULL)) { return -1; } return register_task(state, (PyObject*)self); } static int TaskObj_clear(TaskObj *task) { (void)FutureObj_clear((FutureObj*) task); Py_CLEAR(task->task_context); Py_CLEAR(task->task_coro); Py_CLEAR(task->task_name); Py_CLEAR(task->task_fut_waiter); return 0; } static int TaskObj_traverse(TaskObj *task, visitproc visit, void *arg) { Py_VISIT(Py_TYPE(task)); Py_VISIT(task->task_context); Py_VISIT(task->task_coro); Py_VISIT(task->task_name); Py_VISIT(task->task_fut_waiter); FutureObj *fut = (FutureObj *)task; Py_VISIT(fut->fut_loop); Py_VISIT(fut->fut_callback0); Py_VISIT(fut->fut_context0); Py_VISIT(fut->fut_callbacks); Py_VISIT(fut->fut_result); Py_VISIT(fut->fut_exception); Py_VISIT(fut->fut_exception_tb); Py_VISIT(fut->fut_source_tb); Py_VISIT(fut->fut_cancel_msg); Py_VISIT(fut->fut_cancelled_exc); PyObject_VisitManagedDict((PyObject *)fut, visit, arg); return 0; } static PyObject * TaskObj_get_log_destroy_pending(TaskObj *task, void *Py_UNUSED(ignored)) { if (task->task_log_destroy_pending) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static int TaskObj_set_log_destroy_pending(TaskObj *task, PyObject *val, void *Py_UNUSED(ignored)) { if (val == NULL) { PyErr_SetString(PyExc_AttributeError, "cannot delete attribute"); return -1; } int is_true = PyObject_IsTrue(val); if (is_true < 0) { return -1; } task->task_log_destroy_pending = is_true; return 0; } static PyObject * TaskObj_get_must_cancel(TaskObj *task, void *Py_UNUSED(ignored)) { if (task->task_must_cancel) { Py_RETURN_TRUE; } else { Py_RETURN_FALSE; } } static PyObject * TaskObj_get_coro(TaskObj *task, void *Py_UNUSED(ignored)) { if (task->task_coro) { return Py_NewRef(task->task_coro); } Py_RETURN_NONE; } static PyObject * TaskObj_get_fut_waiter(TaskObj *task, void *Py_UNUSED(ignored)) { if (task->task_fut_waiter) { return Py_NewRef(task->task_fut_waiter); } Py_RETURN_NONE; } static PyObject * TaskObj_repr(TaskObj *task) { asyncio_state *state = get_asyncio_state_by_def((PyObject *)task); return PyObject_CallOneArg(state->asyncio_task_repr_func, (PyObject *)task); } /*[clinic input] _asyncio.Task._make_cancelled_error Create the CancelledError to raise if the Task is cancelled. This should only be called once when handling a cancellation since it erases the context exception value. [clinic start generated code]*/ static PyObject * _asyncio_Task__make_cancelled_error_impl(TaskObj *self) /*[clinic end generated code: output=55a819e8b4276fab input=52c0e32de8e2f840]*/ { FutureObj *fut = (FutureObj*)self; return _asyncio_Future__make_cancelled_error_impl(fut); } /*[clinic input] _asyncio.Task.cancel msg: object = None Request that this task cancel itself. This arranges for a CancelledError to be thrown into the wrapped coroutine on the next cycle through the event loop. The coroutine then has a chance to clean up or even deny the request using try/except/finally. Unlike Future.cancel, this does not guarantee that the task will be cancelled: the exception might be caught and acted upon, delaying cancellation of the task or preventing cancellation completely. The task may also return a value or raise a different exception. Immediately after this method is called, Task.cancelled() will not return True (unless the task was already cancelled). A task will be marked as cancelled when the wrapped coroutine terminates with a CancelledError exception (even if cancel() was not called). This also increases the task's count of cancellation requests. [clinic start generated code]*/ static PyObject * _asyncio_Task_cancel_impl(TaskObj *self, PyObject *msg) /*[clinic end generated code: output=c66b60d41c74f9f1 input=7bb51bf25974c783]*/ { self->task_log_tb = 0; if (self->task_state != STATE_PENDING) { Py_RETURN_FALSE; } self->task_num_cancels_requested += 1; // These three lines are controversial. See discussion starting at // https://github.com/python/cpython/pull/31394#issuecomment-1053545331 // and corresponding code in tasks.py. // if (self->task_num_cancels_requested > 1) { // Py_RETURN_FALSE; // } if (self->task_fut_waiter) { PyObject *res; int is_true; res = PyObject_CallMethodOneArg(self->task_fut_waiter, &_Py_ID(cancel), msg); if (res == NULL) { return NULL; } is_true = PyObject_IsTrue(res); Py_DECREF(res); if (is_true < 0) { return NULL; } if (is_true) { Py_RETURN_TRUE; } } self->task_must_cancel = 1; Py_XINCREF(msg); Py_XSETREF(self->task_cancel_msg, msg); Py_RETURN_TRUE; } /*[clinic input] _asyncio.Task.cancelling Return the count of the task's cancellation requests. This count is incremented when .cancel() is called and