cpython/Modules/_interpqueuesmodule.c

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/* interpreters module */
/* low-level access to interpreter primitives */
#ifndef Py_BUILD_CORE_BUILTIN
# define Py_BUILD_CORE_MODULE 1
#endif
#include "Python.h"
#include "pycore_crossinterp.h" // struct _xid
#define REGISTERS_HEAP_TYPES
#define HAS_UNBOUND_ITEMS
#include "_interpreters_common.h"
#undef HAS_UNBOUND_ITEMS
#undef REGISTERS_HEAP_TYPES
#define MODULE_NAME _interpqueues
#define MODULE_NAME_STR Py_STRINGIFY(MODULE_NAME)
#define MODINIT_FUNC_NAME RESOLVE_MODINIT_FUNC_NAME(MODULE_NAME)
#define GLOBAL_MALLOC(TYPE) \
PyMem_RawMalloc(sizeof(TYPE))
#define GLOBAL_FREE(VAR) \
PyMem_RawFree(VAR)
#define XID_IGNORE_EXC 1
#define XID_FREE 2
static int
_release_xid_data(_PyCrossInterpreterData *data, int flags)
{
int ignoreexc = flags & XID_IGNORE_EXC;
PyObject *exc;
if (ignoreexc) {
exc = PyErr_GetRaisedException();
}
int res;
if (flags & XID_FREE) {
res = _PyCrossInterpreterData_ReleaseAndRawFree(data);
}
else {
res = _PyCrossInterpreterData_Release(data);
}
if (res < 0) {
/* The owning interpreter is already destroyed. */
if (ignoreexc) {
// XXX Emit a warning?
PyErr_Clear();
}
}
if (flags & XID_FREE) {
/* Either way, we free the data. */
}
if (ignoreexc) {
PyErr_SetRaisedException(exc);
}
return res;
}
static PyInterpreterState *
_get_current_interp(void)
{
// PyInterpreterState_Get() aborts if lookup fails, so don't need
// to check the result for NULL.
return PyInterpreterState_Get();
}
static PyObject *
_get_current_module(void)
{
PyObject *name = PyUnicode_FromString(MODULE_NAME_STR);
if (name == NULL) {
return NULL;
}
PyObject *mod = PyImport_GetModule(name);
Py_DECREF(name);
if (mod == NULL) {
return NULL;
}
assert(mod != Py_None);
return mod;
}
struct idarg_int64_converter_data {
// input:
const char *label;
// output:
int64_t id;
};
static int
idarg_int64_converter(PyObject *arg, void *ptr)
{
int64_t id;
struct idarg_int64_converter_data *data = ptr;
const char *label = data->label;
if (label == NULL) {
label = "ID";
}
if (PyIndex_Check(arg)) {
int overflow = 0;
id = PyLong_AsLongLongAndOverflow(arg, &overflow);
if (id == -1 && PyErr_Occurred()) {
return 0;
}
else if (id == -1 && overflow == 1) {
PyErr_Format(PyExc_OverflowError,
"max %s is %lld, got %R", label, INT64_MAX, arg);
return 0;
}
else if (id < 0) {
PyErr_Format(PyExc_ValueError,
"%s must be a non-negative int, got %R", label, arg);
return 0;
}
}
else {
PyErr_Format(PyExc_TypeError,
"%s must be an int, got %.100s",
label, Py_TYPE(arg)->tp_name);
return 0;
}
data->id = id;
return 1;
}
static int
ensure_highlevel_module_loaded(void)
{
PyObject *highlevel = PyImport_ImportModule("interpreters.queues");
if (highlevel == NULL) {
PyErr_Clear();
highlevel = PyImport_ImportModule("test.support.interpreters.queues");
if (highlevel == NULL) {
return -1;
}
}
Py_DECREF(highlevel);
return 0;
}
/* module state *************************************************************/
typedef struct {
/* external types (added at runtime by interpreters module) */
PyTypeObject *queue_type;
/* QueueError (and its subclasses) */
PyObject *QueueError;
PyObject *QueueNotFoundError;
PyObject *QueueEmpty;
PyObject *QueueFull;
} module_state;
static inline module_state *
get_module_state(PyObject *mod)
{
assert(mod != NULL);
module_state *state = PyModule_GetState(mod);
assert(state != NULL);
return state;
}
static int
traverse_module_state(module_state *state, visitproc visit, void *arg)
{
/* external types */
Py_VISIT(state->queue_type);
/* QueueError */
Py_VISIT(state->QueueError);
Py_VISIT(state->QueueNotFoundError);
Py_VISIT(state->QueueEmpty);
Py_VISIT(state->QueueFull);
return 0;
}
static int
clear_module_state(module_state *state)
{
/* external types */
if (state->queue_type != NULL) {
(void)clear_xid_class(state->queue_type);
}
Py_CLEAR(state->queue_type);
/* QueueError */
Py_CLEAR(state->QueueError);
Py_CLEAR(state->QueueNotFoundError);
Py_CLEAR(state->QueueEmpty);
Py_CLEAR(state->QueueFull);
return 0;
}
/* error codes **************************************************************/
#define ERR_EXCEPTION_RAISED (-1)
// multi-queue errors
#define ERR_QUEUES_ALLOC (-11)
#define ERR_QUEUE_ALLOC (-12)
#define ERR_NO_NEXT_QUEUE_ID (-13)
#define ERR_QUEUE_NOT_FOUND (-14)
// single-queue errors
#define ERR_QUEUE_EMPTY (-21)
#define ERR_QUEUE_FULL (-22)
#define ERR_QUEUE_NEVER_BOUND (-23)
static int ensure_external_exc_types(module_state *);
static int
resolve_module_errcode(module_state *state, int errcode, int64_t qid,
PyObject **p_exctype, PyObject **p_msgobj)
{
PyObject *exctype = NULL;
PyObject *msg = NULL;
switch (errcode) {
case ERR_NO_NEXT_QUEUE_ID:
exctype = state->QueueError;
msg = PyUnicode_FromString("ran out of queue IDs");
break;
case ERR_QUEUE_NOT_FOUND:
exctype = state->QueueNotFoundError;
msg = PyUnicode_FromFormat("queue %" PRId64 " not found", qid);
break;
case ERR_QUEUE_EMPTY:
if (ensure_external_exc_types(state) < 0) {
return -1;
}
exctype = state->QueueEmpty;
msg = PyUnicode_FromFormat("queue %" PRId64 " is empty", qid);
break;
case ERR_QUEUE_FULL:
if (ensure_external_exc_types(state) < 0) {
return -1;
}
exctype = state->QueueFull;
msg = PyUnicode_FromFormat("queue %" PRId64 " is full", qid);
break;
case ERR_QUEUE_NEVER_BOUND:
exctype = state->QueueError;
msg = PyUnicode_FromFormat("queue %" PRId64 " never bound", qid);
break;
default:
PyErr_Format(PyExc_ValueError,
"unsupported error code %d", errcode);
return -1;
}
if (msg == NULL) {
assert(PyErr_Occurred());
return -1;
}
*p_exctype = exctype;
*p_msgobj = msg;
return 0;
}
/* QueueError ***************************************************************/
static int
add_exctype(PyObject *mod, PyObject **p_state_field,
const char *qualname, const char *doc, PyObject *base)
{
#ifndef NDEBUG
const char *dot = strrchr(qualname, '.');
assert(dot != NULL);
const char *name = dot+1;
assert(*p_state_field == NULL);
assert(!PyObject_HasAttrStringWithError(mod, name));
#endif
PyObject *exctype = PyErr_NewExceptionWithDoc(qualname, doc, base, NULL);
if (exctype == NULL) {
return -1;
}
if (PyModule_AddType(mod, (PyTypeObject *)exctype) < 0) {
Py_DECREF(exctype);
return -1;
}
*p_state_field = exctype;
return 0;
}
static int
add_QueueError(PyObject *mod)
{
module_state *state = get_module_state(mod);
#define PREFIX "test.support.interpreters."
