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Message-ID: <20211013155025.GX2083@kadam>
Date: Wed, 13 Oct 2021 18:50:25 +0300
From: Dan Carpenter <dan.carpenter@...cle.com>
To: Dafna Hirschfeld <dafna.hirschfeld@...labora.com>
Cc: linux-media@...r.kernel.org,
Robert Beckett <bob.beckett@...labora.com>,
Mauro Carvalho Chehab <mchehab@...nel.org>,
Greg Kroah-Hartman <gregkh@...uxfoundation.org>,
"open list:STAGING SUBSYSTEM" <linux-staging@...ts.linux.dev>,
open list <linux-kernel@...r.kernel.org>,
laurent.pinchart@...asonboard.com, hverkuil@...all.nl,
kernel@...labora.com, dafna3@...il.com,
kiril.bicevski@...labora.com,
Nas Chung <nas.chung@...psnmedia.com>,
lafley.kim@...psnmedia.com, scott.woo@...psnmedia.com,
olivier.crete@...labora.com
Subject: Re: [PATCH v2 1/6] staging: media: wave5: Add vpuapi layer
This is much better than before, but there is still a way to go.
See below for details.
regards,
dan carpenter
On Wed, Oct 13, 2021 at 12:56:04PM +0200, Dafna Hirschfeld wrote:
> Add the vpuapi layer of the wave5 codec driver.
> This layer is used to configure the hardware according
> to the parameters.
>
> Signed-off-by: Dafna Hirschfeld <dafna.hirschfeld@...labora.com>
> Signed-off-by: Robert Beckett <bob.beckett@...labora.com>
> ---
> drivers/staging/media/wave5/vpuapi.c | 1096 +++++
> drivers/staging/media/wave5/vpuapi.h | 1148 ++++++
> drivers/staging/media/wave5/vpuconfig.h | 85 +
> drivers/staging/media/wave5/vpuerror.h | 455 +++
> drivers/staging/media/wave5/wave5-hw.c | 3513 +++++++++++++++++
> drivers/staging/media/wave5/wave5.h | 80 +
> drivers/staging/media/wave5/wave5_regdefine.h | 638 +++
> 7 files changed, 7015 insertions(+)
> create mode 100644 drivers/staging/media/wave5/vpuapi.c
> create mode 100644 drivers/staging/media/wave5/vpuapi.h
> create mode 100644 drivers/staging/media/wave5/vpuconfig.h
> create mode 100644 drivers/staging/media/wave5/vpuerror.h
> create mode 100644 drivers/staging/media/wave5/wave5-hw.c
> create mode 100644 drivers/staging/media/wave5/wave5.h
> create mode 100644 drivers/staging/media/wave5/wave5_regdefine.h
>
> diff --git a/drivers/staging/media/wave5/vpuapi.c b/drivers/staging/media/wave5/vpuapi.c
> new file mode 100644
> index 000000000000..0e95eaa4b185
> --- /dev/null
> +++ b/drivers/staging/media/wave5/vpuapi.c
> @@ -0,0 +1,1096 @@
> +// SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause)
> +/*
> + * Wave5 series multi-standard codec IP - helper functions
> + *
> + * Copyright (C) 2021 CHIPS&MEDIA INC
> + */
> +
> +#include <linux/bug.h>
> +#include "vpuapi.h"
> +#include "wave5_regdefine.h"
> +#include "wave5.h"
> +
> +#define DECODE_ALL_TEMPORAL_LAYERS -1
> +#define DECODE_ALL_SPATIAL_LAYERS -1
> +
> +void wave5_vpu_clear_interrupt_ex(struct vpu_instance *inst, int32_t intr_flag)
> +{
> + wave5_vpu_clear_interrupt(inst, intr_flag);
> +}
> +
> +static int wave5_initialize_vpu(struct device *dev, const uint16_t *code, uint32_t size)
> +{
> + int ret;
> + struct vpu_device *vpu_dev = (struct vpu_device *)dev_get_drvdata(dev);
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + if (wave5_vpu_is_init(vpu_dev)) {
> + wave5_vpu_re_init(dev, (void *)code, size);
This cast is just to get rid of the const. "code" here is a uint16_t
pointer but in wave5_vpu_re_init() it's a u8 pointer. I think it should
be const u8 everywhere.
Also use u8/u16 types instead of uint8/16_t unless it's something that's
shared with user space.
> + ret = -EBUSY;
> + goto err_out;
> + }
> +
> + ret = wave5_vpu_reset(dev, SW_RESET_ON_BOOT);
> + if (ret)
> + goto err_out;
> +
> + ret = wave5_vpu_init(dev, (void *)code, size);
> +
> +err_out:
> + mutex_unlock(&vpu_dev->hw_lock);
> + return ret;
> +}
> +
> +int wave5_vpu_init_with_bitcode(struct device *dev, const uint16_t *code, uint32_t size)
> +{
> + if (!code || size == 0)
> + return -EINVAL;
> +
> + return wave5_initialize_vpu(dev, code, size);
> +}
> +
> +int wave5_vpu_get_version_info(struct device *dev, uint32_t *version_info,
> + u32 *revision, uint32_t *product_id)
> +{
> + int ret;
> + struct vpu_device *vpu_dev = (struct vpu_device *)dev_get_drvdata(dev);
No need for this cast. (Get rid of as much casting as you can).
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + if (!wave5_vpu_is_init(vpu_dev)) {
> + ret = -EINVAL;
> + goto err_out;
> + }
> +
> + if (product_id)
> + *product_id = vpu_dev->product;
> + ret = wave5_vpu_get_version(vpu_dev, version_info, revision);
> +
> +err_out:
> + mutex_unlock(&vpu_dev->hw_lock);
> + return ret;
> +}
> +
> +static int wave5_check_dec_open_param(struct vpu_device *dev, struct dec_open_param *param)
What does the "dec" mean in the name?
> +{
> + struct vpu_attr *p_attr;
> +
> + if (!param)
Hopefully we can delete this condition.
> + return -EINVAL;
> +
> + p_attr = &dev->attr;
> +
> + if (param->bitstream_buffer % 8)
> + return -EINVAL;
> +
> + if (param->bitstream_mode == BS_MODE_INTERRUPT &&
> + (param->bitstream_buffer_size % 1024 || param->bitstream_buffer_size < 1024))
> + return -EINVAL;
> +
> + if (!(BIT(param->bitstream_mode) & p_attr->support_bitstream_mode))
> + return -EINVAL;
> +
> + if (!(BIT(param->frame_endian) & p_attr->support_endian_mask))
> + return -EINVAL;
> +
> + if (!(BIT(param->stream_endian) & p_attr->support_endian_mask))
> + return -EINVAL;
> +
> + return 0;
> +}
> +
> +int wave5_vpu_dec_open_api(struct vpu_instance *vpu_inst, struct dec_open_param *pop)
What does the _api() mean? This doesn't match the close function.
Probably just get rid of the _api and call it wave5_vpu_dec_open().