may be decremented using .uncancel(). [clinic start generated code]*/ static PyObject * _asyncio_Task_cancelling_impl(TaskObj *self) /*[clinic end generated code: output=803b3af96f917d7e input=b625224d310cbb17]*/ /*[clinic end generated code]*/ { return PyLong_FromLong(self->task_num_cancels_requested); } /*[clinic input] _asyncio.Task.uncancel Decrement the task's count of cancellation requests. This should be used by tasks that catch CancelledError and wish to continue indefinitely until they are cancelled again. Returns the remaining number of cancellation requests. [clinic start generated code]*/ static PyObject * _asyncio_Task_uncancel_impl(TaskObj *self) /*[clinic end generated code: output=58184d236a817d3c input=68f81a4b90b46be2]*/ /*[clinic end generated code]*/ { if (self->task_num_cancels_requested > 0) { self->task_num_cancels_requested -= 1; if (self->task_num_cancels_requested == 0) { self->task_must_cancel = 0; } } return PyLong_FromLong(self->task_num_cancels_requested); } /*[clinic input] _asyncio.Task.get_stack cls: defining_class / * limit: object = None Return the list of stack frames for this task's coroutine. If the coroutine is not done, this returns the stack where it is suspended. If the coroutine has completed successfully or was cancelled, this returns an empty list. If the coroutine was terminated by an exception, this returns the list of traceback frames. The frames are always ordered from oldest to newest. The optional limit gives the maximum number of frames to return; by default all available frames are returned. Its meaning differs depending on whether a stack or a traceback is returned: the newest frames of a stack are returned, but the oldest frames of a traceback are returned. (This matches the behavior of the traceback module.) For reasons beyond our control, only one stack frame is returned for a suspended coroutine. [clinic start generated code]*/ static PyObject * _asyncio_Task_get_stack_impl(TaskObj *self, PyTypeObject *cls, PyObject *limit) /*[clinic end generated code: output=6774dfc10d3857fa input=8e01c9b2618ae953]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); PyObject *stack[] = {(PyObject *)self, limit}; return PyObject_Vectorcall(state->asyncio_task_get_stack_func, stack, 2, NULL); } /*[clinic input] _asyncio.Task.print_stack cls: defining_class / * limit: object = None file: object = None Print the stack or traceback for this task's coroutine. This produces output similar to that of the traceback module, for the frames retrieved by get_stack(). The limit argument is passed to get_stack(). The file argument is an I/O stream to which the output is written; by default output is written to sys.stderr. [clinic start generated code]*/ static PyObject * _asyncio_Task_print_stack_impl(TaskObj *self, PyTypeObject *cls, PyObject *limit, PyObject *file) /*[clinic end generated code: output=b38affe9289ec826 input=150b35ba2d3a7dee]*/ { asyncio_state *state = get_asyncio_state_by_cls(cls); PyObject *stack[] = {(PyObject *)self, limit, file}; return PyObject_Vectorcall(state->asyncio_task_print_stack_func, stack, 3, NULL); } /*[clinic input] _asyncio.Task.set_result result: object / [clinic start generated code]*/ static PyObject * _asyncio_Task_set_result(TaskObj *self, PyObject *result) /*[clinic end generated code: output=1dcae308bfcba318 input=9d1a00c07be41bab]*/ { PyErr_SetString(PyExc_RuntimeError, "Task does not support set_result operation"); return NULL; } /*[clinic input] _asyncio.Task.set_exception exception: object / [clinic start generated code]*/ static PyObject * _asyncio_Task_set_exception(TaskObj *self, PyObject *exception) /*[clinic end generated code: output=bc377fc28067303d input=9a8f65c83dcf893a]*/ { PyErr_SetString(PyExc_RuntimeError, "Task does not support set_exception operation"); return NULL; } /*[clinic input] _asyncio.Task.get_coro [clinic start generated code]*/ static PyObject * _asyncio_Task_get_coro_impl(TaskObj *self) /*[clinic end generated code: output=bcac27c8cc6c8073 input=d2e8606c42a7b403]*/ { if (self->task_coro) { return Py_NewRef(self->task_coro); } Py_RETURN_NONE; } /*[clinic input] _asyncio.Task.get_context [clinic start generated code]*/ static PyObject * _asyncio_Task_get_context_impl(TaskObj *self) /*[clinic end generated code: output=6996f53d3dc01aef input=87c0b209b8fceeeb]*/ { return Py_NewRef(self->task_context); } /*[clinic input] _asyncio.Task.get_name [clinic start generated code]*/ static PyObject * _asyncio_Task_get_name_impl(TaskObj *self) /*[clinic end generated code: output=0ecf1570c3b37a8f