#define ADD_EXCTYPE(NAME, BASE, DOC) \
assert(state->NAME == NULL); \
if (add_exctype(mod, &state->NAME, PREFIX #NAME, DOC, BASE) < 0) { \
return -1; \
}
ADD_EXCTYPE(QueueError, PyExc_RuntimeError,
"Indicates that a queue-related error happened.")
ADD_EXCTYPE(QueueNotFoundError, state->QueueError, NULL)
// QueueEmpty and QueueFull are set by set_external_exc_types().
state->QueueEmpty = NULL;
state->QueueFull = NULL;
#undef ADD_EXCTYPE
#undef PREFIX
return 0;
}
static int
set_external_exc_types(module_state *state,
PyObject *emptyerror, PyObject *fullerror)
{
if (state->QueueEmpty != NULL) {
assert(state->QueueFull != NULL);
Py_CLEAR(state->QueueEmpty);
Py_CLEAR(state->QueueFull);
}
else {
assert(state->QueueFull == NULL);
}
assert(PyObject_IsSubclass(emptyerror, state->QueueError));
assert(PyObject_IsSubclass(fullerror, state->QueueError));
state->QueueEmpty = Py_NewRef(emptyerror);
state->QueueFull = Py_NewRef(fullerror);
return 0;
}
static int
ensure_external_exc_types(module_state *state)
{
if (state->QueueEmpty != NULL) {
assert(state->QueueFull != NULL);
return 0;
}
assert(state->QueueFull == NULL);
// Force the module to be loaded, to register the type.
if (ensure_highlevel_module_loaded() < 0) {
return -1;
}
assert(state->QueueEmpty != NULL);
assert(state->QueueFull != NULL);
return 0;
}
static int
handle_queue_error(int err, PyObject *mod, int64_t qid)
{
if (err == 0) {
assert(!PyErr_Occurred());
return 0;
}
assert(err < 0);
assert((err == -1) == (PyErr_Occurred() != NULL));
module_state *state;
switch (err) {
case ERR_QUEUE_ALLOC: // fall through
case ERR_QUEUES_ALLOC:
PyErr_NoMemory();
break;
case -1:
return -1;
default:
state = get_module_state(mod);
assert(state->QueueError != NULL);
PyObject *exctype = NULL;
PyObject *msg = NULL;
if (resolve_module_errcode(state, err, qid, &exctype, &msg) < 0) {
return -1;
}
PyObject *exc = PyObject_CallOneArg(exctype, msg);
Py_DECREF(msg);
if (exc == NULL) {
return -1;
}
PyErr_SetObject(exctype, exc);
Py_DECREF(exc);
}
return 1;
}
/* the basic queue **********************************************************/
struct _queueitem;
typedef struct _queueitem {
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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/* The interpreter that added the item to the queue.
The actual bound interpid is found in item->data.
This is necessary because item->data might be NULL,
meaning the interpreter has been destroyed. */
int64_t interpid;
_PyCrossInterpreterData *data;
int fmt;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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int unboundop;
struct _queueitem *next;
} _queueitem;
static void
_queueitem_init(_queueitem *item,
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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int64_t interpid, _PyCrossInterpreterData *data,
int fmt, int unboundop)
{
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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if (interpid < 0) {
interpid = _get_interpid(data);
}
else {
assert(data == NULL
|| _PyCrossInterpreterData_INTERPID(data) < 0
|| interpid == _PyCrossInterpreterData_INTERPID(data));
}
assert(check_unbound(unboundop));
*item = (_queueitem){
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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.interpid = interpid,
.data = data,
.fmt = fmt,
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
.unboundop = unboundop,
};
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
static void
_queueitem_clear_data(_queueitem *item)
{
if (item->data == NULL) {
return;
}
// It was allocated in queue_put().
(void)_release_xid_data(item->data, XID_IGNORE_EXC & XID_FREE);
item->data = NULL;
}
static void
_queueitem_clear(_queueitem *item)
{
item->next = NULL;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
_queueitem_clear_data(item);
}
static _queueitem *
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
_queueitem_new(int64_t interpid, _PyCrossInterpreterData *data,
int fmt, int unboundop)
{
_queueitem *item = GLOBAL_MALLOC(_queueitem);
if (item == NULL) {
PyErr_NoMemory();
return NULL;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
_queueitem_init(item, interpid, data, fmt, unboundop);
return item;
}
static void
_queueitem_free(_queueitem *item)
{
_queueitem_clear(item);
GLOBAL_FREE(item);
}
static void
_queueitem_free_all(_queueitem *item)
{
while (item != NULL) {
_queueitem *last = item;
item = item->next;
_queueitem_free(last);
}
}
static void
_queueitem_popped(_queueitem *item,
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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_PyCrossInterpreterData **p_data, int *p_fmt, int *p_unboundop)
{
*p_data = item->data;
*p_fmt = item->fmt;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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*p_unboundop = item->unboundop;
// We clear them here, so they won't be released in _queueitem_clear().
item->data = NULL;
_queueitem_free(item);
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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static int
_queueitem_clear_interpreter(_queueitem *item)
{
assert(item->interpid >= 0);
if (item->data == NULL) {
// Its interpreter was already cleared (or it was never bound).