> +{
> + struct dec_info *p_dec_info;
> + int ret;
> + struct vpu_device *vpu_dev = vpu_inst->dev;
> +
> + ret = wave5_check_dec_open_param(vpu_dev, pop);
> + if (ret)
> + return ret;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + if (!wave5_vpu_is_init(vpu_dev)) {
> + ret = -ENODEV;
> + goto err_out;
> + }
> +
> + vpu_inst->codec_info = kzalloc(sizeof(*vpu_inst->codec_info), GFP_KERNEL);
> + if (!vpu_inst->codec_info) {
> + ret = -ENOMEM;
> + goto err_out;
> + }
> +
> + vpu_inst->id = ida_alloc_max(&vpu_inst->dev->inst_ida, MAX_NUM_INSTANCE - 1, GFP_KERNEL);
> + if (vpu_inst->id < 0) {
> + dev_warn(vpu_inst->dev->dev, "unable to allocate instance ID: %d\n", vpu_inst->id);
> + ret = vpu_inst->id;
> + goto err_out;
> + }
> + p_dec_info = &vpu_inst->codec_info->dec_info;
> + memcpy((void *)&p_dec_info->open_param, pop, sizeof(struct dec_open_param));
This cast is not required (hopefully).
> +
> + if (vpu_inst->std == STD_UNKNOWN) {
> + ret = -EINVAL;
> + goto err_out;
> + }
> +
> + p_dec_info->stream_wr_ptr = pop->bitstream_buffer;
> + p_dec_info->stream_rd_ptr = pop->bitstream_buffer;
> + p_dec_info->stream_buf_start_addr = pop->bitstream_buffer;
> + p_dec_info->stream_buf_size = pop->bitstream_buffer_size;
> + p_dec_info->stream_buf_end_addr = pop->bitstream_buffer + pop->bitstream_buffer_size;
> + p_dec_info->reorder_enable = TRUE;
> + p_dec_info->mirror_direction = MIRDIR_NONE;
> + p_dec_info->temp_id_select_mode = TEMPORAL_ID_MODE_ABSOLUTE;
> + p_dec_info->target_temp_id = DECODE_ALL_TEMPORAL_LAYERS;
> + p_dec_info->target_spatial_id = DECODE_ALL_SPATIAL_LAYERS;
> +
> + ret = wave5_vpu_build_up_dec_param(vpu_inst, pop);
> + if (ret)
> + goto err_out;
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return 0;
> +
> +err_out:
> + if (vpu_inst->id >= 0)
> + ida_free(&vpu_inst->dev->inst_ida, vpu_inst->id);
> + kfree(vpu_inst->codec_info);
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_close(struct vpu_instance *inst, u32 *fail_res)
> +{
> + struct dec_info *p_dec_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> + int i;
> + *fail_res = 0;
Add a blank line after the declaration block.
> +
> + if (!inst->codec_info)
> + return -EINVAL;
> + p_dec_info = &inst->codec_info->dec_info;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_dec_fini_seq(inst, fail_res);
> + if (ret) {
> + dev_warn(inst->dev->dev, "dec sec end timed out\n");
> +
> + if (*fail_res == WAVE5_SYSERR_VPU_STILL_RUNNING) {
> + mutex_unlock(&vpu_dev->hw_lock);
> + return ret;
> + }
> + }
> +
> + dev_dbg(inst->dev->dev, "dec seq end complete\n");
> +
> + if (p_dec_info->vb_work.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_work);
> +
> + for (i = 0 ; i < MAX_REG_FRAME; i++) {
> + if (p_dec_info->vb_mv[i].size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_mv[i]);
> + if (p_dec_info->vb_fbc_y_tbl[i].size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_fbc_y_tbl[i]);
> + if (p_dec_info->vb_fbc_c_tbl[i].size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_fbc_c_tbl[i]);
> + }
> +
> + if (p_dec_info->vb_task.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_task);
> +
> + ida_free(&inst->dev->inst_ida, inst->id);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + kfree(inst->codec_info);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_issue_seq_init(struct vpu_instance *inst)
> +{
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_dec_init_seq(inst);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_complete_seq_init(struct vpu_instance *inst, struct dec_initial_info *info)
> +{
> + struct dec_info *p_dec_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + if (!info)
> + return -EINVAL;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_dec_get_seq_info(inst, info);
> + if (!ret)
> + p_dec_info->initial_info_obtained = 1;
> +
> + info->rd_ptr = wave5_vpu_dec_get_rd_ptr(inst);
> + info->wr_ptr = p_dec_info->stream_wr_ptr;
> +
> + p_dec_info->initial_info = *info;
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_register_frame_buffer_ex(struct vpu_instance *inst,
> + int num_fbs_for_decoding, int num_fbs_for_wtl,
> + int stride, int height, int map_type)
> +{
> + struct dec_info *p_dec_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> + struct frame_buffer *fb;
> +
> + if (num_fbs_for_decoding > WAVE5_MAX_FBS)
> + return -EINVAL;
> +
> + if (num_fbs_for_wtl > WAVE5_MAX_FBS)
> + return -EINVAL;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> + p_dec_info->num_fbs_for_decoding = num_fbs_for_decoding;
> + p_dec_info->num_fbs_for_wtl = num_fbs_for_wtl;
> + p_dec_info->stride = stride;
> +
> + if (!p_dec_info->initial_info_obtained)
> + return -EINVAL;
> +
> + if (stride < p_dec_info->initial_info.pic_width || (stride % 8 != 0) ||
> + height < p_dec_info->initial_info.pic_height)
> + return -EINVAL;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + fb = inst->frame_buf;
> + ret = wave5_vpu_dec_register_framebuffer(inst, &fb[p_dec_info->num_fbs_for_decoding],
> + LINEAR_FRAME_MAP, p_dec_info->num_fbs_for_wtl);
> + if (ret)
> + goto err_out;
> +
> + ret = wave5_vpu_dec_register_framebuffer(inst, &fb[0], COMPRESSED_FRAME_MAP,
> + p_dec_info->num_fbs_for_decoding);
> +
> +err_out:
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_get_bitstream_buffer(struct vpu_instance *inst, dma_addr_t *prd_ptr,
> + dma_addr_t *pwr_ptr, uint32_t *size)
> +{
> + struct dec_info *p_dec_info;
> + dma_addr_t rd_ptr;
> + dma_addr_t wr_ptr;
> + dma_addr_t temp_ptr;
> + int room;
> + struct vpu_device *vpu_dev = inst->dev;
> + int ret;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> + rd_ptr = wave5_vpu_dec_get_rd_ptr(inst);
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + wr_ptr = p_dec_info->stream_wr_ptr;
> +
> + temp_ptr = rd_ptr;
> +
> + if (p_dec_info->open_param.bitstream_mode != BS_MODE_PIC_END) {
> + if (wr_ptr < temp_ptr)
> + room = temp_ptr - wr_ptr;
> + else
> + room = (p_dec_info->stream_buf_end_addr - wr_ptr) +
> + (temp_ptr - p_dec_info->stream_buf_start_addr);
> + room--;
> + } else {
> + room = (p_dec_info->stream_buf_end_addr - wr_ptr);
> + }
> +
> + if (prd_ptr)
> + *prd_ptr = temp_ptr;
> + if (pwr_ptr)
> + *pwr_ptr = wr_ptr;
> + if (size)
> + *size = room;
> +
> + return 0;
> +}
> +
> +int wave5_vpu_dec_update_bitstream_buffer(struct vpu_instance *inst, int size)
> +{
> + struct dec_info *p_dec_info;
> + dma_addr_t wr_ptr;
> + dma_addr_t rd_ptr;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + if (!inst->codec_info)
> + return -EINVAL;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> + wr_ptr = p_dec_info->stream_wr_ptr;
> + rd_ptr = p_dec_info->stream_rd_ptr;
> +
> + if (size > 0) {
> + if (wr_ptr < rd_ptr && rd_ptr <= wr_ptr + size)
> + return -EINVAL;
> +
> + wr_ptr += size;
> +
> + if (p_dec_info->open_param.bitstream_mode != BS_MODE_PIC_END) {
> + if (wr_ptr > p_dec_info->stream_buf_end_addr) {
> + u32 room = wr_ptr - p_dec_info->stream_buf_end_addr;
> +
> + wr_ptr = p_dec_info->stream_buf_start_addr;
> + wr_ptr += room;
> + } else if (wr_ptr == p_dec_info->stream_buf_end_addr) {
> + wr_ptr = p_dec_info->stream_buf_start_addr;
> + }
> + }
> +
> + p_dec_info->stream_wr_ptr = wr_ptr;
> + p_dec_info->stream_rd_ptr = rd_ptr;
> + }
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> + ret = wave5_vpu_dec_set_bitstream_flag(inst, (size == 0));
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_start_one_frame(struct vpu_instance *inst, struct dec_param *param, u32 *res_fail)
> +{
> + struct dec_info *p_dec_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> +
> + if (p_dec_info->stride == 0) // this means frame buffers have not been registered.
