qcacld-3.0: Add Driver Synchronization Core (vdev)
The Driver Synchronization Core (DSC) is a set of synchronization primitives for use by the driver's orchestration layer. It provides APIs for ensuring safe state transitions (including bring up and tear down) of major driver objects: a single driver, associated psocs, and their associated vdevs. APIs are divided into two categories: mutual exclusion of conflicting transitions, and operation tracking, blocking, and waiting capabilities. For part 4, add the vdev-level implementation. Change-Id: I3f5ef0f7abf24a45d757d286d450ef086640c56a CRs-Fixed: 2290260
This commit is contained in:
Dustin Brown
@@ -16,3 +16,297 @@
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* PERFORMANCE OF THIS SOFTWARE.
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*/
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#include "qdf_list.h"
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#include "qdf_mem.h"
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#include "qdf_status.h"
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#include "qdf_types.h"
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#include "__wlan_dsc.h"
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#include "wlan_dsc.h"
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static QDF_STATUS
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__dsc_vdev_create(struct dsc_psoc *psoc, struct dsc_vdev **out_vdev)
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{
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struct dsc_vdev *vdev;
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if (!dsc_assert(psoc))
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return QDF_STATUS_E_INVAL;
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if (!dsc_assert(out_vdev))
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return QDF_STATUS_E_INVAL;
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*out_vdev = NULL;
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vdev = qdf_mem_malloc(sizeof(*vdev));
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if (!vdev)
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return QDF_STATUS_E_NOMEM;
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/* init */
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vdev->psoc = psoc;
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__dsc_trans_init(&vdev->trans);
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__dsc_ops_init(&vdev->ops);
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/* attach */
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__dsc_lock();
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qdf_list_insert_back(&psoc->vdevs, &vdev->node);
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__dsc_unlock();
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*out_vdev = vdev;
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return QDF_STATUS_SUCCESS;
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}
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QDF_STATUS dsc_vdev_create(struct dsc_psoc *psoc, struct dsc_vdev **out_vdev)
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{
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QDF_STATUS status;
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dsc_enter();
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status = __dsc_vdev_create(psoc, out_vdev);
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dsc_exit();
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return status;
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}
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static void __dsc_vdev_destroy(struct dsc_vdev **out_vdev)
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{
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struct dsc_vdev *vdev;
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if (!dsc_assert(out_vdev))
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return;
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vdev = *out_vdev;
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if (!dsc_assert(vdev))
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return;
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*out_vdev = NULL;
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/* flush pending transitions */
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while (__dsc_trans_abort(&vdev->trans))
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;
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/* detach */
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__dsc_lock();
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qdf_list_remove_node(&vdev->psoc->vdevs, &vdev->node);
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__dsc_unlock();
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/* de-init */
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__dsc_ops_deinit(&vdev->ops);
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__dsc_trans_deinit(&vdev->trans);
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vdev->psoc = NULL;
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qdf_mem_free(vdev);
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}
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void dsc_vdev_destroy(struct dsc_vdev **out_vdev)
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{
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dsc_enter();
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__dsc_vdev_destroy(out_vdev);
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dsc_exit();
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}
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static bool __dsc_vdev_can_op(struct dsc_vdev *vdev)
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{
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return !__dsc_trans_active_or_queued(&vdev->psoc->driver->trans) &&
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!__dsc_trans_active_or_queued(&vdev->psoc->trans) &&
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!__dsc_trans_active_or_queued(&vdev->trans);
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}
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static bool __dsc_vdev_can_trans(struct dsc_vdev *vdev)
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{
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return __dsc_vdev_can_op(vdev);
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}
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static QDF_STATUS
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__dsc_vdev_trans_start_nolock(struct dsc_vdev *vdev, const char *desc)
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{
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if (!__dsc_vdev_can_trans(vdev))
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return QDF_STATUS_E_AGAIN;
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vdev->trans.active_desc = desc;
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return QDF_STATUS_SUCCESS;
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}
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static QDF_STATUS
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__dsc_vdev_trans_start(struct dsc_vdev *vdev, const char *desc)
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{
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QDF_STATUS status;
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if (!dsc_assert(vdev))
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return QDF_STATUS_E_INVAL;
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if (!dsc_assert(desc))
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return QDF_STATUS_E_INVAL;
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__dsc_lock();
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status = __dsc_vdev_trans_start_nolock(vdev, desc);
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__dsc_unlock();
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return status;
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}
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QDF_STATUS dsc_vdev_trans_start(struct dsc_vdev *vdev, const char *desc)
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{
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QDF_STATUS status;
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dsc_enter_str(desc);
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status = __dsc_vdev_trans_start(vdev, desc);
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dsc_exit_status(status);
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return status;
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}
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static QDF_STATUS