// For UNBOUND_REMOVE it should have been freed at that time.
assert(item->unboundop != UNBOUND_REMOVE);
return 0;
}
assert(_PyCrossInterpreterData_INTERPID(item->data) == item->interpid);
switch (item->unboundop) {
case UNBOUND_REMOVE:
// The caller must free/clear it.
return 1;
case UNBOUND_ERROR:
case UNBOUND_REPLACE:
// We won't need the cross-interpreter data later
// so we completely throw it away.
_queueitem_clear_data(item);
return 0;
default:
Py_FatalError("not reachable");
return -1;
}
}
/* the queue */
typedef struct _queue {
Py_ssize_t num_waiters; // protected by global lock
PyThread_type_lock mutex;
int alive;
struct _queueitems {
Py_ssize_t maxsize;
Py_ssize_t count;
_queueitem *first;
_queueitem *last;
} items;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
struct {
int fmt;
int unboundop;
} defaults;
} _queue;
static int
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
_queue_init(_queue *queue, Py_ssize_t maxsize, int fmt, int unboundop)
{
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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assert(check_unbound(unboundop));
PyThread_type_lock mutex = PyThread_allocate_lock();
if (mutex == NULL) {
return ERR_QUEUE_ALLOC;
}
*queue = (_queue){
.mutex = mutex,
.alive = 1,
.items = {
.maxsize = maxsize,
},
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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.defaults = {
.fmt = fmt,
.unboundop = unboundop,
},
};
return 0;
}
static void
_queue_clear(_queue *queue)
{
assert(!queue->alive);
assert(queue->num_waiters == 0);
_queueitem_free_all(queue->items.first);
assert(queue->mutex != NULL);
PyThread_free_lock(queue->mutex);
*queue = (_queue){0};
}
static void _queue_free(_queue *);
static void
_queue_kill_and_wait(_queue *queue)
{
// Mark it as dead.
PyThread_acquire_lock(queue->mutex, WAIT_LOCK);
assert(queue->alive);
queue->alive = 0;
PyThread_release_lock(queue->mutex);
// Wait for all waiters to fail.
while (queue->num_waiters > 0) {
PyThread_acquire_lock(queue->mutex, WAIT_LOCK);
PyThread_release_lock(queue->mutex);
};
}
static void
_queue_mark_waiter(_queue *queue, PyThread_type_lock parent_mutex)
{
if (parent_mutex != NULL) {
PyThread_acquire_lock(parent_mutex, WAIT_LOCK);
queue->num_waiters += 1;
PyThread_release_lock(parent_mutex);
}
else {
// The caller must be holding the parent lock already.
queue->num_waiters += 1;
}
}
static void
_queue_unmark_waiter(_queue *queue, PyThread_type_lock parent_mutex)
{
if (parent_mutex != NULL) {
PyThread_acquire_lock(parent_mutex, WAIT_LOCK);
queue->num_waiters -= 1;
PyThread_release_lock(parent_mutex);
}
else {
// The caller must be holding the parent lock already.
queue->num_waiters -= 1;
}
}
static int
_queue_lock(_queue *queue)
{
// The queue must be marked as a waiter already.
PyThread_acquire_lock(queue->mutex, WAIT_LOCK);
if (!queue->alive) {
PyThread_release_lock(queue->mutex);
return ERR_QUEUE_NOT_FOUND;
}
return 0;
}
static void
_queue_unlock(_queue *queue)
{
PyThread_release_lock(queue->mutex);
}
static int
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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_queue_add(_queue *queue, int64_t interpid, _PyCrossInterpreterData *data,
int fmt, int unboundop)
{
int err = _queue_lock(queue);
if (err < 0) {
return err;
}
Py_ssize_t maxsize = queue->items.maxsize;
if (maxsize <= 0) {
maxsize = PY_SSIZE_T_MAX;
}
if (queue->items.count >= maxsize) {
_queue_unlock(queue);
return ERR_QUEUE_FULL;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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_queueitem *item = _queueitem_new(interpid, data, fmt, unboundop);
if (item == NULL) {
_queue_unlock(queue);
return -1;
}
queue->items.count += 1;
if (queue->items.first == NULL) {
queue->items.first = item;
}
else {
queue->items.last->next = item;
}
queue->items.last = item;
_queue_unlock(queue);
return 0;
}
static int
_queue_next(_queue *queue,
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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_PyCrossInterpreterData **p_data, int *p_fmt, int *p_unboundop)
{
int err = _queue_lock(queue);
if (err < 0) {
return err;
}
assert(queue->items.count >= 0);
_queueitem *item = queue->items.first;
if (item == NULL) {
_queue_unlock(queue);
return ERR_QUEUE_EMPTY;
}
queue->items.first = item->next;
if (queue->items.last == item) {
queue->items.last = NULL;
}
queue->items.count -= 1;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
_queueitem_popped(item, p_data, p_fmt, p_unboundop);
_queue_unlock(queue);
return 0;
}
static int
_queue_get_maxsize(_queue *queue, Py_ssize_t *p_maxsize)
{
int err = _queue_lock(queue);
if (err < 0) {
return err;
}
*p_maxsize = queue->items.maxsize;
_queue_unlock(queue);
return 0;
}
static int
_queue_is_full(_queue *queue, int *p_is_full)
{
int err = _queue_lock(queue);
if (err < 0) {
return err;
}
assert(queue->items.count <= queue->items.maxsize);
*p_is_full = queue->items.count == queue->items.maxsize;
_queue_unlock(queue);
return 0;
}
static int
_queue_get_count(_queue *queue, Py_ssize_t *p_count)
{
int err = _queue_lock(queue);
if (err < 0) {
return err;
}
*p_count = queue->items.count;
_queue_unlock(queue);
return 0;
}
static void
_queue_clear_interpreter(_queue *queue, int64_t interpid)
{
int err = _queue_lock(queue);
if (err == ERR_QUEUE_NOT_FOUND) {
// The queue is already destroyed, so there's nothing to clear.
assert(!PyErr_Occurred());
return;
}
assert(err == 0); // There should be no other errors.