> + return -EINVAL;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + p_dec_info->frame_start_pos = p_dec_info->stream_rd_ptr;
> +
> + ret = wave5_vpu_decode(inst, param, res_fail);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_get_output_info(struct vpu_instance *inst, struct dec_output_info *info)
> +{
> + struct dec_info *p_dec_info;
> + int ret;
> + struct vpu_rect rect_info;
> + u32 val;
> + s32 decoded_index;
> + s32 disp_idx;
> + u32 max_dec_index;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + if (!info)
> + return -EINVAL;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + memset(info, 0, sizeof(*info));
> +
> + ret = wave5_vpu_dec_get_result(inst, info);
> + if (ret) {
> + info->rd_ptr = p_dec_info->stream_rd_ptr;
> + info->wr_ptr = p_dec_info->stream_wr_ptr;
> + goto err_out;
> + }
> +
> + decoded_index = info->index_frame_decoded;
> +
> + // calculate display frame region
> + val = 0;
> + if (decoded_index >= 0 && decoded_index < WAVE5_MAX_FBS) {
> + //default value
> + rect_info.left = 0;
> + rect_info.right = info->dec_pic_width;
> + rect_info.top = 0;
> + rect_info.bottom = info->dec_pic_height;
> +
> + if (inst->std == W_HEVC_DEC || inst->std == W_AVC_DEC)
> + rect_info = p_dec_info->initial_info.pic_crop_rect;
> +
> + if (inst->std == W_HEVC_DEC)
> + p_dec_info->dec_out_info[decoded_index].decoded_poc = info->decoded_poc;
> +
> + if (inst->std == W_AVS2_DEC)
> + p_dec_info->dec_out_info[decoded_index].avs2_info.decoded_poi =
> + info->avs2_info.decoded_poi;
> +
> + info->rc_decoded.left = rect_info.left;
> + p_dec_info->dec_out_info[decoded_index].rc_decoded.left = rect_info.left;
> + info->rc_decoded.right = rect_info.right;
> + p_dec_info->dec_out_info[decoded_index].rc_decoded.right = rect_info.right;
> + info->rc_decoded.top = rect_info.top;
> + p_dec_info->dec_out_info[decoded_index].rc_decoded.top = rect_info.top;
> + info->rc_decoded.bottom = rect_info.bottom;
> + p_dec_info->dec_out_info[decoded_index].rc_decoded.bottom = rect_info.bottom;
> + } else {
> + info->rc_decoded.left = 0;
> + info->rc_decoded.right = info->dec_pic_width;
> + info->rc_decoded.top = 0;
> + info->rc_decoded.bottom = info->dec_pic_height;
> + }
> +
> + disp_idx = info->index_frame_display;
> + if (info->index_frame_display >= 0 && info->index_frame_display < WAVE5_MAX_FBS) {
> + if (p_dec_info->rotation_enable) {
> + switch (p_dec_info->rotation_angle) {
> + case 90:
> + info->rc_display.left =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.top;
> + info->rc_display.right =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.bottom;
> + info->rc_display.top =
> + p_dec_info->dec_out_info[disp_idx].dec_pic_width -
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.right;
> + info->rc_display.bottom =
> + p_dec_info->dec_out_info[disp_idx].dec_pic_width -
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.left;
> + break;
> + case 270:
> + info->rc_display.left =
> + p_dec_info->dec_out_info[disp_idx].dec_pic_height -
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.bottom;
> + info->rc_display.right =
> + p_dec_info->dec_out_info[disp_idx].dec_pic_height -
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.top;
> + info->rc_display.top =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.left;
> + info->rc_display.bottom =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.right;
> + break;
> + case 180:
> + info->rc_display.left =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.left;
> + info->rc_display.right =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.right;
> + info->rc_display.top =
> + p_dec_info->dec_out_info[disp_idx].dec_pic_height -
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.bottom;
> + info->rc_display.bottom =
> + p_dec_info->dec_out_info[disp_idx].dec_pic_height -
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.top;
> + break;
> + default:
> + info->rc_display.left =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.left;
> + info->rc_display.right =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.right;
> + info->rc_display.top =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.top;
> + info->rc_display.bottom =
> + p_dec_info->dec_out_info[disp_idx].rc_decoded.bottom;
> + break;
> + }
> +
> + } else {
> + info->rc_display.left = p_dec_info->dec_out_info[disp_idx].rc_decoded.left;
> + info->rc_display.right = p_dec_info->dec_out_info[disp_idx].rc_decoded.right;
> + info->rc_display.top = p_dec_info->dec_out_info[disp_idx].rc_decoded.top;
> + info->rc_display.bottom = p_dec_info->dec_out_info[disp_idx].rc_decoded.bottom;
> + }
> +
> + if (p_dec_info->mirror_enable) {
> + u32 temp;
> + u32 width = (p_dec_info->rotation_angle == 90 ||
> + p_dec_info->rotation_angle == 270) ? info->dec_pic_height :
> + info->dec_pic_width;
> + u32 height = (p_dec_info->rotation_angle == 90 ||
> + p_dec_info->rotation_angle == 270) ? info->dec_pic_width :
> + info->dec_pic_height;
> +
> + if (p_dec_info->mirror_direction & MIRDIR_VER) {
> + temp = info->rc_display.top;
> + info->rc_display.top = height - info->rc_display.bottom;
> + info->rc_display.bottom = height - temp;
> + }
> + if (p_dec_info->mirror_direction & MIRDIR_HOR) {
> + temp = info->rc_display.left;
> + info->rc_display.left = width - info->rc_display.right;
> + info->rc_display.right = width - temp;
> + }
> + }
> +
> + switch (inst->std) {
> + case W_HEVC_DEC:
> + info->display_poc = p_dec_info->dec_out_info[disp_idx].decoded_poc;
> + break;
> + case W_AVS2_DEC:
> + info->avs2_info.display_poi = p_dec_info->dec_out_info[disp_idx].avs2_info.decoded_poi;
> + break;
> + case W_AVC_DEC:
> + info->display_poc = p_dec_info->dec_out_info[disp_idx].decoded_poc;
> + break;
> + default:
> + break;
> + }
> +
> + if (info->index_frame_display == info->index_frame_decoded) {
> + info->disp_pic_width = info->dec_pic_width;