input=a4a6595d12f4f0f8]*/ { if (self->task_name) { if (PyLong_CheckExact(self->task_name)) { PyObject *name = PyUnicode_FromFormat("Task-%S", self->task_name); if (name == NULL) { return NULL; } Py_SETREF(self->task_name, name); } return Py_NewRef(self->task_name); } Py_RETURN_NONE; } /*[clinic input] _asyncio.Task.set_name value: object / [clinic start generated code]*/ static PyObject * _asyncio_Task_set_name(TaskObj *self, PyObject *value) /*[clinic end generated code: output=138a8d51e32057d6 input=a8359b6e65f8fd31]*/ { if (!PyUnicode_CheckExact(value)) { value = PyObject_Str(value); if (value == NULL) { return NULL; } } else { Py_INCREF(value); } Py_XSETREF(self->task_name, value); Py_RETURN_NONE; } static void TaskObj_finalize(TaskObj *task) { PyObject *context; PyObject *message = NULL; PyObject *func; if (task->task_state != STATE_PENDING || !task->task_log_destroy_pending) { goto done; } /* Save the current exception, if any. */ PyObject *exc = PyErr_GetRaisedException(); context = PyDict_New(); if (context == NULL) { goto finally; } message = PyUnicode_FromString("Task was destroyed but it is pending!"); if (message == NULL) { goto finally; } if (PyDict_SetItem(context, &_Py_ID(message), message) < 0 || PyDict_SetItem(context, &_Py_ID(task), (PyObject*)task) < 0) { goto finally; } if (task->task_source_tb != NULL) { if (PyDict_SetItem(context, &_Py_ID(source_traceback), task->task_source_tb) < 0) { goto finally; } } func = PyObject_GetAttr(task->task_loop, &_Py_ID(call_exception_handler)); if (func != NULL) { PyObject *res = PyObject_CallOneArg(func, context); if (res == NULL) { PyErr_WriteUnraisable(func); } else { Py_DECREF(res); } Py_DECREF(func); } finally: Py_XDECREF(context); Py_XDECREF(message); /* Restore the saved exception. */ PyErr_SetRaisedException(exc); done: FutureObj_finalize((FutureObj*)task); } static void TaskObj_dealloc(PyObject *); /* Needs Task_CheckExact */ static PyMethodDef TaskType_methods[] = { _ASYNCIO_FUTURE_RESULT_METHODDEF _ASYNCIO_FUTURE_EXCEPTION_METHODDEF _ASYNCIO_FUTURE_ADD_DONE_CALLBACK_METHODDEF _ASYNCIO_FUTURE_REMOVE_DONE_CALLBACK_METHODDEF _ASYNCIO_FUTURE_CANCELLED_METHODDEF _ASYNCIO_FUTURE_DONE_METHODDEF _ASYNCIO_TASK_SET_RESULT_METHODDEF _ASYNCIO_TASK_SET_EXCEPTION_METHODDEF _ASYNCIO_TASK_CANCEL_METHODDEF _ASYNCIO_TASK_CANCELLING_METHODDEF _ASYNCIO_TASK_UNCANCEL_METHODDEF _ASYNCIO_TASK_GET_STACK_METHODDEF _ASYNCIO_TASK_PRINT_STACK_METHODDEF _ASYNCIO_TASK__MAKE_CANCELLED_ERROR_METHODDEF _ASYNCIO_TASK_GET_NAME_METHODDEF _ASYNCIO_TASK_SET_NAME_METHODDEF _ASYNCIO_TASK_GET_CORO_METHODDEF _ASYNCIO_TASK_GET_CONTEXT_METHODDEF {"__class_getitem__", Py_GenericAlias, METH_O|METH_CLASS, PyDoc_STR("See PEP 585")}, {NULL, NULL} /* Sentinel */ }; static PyGetSetDef TaskType_getsetlist[] = { FUTURE_COMMON_GETSETLIST {"_log_destroy_pending", (getter)TaskObj_get_log_destroy_pending, (setter)TaskObj_set_log_destroy_pending, NULL}, {"_must_cancel", (getter)TaskObj_get_must_cancel, NULL, NULL}, {"_coro", (getter)TaskObj_get_coro, NULL, NULL}, {"_fut_waiter", (getter)TaskObj_get_fut_waiter, NULL, NULL}, {NULL} /* Sentinel */ }; static PyType_Slot Task_slots[] = { {Py_tp_dealloc, TaskObj_dealloc}, {Py_tp_repr, (reprfunc)TaskObj_repr}, {Py_tp_doc, (void *)_asyncio_Task___init____doc__}, {Py_tp_traverse, (traverseproc)TaskObj_traverse}, {Py_tp_clear, (inquiry)TaskObj_clear}, {Py_tp_iter, (getiterfunc)future_new_iter}, {Py_tp_methods, TaskType_methods}, {Py_tp_getset, TaskType_getsetlist}, {Py_tp_init, (initproc)_asyncio_Task___init__}, {Py_tp_new, PyType_GenericNew}, {Py_tp_finalize, (destructor)TaskObj_finalize}, // async slots {Py_am_await, (unaryfunc)future_new_iter}, {0, NULL}, }; static PyType_Spec Task_spec = { .name = "_asyncio.Task", .basicsize = sizeof(TaskObj), .flags = (Py_TPFLAGS_DEFAULT | Py_TPFLAGS_HAVE_GC | Py_TPFLAGS_BASETYPE | Py_TPFLAGS_IMMUTABLETYPE | Py_TPFLAGS_MANAGED_DICT | Py_TPFLAGS_MANAGED_WEAKREF), .slots = Task_slots, }; static void TaskObj_dealloc(PyObject *self) { TaskObj *task = (TaskObj *)self; if (PyObject_CallFinalizerFromDealloc(self) < 0) { // resurrected. return; } PyTypeObject *tp = Py_TYPE(task); PyObject_GC_UnTrack(self); PyObject_ClearWeakRefs(self); (void)TaskObj_clear(task); tp->tp_free(task); Py_DECREF(tp); } static int task_call_step_soon(asyncio_state *state, TaskObj *task, PyObject *arg) { PyObject *cb = TaskStepMethWrapper_new(task, arg); if (cb == NULL) { return -1; } int ret = call_soon(state, task->task_loop, cb, NULL, task->task_context); Py_DECREF(cb); return ret; } static PyObject * task_set_error_soon(asyncio_state *state, TaskObj *task, PyObject *et, const char *format, ...) { PyObject* msg; va_list vargs; va_start(vargs, format); msg = PyUnicode_FromFormatV(format, vargs); va_end(vargs); if (msg == NULL) { return NULL; } PyObject *e = PyObject_CallOneArg(et, msg); Py_DECREF(msg); if (e == NULL) { return NULL; } if (task_call_step_soon(state, task, e) == -1) { Py_DECREF(e); return NULL; } Py_DECREF(e); Py_RETURN_NONE; } static inline int gen_status_from_result(PyObject **result) { if (*result != NULL) { return PYGEN_NEXT; } if (_PyGen_FetchStopIterationValue(result) == 0) { return PYGEN_RETURN; } assert(PyErr_Occurred()); return PYGEN_ERROR; } static PyObject * task_step_impl(asyncio_state *state, TaskObj *task, PyObject *exc) { int clear_exc = 0; PyObject *result = NULL; PyObject *coro; PyObject *o; if (task->task_state != STATE_PENDING) { PyErr_Format(state->asyncio_InvalidStateError, "_step(): already done: %R %R", task, exc ? exc : Py_None); goto fail; } if (task->task_must_cancel) { assert(exc != Py_None); if (!exc || !PyErr_GivenExceptionMatches(exc, state->asyncio_CancelledError)) { /* exc was not a CancelledError */ exc = create_cancelled_error(state, (FutureObj*)task); if (!exc) { goto fail; } clear_exc = 1; } task->task_must_cancel = 0; } Py_CLEAR(task->task_fut_waiter); coro = task->task_coro; if (coro == NULL) { PyErr_SetString(PyExc_RuntimeError, "uninitialized Task object"); if (clear_exc) { /* We created 'exc' during this call */ Py_DECREF(exc); } return NULL; } int gen_status = PYGEN_ERROR; if (exc == NULL) { gen_status = PyIter_Send(coro, Py_None, &result); } else { result = PyObject_CallMethodOneArg(coro, &_Py_ID(throw), exc); gen_status = gen_status_from_result(&result); if (clear_exc) { /* We created 'exc' during this call */ Py_DECREF(exc); } } if (gen_status == PYGEN_RETURN || gen_status == PYGEN_ERROR) { if (result != NULL) { /* The error is StopIteration and that means that the underlying coroutine has resolved */ PyObject *tmp; if (task->task_must_cancel) { // Task is cancelled right before coro stops. task->task_must_cancel = 0; tmp = future_cancel(state, (FutureObj*)task, task->task_cancel_msg); } else { tmp = future_set_result(state, (FutureObj*)task, result); } Py_DECREF(result); if (tmp == NULL) { return NULL; } Py_DECREF(tmp); Py_RETURN_NONE; } if (PyErr_ExceptionMatches(state->asyncio_CancelledError)) { /* CancelledError */ PyObject *exc = PyErr_GetRaisedException(); assert(exc); FutureObj *fut = (FutureObj*)task; /* transfer ownership */ fut->fut_cancelled_exc = exc; return future_cancel(state, fut, NULL); } /* Some other exception; pop it and call Task.set_exception() */ PyObject *exc = PyErr_GetRaisedException(); assert(exc); o = future_set_exception(state, (FutureObj*)task, exc); if (!o) { /* An exception in Task.set_exception() */ Py_DECREF(exc); goto fail; } assert(o == Py_None); Py_DECREF(o); if (PyErr_GivenExceptionMatches(exc, PyExc_KeyboardInterrupt) || PyErr_GivenExceptionMatches(exc, PyExc_SystemExit)) { /* We've got a KeyboardInterrupt or a SystemError; re-raise it */ PyErr_SetRaisedException(exc); goto fail; } Py_DECREF(exc); Py_RETURN_NONE; } PyObject *ret = task_step_handle_result_impl(state, task, result); return ret; fail: return NULL; } static PyObject * task_step_handle_result_impl(asyncio_state *state, TaskObj *task, PyObject *result) { int res; PyObject *o; if (result == (PyObject*)task) { /* We have a task that wants to await on itself */ goto self_await; } /* Check if `result` is FutureObj or TaskObj (and not a subclass) */ if (Future_CheckExact(state, result) || Task_CheckExact(state, result)) { PyObject *wrapper; PyObject *tmp; FutureObj *fut = (FutureObj*)result; /* Check if `result` future is attached to a different loop */ if (fut->fut_loop != task->task_loop) { goto different_loop; } if (!fut->fut_blocking) { goto yield_insteadof_yf; } fut->fut_blocking = 0; /* result.add_done_callback(task._wakeup) */ wrapper = PyCFunction_New(&TaskWakeupDef, (PyObject *)task); if (wrapper == NULL) { goto fail; } tmp = future_add_done_callback(state, (FutureObj*)result, wrapper, task->task_context); Py_DECREF(wrapper); if (tmp == NULL) { goto fail; } Py_DECREF(tmp); /* task._fut_waiter = result */ task->task_fut_waiter = result; /* no incref is necessary */ if (task->task_must_cancel) { PyObject *r; int is_true; r = PyObject_CallMethodOneArg(result, &_Py_ID(cancel), task->task_cancel_msg); if (r == NULL) { return NULL; } is_true = PyObject_IsTrue(r); Py_DECREF(r); if (is_true < 0) { return NULL; } else if (is_true) { task->task_must_cancel = 0; } } Py_RETURN_NONE; } /* Check