_queueitem *prev = NULL;
_queueitem *next = queue->items.first;
while (next != NULL) {
_queueitem *item = next;
next = item->next;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int remove = (item->interpid == interpid)
? _queueitem_clear_interpreter(item)
: 0;
if (remove) {
_queueitem_free(item);
if (prev == NULL) {
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
queue->items.first = next;
}
else {
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
prev->next = next;
}
queue->items.count -= 1;
}
else {
prev = item;
}
}
_queue_unlock(queue);
}
/* external queue references ************************************************/
struct _queueref;
typedef struct _queueref {
struct _queueref *next;
int64_t qid;
Py_ssize_t refcount;
_queue *queue;
} _queueref;
static _queueref *
_queuerefs_find(_queueref *first, int64_t qid, _queueref **pprev)
{
_queueref *prev = NULL;
_queueref *ref = first;
while (ref != NULL) {
if (ref->qid == qid) {
break;
}
prev = ref;
ref = ref->next;
}
if (pprev != NULL) {
*pprev = prev;
}
return ref;
}
static void
_queuerefs_clear(_queueref *head)
{
_queueref *next = head;
while (next != NULL) {
_queueref *ref = next;
next = ref->next;
#ifdef Py_DEBUG
int64_t qid = ref->qid;
fprintf(stderr, "queue %" PRId64 " still exists\n", qid);
#endif
_queue *queue = ref->queue;
GLOBAL_FREE(ref);
_queue_kill_and_wait(queue);
#ifdef Py_DEBUG
if (queue->items.count > 0) {
fprintf(stderr, "queue %" PRId64 " still holds %zd items\n",
qid, queue->items.count);
}
#endif
_queue_free(queue);
}
}
/* a collection of queues ***************************************************/
typedef struct _queues {
PyThread_type_lock mutex;
_queueref *head;
int64_t count;
int64_t next_id;
} _queues;
static void
_queues_init(_queues *queues, PyThread_type_lock mutex)
{
assert(mutex != NULL);
assert(queues->mutex == NULL);
*queues = (_queues){
.mutex = mutex,
.head = NULL,
.count = 0,
.next_id = 1,
};
}
static void
_queues_fini(_queues *queues, PyThread_type_lock *p_mutex)
{
PyThread_type_lock mutex = queues->mutex;
assert(mutex != NULL);
PyThread_acquire_lock(mutex, WAIT_LOCK);
if (queues->count > 0) {
assert(queues->head != NULL);
_queuerefs_clear(queues->head);
}
*queues = (_queues){0};
PyThread_release_lock(mutex);
*p_mutex = mutex;
}
static int64_t
_queues_next_id(_queues *queues) // needs lock
{
int64_t qid = queues->next_id;
if (qid < 0) {
/* overflow */
return ERR_NO_NEXT_QUEUE_ID;
}
queues->next_id += 1;
return qid;
}
static int
_queues_lookup(_queues *queues, int64_t qid, _queue **res)
{
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
_queueref *ref = _queuerefs_find(queues->head, qid, NULL);
if (ref == NULL) {
PyThread_release_lock(queues->mutex);
return ERR_QUEUE_NOT_FOUND;
}
assert(ref->queue != NULL);
_queue *queue = ref->queue;
_queue_mark_waiter(queue, NULL);
// The caller must unmark it.
PyThread_release_lock(queues->mutex);
*res = queue;
return 0;
}
static int64_t
_queues_add(_queues *queues, _queue *queue)
{
int64_t qid = -1;
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
// Create a new ref.
int64_t _qid = _queues_next_id(queues);
if (_qid < 0) {
goto done;
}
_queueref *ref = GLOBAL_MALLOC(_queueref);
if (ref == NULL) {
qid = ERR_QUEUE_ALLOC;
goto done;
}
*ref = (_queueref){
.qid = _qid,
.queue = queue,
};
// Add it to the list.
// We assume that the queue is a new one (not already in the list).
ref->next = queues->head;
queues->head = ref;
queues->count += 1;
qid = _qid;
done:
PyThread_release_lock(queues->mutex);
return qid;
}
static void
_queues_remove_ref(_queues *queues, _queueref *ref, _queueref *prev,
_queue **p_queue)
{
assert(ref->queue != NULL);
if (ref == queues->head) {
queues->head = ref->next;
}
else {
prev->next = ref->next;
}
ref->next = NULL;
queues->count -= 1;
*p_queue = ref->queue;
ref->queue = NULL;
GLOBAL_FREE(ref);
}
static int
_queues_remove(_queues *queues, int64_t qid, _queue **p_queue)
{
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
_queueref *prev = NULL;
_queueref *ref = _queuerefs_find(queues->head, qid, &prev);
if (ref == NULL) {
PyThread_release_lock(queues->mutex);
return ERR_QUEUE_NOT_FOUND;
}
_queues_remove_ref(queues, ref, prev, p_queue);
PyThread_release_lock(queues->mutex);
return 0;
}
static int
_queues_incref(_queues *queues, int64_t qid)
{
// XXX Track interpreter IDs?
int res = -1;
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
_queueref *ref = _queuerefs_find(queues->head, qid, NULL);
if (ref == NULL) {
assert(!PyErr_Occurred());
res = ERR_QUEUE_NOT_FOUND;
goto done;
}
ref->refcount += 1;
res = 0;
done:
PyThread_release_lock(queues->mutex);
return res;
}
static int
_queues_decref(_queues *queues, int64_t qid)
{
int res = -1;
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
_queueref *prev = NULL;
_queueref *ref = _queuerefs_find(queues->head, qid, &prev);
if (ref == NULL) {
assert(!PyErr_Occurred());
res = ERR_QUEUE_NOT_FOUND;
goto finally;
}
if (ref->refcount == 0) {
res = ERR_QUEUE_NEVER_BOUND;
goto finally;
}
assert(ref->refcount > 0);
ref->refcount -= 1;
// Destroy if no longer used.