> + info->disp_pic_height = info->dec_pic_height;
> + } else {
> + /*
> + * when index_frame_decoded < 0, and index_frame_display >= 0
> + * info->dec_pic_width and info->dec_pic_height are still valid
> + * but those of p_dec_info->dec_out_info[disp_idx] are invalid in VP9
> + */
> + info->disp_pic_width = p_dec_info->dec_out_info[disp_idx].dec_pic_width;
> + info->disp_pic_height = p_dec_info->dec_out_info[disp_idx].dec_pic_height;
> + }
> +
> + } else {
> + info->rc_display.left = 0;
> + info->rc_display.right = 0;
> + info->rc_display.top = 0;
> + info->rc_display.bottom = 0;
> +
> + if (p_dec_info->rotation_enable || p_dec_info->mirror_enable ||
> + p_dec_info->dering_enable) {
> + info->disp_pic_width = info->dec_pic_width;
> + info->disp_pic_height = info->dec_pic_height;
> + } else {
> + info->disp_pic_width = 0;
> + info->disp_pic_height = 0;
> + }
> + }
> +
> + p_dec_info->stream_rd_ptr = wave5_vpu_dec_get_rd_ptr(inst);
> + p_dec_info->frame_display_flag = vpu_read_reg(vpu_dev, W5_RET_DEC_DISP_IDC);
> + if (inst->std == W_VP9_DEC)
> + p_dec_info->frame_display_flag &= 0xFFFF;
> + p_dec_info->frame_end_pos = p_dec_info->stream_rd_ptr;
> +
> + if (p_dec_info->frame_end_pos < p_dec_info->frame_start_pos)
> + info->consumed_byte = p_dec_info->frame_end_pos + p_dec_info->stream_buf_size -
> + p_dec_info->frame_start_pos;
> + else
> + info->consumed_byte = p_dec_info->frame_end_pos - p_dec_info->frame_start_pos;
> +
> + if (p_dec_info->dering_enable || p_dec_info->mirror_enable || p_dec_info->rotation_enable) {
> + info->disp_frame = p_dec_info->rotator_output;
> + info->disp_frame.stride = p_dec_info->rotator_stride;
> + } else {
> + val = p_dec_info->num_fbs_for_decoding; //fb_offset
> +
> + max_dec_index = (p_dec_info->num_fbs_for_decoding > p_dec_info->num_fbs_for_wtl) ?
> + p_dec_info->num_fbs_for_decoding : p_dec_info->num_fbs_for_wtl;
> +
> + if (info->index_frame_display >= 0 && info->index_frame_display < (int)max_dec_index)
> + info->disp_frame = inst->frame_buf[val + info->index_frame_display];
> + }
> +
> + info->rd_ptr = p_dec_info->stream_rd_ptr;
> + info->wr_ptr = p_dec_info->stream_wr_ptr;
> + info->frame_display_flag = p_dec_info->frame_display_flag;
> +
> + info->sequence_no = p_dec_info->initial_info.sequence_no;
> + if (decoded_index >= 0 && decoded_index < WAVE5_MAX_FBS)
> + p_dec_info->dec_out_info[decoded_index] = *info;
> +
> + if (disp_idx >= 0 && disp_idx < WAVE5_MAX_FBS) {
> + info->num_of_tot_m_bs_in_disp = p_dec_info->dec_out_info[disp_idx].num_of_tot_m_bs;
> + info->num_of_err_m_bs_in_disp = p_dec_info->dec_out_info[disp_idx].num_of_err_m_bs;
> + info->disp_frame.sequence_no = info->sequence_no;
> + } else {
> + info->num_of_tot_m_bs_in_disp = 0;
> + info->num_of_err_m_bs_in_disp = 0;
> + }
> +
> + if (info->sequence_changed &&
> + ((info->sequence_changed & SEQ_CHANGE_INTER_RES_CHANGE) != SEQ_CHANGE_INTER_RES_CHANGE))
> + p_dec_info->initial_info.sequence_no++;
> +
> +err_out:
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_clr_disp_flag(struct vpu_instance *inst, int index)
> +{
> + struct dec_info *p_dec_info;
> + int ret = 0;
> + s32 end_index;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> +
> + end_index = p_dec_info->num_fbs_for_wtl;
> +
> + if (index < 0 || index > end_index - 1)
> + return -EINVAL;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> + ret = wave5_dec_clr_disp_flag(inst, index);
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_give_command(struct vpu_instance *inst, enum codec_command cmd, void *param)
> +{
> + struct dec_info *p_dec_info;
> +
> + p_dec_info = &inst->codec_info->dec_info;
> + switch (cmd) {
> + case DEC_GET_QUEUE_STATUS:
> + {
> + struct queue_status_info *queue_info = (struct queue_status_info *)param;
> +
> + queue_info->instance_queue_count = p_dec_info->instance_queue_count;
> + queue_info->report_queue_count = p_dec_info->report_queue_count;
> + break;
> + }
> +
> + case ENABLE_DEC_THUMBNAIL_MODE:
> + {
> + p_dec_info->thumbnail_mode = 1;
> + break;
> + }
> + default:
> + return -EINVAL;
> + }
> +
> + return 0;
> +}
> +
> +int wave5_vpu_enc_open_api(struct vpu_instance *vpu_inst, struct enc_open_param *pop)
> +{
> + struct enc_info *p_enc_info;
> + int ret;
> + struct vpu_device *vpu_dev = vpu_inst->dev;
> +
> + ret = wave5_vpu_enc_check_open_param(vpu_inst, pop);
> + if (ret)
> + return ret;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + if (!wave5_vpu_is_init(vpu_dev)) {
> + ret = -ENODEV;
> + goto err_out;
> + }
> +
> + vpu_inst->codec_info = kzalloc(sizeof(*vpu_inst->codec_info), GFP_KERNEL);
> + if (!vpu_inst->codec_info) {
> + ret = -ENOMEM;
> + goto err_out;
> + }
> +
> + vpu_inst->id = ida_alloc_max(&vpu_inst->dev->inst_ida, MAX_NUM_INSTANCE - 1, GFP_KERNEL);
> + if (vpu_inst->id < 0) {
> + dev_warn(vpu_inst->dev->dev, "unable to allocate instance ID: %d\n", vpu_inst->id);
> + ret = vpu_inst->id;
> + goto err_out;
> + }
> + p_enc_info = &vpu_inst->codec_info->enc_info;
> + p_enc_info->open_param = *pop;
> +
> + ret = wave5_vpu_build_up_enc_param(vpu_dev->dev, vpu_inst, pop);
> + if (ret)
> + goto err_out;
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +err_out:
> + if (vpu_inst->id >= 0)
> + ida_free(&vpu_inst->dev->inst_ida, vpu_inst->id);
> + kfree(vpu_inst->codec_info);
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_enc_close(struct vpu_instance *inst, u32 *fail_res)
> +{
> + struct enc_info *p_enc_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> + *fail_res = 0;
> +
> + if (!inst->codec_info)
> + return -EINVAL;
> + p_enc_info = &inst->codec_info->enc_info;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_enc_fini_seq(inst, fail_res);
> + if (ret) {
> + dev_warn(inst->dev->dev, "enc seq end timed out\n");
> +
> + if (*fail_res == WAVE5_SYSERR_VPU_STILL_RUNNING) {
> + mutex_unlock(&vpu_dev->hw_lock);