if `result` is None */ if (result == Py_None) { /* Bare yield relinquishes control for one event loop iteration. */ if (task_call_step_soon(state, task, NULL)) { goto fail; } return result; } /* Check if `result` is a Future-compatible object */ if (PyObject_GetOptionalAttr(result, &_Py_ID(_asyncio_future_blocking), &o) < 0) { goto fail; } if (o != NULL && o != Py_None) { /* `result` is a Future-compatible object */ PyObject *wrapper; PyObject *tmp; int blocking = PyObject_IsTrue(o); Py_DECREF(o); if (blocking < 0) { goto fail; } /* Check if `result` future is attached to a different loop */ PyObject *oloop = get_future_loop(state, result); if (oloop == NULL) { goto fail; } if (oloop != task->task_loop) { Py_DECREF(oloop); goto different_loop; } Py_DECREF(oloop); if (!blocking) { goto yield_insteadof_yf; } /* result._asyncio_future_blocking = False */ if (PyObject_SetAttr( result, &_Py_ID(_asyncio_future_blocking), Py_False) == -1) { goto fail; } wrapper = PyCFunction_New(&TaskWakeupDef, (PyObject *)task); if (wrapper == NULL) { goto fail; } /* result.add_done_callback(task._wakeup) */ PyObject *add_cb = PyObject_GetAttr( result, &_Py_ID(add_done_callback)); if (add_cb == NULL) { Py_DECREF(wrapper); goto fail; } PyObject *stack[2]; stack[0] = wrapper; stack[1] = (PyObject *)task->task_context; EVAL_CALL_STAT_INC_IF_FUNCTION(EVAL_CALL_API, add_cb); tmp = PyObject_Vectorcall(add_cb, stack, 1, state->context_kwname); Py_DECREF(add_cb); Py_DECREF(wrapper); if (tmp == NULL) { goto fail; } Py_DECREF(tmp); /* task._fut_waiter = result */ task->task_fut_waiter = result; /* no incref is necessary */ if (task->task_must_cancel) { PyObject *r; int is_true; r = PyObject_CallMethodOneArg(result, &_Py_ID(cancel), task->task_cancel_msg); if (r == NULL) { return NULL; } is_true = PyObject_IsTrue(r); Py_DECREF(r); if (is_true < 0) { return NULL; } else if (is_true) { task->task_must_cancel = 0; } } Py_RETURN_NONE; } Py_XDECREF(o); /* Check if `result` is a generator */ res = PyObject_IsInstance(result, (PyObject*)&PyGen_Type); if (res < 0) { goto fail; } if (res) { /* `result` is a generator */ o = task_set_error_soon( state, task, PyExc_RuntimeError, "yield was used instead of yield from for " "generator in task %R with %R", task, result); Py_DECREF(result); return o; } /* The `result` is none of the above */ o = task_set_error_soon( state, task, PyExc_RuntimeError, "Task got bad yield: %R", result); Py_DECREF(result); return o; self_await: o = task_set_error_soon( state, task, PyExc_RuntimeError, "Task cannot await on itself: %R", task); Py_DECREF(result); return o; yield_insteadof_yf: o = task_set_error_soon( state, task, PyExc_RuntimeError, "yield was used instead of yield from " "in task %R with %R", task, result); Py_DECREF(result); return o; different_loop: o = task_set_error_soon( state, task, PyExc_RuntimeError, "Task %R got Future %R attached to a different loop", task, result); Py_DECREF(result); return o; fail: Py_XDECREF(result); return NULL; } static PyObject * task_step(asyncio_state *state, TaskObj *task, PyObject *exc) { PyObject *res; if (enter_task(state, task->task_loop, (PyObject*)task) < 0) { return NULL; } res = task_step_impl(state, task, exc); if (res == NULL) { PyObject *exc = PyErr_GetRaisedException(); leave_task(state, task->task_loop, (PyObject*)task); _PyErr_ChainExceptions1(exc); return NULL; } else { if (leave_task(state, task->task_loop, (PyObject*)task) < 0) { Py_DECREF(res); return NULL; } else { return res; } } } static int task_eager_start(asyncio_state *state, TaskObj *task) { assert(task != NULL); PyObject *prevtask = swap_current_task(state, task->task_loop, (PyObject *)task); if (prevtask == NULL) { return -1; } if (register_eager_task(state, (PyObject *)task) == -1) { Py_DECREF(prevtask); return -1; } if (PyContext_Enter(task->task_context) == -1) { Py_DECREF(prevtask); return -1; } int retval = 0; PyObject *stepres = task_step_impl(state, task, NULL); if (stepres == NULL) { PyObject *exc = PyErr_GetRaisedException(); _PyErr_ChainExceptions1(exc); retval = -1; } else { Py_DECREF(stepres); } PyObject *curtask = swap_current_task(state, task->task_loop, prevtask); Py_DECREF(prevtask); if (curtask == NULL) { retval = -1; } else { assert(curtask == (PyObject *)task); Py_DECREF(curtask); } if (unregister_eager_task(state, (PyObject *)task) == -1) { retval = -1; } if (PyContext_Exit(task->task_context) == -1) { retval = -1; } if (task->task_state == STATE_PENDING) { if (register_task(state, (PyObject *)task) == -1) { retval = -1; } } else { // This seems to really help