/* * Implementation of safe memory reclamation scheme using * quiescent states. * * This is dervied from the "GUS" safe memory reclamation technique * in FreeBSD written by Jeffrey Roberson. It is heavily modified. Any bugs * in this code are likely due to the modifications. * * The original copyright is preserved below. * * Copyright (c) 2019,2020 Jeffrey Roberson * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice unmodified, this list of conditions, and the following * disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "Python.h" #include "pycore_initconfig.h" // _PyStatus_NO_MEMORY() #include "pycore_lock.h" // PyMutex_Lock() #include "pycore_qsbr.h" #include "pycore_pystate.h" // _PyThreadState_GET() // Starting size of the array of qsbr thread states #define MIN_ARRAY_SIZE 8 // For _Py_qsbr_deferred_advance(): the number of deferrals before advancing // the write sequence. #define QSBR_DEFERRED_LIMIT 10 // Allocate a QSBR thread state from the freelist static struct _qsbr_thread_state * qsbr_allocate(struct _qsbr_shared *shared) { struct _qsbr_thread_state *qsbr = shared->freelist; if (qsbr == NULL) { return NULL; } shared->freelist = qsbr->freelist_next; qsbr->freelist_next = NULL; qsbr->shared = shared; qsbr->allocated = true; return qsbr; } // Initialize (or reintialize) the freelist of QSBR thread states static void initialize_new_array(struct _qsbr_shared *shared) { for (Py_ssize_t i = 0; i != shared->size; i++) { struct _qsbr_thread_state *qsbr = &shared->array[i].qsbr; if (qsbr->tstate != NULL) { // Update the thread state pointer to its QSBR state _PyThreadStateImpl *tstate = (_PyThreadStateImpl *)qsbr->tstate; tstate->qsbr = qsbr; } if (!qsbr->allocated) { // Push to freelist qsbr->freelist_next = shared->freelist; shared->freelist = qsbr; } } } // Grow the array of QSBR thread states. Returns 0 on success, -1 on failure. static int grow_thread_array(struct _qsbr_shared *shared) { Py_ssize_t new_size = shared->size * 2; if (new_size < MIN_ARRAY_SIZE) { new_size = MIN_ARRAY_SIZE; } struct _qsbr_pad *array = PyMem_RawCalloc(new_size, sizeof(*array)); if (array == NULL) { return -1; } struct _qsbr_pad *old = shared->array; if (old != NULL) { memcpy(array, shared->array, shared->size * sizeof(*array)); } shared->array = array; shared->size = new_size; shared->freelist = NULL; initialize_new_array(shared); PyMem_RawFree(old); return 0; } uint64_t _Py_qsbr_advance(struct _qsbr_shared *shared) { // NOTE: with 64-bit sequence numbers, we don't have to worry too much // about the wr_seq getting too far ahead of rd_seq, but if we ever use // 32-bit sequence numbers, we'll need to be more careful. return _Py_atomic_add_uint64(&shared->wr_seq, QSBR_INCR) + QSBR_INCR; } uint64_t _Py_qsbr_deferred_advance(struct _qsbr_thread_state *qsbr) { if (++qsbr->deferrals < QSBR_DEFERRED_LIMIT) { return _Py_qsbr_shared_current(qsbr->shared) + QSBR_INCR; } qsbr->deferrals = 0; return _Py_qsbr_advance(qsbr->shared); } static uint64_t qsbr_poll_scan(struct _qsbr_shared *shared) { // Synchronize with store in _Py_qsbr_attach(). We need to ensure that // the reads from each thread's sequence number are not reordered to see // earlier "offline" states. _Py_atomic_fence_seq_cst(); // Compute the minimum sequence number of all attached threads uint64_t min_seq = _Py_atomic_load_uint64(&shared->wr_seq); struct _qsbr_pad *array = shared->array; for (Py_ssize_t i = 0, size = shared->size; i != size; i++) { struct _qsbr_thread_state *qsbr = &array[i].qsbr; uint64_t seq = _Py_atomic_load_uint64(&qsbr->seq); if (seq != QSBR_OFFLINE && QSBR_LT(seq, min_seq)) { min_seq = seq; } } // Update the shared read sequence uint64_t rd_seq = _Py_atomic_load_uint64(&shared->rd_seq); if (QSBR_LT(rd_seq, min_seq)) { // It's okay if the compare-exchange failed: another thread updated it (void)_Py_atomic_compare_exchange_uint64(&shared->rd_seq, &rd_seq, min_seq); rd_seq = min_seq; } return rd_seq; } bool _Py_qsbr_poll(struct _qsbr_thread_state *qsbr, uint64_t goal) { assert(_PyThreadState_GET()->state == _Py_THREAD_ATTACHED); if (_Py_qbsr_goal_reached(qsbr, goal)) { return true; } uint64_t rd_seq = qsbr_poll_scan(qsbr->shared); return QSBR_LEQ(goal, rd_seq); } void _Py_qsbr_attach(struct _qsbr_thread_state *qsbr) { assert(qsbr->seq == 0 && "already attached"); uint64_t seq = _Py_qsbr_shared_current(qsbr->shared); _Py_atomic_store_uint64(&qsbr->seq, seq); // needs seq_cst } void _Py_qsbr_detach(struct _qsbr_thread_state *qsbr) { assert(qsbr->seq != 0 && "already detached"); _Py_atomic_store_uint64_release(&qsbr->seq, QSBR_OFFLINE); } Py_ssize_t _Py_qsbr_reserve(PyInterpreterState *interp) { struct _qsbr_shared *shared = &interp->qsbr; PyMutex_Lock(&shared->mutex); // Try allocating from our internal freelist struct _qsbr_thread_state *qsbr = qsbr_allocate(shared); // If there are no free entries, we pause all threads, grow the array, // and update the pointers in PyThreadState to entries in the new array. if (qsbr == NULL) { _PyEval_StopTheWorld(interp); if (grow_thread_array(shared) == 0) { qsbr = qsbr_allocate(shared); } _PyEval_StartTheWorld(interp); } PyMutex_Unlock(&shared->mutex); if (qsbr == NULL) { return -1; } // Return an index rather than the pointer because the array may be // resized and the pointer invalidated. return (struct _qsbr_pad *)qsbr - shared->array; } void _Py_qsbr_register(_PyThreadStateImpl *tstate, PyInterpreterState *interp, Py_ssize_t index) { // Associate the QSBR state with the thread state struct _qsbr_shared *shared = &interp->qsbr; PyMutex_Lock(&shared->mutex); struct _qsbr_thread_state *qsbr = &interp->qsbr.array[index].qsbr; assert(qsbr->allocated && qsbr->tstate == NULL); qsbr->tstate = (PyThreadState *)tstate; tstate->qsbr = qsbr; PyMutex_Unlock(&shared->mutex); } void _Py_qsbr_unregister(PyThreadState *tstate) { struct _qsbr_shared *shared = &tstate->interp->qsbr; struct _PyThreadStateImpl *tstate_imp = (_PyThreadStateImpl*) tstate; PyMutex_Lock(&shared->mutex); // NOTE: we must load (or reload) the thread state's qbsr inside the mutex // because the array may have been resized (changing tstate->qsbr) while // we waited to acquire the mutex. struct _qsbr_thread_state *qsbr = tstate_imp->qsbr; assert(qsbr->seq == 0 && "thread state must be detached"); assert(qsbr->allocated && qsbr->tstate == tstate); tstate_imp->qsbr = NULL; qsbr->tstate = NULL; qsbr->allocated = false; qsbr->freelist_next = shared->freelist; shared->freelist = qsbr; PyMutex_Unlock(&shared->mutex); } void _Py_qsbr_fini(PyInterpreterState *interp) { struct _qsbr_shared *shared = &interp->qsbr; PyMem_RawFree(shared->array); shared->array = NULL; shared->size = 0; shared->freelist = NULL; } void _Py_qsbr_after_fork(_PyThreadStateImpl *tstate) { struct _qsbr_thread_state *this_qsbr = tstate->qsbr; struct _qsbr_shared *shared = this_qsbr->shared; _PyMutex_at_fork_reinit(&shared->mutex); for (Py_ssize_t i = 0; i != shared->size; i++) { struct _qsbr_thread_state *qsbr = &shared->array[i].qsbr; if (qsbr != this_qsbr && qsbr->allocated) { qsbr->tstate = NULL; qsbr->allocated = false; qsbr->freelist_next = shared->freelist; shared->freelist = qsbr; } } }