> + return ret;
> + }
> + }
> +
> + dev_dbg(inst->dev->dev, "enc seq end timed out\n");
> +
> + if (p_enc_info->vb_work.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_enc_info->vb_work);
> +
> + if (inst->std == W_HEVC_ENC || inst->std == W_AVC_ENC) {
> + if (p_enc_info->vb_sub_sam_buf.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_enc_info->vb_sub_sam_buf);
> +
> + if (p_enc_info->vb_mv.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_enc_info->vb_mv);
> +
> + if (p_enc_info->vb_fbc_y_tbl.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_enc_info->vb_fbc_y_tbl);
> +
> + if (p_enc_info->vb_fbc_c_tbl.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_enc_info->vb_fbc_c_tbl);
> + }
> +
> + if (p_enc_info->vb_task.size)
> + wave5_vdi_free_dma_memory(vpu_dev, &p_enc_info->vb_task);
> +
> + ida_free(&inst->dev->inst_ida, inst->id);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + kfree(inst->codec_info);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_enc_register_frame_buffer(struct vpu_instance *inst, int num, unsigned int stride,
> + int height, enum tiled_map_type map_type)
> +{
> + struct enc_info *p_enc_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> + u32 size_luma, size_chroma;
> + int i;
> +
> + p_enc_info = &inst->codec_info->enc_info;
> +
> + if (p_enc_info->stride)
> + return -EINVAL;
> +
> + if (!p_enc_info->initial_info_obtained)
> + return -EINVAL;
> +
> + if (num < p_enc_info->initial_info.min_frame_buffer_count)
> + return -EINVAL;
> +
> + if (stride == 0 || stride % 8 != 0)
> + return -EINVAL;
> +
> + if (height == 0 || height < 0)
> + return -EINVAL;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + p_enc_info->num_frame_buffers = num;
> + p_enc_info->stride = stride;
> +
> + size_luma = stride * height;
> + size_chroma = ALIGN(stride / 2, 16) * height;
> +
> + for (i = 0; i < num; i++) {
> + if (inst->frame_buf[i].update_fb_info) {
> + inst->frame_buf[i].update_fb_info = FALSE;
> + inst->frame_buf[i].stride = stride;
> + inst->frame_buf[i].height = height;
> + inst->frame_buf[i].map_type = COMPRESSED_FRAME_MAP;
> + inst->frame_buf[i].cbcr_interleave = true;
> + inst->frame_buf[i].endian = VDI_128BIT_LITTLE_ENDIAN;
> + inst->frame_buf[i].buf_y_size = size_luma;
> + inst->frame_buf[i].buf_cb = inst->frame_buf[i].buf_y + size_luma;
> + inst->frame_buf[i].buf_cb_size = size_chroma;
> + inst->frame_buf[i].buf_cr_size = 0;
> + }
> + }
> +
> + ret = wave5_vpu_enc_register_framebuffer(inst->dev->dev, inst, &inst->frame_buf[0],
> + COMPRESSED_FRAME_MAP,
> + p_enc_info->num_frame_buffers);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +static int wave5_check_enc_param(struct vpu_instance *inst, struct enc_param *param)
> +{
> + struct enc_info *p_enc_info;
> +
> + p_enc_info = &inst->codec_info->enc_info;
Just do this in the declaration:
struct enc_info *p_enc_info = &inst->codec_info->enc_info;
> +
> + if (!param)
> + return -EINVAL;
> +
> + if (!param->skip_picture && !param->source_frame)
> + return -EINVAL;
> +
> + if (p_enc_info->open_param.bit_rate == 0) { // no rate control
> + if (inst->std == W_HEVC_ENC) {
Combine these two if statements. Pull the code in one tab.
if (p_enc_info->open_param.bit_rate == 0 &&
inst->std == W_HEVC_ENC) {
> + if (param->force_pic_qp_enable == 1) {
> + if (param->force_pic_qp_i < 0 || param->force_pic_qp_i > 63)
> + return -EINVAL;
> +
> + if (param->force_pic_qp_p < 0 || param->force_pic_qp_p > 63)
> + return -EINVAL;
> +
> + if (param->force_pic_qp_b < 0 || param->force_pic_qp_b > 63)
> + return -EINVAL;
> + }
> + if (!p_enc_info->ring_buffer_enable &&
> + (param->pic_stream_buffer_addr % 16 ||
> + param->pic_stream_buffer_size == 0))
> + return -EINVAL;
Indent the last condition an extra space so it lines up nicely:
if (!p_enc_info->ring_buffer_enable &&
(param->pic_stream_buffer_addr % 16 ||
param->pic_stream_buffer_size == 0))
> + }
> + }
> + if (!p_enc_info->ring_buffer_enable) {
> + if (param->pic_stream_buffer_addr % 8 || param->pic_stream_buffer_size == 0)
Combine these:
if (!p_enc_info->ring_buffer_enable &&
(param->pic_stream_buffer_addr % 8 ||
param->pic_stream_buffer_size == 0))
return -EINVAL;
> + return -EINVAL;
> + }
> +
> + return 0;
> +}
> +
> +static uint64_t wave5_get_timestamp(struct vpu_instance *vpu_inst)
> +{
> + struct enc_info *p_enc_info = NULL;
Don't do an unused initialize.
struct enc_info *p_enc_info;
> + u64 pts;
> + u32 fps;
> +
> + if (!vpu_inst->codec_info)
> + return 0;
> +
> + p_enc_info = &vpu_inst->codec_info->enc_info;
> + fps = p_enc_info->open_param.frame_rate_info;
> + if (fps == 0)
> + fps = 30;
> +
> + pts = p_enc_info->cur_pts;
> + p_enc_info->cur_pts += 90000 / fps; /* 90_k_hz/fps */
> +
> + return pts;
> +}
> +
> +int wave5_vpu_enc_start_one_frame(struct vpu_instance *inst, struct enc_param *param, u32 *fail_res)
> +{
> + struct enc_info *p_enc_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> + *fail_res = 0;
Blank line.
> +
> + p_enc_info = &inst->codec_info->enc_info;
Do this in the initializer:
struct enc_info *p_enc_info = &inst->codec_info->enc_info;
> +
> + if (p_enc_info->stride == 0) // this means frame buffers have not been registered.
> + return -EINVAL;
> +
> + ret = wave5_check_enc_param(inst, param);
> + if (ret)
> + return ret;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + p_enc_info->pts_map[param->src_idx] = p_enc_info->open_param.enable_pts ?
> + wave5_get_timestamp(inst) : param->pts;
> +
> + ret = wave5_vpu_encode(inst, param, fail_res);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_enc_get_output_info(struct vpu_instance *inst, struct enc_output_info *info)
> +{
> + struct enc_info *p_enc_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + if (!info)
Is this really required?
> + return -EINVAL;
> +
> + p_enc_info = &inst->codec_info->enc_info;
Move to initializer.
