Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Yunfei Dong | 1337 | 98.74% | 4 | 66.67% |
Tiffany Lin | 17 | 1.26% | 2 | 33.33% |
Total | 1354 | 6 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (c) 2021 MediaTek Inc. * Author: Yunfei Dong <yunfei.dong@mediatek.com> */ #include <linux/freezer.h> #include <linux/interrupt.h> #include <linux/kthread.h> #include "mtk_vcodec_dec_pm.h" #include "mtk_vcodec_drv.h" #include "vdec_msg_queue.h" #define VDEC_MSG_QUEUE_TIMEOUT_MS 1500 /* the size used to store lat slice header information */ #define VDEC_LAT_SLICE_HEADER_SZ (640 * SZ_1K) /* the size used to store avc error information */ #define VDEC_ERR_MAP_SZ_AVC (17 * SZ_1K) /* core will read the trans buffer which decoded by lat to decode again. * The trans buffer size of FHD and 4K bitstreams are different. */ static int vde_msg_queue_get_trans_size(int width, int height) { if (width > 1920 || height > 1088) return 30 * SZ_1M; else return 6 * SZ_1M; } void vdec_msg_queue_init_ctx(struct vdec_msg_queue_ctx *ctx, int hardware_index) { init_waitqueue_head(&ctx->ready_to_use); INIT_LIST_HEAD(&ctx->ready_queue); spin_lock_init(&ctx->ready_lock); ctx->ready_num = 0; ctx->hardware_index = hardware_index; } static struct list_head *vdec_get_buf_list(int hardware_index, struct vdec_lat_buf *buf) { switch (hardware_index) { case MTK_VDEC_CORE: return &buf->core_list; case MTK_VDEC_LAT0: return &buf->lat_list; default: return NULL; } } int vdec_msg_queue_qbuf(struct vdec_msg_queue_ctx *msg_ctx, struct vdec_lat_buf *buf) { struct list_head *head; head = vdec_get_buf_list(msg_ctx->hardware_index, buf); if (!head) { mtk_v4l2_err("fail to qbuf: %d", msg_ctx->hardware_index); return -EINVAL; } spin_lock(&msg_ctx->ready_lock); list_add_tail(head, &msg_ctx->ready_queue); msg_ctx->ready_num++; if (msg_ctx->hardware_index != MTK_VDEC_CORE) wake_up_all(&msg_ctx->ready_to_use); else queue_work(buf->ctx->dev->core_workqueue, &buf->ctx->msg_queue.core_work); mtk_v4l2_debug(3, "enqueue buf type: %d addr: 0x%p num: %d", msg_ctx->hardware_index, buf, msg_ctx->ready_num); spin_unlock(&msg_ctx->ready_lock); return 0; } static bool vdec_msg_queue_wait_event(struct vdec_msg_queue_ctx *msg_ctx) { int ret; ret = wait_event_timeout(msg_ctx->ready_to_use, !list_empty(&msg_ctx->ready_queue), msecs_to_jiffies(VDEC_MSG_QUEUE_TIMEOUT_MS)); if (!ret) return false; return true; } struct vdec_lat_buf *vdec_msg_queue_dqbuf(struct vdec_msg_queue_ctx *msg_ctx) { struct vdec_lat_buf *buf; struct list_head *head; int ret; spin_lock(&msg_ctx->ready_lock); if (list_empty(&msg_ctx->ready_queue)) { mtk_v4l2_debug(3, "queue is NULL, type:%d num: %d", msg_ctx->hardware_index, msg_ctx->ready_num); spin_unlock(&msg_ctx->ready_lock); if (msg_ctx->hardware_index == MTK_VDEC_CORE) return NULL; ret = vdec_msg_queue_wait_event(msg_ctx); if (!ret) return NULL; spin_lock(&msg_ctx->ready_lock); } if (msg_ctx->hardware_index == MTK_VDEC_CORE) buf = list_first_entry(&msg_ctx->ready_queue, struct vdec_lat_buf, core_list); else buf = list_first_entry(&msg_ctx->ready_queue, struct vdec_lat_buf, lat_list); head = vdec_get_buf_list(msg_ctx->hardware_index, buf); if (!head) { spin_unlock(&msg_ctx->ready_lock); mtk_v4l2_err("fail to dqbuf: %d", msg_ctx->hardware_index); return NULL; } list_del(head); msg_ctx->ready_num--; mtk_v4l2_debug(3, "dqueue buf type:%d addr: 0x%p num: %d", msg_ctx->hardware_index, buf, msg_ctx->ready_num); spin_unlock(&msg_ctx->ready_lock); return buf; } void vdec_msg_queue_update_ube_rptr(struct vdec_msg_queue *msg_queue, uint64_t ube_rptr) { spin_lock(&msg_queue->lat_ctx.ready_lock); msg_queue->wdma_rptr_addr = ube_rptr; mtk_v4l2_debug(3, "update ube rprt (0x%llx)", ube_rptr); spin_unlock(&msg_queue->lat_ctx.ready_lock); } void vdec_msg_queue_update_ube_wptr(struct vdec_msg_queue *msg_queue, uint64_t ube_wptr) { spin_lock(&msg_queue->lat_ctx.ready_lock); msg_queue->wdma_wptr_addr = ube_wptr; mtk_v4l2_debug(3, "update ube wprt: (0x%llx 0x%llx) offset: 0x%llx", msg_queue->wdma_rptr_addr, msg_queue->wdma_wptr_addr, ube_wptr); spin_unlock(&msg_queue->lat_ctx.ready_lock); } bool vdec_msg_queue_wait_lat_buf_full(struct vdec_msg_queue *msg_queue) { long timeout_jiff; int ret; timeout_jiff = msecs_to_jiffies(1000 * (NUM_BUFFER_COUNT + 2)); ret = wait_event_timeout(msg_queue->lat_ctx.ready_to_use, msg_queue->lat_ctx.ready_num == NUM_BUFFER_COUNT, timeout_jiff); if (ret) { mtk_v4l2_debug(3, "success to get lat buf: %d", msg_queue->lat_ctx.ready_num); return true; } mtk_v4l2_err("failed with lat buf isn't full: %d", msg_queue->lat_ctx.ready_num); return false; } void vdec_msg_queue_deinit(struct vdec_msg_queue *msg_queue, struct mtk_vcodec_ctx *ctx) { struct vdec_lat_buf *lat_buf; struct mtk_vcodec_mem *mem; int i; mem = &msg_queue->wdma_addr; if (mem->va) mtk_vcodec_mem_free(ctx, mem); for (i = 0; i < NUM_BUFFER_COUNT; i++) { lat_buf = &msg_queue->lat_buf[i]; mem = &lat_buf->wdma_err_addr; if (mem->va) mtk_vcodec_mem_free(ctx, mem); mem = &lat_buf->slice_bc_addr; if (mem->va) mtk_vcodec_mem_free(ctx, mem); kfree(lat_buf->private_data); } } static void vdec_msg_queue_core_work(struct work_struct *work) { struct vdec_msg_queue *msg_queue = container_of(work, struct vdec_msg_queue, core_work); struct mtk_vcodec_ctx *ctx = container_of(msg_queue, struct mtk_vcodec_ctx, msg_queue); struct mtk_vcodec_dev *dev = ctx->dev; struct vdec_lat_buf *lat_buf; lat_buf = vdec_msg_queue_dqbuf(&dev->msg_queue_core_ctx); if (!lat_buf) return; ctx = lat_buf->ctx; mtk_vcodec_dec_enable_hardware(ctx, MTK_VDEC_CORE); mtk_vcodec_set_curr_ctx(dev, ctx, MTK_VDEC_CORE); lat_buf->core_decode(lat_buf); mtk_vcodec_set_curr_ctx(dev, NULL, MTK_VDEC_CORE); mtk_vcodec_dec_disable_hardware(ctx, MTK_VDEC_CORE); vdec_msg_queue_qbuf(&ctx->msg_queue.lat_ctx, lat_buf); if (!list_empty(&dev->msg_queue_core_ctx.ready_queue)) { mtk_v4l2_debug(3, "re-schedule to decode for core: %d", dev->msg_queue_core_ctx.ready_num); queue_work(dev->core_workqueue, &msg_queue->core_work); } } int vdec_msg_queue_init(struct vdec_msg_queue *msg_queue, struct mtk_vcodec_ctx *ctx, core_decode_cb_t core_decode, int private_size) { struct vdec_lat_buf *lat_buf; int i, err; /* already init msg queue */ if (msg_queue->wdma_addr.size) return 0; vdec_msg_queue_init_ctx(&msg_queue->lat_ctx, MTK_VDEC_LAT0); INIT_WORK(&msg_queue->core_work, vdec_msg_queue_core_work); msg_queue->wdma_addr.size = vde_msg_queue_get_trans_size(ctx->picinfo.buf_w, ctx->picinfo.buf_h); err = mtk_vcodec_mem_alloc(ctx, &msg_queue->wdma_addr); if (err) { mtk_v4l2_err("failed to allocate wdma_addr buf"); return -ENOMEM; } msg_queue->wdma_rptr_addr = msg_queue->wdma_addr.dma_addr; msg_queue->wdma_wptr_addr = msg_queue->wdma_addr.dma_addr; for (i = 0; i < NUM_BUFFER_COUNT; i++) { lat_buf = &msg_queue->lat_buf[i]; lat_buf->wdma_err_addr.size = VDEC_ERR_MAP_SZ_AVC; err = mtk_vcodec_mem_alloc(ctx, &lat_buf->wdma_err_addr); if (err) { mtk_v4l2_err("failed to allocate wdma_err_addr buf[%d]", i); goto mem_alloc_err; } lat_buf->slice_bc_addr.size = VDEC_LAT_SLICE_HEADER_SZ; err = mtk_vcodec_mem_alloc(ctx, &lat_buf->slice_bc_addr); if (err) { mtk_v4l2_err("failed to allocate wdma_addr buf[%d]", i); goto mem_alloc_err; } lat_buf->private_data = kzalloc(private_size, GFP_KERNEL); if (!lat_buf->private_data) { err = -ENOMEM; goto mem_alloc_err; } lat_buf->ctx = ctx; lat_buf->core_decode = core_decode; err = vdec_msg_queue_qbuf(&msg_queue->lat_ctx, lat_buf); if (err) { mtk_v4l2_err("failed to qbuf buf[%d]", i); goto mem_alloc_err; } } return 0; mem_alloc_err: vdec_msg_queue_deinit(msg_queue, ctx); return err; }
Information contained on this website is for historical information purposes only and does not indicate or represent copyright ownership.
Created with Cregit http://github.com/cregit/cregit
Version 2.0-RC1