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__dsc_vdev_trans_start_wait(struct dsc_vdev *vdev, const char *desc)
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{
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QDF_STATUS status;
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struct dsc_tran tran = { 0 };
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if (!dsc_assert(vdev))
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return QDF_STATUS_E_INVAL;
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if (!dsc_assert(desc))
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return QDF_STATUS_E_INVAL;
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__dsc_lock();
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status = __dsc_vdev_trans_start_nolock(vdev, desc);
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if (QDF_IS_STATUS_SUCCESS(status)) {
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__dsc_unlock();
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return QDF_STATUS_SUCCESS;
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}
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__dsc_trans_queue(&vdev->trans, &tran, desc);
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__dsc_unlock();
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return __dsc_tran_wait(&tran);
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}
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QDF_STATUS dsc_vdev_trans_start_wait(struct dsc_vdev *vdev, const char *desc)
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{
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QDF_STATUS status;
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dsc_enter_str(desc);
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status = __dsc_vdev_trans_start_wait(vdev, desc);
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dsc_exit_status(status);
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return status;
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}
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static void __dsc_vdev_trigger_trans(struct dsc_vdev *vdev)
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{
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if (__dsc_driver_trans_trigger_checked(vdev->psoc->driver))
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return;
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if (__dsc_psoc_trans_trigger_checked(vdev->psoc))
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return;
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__dsc_trans_trigger(&vdev->trans);
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}
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static void __dsc_vdev_trans_stop(struct dsc_vdev *vdev)
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{
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if (!dsc_assert(vdev))
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return;
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dsc_assert(vdev->trans.active_desc);
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vdev->trans.active_desc = NULL;
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__dsc_vdev_trigger_trans(vdev);
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}
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void dsc_vdev_trans_stop(struct dsc_vdev *vdev)
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{
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dsc_enter();
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__dsc_lock();
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__dsc_vdev_trans_stop(vdev);
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__dsc_unlock();
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dsc_exit();
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}
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void dsc_vdev_trans_assert(struct dsc_vdev *vdev)
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{
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dsc_enter();
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__dsc_lock();
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dsc_assert(vdev->trans.active_desc);
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__dsc_unlock();
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dsc_exit();
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}
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static QDF_STATUS __dsc_vdev_op_start(struct dsc_vdev *vdev, const char *func)
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{
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if (!dsc_assert(vdev))
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return QDF_STATUS_E_INVAL;
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if (!dsc_assert(func))
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return QDF_STATUS_E_INVAL;
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if (!__dsc_vdev_can_op(vdev))
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return QDF_STATUS_E_AGAIN;
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return __dsc_ops_insert(&vdev->ops, func);
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}
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QDF_STATUS _dsc_vdev_op_start(struct dsc_vdev *vdev, const char *func)
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{
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QDF_STATUS status;
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dsc_enter_str(func);
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__dsc_lock();
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status = __dsc_vdev_op_start(vdev, func);
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__dsc_unlock();
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dsc_exit_status(status);
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return status;
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}
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static void __dsc_vdev_op_stop(struct dsc_vdev *vdev, const char *func)
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{
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if (!dsc_assert(vdev))
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return;
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if (!dsc_assert(func))
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return;
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if (__dsc_ops_remove(&vdev->ops, func))
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qdf_event_set(&vdev->ops.event);
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}
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void _dsc_vdev_op_stop(struct dsc_vdev *vdev, const char *func)
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{
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dsc_enter_str(func);
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__dsc_lock();
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__dsc_vdev_op_stop(vdev, func);
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__dsc_unlock();
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dsc_exit();
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}
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static void __dsc_vdev_wait_for_ops(struct dsc_vdev *vdev)
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{
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bool wait;
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if (!dsc_assert(vdev))
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return;
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__dsc_lock();
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/* flushing without preventing new ops is almost certainly a bug */
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dsc_assert(!__dsc_vdev_can_op(vdev));
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wait = vdev->ops.count > 0;
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if (wait)
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qdf_event_reset(&vdev->ops.event);
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__dsc_unlock();
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if (wait)
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qdf_wait_single_event(&vdev->ops.event, 0);
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}
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void dsc_vdev_wait_for_ops(struct dsc_vdev *vdev)
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{
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dsc_enter();
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__dsc_vdev_wait_for_ops(vdev);
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dsc_exit();
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}
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