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_enc_get_result(inst, info);
> +
> + if (ret) {
Delete the blank line before the if.
> + info->pts = 0LL;
Just "= 0;"
> + goto unlock;
> + }
> +
> + if (info->recon_frame_index >= 0)
> + info->pts = p_enc_info->pts_map[info->enc_src_idx];
> +
> +unlock:
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_enc_give_command(struct vpu_instance *inst, enum codec_command cmd, void *param)
> +{
> + struct enc_info *p_enc_info;
> +
> + p_enc_info = &inst->codec_info->enc_info;
Initializer.
> + switch (cmd) {
> + case ENABLE_ROTATION:
> + p_enc_info->rotation_enable = 1;
> + break;
> + case ENABLE_MIRRORING:
> + p_enc_info->mirror_enable = 1;
> + break;
> + case SET_MIRROR_DIRECTION: {
> + enum mirror_direction mir_dir;
> +
> + if (!param)
> + return -EINVAL;
> +
> + mir_dir = *(enum mirror_direction *)param;
> + if (!(mir_dir == MIRDIR_NONE) && !(mir_dir == MIRDIR_HOR) &&
> + !(mir_dir == MIRDIR_VER) && !(mir_dir == MIRDIR_HOR_VER))
Use !=:
if (mir_dir != MIRDIR_NON && mir_dir != MIRDIR_HOR &&
mir_dir != MIRDIR_VER && mir_dir != MIRDIR_HOR_VER)
> + return -EINVAL;
> + p_enc_info->mirror_direction = mir_dir;
> + break;
> + }
> + case SET_ROTATION_ANGLE: {
> + int angle;
> +
> + if (!param)
> + return -EINVAL;
> + angle = *(int *)param;
> + if (angle && angle != 90 && angle != 180 && angle != 270)
> + return -EINVAL;
> + if (p_enc_info->initial_info_obtained && (angle == 90 || angle == 270))
> + return -EINVAL;
> + p_enc_info->rotation_angle = angle;
> + break;
> + }
> + case ENC_GET_QUEUE_STATUS: {
> + struct queue_status_info *queue_info = (struct queue_status_info *)param;
Get rid of the cast.
I don't like the NULL checking in this function. It's not done
consistently. Why does SET_ROTATION_ANGLE have a NULL check and
ENC_GET_QUEUE_STATUS not have a check? It's better to just Oops and so
every can see where there is a bug.
Rule: Subtle bugs are worse than obvious bugs.
> +
> + queue_info->instance_queue_count = p_enc_info->instance_queue_count;
> + queue_info->report_queue_count = p_enc_info->report_queue_count;
> + break;
> + }
> + default:
> + return -EINVAL;
> + }
> + return 0;
> +}
> +
> +int wave5_vpu_enc_issue_seq_init(struct vpu_instance *inst)
> +{
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_enc_init_seq(inst);
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_enc_complete_seq_init(struct vpu_instance *inst, struct enc_initial_info *info)
> +{
> + struct enc_info *p_enc_info;
> + int ret;
> + struct vpu_device *vpu_dev = inst->dev;
> +
> + if (!info)
> + return -EINVAL;
> +
> + p_enc_info = &inst->codec_info->enc_info;
Do it in the initliazer.
> +
> + ret = mutex_lock_interruptible(&vpu_dev->hw_lock);
> + if (ret)
> + return ret;
> +
> + ret = wave5_vpu_enc_get_seq_info(inst, info);
> + if (!ret)
> + p_enc_info->initial_info_obtained = 1;
> +
> + p_enc_info->initial_info = *info;
Should this be part of the if (!ret) if statement?
> +
> + mutex_unlock(&vpu_dev->hw_lock);
> +
> + return ret;
> +}
> +
> diff --git a/drivers/staging/media/wave5/vpuapi.h b/drivers/staging/media/wave5/vpuapi.h
> new file mode 100644
> index 000000000000..6182252e233d
> --- /dev/null
> +++ b/drivers/staging/media/wave5/vpuapi.h
> @@ -0,0 +1,1148 @@
> +/* SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause) */
> +/*
> + * Wave5 series multi-standard codec IP - helper definitions
> + *
> + * Copyright (C) 2021 CHIPS&MEDIA INC
> + */
> +
> +#ifndef VPUAPI_H_INCLUDED
> +#define VPUAPI_H_INCLUDED
> +
> +#include <linux/kfifo.h>
> +#include <linux/idr.h>
> +#include <media/v4l2-device.h>
> +#include <media/v4l2-mem2mem.h>
> +#include <media/v4l2-ctrls.h>
> +#include "vpuerror.h"
> +#include "vpuconfig.h"
> +#include "vdi.h"
> +
> +enum product_id {
> + PRODUCT_ID_521,
> + PRODUCT_ID_511,
> + PRODUCT_ID_517,
> + PRODUCT_ID_NONE,
> +};
> +
> +#define PRODUCT_ID_W_SERIES(x) ({ \
> + enum product_id pid = x; \
> + ((pid) == PRODUCT_ID_521 || \
> + (pid) == PRODUCT_ID_511 || \
> + (pid) == PRODUCT_ID_517); \
> +})
Make this a function.
static bool wave5_is_w_series(enum product_id pid)
{
if (pid == PRODUCT_ID_511 ||
pid == PRODUCT_ID_517 ||
pid == PRODUCT_ID_521)
return true;
return false;
}
> +
> +#define PRODUCT_ID_NOT_W_SERIES(x) !PRODUCT_ID_W_SERIES(x)
Delete this macro and call if (!wave5_is_w_series(x)) directly.