assert(ref->queue != NULL);
if (ref->refcount == 0) {
_queue *queue = NULL;
_queues_remove_ref(queues, ref, prev, &queue);
PyThread_release_lock(queues->mutex);
_queue_kill_and_wait(queue);
_queue_free(queue);
return 0;
}
res = 0;
finally:
PyThread_release_lock(queues->mutex);
return res;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
struct queue_id_and_info {
int64_t id;
int fmt;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int unboundop;
};
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
static struct queue_id_and_info *
_queues_list_all(_queues *queues, int64_t *p_count)
{
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
struct queue_id_and_info *qids = NULL;
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
struct queue_id_and_info *ids = PyMem_NEW(struct queue_id_and_info,
(Py_ssize_t)(queues->count));
if (ids == NULL) {
goto done;
}
_queueref *ref = queues->head;
for (int64_t i=0; ref != NULL; ref = ref->next, i++) {
ids[i].id = ref->qid;
assert(ref->queue != NULL);
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
ids[i].fmt = ref->queue->defaults.fmt;
ids[i].unboundop = ref->queue->defaults.unboundop;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
*p_count = queues->count;
qids = ids;
done:
PyThread_release_lock(queues->mutex);
return qids;
}
static void
_queues_clear_interpreter(_queues *queues, int64_t interpid)
{
PyThread_acquire_lock(queues->mutex, WAIT_LOCK);
_queueref *ref = queues->head;
for (; ref != NULL; ref = ref->next) {
assert(ref->queue != NULL);
_queue_clear_interpreter(ref->queue, interpid);
}
PyThread_release_lock(queues->mutex);
}
/* "high"-level queue-related functions *************************************/
static void
_queue_free(_queue *queue)
{
_queue_clear(queue);
GLOBAL_FREE(queue);
}
// Create a new queue.
static int64_t
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
queue_create(_queues *queues, Py_ssize_t maxsize, int fmt, int unboundop)
{
_queue *queue = GLOBAL_MALLOC(_queue);
if (queue == NULL) {
return ERR_QUEUE_ALLOC;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
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int err = _queue_init(queue, maxsize, fmt, unboundop);
if (err < 0) {
GLOBAL_FREE(queue);
return (int64_t)err;
}
int64_t qid = _queues_add(queues, queue);
if (qid < 0) {
_queue_clear(queue);
GLOBAL_FREE(queue);
}
return qid;
}
// Completely destroy the queue.
static int
queue_destroy(_queues *queues, int64_t qid)
{
_queue *queue = NULL;
int err = _queues_remove(queues, qid, &queue);
if (err < 0) {
return err;
}
_queue_kill_and_wait(queue);
_queue_free(queue);
return 0;
}
// Push an object onto the queue.
static int
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
queue_put(_queues *queues, int64_t qid, PyObject *obj, int fmt, int unboundop)
{
// Look up the queue.
_queue *queue = NULL;
int err = _queues_lookup(queues, qid, &queue);
if (err != 0) {
return err;
}
assert(queue != NULL);
// Convert the object to cross-interpreter data.
_PyCrossInterpreterData *data = GLOBAL_MALLOC(_PyCrossInterpreterData);
if (data == NULL) {
_queue_unmark_waiter(queue, queues->mutex);
return -1;
}
if (_PyObject_GetCrossInterpreterData(obj, data) != 0) {
_queue_unmark_waiter(queue, queues->mutex);
GLOBAL_FREE(data);
return -1;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
assert(_PyCrossInterpreterData_INTERPID(data) == \
PyInterpreterState_GetID(PyInterpreterState_Get()));
// Add the data to the queue.
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int64_t interpid = -1; // _queueitem_init() will set it.
int res = _queue_add(queue, interpid, data, fmt, unboundop);
_queue_unmark_waiter(queue, queues->mutex);
if (res != 0) {
// We may chain an exception here:
(void)_release_xid_data(data, 0);
GLOBAL_FREE(data);
return res;
}
return 0;
}
// Pop the next object off the queue. Fail if empty.
// XXX Support a "wait" mutex?
static int
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
queue_get(_queues *queues, int64_t qid,
PyObject **res, int *p_fmt, int *p_unboundop)
{
int err;
*res = NULL;
// Look up the queue.
_queue *queue = NULL;
err = _queues_lookup(queues, qid, &queue);
if (err != 0) {
return err;
}
// Past this point we are responsible for releasing the mutex.
assert(queue != NULL);
// Pop off the next item from the queue.
_PyCrossInterpreterData *data = NULL;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
err = _queue_next(queue, &data, p_fmt, p_unboundop);
_queue_unmark_waiter(queue, queues->mutex);
if (err != 0) {
return err;
}
else if (data == NULL) {
assert(!PyErr_Occurred());
return 0;
}
// Convert the data back to an object.
PyObject *obj = _PyCrossInterpreterData_NewObject(data);
if (obj == NULL) {
assert(PyErr_Occurred());
// It was allocated in queue_put(), so we free it.
(void)_release_xid_data(data, XID_IGNORE_EXC | XID_FREE);
return -1;
}
// It was allocated in queue_put(), so we free it.
int release_res = _release_xid_data(data, XID_FREE);
if (release_res < 0) {
// The source interpreter has been destroyed already.
assert(PyErr_Occurred());
Py_DECREF(obj);
return -1;
}
*res = obj;
return 0;
}
static int
queue_get_maxsize(_queues *queues, int64_t qid, Py_ssize_t *p_maxsize)
{
_queue *queue = NULL;
int err = _queues_lookup(queues, qid, &queue);
if (err < 0) {
return err;
}
err = _queue_get_maxsize(queue, p_maxsize);
_queue_unmark_waiter(queue, queues->mutex);
return err;
}
static int
queue_is_full(_queues *queues, int64_t qid, int *p_is_full)
{
_queue *queue = NULL;
int err = _queues_lookup(queues, qid, &queue);
if (err < 0) {
return err;
}
err = _queue_is_full(queue, p_is_full);
_queue_unmark_waiter(queue, queues->mutex);
return err;
}
static int
queue_get_count(_queues *queues, int64_t qid, Py_ssize_t *p_count)
{
_queue *queue = NULL;
int err = _queues_lookup(queues, qid, &queue);
if (err < 0) {
return err;
}
err = _queue_get_count(queue, p_count);
_queue_unmark_waiter(queue, queues->mutex);
return err;
}
/* external Queue objects ***************************************************/
static int _queueobj_shared(PyThreadState *,
PyObject *, _PyCrossInterpreterData *);
static int
set_external_queue_type(module_state *state, PyTypeObject *queue_type)
{
// Clear the old value if the .py module was reloaded.
if (state->queue_type != NULL) {
(void)clear_xid_class(state->queue_type);
Py_CLEAR(state->queue_type);
}
// Add and register the new type.