performance on pyperformance benchmarks Py_CLEAR(task->task_coro); } return retval; } static PyObject * task_wakeup(TaskObj *task, PyObject *o) { PyObject *result; assert(o); asyncio_state *state = get_asyncio_state_by_def((PyObject *)task); if (Future_CheckExact(state, o) || Task_CheckExact(state, o)) { PyObject *fut_result = NULL; int res = future_get_result(state, (FutureObj*)o, &fut_result); switch(res) { case -1: assert(fut_result == NULL); break; /* exception raised */ case 0: Py_DECREF(fut_result); return task_step(state, task, NULL); default: assert(res == 1); result = task_step(state, task, fut_result); Py_DECREF(fut_result); return result; } } else { PyObject *fut_result = PyObject_CallMethod(o, "result", NULL); if (fut_result != NULL) { Py_DECREF(fut_result); return task_step(state, task, NULL); } /* exception raised */ } PyObject *exc = PyErr_GetRaisedException(); assert(exc); result = task_step(state, task, exc); Py_DECREF(exc); return result; } /*********************** Functions **************************/ /*[clinic input] _asyncio._get_running_loop Return the running event loop or None. This is a low-level function intended to be used by event loops. This function is thread-specific. [clinic start generated code]*/ static PyObject * _asyncio__get_running_loop_impl(PyObject *module) /*[clinic end generated code: output=b4390af721411a0a input=0a21627e25a4bd43]*/ { _PyThreadStateImpl *ts = (_PyThreadStateImpl *)_PyThreadState_GET(); PyObject *loop = Py_XNewRef(ts->asyncio_running_loop); if (loop == NULL) { /* There's no currently running event loop */ Py_RETURN_NONE; } return loop; } /*[clinic input] _asyncio._set_running_loop loop: 'O' / Set the running event loop. This is a low-level function intended to be used by event loops. This function is thread-specific. [clinic start generated code]*/ static PyObject * _asyncio__set_running_loop(PyObject *module, PyObject *loop) /*[clinic end generated code: output=ae56bf7a28ca189a input=4c9720233d606604]*/ { _PyThreadStateImpl *ts = (_PyThreadStateImpl *)_PyThreadState_GET(); if (loop == Py_None) { loop = NULL; } Py_XSETREF(ts->asyncio_running_loop, Py_XNewRef(loop)); Py_RETURN_NONE; } /*[clinic input] _asyncio.get_event_loop Return an asyncio event loop. When called from a coroutine or a callback (e.g. scheduled with call_soon or similar API), this function will always return the running event loop. If there is no running event loop set, the function will return the result of `get_event_loop_policy().get_event_loop()` call. [clinic start generated code]*/ static PyObject * _asyncio_get_event_loop_impl(PyObject *module) /*[clinic end generated code: output=2a2d8b2f824c648b input=9364bf2916c8655d]*/ { asyncio_state *state = get_asyncio_state(module); return get_event_loop(state); } /*[clinic input] _asyncio.get_running_loop Return the running event loop. Raise a RuntimeError if there is none. This function is thread-specific. [clinic start generated code]*/ static PyObject * _asyncio_get_running_loop_impl(PyObject *module) /*[clinic end generated code: output=c247b5f9e529530e input=2a3bf02ba39f173d]*/ { PyObject *loop; _PyThreadStateImpl *ts = (_PyThreadStateImpl *)_PyThreadState_GET(); loop = Py_XNewRef(ts->asyncio_running_loop); if (loop == NULL) { /* There's no currently running event loop */ PyErr_SetString( PyExc_RuntimeError, "no running event loop"); return NULL; } return loop; } /*[clinic input] _asyncio._register_task task: object Register a new task in asyncio as executed by loop. Returns None. [clinic start generated code]*/ static PyObject * _asyncio__register_task_impl(PyObject *module, PyObject *task) /*[clinic end generated code: output=8672dadd69a7d4e2 input=21075aaea14dfbad]*/ { asyncio_state *state = get_asyncio_state(module); if (register_task(state, task) < 0) { return NULL; } Py_RETURN_NONE; } /*[clinic input] _asyncio._register_eager_task task: object Register a new task in asyncio as executed by loop. Returns None. [clinic start generated code]*/ static PyObject * _asyncio__register_eager_task_impl(PyObject *module, PyObject *task) /*[clinic end generated code: output=dfe1d45367c73f1a input=237f684683398c51]*/ { asyncio_state *state = get_asyncio_state(module); if (register_eager_task(state, task) < 0) { return NULL; } Py_RETURN_NONE; } /*[clinic input] _asyncio._unregister_task task: object Unregister a task. Returns None. [clinic start generated code]*/ static PyObject * _asyncio__unregister_task_impl(PyObject *module, PyObject *task) /*[clinic end generated code: output=6e5585706d568a46 input=28fb98c3975f7bdc]*/ { asyncio_state *state = get_asyncio_state(module); if (unregister_task(state, task) < 0) { return NULL; } Py_RETURN_NONE; } /*[clinic input] _asyncio._unregister_eager_task task: object Unregister a task. Returns None. [clinic start generated code]*/ static PyObject * _asyncio__unregister_eager_task_impl(PyObject *module, PyObject *task) /*[clinic end generated code: output=a426922bd07f23d1 input=9d07401ef14ee048]*/ { asyncio_state *state = get_asyncio_state(module); if (unregister_eager_task(state, task) < 0) { return NULL; } Py_RETURN_NONE; } /*[clinic input] _asyncio._enter_task loop: object task: object Enter into task execution or resume suspended task. Task belongs to loop. Returns None. [clinic start generated code]*/ static PyObject * _asyncio__enter_task_impl(PyObject *module, PyObject *loop, PyObject *task) /*[clinic end generated code: output=a22611c858035b73 input=de1b06dca70d8737]*/ { asyncio_state *state = get_asyncio_state(module); if (enter_task(state, loop, task) < 0) { return NULL; } Py_RETURN_NONE; } /*[clinic input] _asyncio._leave_task loop: object task: object Leave task execution or suspend a task. Task belongs to loop. Returns None. [clinic start generated code]*/ static PyObject * _asyncio__leave_task_impl(PyObject *module, PyObject *loop, PyObject *task) /*[clinic end generated code: output=0ebf6db4b858fb41 input=51296a46313d1ad8]*/ { asyncio_state *state = get_asyncio_state(module); if (leave_task(state, loop, task) < 0) { return NULL; } Py_RETURN_NONE; } /*[clinic input] _asyncio._swap_current_task loop: object task: object Temporarily swap in the supplied task and return the original one (or None). This is intended for use during eager coroutine execution. [clinic start generated code]*/ static PyObject * _asyncio__swap_current_task_impl(PyObject *module, PyObject *loop, PyObject *task) /*[clinic end generated code: output=9f88de958df74c7e input=c9c72208d3d38b6c]*/ { return swap_current_task(get_asyncio_state(module), loop, task); } /*[clinic input] _asyncio.current_task loop: object = None Return a currently executed task. [clinic start generated code]*/ static PyObject * _asyncio_current_task_impl(PyObject *module, PyObject *loop) /*[clinic end generated code: output=fe15ac331a7f981a input=58910f61a5627112]*/ { PyObject *ret; asyncio_state *state = get_asyncio_state(module); if (loop == Py_None) { loop = _asyncio_get_running_loop_impl(module); if (loop == NULL) { return NULL; } } else { Py_INCREF(loop); } int rc = PyDict_GetItemRef(state->current_tasks, loop, &ret); Py_DECREF(loop); if (rc == 0) { Py_RETURN_NONE; } return ret; } /*********************** Module **************************/ static void module_free_freelists(asyncio_state *state) { #ifndef Py_GIL_DISABLED PyObject *next; PyObject *current; next = (PyObject*) state->fi_freelist; while (next != NULL) { assert(state->fi_freelist_len > 0); state->fi_freelist_len--; current = next; next = (PyObject*) ((futureiterobject*) current)->future; PyObject_GC_Del(current); } assert(state->fi_freelist_len == 0); state->fi_freelist = NULL; #endif } static int module_traverse(PyObject *mod, visitproc visit, void *arg) { asyncio_state *state = get_asyncio_state(mod); Py_VISIT(state->FutureIterType); Py_VISIT(state->TaskStepMethWrapper_Type); Py_VISIT(state->FutureType); Py_VISIT(state->TaskType); Py_VISIT(state->asyncio_mod); Py_VISIT(state->traceback_extract_stack); Py_VISIT(state->asyncio_future_repr_func); Py_VISIT(state->asyncio_get_event_loop_policy); Py_VISIT(state->asyncio_iscoroutine_func); Py_VISIT(state->asyncio_task_get_stack_func); Py_VISIT(state->asyncio_task_print_stack_func); Py_VISIT(state->asyncio_task_repr_func); Py_VISIT(state->asyncio_InvalidStateError); Py_VISIT(state->asyncio_CancelledError); Py_VISIT(state->scheduled_tasks); Py_VISIT(state->eager_tasks); Py_VISIT(state->current_tasks); Py_VISIT(state->iscoroutine_typecache); Py_VISIT(state->context_kwname); #ifndef Py_GIL_DISABLED // Visit freelist. PyObject *next = (PyObject*) state->fi_freelist; while (next != NULL) { PyObject *current = next; Py_VISIT(current); next = (PyObject*) ((futureiterobject*) current)->future; } #endif return 0; } static int module_clear(PyObject *mod) { asyncio_state *state = get_asyncio_state(mod); Py_CLEAR(state->FutureIterType); Py_CLEAR(state->TaskStepMethWrapper_Type); Py_CLEAR(state->FutureType); Py_CLEAR(state->TaskType); Py_CLEAR(state->asyncio_mod); Py_CLEAR(state->traceback_extract_stack); Py_CLEAR(state->asyncio_future_repr_func); Py_CLEAR(state->asyncio_get_event_loop_policy); Py_CLEAR(state->asyncio_iscoroutine_func); Py_CLEAR(state->asyncio_task_get_stack_func); Py_CLEAR(state->asyncio_task_print_stack_func); Py_CLEAR(state->asyncio_task_repr_func); Py_CLEAR(state->asyncio_InvalidStateError); Py_CLEAR(state->asyncio_CancelledError); Py_CLEAR(state->scheduled_tasks); Py_CLEAR(state->eager_tasks); Py_CLEAR(state->current_tasks); Py_CLEAR(state->iscoroutine_typecache); Py_CLEAR(state->context_kwname); module_free_freelists(state); return 0; } static void module_free(void *mod) { (void)module_clear((PyObject *)mod); } static int module_init(asyncio_state *state) { PyObject *module = NULL; state->asyncio_mod = PyImport_ImportModule("asyncio"); if (state->asyncio_mod == NULL) { goto fail; } state->current_tasks = PyDict_New(); if (state->current_tasks == NULL) { goto fail; } state->iscoroutine_typecache = PySet_New(NULL); if (state->iscoroutine_typecache == NULL) { goto fail; } state->context_kwname = Py_BuildValue("(s)", "context"); if (state->context_kwname == NULL) { goto fail; } #define WITH_MOD(NAME) \ Py_CLEAR(module); \ module = PyImport_ImportModule(NAME); \ if (module == NULL) { \ goto fail; \ } #define GET_MOD_ATTR(VAR, NAME) \ VAR = PyObject_GetAttrString(module, NAME); \ if (VAR == NULL) { \ goto fail; \ } WITH_MOD("asyncio.events") GET_MOD_ATTR(state->asyncio_get_event_loop_policy, "get_event_loop_policy") WITH_MOD("asyncio.base_futures") GET_MOD_ATTR(state->asyncio_future_repr_func, "_future_repr") WITH_MOD("asyncio.exceptions") GET_MOD_ATTR(state->asyncio_InvalidStateError, "InvalidStateError") GET_MOD_ATTR(state->asyncio_CancelledError, "CancelledError") WITH_MOD("asyncio.base_tasks") GET_MOD_ATTR(state->asyncio_task_repr_func, "_task_repr") GET_MOD_ATTR(state->asyncio_task_get_stack_func, "_task_get_stack") GET_MOD_ATTR(state->asyncio_task_print_stack_func, "_task_print_stack") WITH_MOD("asyncio.coroutines") GET_MOD_ATTR(state->asyncio_iscoroutine_func, "iscoroutine") WITH_MOD("traceback") GET_MOD_ATTR(state->traceback_extract_stack, "extract_stack") PyObject *weak_set; WITH_MOD("weakref") GET_MOD_ATTR(weak_set, "WeakSet"); state->scheduled_tasks = PyObject_CallNoArgs(weak_set); Py_CLEAR(weak_set); if (state->scheduled_tasks == NULL) { goto fail; } state->eager_tasks = PySet_New(NULL); if (state->eager_tasks == NULL) { goto fail; } Py_DECREF(module); return 0; fail: Py_CLEAR(module); return -1; #undef WITH_MOD #undef GET_MOD_ATTR } PyDoc_STRVAR(module_doc, "Accelerator module for asyncio"); static PyMethodDef asyncio_methods[] = { _ASYNCIO_CURRENT_TASK_METHODDEF _ASYNCIO_GET_EVENT_LOOP_METHODDEF _ASYNCIO_GET_RUNNING_LOOP_METHODDEF _ASYNCIO__GET_RUNNING_LOOP_METHODDEF _ASYNCIO__SET_RUNNING_LOOP_METHODDEF _ASYNCIO__REGISTER_TASK_METHODDEF _ASYNCIO__REGISTER_EAGER_TASK_METHODDEF _ASYNCIO__UNREGISTER_TASK_METHODDEF _ASYNCIO__UNREGISTER_EAGER_TASK_METHODDEF _ASYNCIO__ENTER_TASK_METHODDEF _ASYNCIO__LEAVE_TASK_METHODDEF _ASYNCIO__SWAP_CURRENT_TASK_METHODDEF {NULL, NULL} }; static int module_exec(PyObject *mod) { asyncio_state *state = get_asyncio_state(mod); #define CREATE_TYPE(m, tp, spec, base) \ do { \ tp = (PyTypeObject *)PyType_FromMetaclass(NULL, m, spec, \ (PyObject *)base); \ if (tp == NULL) { \ return -1; \ } \ } while (0) CREATE_TYPE(mod, state->TaskStepMethWrapper_Type, &TaskStepMethWrapper_spec, NULL); CREATE_TYPE(mod, state->FutureIterType, &FutureIter_spec, NULL); CREATE_TYPE(mod, state->FutureType, &Future_spec, NULL); CREATE_TYPE(mod, state->TaskType, &Task_spec, state->FutureType); #undef CREATE_TYPE if (PyModule_AddType(mod, state->FutureType) < 0) { return -1; } if (PyModule_AddType(mod, state->TaskType) < 0) { return -1; } // Must be done after types are added to avoid a circular dependency if (module_init(state) < 0) { return -1; } if (PyModule_AddObjectRef(mod, "_scheduled_tasks", state->scheduled_tasks) < 0) { return -1; } if (PyModule_AddObjectRef(mod, "_eager_tasks", state->eager_tasks) < 0) { return -1; } if (PyModule_AddObjectRef(mod, "_current_tasks", state->current_tasks) < 0) { return -1; } return 0; } static struct PyModuleDef_Slot module_slots[] = { {Py_mod_exec, module_exec}, {Py_mod_multiple_interpreters, Py_MOD_PER_INTERPRETER_GIL_SUPPORTED}, {Py_mod_gil, Py_MOD_GIL_NOT_USED}, {0, NULL}, }; static struct PyModuleDef _asynciomodule = { .m_base = PyModuleDef_HEAD_INIT, .m_name = "_asyncio", .m_doc = module_doc, .m_size = sizeof(asyncio_state), .m_methods = asyncio_methods, .m_slots = module_slots, .m_traverse = module_traverse, .m_clear = module_clear, .m_free = (freefunc)module_free, }; PyMODINIT_FUNC PyInit__asyncio(void) { return PyModuleDef_Init(&_asynciomodule); }