> +
> +struct vpu_attr;
> +
> +enum vpu_instance_type {
> + VPU_INST_TYPE_DEC = 0,
> + VPU_INST_TYPE_ENC = 1
> +};
> +
> +enum vpu_instance_state {
> + VPU_INST_STATE_NONE = 0,
> + VPU_INST_STATE_OPEN = 1,
> + VPU_INST_STATE_INIT_SEQ = 2,
> + VPU_INST_STATE_PIC_RUN = 3,
> + VPU_INST_STATE_STOP = 4,
> + VPU_INST_STATE_WAIT_BUF = 5
> +};
> +
> +#define WAVE5_MAX_FBS 32
> +
> +#define MAX_REG_FRAME (WAVE5_MAX_FBS * 2)
> +
> +#define WAVE5_DEC_HEVC_BUF_SIZE(_w, _h) (DIV_ROUND_UP(_w, 64) * DIV_ROUND_UP(_h, 64) * 256 + 64)
> +#define WAVE5_DEC_AVC_BUF_SIZE(_w, _h) ((((ALIGN(_w, 256) / 16) * (ALIGN(_h, 16) / 16)) + 16) * 80)
> +#define WAVE5_DEC_VP9_BUF_SIZE(_w, _h) (((ALIGN(_w, 64) * ALIGN(_h, 64)) >> 2))
> +#define WAVE5_DEC_AVS2_BUF_SIZE(_w, _h) (((ALIGN(_w, 64) * ALIGN(_h, 64)) >> 5))
> +// AV1 BUF SIZE : MFMV + segment ID + CDF probs table + film grain param Y+ film graim param C
> +#define WAVE5_DEC_AV1_BUF_SZ_1(_w, _h) \
> + (((ALIGN(_w, 64) / 64) * (ALIGN(_h, 64) / 64) * 512) + 41984 + 8192 + 4864)
> +#define WAVE5_DEC_AV1_BUF_SZ_2(_w1, _w2, _h) \
> + (((ALIGN(_w1, 64) / 64) * 256 + (ALIGN(_w2, 256) / 64) * 128) * (ALIGN(_h, 64) / 64))
> +
> +#define WAVE5_FBC_LUMA_TABLE_SIZE(_w, _h) (ALIGN(_h, 64) * ALIGN(_w, 256) / 32)
> +#define WAVE5_FBC_CHROMA_TABLE_SIZE(_w, _h) (ALIGN((_h), 64) * ALIGN((_w) / 2, 256) / 32)
> +#define WAVE5_ENC_AVC_BUF_SIZE(_w, _h) (ALIGN(_w, 64) * ALIGN(_h, 64) / 32)
> +#define WAVE5_ENC_HEVC_BUF_SIZE(_w, _h) (ALIGN(_w, 64) / 64 * ALIGN(_h, 64) / 64 * 128)
> +
> +/*
> + * common struct and definition
> + */
> +enum cod_std {
> + STD_AVC = 0,
> + STD_VC1 = 1,
> + STD_MPEG2 = 2,
> + STD_MPEG4 = 3,
> + STD_H263 = 4,
> + STD_DIV3 = 5,
> + STD_RV = 6,
> + STD_AVS = 7,
> + STD_THO = 9,
> + STD_VP3 = 10,
> + STD_VP8 = 11,
> + STD_HEVC = 12,
> + STD_VP9 = 13,
> + STD_AVS2 = 14,
> + STD_AV1 = 16,
> + STD_MAX
> +};
> +
> +enum wave_std {
> + W_HEVC_DEC = 0x00,
> + W_HEVC_ENC = 0x01,
> + W_AVC_DEC = 0x02,
> + W_AVC_ENC = 0x03,
> + W_VP9_DEC = 0x16,
> + W_AVS2_DEC = 0x18,
> + W_AV1_DEC = 0x1A,
> + STD_UNKNOWN = 0xFF
> +};
> +
> +enum SET_PARAM_OPTION {
> + OPT_COMMON = 0, /* SET_PARAM command option for encoding sequence */
> + OPT_CUSTOM_GOP = 1, /* SET_PARAM command option for setting custom GOP */
> + OPT_CUSTOM_HEADER = 2, /* SET_PARAM command option for setting custom VPS/SPS/PPS */
> + OPT_VUI = 3, /* SET_PARAM command option for encoding VUI */
> + OPT_CHANGE_PARAM = 0x10,
> +};
> +
> +enum DEC_PIC_HDR_OPTION {
> + INIT_SEQ_NORMAL = 0x01,
> + INIT_SEQ_W_THUMBNAIL = 0x11,
> +};
> +
> +enum DEC_PIC_OPTION {
> + DEC_PIC_NORMAL = 0x00, /* it is normal mode of DEC_PIC command. */
> + DEC_PIC_W_THUMBNAIL = 0x10, /* thumbnail mode (skip non-IRAP without reference reg.) */
> + SKIP_NON_IRAP = 0x11, /* it skips to decode non-IRAP pictures. */
> + SKIP_NON_REF_PIC = 0x13
> +};
> +
> +/************************************************************************/
> +/* PROFILE & LEVEL */
> +/************************************************************************/
> +/* HEVC */
> +#define HEVC_PROFILE_MAIN 1
> +#define HEVC_PROFILE_MAIN10 2
> +#define HEVC_PROFILE_STILLPICTURE 3
> +#define HEVC_PROFILE_MAIN10_STILLPICTURE 2
> +
> +/* H.264 profile for encoder*/
> +#define H264_PROFILE_BP 1
> +#define H264_PROFILE_MP 2
> +#define H264_PROFILE_EXTENDED 3
> +#define H264_PROFILE_HP 4
> +#define H264_PROFILE_HIGH10 5
> +#define H264_PROFILE_HIGH422 6
> +#define H264_PROFILE_HIGH444 7
> +
> +/************************************************************************/
> +/* error codes */
> +/************************************************************************/
> +
> +/************************************************************************/
> +/* utility macros */
> +/************************************************************************/
> +#define VPU_CEIL(_data, _align) (((_data) + ((_align) - 1)) & ~((_align) - 1))
> +
> +/************************************************************************/
> +/* */
> +/************************************************************************/
> +/**
> + * \brief parameters of DEC_SET_SEQ_CHANGE_MASK
> + */
> +#define SEQ_CHANGE_ENABLE_PROFILE BIT(5)
> +#define SEQ_CHANGE_CHROMA_FORMAT_IDC BIT(15) /* AV1 */
> +#define SEQ_CHANGE_ENABLE_SIZE BIT(16)
> +#define SEQ_CHANGE_INTER_RES_CHANGE BIT(17) /* VP9 */
> +#define SEQ_CHANGE_ENABLE_BITDEPTH BIT(18)
> +#define SEQ_CHANGE_ENABLE_DPB_COUNT BIT(19)
> +
> +#define SEQ_CHANGE_ENABLE_ALL_VP9 (SEQ_CHANGE_ENABLE_PROFILE | \
> + SEQ_CHANGE_ENABLE_SIZE | \
> + SEQ_CHANGE_INTER_RES_CHANGE | \
> + SEQ_CHANGE_ENABLE_BITDEPTH | \
> + SEQ_CHANGE_ENABLE_DPB_COUNT)
> +
> +#define SEQ_CHANGE_ENABLE_ALL_HEVC (SEQ_CHANGE_ENABLE_PROFILE | \
> + SEQ_CHANGE_ENABLE_SIZE | \
> + SEQ_CHANGE_ENABLE_BITDEPTH | \
> + SEQ_CHANGE_ENABLE_DPB_COUNT)
> +
