/* * Copyright (c) 2022, Pankaj R * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include namespace Kernel { ErrorOr> NVMeInterruptQueue::try_create(PCI::Device& device, NonnullOwnPtr rw_dma_region, NonnullRefPtr rw_dma_page, u16 qid, u8 irq, u32 q_depth, OwnPtr cq_dma_region, OwnPtr sq_dma_region, Doorbell db_regs) { auto queue = TRY(adopt_nonnull_lock_ref_or_enomem(new (nothrow) NVMeInterruptQueue(device, move(rw_dma_region), rw_dma_page, qid, irq, q_depth, move(cq_dma_region), move(sq_dma_region), move(db_regs)))); queue->initialize_interrupt_queue(); return queue; } UNMAP_AFTER_INIT NVMeInterruptQueue::NVMeInterruptQueue(PCI::Device& device, NonnullOwnPtr rw_dma_region, NonnullRefPtr rw_dma_page, u16 qid, u8 irq, u32 q_depth, OwnPtr cq_dma_region, OwnPtr sq_dma_region, Doorbell db_regs) : NVMeQueue(move(rw_dma_region), rw_dma_page, qid, q_depth, move(cq_dma_region), move(sq_dma_region), move(db_regs)) , PCI::IRQHandler(device, irq) { } void NVMeInterruptQueue::initialize_interrupt_queue() { enable_irq(); } bool NVMeInterruptQueue::handle_irq(RegisterState const&) { return process_cq() ? true : false; } void NVMeInterruptQueue::submit_sqe(NVMeSubmission& sub) { NVMeQueue::submit_sqe(sub); } void NVMeInterruptQueue::complete_current_request(u16 cmdid, u16 status) { auto work_item_creation_result = g_io_work->try_queue([this, cmdid, status]() { NVMeQueue::complete_current_request(cmdid, status); }); if (work_item_creation_result.is_error()) { m_requests.with([cmdid, status](auto& requests) { auto& request_pdu = requests.get(cmdid).release_value(); auto current_request = request_pdu.request; current_request->complete(AsyncDeviceRequest::OutOfMemory); if (request_pdu.end_io_handler) request_pdu.end_io_handler(status); request_pdu.clear(); }); } } }