if (ensure_xid_class(queue_type, _queueobj_shared) < 0) {
return -1;
}
state->queue_type = (PyTypeObject *)Py_NewRef(queue_type);
return 0;
}
static PyTypeObject *
get_external_queue_type(PyObject *module)
{
module_state *state = get_module_state(module);
PyTypeObject *cls = state->queue_type;
if (cls == NULL) {
// Force the module to be loaded, to register the type.
if (ensure_highlevel_module_loaded() < 0) {
return NULL;
}
cls = state->queue_type;
assert(cls != NULL);
}
return cls;
}
// XXX Use a new __xid__ protocol instead?
struct _queueid_xid {
int64_t qid;
};
static _queues * _get_global_queues(void);
static void *
_queueid_xid_new(int64_t qid)
{
_queues *queues = _get_global_queues();
if (_queues_incref(queues, qid) < 0) {
return NULL;
}
struct _queueid_xid *data = PyMem_RawMalloc(sizeof(struct _queueid_xid));
if (data == NULL) {
_queues_decref(queues, qid);
return NULL;
}
data->qid = qid;
return (void *)data;
}
static void
_queueid_xid_free(void *data)
{
int64_t qid = ((struct _queueid_xid *)data)->qid;
PyMem_RawFree(data);
_queues *queues = _get_global_queues();
int res = _queues_decref(queues, qid);
if (res == ERR_QUEUE_NOT_FOUND) {
// Already destroyed.
// XXX Warn?
}
else {
assert(res == 0);
}
}
static PyObject *
_queueobj_from_xid(_PyCrossInterpreterData *data)
{
int64_t qid = *(int64_t *)_PyCrossInterpreterData_DATA(data);
PyObject *qidobj = PyLong_FromLongLong(qid);
if (qidobj == NULL) {
return NULL;
}
PyObject *mod = _get_current_module();
if (mod == NULL) {
// XXX import it?
PyErr_SetString(PyExc_RuntimeError,
MODULE_NAME_STR " module not imported yet");
return NULL;
}
PyTypeObject *cls = get_external_queue_type(mod);
Py_DECREF(mod);
if (cls == NULL) {
Py_DECREF(qidobj);
return NULL;
}
PyObject *obj = PyObject_CallOneArg((PyObject *)cls, (PyObject *)qidobj);
Py_DECREF(qidobj);
return obj;
}
static int
_queueobj_shared(PyThreadState *tstate, PyObject *queueobj,
_PyCrossInterpreterData *data)
{
PyObject *qidobj = PyObject_GetAttrString(queueobj, "_id");
if (qidobj == NULL) {
return -1;
}
struct idarg_int64_converter_data converted = {
.label = "queue ID",
};
int res = idarg_int64_converter(qidobj, &converted);
Py_CLEAR(qidobj);
if (!res) {
assert(PyErr_Occurred());
return -1;
}
void *raw = _queueid_xid_new(converted.id);
if (raw == NULL) {
return -1;
}
_PyCrossInterpreterData_Init(data, tstate->interp, raw, NULL,
_queueobj_from_xid);
_PyCrossInterpreterData_SET_FREE(data, _queueid_xid_free);
return 0;
}
/* module level code ********************************************************/
/* globals is the process-global state for the module. It holds all
the data that we need to share between interpreters, so it cannot
hold PyObject values. */
static struct globals {
PyMutex mutex;
int module_count;
_queues queues;
} _globals = {0};
static int
_globals_init(void)
{
PyMutex_Lock(&_globals.mutex);
assert(_globals.module_count >= 0);
_globals.module_count++;
if (_globals.module_count == 1) {
// Called for the first time.
PyThread_type_lock mutex = PyThread_allocate_lock();
if (mutex == NULL) {
_globals.module_count--;
PyMutex_Unlock(&_globals.mutex);
return ERR_QUEUES_ALLOC;
}
_queues_init(&_globals.queues, mutex);
}
PyMutex_Unlock(&_globals.mutex);
return 0;
}
static void
_globals_fini(void)
{
PyMutex_Lock(&_globals.mutex);
assert(_globals.module_count > 0);
_globals.module_count--;
if (_globals.module_count == 0) {
PyThread_type_lock mutex;
_queues_fini(&_globals.queues, &mutex);
assert(mutex != NULL);
PyThread_free_lock(mutex);
}
PyMutex_Unlock(&_globals.mutex);
}
static _queues *
_get_global_queues(void)
{
return &_globals.queues;
}
static void
clear_interpreter(void *data)
{
if (_globals.module_count == 0) {
return;
}
PyInterpreterState *interp = (PyInterpreterState *)data;
assert(interp == _get_current_interp());
int64_t interpid = PyInterpreterState_GetID(interp);
_queues_clear_interpreter(&_globals.queues, interpid);
}
typedef struct idarg_int64_converter_data qidarg_converter_data;
static int
qidarg_converter(PyObject *arg, void *ptr)
{
qidarg_converter_data *data = ptr;
if (data->label == NULL) {
data->label = "queue ID";
}
return idarg_int64_converter(arg, ptr);
}
static PyObject *
queuesmod_create(PyObject *self, PyObject *args, PyObject *kwds)
{
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
static char *kwlist[] = {"maxsize", "fmt", "unboundop", NULL};
Py_ssize_t maxsize;
int fmt;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int unboundop;
if (!PyArg_ParseTupleAndKeywords(args, kwds, "nii:create", kwlist,
&maxsize, &fmt, &unboundop))
{
return NULL;
}
if (!check_unbound(unboundop)) {
PyErr_Format(PyExc_ValueError,
"unsupported unboundop %d", unboundop);
return NULL;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int64_t qid = queue_create(&_globals.queues, maxsize, fmt, unboundop);
if (qid < 0) {
(void)handle_queue_error((int)qid, self, qid);
return NULL;
}
PyObject *qidobj = PyLong_FromLongLong(qid);
if (qidobj == NULL) {
PyObject *exc = PyErr_GetRaisedException();
int err = queue_destroy(&_globals.queues, qid);
if (handle_queue_error(err, self, qid)) {
// XXX issue a warning?
PyErr_Clear();
}
PyErr_SetRaisedException(exc);
return NULL;
}
return qidobj;
}
PyDoc_STRVAR(queuesmod_create_doc,
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
"create(maxsize, fmt, unboundop) -> qid\n\
\n\
Create a new cross-interpreter queue and return its unique generated ID.\n\
It is a new reference as though bind() had been called on the queue.\n\
\n\
The caller is responsible for calling destroy() for the new queue\n\
before the runtime is finalized.");
static PyObject *
queuesmod_destroy(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds, "O&:destroy", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
int err = queue_destroy(&_globals.queues, qid);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
Py_RETURN_NONE;
}
PyDoc_STRVAR(queuesmod_destroy_doc,
"destroy(qid)\n\
\n\
Clear and destroy the queue. Afterward attempts to use the queue\n\
will behave as though it never existed.");
static PyObject *
queuesmod_list_all(PyObject *self, PyObject *Py_UNUSED(ignored))
{
int64_t count = 0;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
struct queue_id_and_info *qids = _queues_list_all(&_globals.queues, &count);
if (qids == NULL) {
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
if (!PyErr_Occurred() && count == 0) {
return PyList_New(0);
}
return NULL;
}
PyObject *ids = PyList_New((Py_ssize_t)count);
if (ids == NULL) {
goto finally;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
struct queue_id_and_info *cur = qids;
for (int64_t i=0; i < count; cur++, i++) {
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
PyObject *item = Py_BuildValue("Lii", cur->id, cur->fmt,
cur->unboundop);
if (item == NULL) {
Py_SETREF(ids, NULL);
break;
}
PyList_SET_ITEM(ids, (Py_ssize_t)i, item);
}
finally:
PyMem_Free(qids);
return ids;
}
PyDoc_STRVAR(queuesmod_list_all_doc,
"list_all() -> [(qid, fmt)]\n\
\n\
Return the list of IDs for all queues.\n\
Each corresponding default format is also included.");
static PyObject *
queuesmod_put(PyObject *self, PyObject *args, PyObject *kwds)
{
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
static char *kwlist[] = {"qid", "obj", "fmt", "unboundop", NULL};
qidarg_converter_data qidarg = {0};
PyObject *obj;
int fmt;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int unboundop;
if (!PyArg_ParseTupleAndKeywords(args, kwds, "O&Oii:put", kwlist,
qidarg_converter, &qidarg, &obj, &fmt,
&unboundop))
{
return NULL;
}
int64_t qid = qidarg.id;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
if (!check_unbound(unboundop)) {
PyErr_Format(PyExc_ValueError,
"unsupported unboundop %d", unboundop);
return NULL;
}
/* Queue up the object. */
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int err = queue_put(&_globals.queues, qid, obj, fmt, unboundop);
// This is the only place that raises QueueFull.
if (handle_queue_error(err, self, qid)) {
return NULL;
}
Py_RETURN_NONE;
}
PyDoc_STRVAR(queuesmod_put_doc,
"put(qid, obj, fmt)\n\
\n\
Add the object's data to the queue.");
static PyObject *
queuesmod_get(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds, "O&:get", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
PyObject *obj = NULL;
int fmt = 0;
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int unboundop = 0;
int err = queue_get(&_globals.queues, qid, &obj, &fmt, &unboundop);
// This is the only place that raises QueueEmpty.
if (handle_queue_error(err, self, qid)) {
return NULL;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
if (obj == NULL) {
return Py_BuildValue("Oii", Py_None, fmt, unboundop);
}
PyObject *res = Py_BuildValue("OiO", obj, fmt, Py_None);
Py_DECREF(obj);
return res;
}
PyDoc_STRVAR(queuesmod_get_doc,
"get(qid) -> (obj, fmt)\n\
\n\
Return a new object from the data at the front of the queue.\n\
The object's format is also returned.\n\
\n\
If there is nothing to receive then raise QueueEmpty.");
static PyObject *
queuesmod_bind(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds, "O&:bind", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
// XXX Check module state if bound already.
int err = _queues_incref(&_globals.queues, qid);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
// XXX Update module state.
Py_RETURN_NONE;
}
PyDoc_STRVAR(queuesmod_bind_doc,
"bind(qid)\n\
\n\
Take a reference to the identified queue.\n\
The queue is not destroyed until there are no references left.");
static PyObject *
queuesmod_release(PyObject *self, PyObject *args, PyObject *kwds)
{
// Note that only the current interpreter is affected.
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds,
"O&:release", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
// XXX Check module state if bound already.
// XXX Update module state.
int err = _queues_decref(&_globals.queues, qid);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
Py_RETURN_NONE;
}
PyDoc_STRVAR(queuesmod_release_doc,
"release(qid)\n\
\n\
Release a reference to the queue.\n\
The queue is destroyed once there are no references left.");
static PyObject *
queuesmod_get_maxsize(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds,
"O&:get_maxsize", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
Py_ssize_t maxsize = -1;
int err = queue_get_maxsize(&_globals.queues, qid, &maxsize);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
return PyLong_FromLongLong(maxsize);
}
PyDoc_STRVAR(queuesmod_get_maxsize_doc,
"get_maxsize(qid)\n\
\n\
Return the maximum number of items in the queue.");
static PyObject *
queuesmod_get_queue_defaults(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds,
"O&:get_queue_defaults", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
_queue *queue = NULL;
int err = _queues_lookup(&_globals.queues, qid, &queue);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
int fmt = queue->defaults.fmt;
int unboundop = queue->defaults.unboundop;
_queue_unmark_waiter(queue, _globals.queues.mutex);
[3.13] gh-76785: Expand How Interpreter Queues Handle Interpreter Finalization (gh-121807) Any cross-interpreter mechanism for passing objects between interpreters must be very careful to respect isolation, even when the object is effectively immutable (e.g. int, str). Here this especially relates to when an interpreter sends one of its objects, and then is destroyed while the inter-interpreter machinery (e.g. queue) still holds a reference to the object. When I added interpreters.Queue, I dealt with that case (using an atexit hook) by silently removing all items from the queue that were added by the finalizing interpreter. Later, while working on concurrent.futures.InterpreterPoolExecutor (gh-116430), I noticed it was somewhat surprising when items were silently removed from the queue when the originating interpreter was destroyed. (See my comment on that PR.) It took me a little while to realize what was going on. I expect that users, which much less context than I have, would experience the same pain. My approach, here, to improving the situation is to give users three options: 1. return a singleton (interpreters.queues.UNBOUND) from Queue.get() in place of each removed item 2. raise an exception (interpreters.queues.ItemInterpreterDestroyed) from Queue.get() in place of each removed item 3. existing behavior: silently remove each item (i.e. Queue.get() skips each one) The default will now be (1), but users can still explicitly opt in any of them, including to the silent removal behavior. The behavior for each item may be set with the corresponding Queue.put() call. and a queue-wide default may be set when the queue is created. (This is the same as I did for "synconly".) (cherry picked from commit 6b98b274b60a15b490d2ea85069638c037b2a9cd, AKA gh-116431) Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
2024-07-15 16:13:51 -03:00
PyObject *defaults = Py_BuildValue("ii", fmt, unboundop);
return defaults;
}
PyDoc_STRVAR(queuesmod_get_queue_defaults_doc,
"get_queue_defaults(qid)\n\
\n\
Return the queue's default values, set when it was created.");
static PyObject *
queuesmod_is_full(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds,
"O&:is_full", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
int is_full = 0;
int err = queue_is_full(&_globals.queues, qid, &is_full);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
if (is_full) {
Py_RETURN_TRUE;
}
Py_RETURN_FALSE;
}
PyDoc_STRVAR(queuesmod_is_full_doc,
"is_full(qid)\n\
\n\
Return true if the queue has a maxsize and has reached it.");
static PyObject *
queuesmod_get_count(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"qid", NULL};
qidarg_converter_data qidarg = {0};
if (!PyArg_ParseTupleAndKeywords(args, kwds,
"O&:get_count", kwlist,
qidarg_converter, &qidarg)) {
return NULL;
}
int64_t qid = qidarg.id;
Py_ssize_t count = -1;
int err = queue_get_count(&_globals.queues, qid, &count);
if (handle_queue_error(err, self, qid)) {
return NULL;
}
assert(count >= 0);
return PyLong_FromSsize_t(count);
}
PyDoc_STRVAR(queuesmod_get_count_doc,
"get_count(qid)\n\
\n\
Return the number of items in the queue.");
static PyObject *
queuesmod__register_heap_types(PyObject *self, PyObject *args, PyObject *kwds)
{
static char *kwlist[] = {"queuetype", "emptyerror", "fullerror", NULL};
PyObject *queuetype;
PyObject *emptyerror;
PyObject *fullerror;
if (!PyArg_ParseTupleAndKeywords(args, kwds,
"OOO:_register_heap_types", kwlist,
&queuetype, &emptyerror, &fullerror)) {
return NULL;
}
if (!PyType_Check(queuetype)) {
PyErr_SetString(PyExc_TypeError,
"expected a type for 'queuetype'");
return NULL;
}
if (!PyExceptionClass_Check(emptyerror)) {
PyErr_SetString(PyExc_TypeError,
"expected an exception type for 'emptyerror'");
return NULL;
}
if (!PyExceptionClass_Check(fullerror)) {
PyErr_SetString(PyExc_TypeError,
"expected an exception type for 'fullerror'");
return NULL;
}
module_state *state = get_module_state(self);
if (set_external_queue_type(state, (PyTypeObject *)queuetype) < 0) {
return NULL;
}
if (set_external_exc_types(state, emptyerror, fullerror) < 0) {
return NULL;
}
Py_RETURN_NONE;
}
static PyMethodDef module_functions[] = {
{"create", _PyCFunction_CAST(queuesmod_create),
METH_VARARGS | METH_KEYWORDS, queuesmod_create_doc},
{"destroy", _PyCFunction_CAST(queuesmod_destroy),
METH_VARARGS | METH_KEYWORDS, queuesmod_destroy_doc},
{"list_all", queuesmod_list_all,
METH_NOARGS, queuesmod_list_all_doc},
{"put", _PyCFunction_CAST(queuesmod_put),
METH_VARARGS | METH_KEYWORDS, queuesmod_put_doc},
{"get", _PyCFunction_CAST(queuesmod_get),
METH_VARARGS | METH_KEYWORDS, queuesmod_get_doc},
{"bind", _PyCFunction_CAST(queuesmod_bind),
METH_VARARGS | METH_KEYWORDS, queuesmod_bind_doc},
{"release", _PyCFunction_CAST(queuesmod_release),
METH_VARARGS | METH_KEYWORDS, queuesmod_release_doc},
{"get_maxsize", _PyCFunction_CAST(queuesmod_get_maxsize),
METH_VARARGS | METH_KEYWORDS, queuesmod_get_maxsize_doc},
{"get_queue_defaults", _PyCFunction_CAST(queuesmod_get_queue_defaults),
METH_VARARGS | METH_KEYWORDS, queuesmod_get_queue_defaults_doc},
{"is_full", _PyCFunction_CAST(queuesmod_is_full),
METH_VARARGS | METH_KEYWORDS, queuesmod_is_full_doc},
{"get_count", _PyCFunction_CAST(queuesmod_get_count),
METH_VARARGS | METH_KEYWORDS, queuesmod_get_count_doc},
{"_register_heap_types", _PyCFunction_CAST(queuesmod__register_heap_types),
METH_VARARGS | METH_KEYWORDS, NULL},
{NULL, NULL} /* sentinel */
};
/* initialization function */
PyDoc_STRVAR(module_doc,
"This module provides primitive operations to manage Python interpreters.\n\
The 'interpreters' module provides a more convenient interface.");
static int
module_exec(PyObject *mod)
{
int err = _globals_init();
if (handle_queue_error(err, mod, -1)) {
return -1;
}
/* Add exception types */
if (add_QueueError(mod) < 0) {
goto error;
}
/* Make sure queues drop objects owned by this interpreter. */
PyInterpreterState *interp = _get_current_interp();
PyUnstable_AtExit(interp, clear_interpreter, (void *)interp);
return 0;
error:
_globals_fini();
return -1;
}
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 int
module_traverse(PyObject *mod, visitproc visit, void *arg)
{
module_state *state = get_module_state(mod);
traverse_module_state(state, visit, arg);
return 0;
}
static int
module_clear(PyObject *mod)
{
module_state *state = get_module_state(mod);
// Now we clear the module state.
clear_module_state(state);
return 0;
}
static void
module_free(void *mod)
{
module_state *state = get_module_state(mod);
// Now we clear the module state.
clear_module_state(state);
_globals_fini();
}
static struct PyModuleDef moduledef = {
.m_base = PyModuleDef_HEAD_INIT,
.m_name = MODULE_NAME_STR,
.m_doc = module_doc,
.m_size = sizeof(module_state),
.m_methods = module_functions,
.m_slots = module_slots,
.m_traverse = module_traverse,
.m_clear = module_clear,
.m_free = (freefunc)module_free,
};
PyMODINIT_FUNC
MODINIT_FUNC_NAME(void)
{
return PyModuleDef_Init(&moduledef);
}