> +#define SEQ_CHANGE_ENABLE_ALL_AVS2 (SEQ_CHANGE_ENABLE_PROFILE | \
> + SEQ_CHANGE_ENABLE_SIZE | \
> + SEQ_CHANGE_ENABLE_BITDEPTH | \
> + SEQ_CHANGE_ENABLE_DPB_COUNT)
> +
> +#define SEQ_CHANGE_ENABLE_ALL_AVC (SEQ_CHANGE_ENABLE_SIZE | \
> + SEQ_CHANGE_ENABLE_BITDEPTH | \
> + SEQ_CHANGE_ENABLE_DPB_COUNT)
> +
> +#define SEQ_CHANGE_ENABLE_ALL_AV1 (SEQ_CHANGE_ENABLE_PROFILE | \
> + SEQ_CHANGE_CHROMA_FORMAT_IDC | \
> + SEQ_CHANGE_ENABLE_SIZE | \
> + SEQ_CHANGE_ENABLE_BITDEPTH | \
> + SEQ_CHANGE_ENABLE_DPB_COUNT)
> +
> +#define DISPLAY_IDX_FLAG_SEQ_END -1
> +#define DISPLAY_IDX_FLAG_NO_FB -3
> +#define DECODED_IDX_FLAG_NO_FB -1
> +#define DECODED_IDX_FLAG_SKIP -2
> +
> +#define RECON_IDX_FLAG_ENC_END -1
> +#define RECON_IDX_FLAG_ENC_DELAY -2
> +#define RECON_IDX_FLAG_HEADER_ONLY -3
> +#define RECON_IDX_FLAG_CHANGE_PARAM -4
> +
> +enum codec_command {
> + ENABLE_ROTATION,
> + ENABLE_MIRRORING,
> + SET_MIRROR_DIRECTION,
> + SET_ROTATION_ANGLE,
> + ENABLE_DEC_THUMBNAIL_MODE,
> + DEC_GET_QUEUE_STATUS,
> + ENC_GET_QUEUE_STATUS,
> +};
> +
> +enum error_conceal_mode {
> + ERROR_CONCEAL_MODE_OFF = 0, /* conceal off */
> + ERROR_CONCEAL_MODE_INTRA_ONLY = 1, /* intra conceal in intra-picture, inter-picture */
> + ERROR_CONCEAL_MODE_INTRA_INTER = 2
> +};
> +
> +enum error_conceal_unit {
> + ERROR_CONCEAL_UNIT_PICTURE = 0, /* picture-level error conceal */
> + ERROR_CONCEAL_UNIT_SLICE_TILE = 1, /* slice/tile-level error conceal */
> + ERROR_CONCEAL_UNIT_BLOCK_ROW = 2, /* block-row-level error conceal */
> + ERROR_CONCEAL_UNIT_BLOCK = 3 /* block-level conceal */
> +};
> +
> +enum cb_cr_order {
> + CBCR_ORDER_NORMAL,
> + CBCR_ORDER_REVERSED
> +};
> +
> +enum mirror_direction {
> + MIRDIR_NONE, /* no mirroring */
> + MIRDIR_VER, /* vertical mirroring */
> + MIRDIR_HOR, /* horizontal mirroring */
> + MIRDIR_HOR_VER /* horizontal and vertical mirroring */
> +};
> +
> +enum frame_buffer_format {
> + FORMAT_ERR = -1,
> + FORMAT_420 = 0, /* 8bit */
> + FORMAT_422, /* 8bit */
> + FORMAT_224, /* 8bit */
> + FORMAT_444, /* 8bit */
> + FORMAT_400, /* 8bit */
> +
> + /* little endian perspective */
> + /* | addr 0 | addr 1 | */
> + FORMAT_420_P10_16BIT_MSB = 5, /* lsb |000000xx|xxxxxxxx | msb */
> + FORMAT_420_P10_16BIT_LSB, /* lsb |xxxxxxx |xx000000 | msb */
> + FORMAT_420_P10_32BIT_MSB, /* lsb |00xxxxxxxxxxxxxxxxxxxxxxxxxxx| msb */
> + FORMAT_420_P10_32BIT_LSB, /* lsb |xxxxxxxxxxxxxxxxxxxxxxxxxxx00| msb */
> +
> + /* 4:2:2 packed format */
> + /* little endian perspective */
> + /* | addr 0 | addr 1 | */
> + FORMAT_422_P10_16BIT_MSB, /* lsb |000000xx |xxxxxxxx | msb */
> + FORMAT_422_P10_16BIT_LSB, /* lsb |xxxxxxxx |xx000000 | msb */
> + FORMAT_422_P10_32BIT_MSB, /* lsb |00xxxxxxxxxxxxxxxxxxxxxxxxxxx| msb */
> + FORMAT_422_P10_32BIT_LSB, /* lsb |xxxxxxxxxxxxxxxxxxxxxxxxxxx00| msb */
> +
> + FORMAT_YUYV, /* 8bit packed format : Y0U0Y1V0 Y2U1Y3V1 ... */
> + FORMAT_YUYV_P10_16BIT_MSB,
> + FORMAT_YUYV_P10_16BIT_LSB,
> + FORMAT_YUYV_P10_32BIT_MSB,
> + FORMAT_YUYV_P10_32BIT_LSB,
> +
> + FORMAT_YVYU, /* 8bit packed format : Y0V0Y1U0 Y2V1Y3U1 ... */
> + FORMAT_YVYU_P10_16BIT_MSB,
> + FORMAT_YVYU_P10_16BIT_LSB,
> + FORMAT_YVYU_P10_32BIT_MSB,
> + FORMAT_YVYU_P10_32BIT_LSB,
> +
> + FORMAT_UYVY, /* 8bit packed format : U0Y0V0Y1 U1Y2V1Y3 ... */
> + FORMAT_UYVY_P10_16BIT_MSB,
> + FORMAT_UYVY_P10_16BIT_LSB,
> + FORMAT_UYVY_P10_32BIT_MSB,
> + FORMAT_UYVY_P10_32BIT_LSB,
> +
> + FORMAT_VYUY, /* 8bit packed format : V0Y0U0Y1 V1Y2U1Y3 ... */
> + FORMAT_VYUY_P10_16BIT_MSB,
> + FORMAT_VYUY_P10_16BIT_LSB,
> + FORMAT_VYUY_P10_32BIT_MSB,
> + FORMAT_VYUY_P10_32BIT_LSB,
> +
> + FORMAT_MAX,
> +};
> +
> +enum packed_format_num {
> + NOT_PACKED = 0,
> + PACKED_YUYV,
> + PACKED_YVYU,
> + PACKED_UYVY,
> + PACKED_VYUY,
> +};
> +
> +enum wave5_interrupt_bit {
> + INT_WAVE5_INIT_VPU = 0,
> + INT_WAVE5_WAKEUP_VPU = 1,
> + INT_WAVE5_SLEEP_VPU = 2,
> + INT_WAVE5_CREATE_INSTANCE = 3,
> + INT_WAVE5_FLUSH_INSTANCE = 4,
> + INT_WAVE5_DESTROY_INSTANCE = 5,
> + INT_WAVE5_INIT_SEQ = 6,
> + INT_WAVE5_SET_FRAMEBUF = 7,
> + INT_WAVE5_DEC_PIC = 8,
> + INT_WAVE5_ENC_PIC = 8,
> + INT_WAVE5_ENC_SET_PARAM = 9,
> + INT_WAVE5_DEC_QUERY = 14,
> + INT_WAVE5_BSBUF_EMPTY = 15,
> + INT_WAVE5_BSBUF_FULL = 15,
> +};
> +
> +enum pic_type {
> + PIC_TYPE_I = 0, /* I picture */
> + PIC_TYPE_KEY = 0, /* KEY frame for AV1*/
> + PIC_TYPE_P = 1, /* P picture */
> + PIC_TYPE_INTER = 1, /* inter frame for AV1*/
> + PIC_TYPE_B = 2, /* B picture (except VC1) */
> + PIC_TYPE_REPEAT = 2, /* repeat frame (VP9 only) */
> + PIC_TYPE_AV1_INTRA = 2, /* intra only frame (AV1 only) */
> + PIC_TYPE_VC1_BI = 2, /* VC1 BI picture (VC1 only) */
> + PIC_TYPE_VC1_B = 3, /* VC1 B picture (VC1 only) */
> + PIC_TYPE_D = 3,
> + PIC_TYPE_S = 3,
> + PIC_TYPE_AVS2_F = 3, /* F picture in AVS2 */
> + PIC_TYPE_AV1_SWITCH = 3, /* switch frame (AV1 only) */
> + PIC_TYPE_VC1_P_SKIP = 4, /* VC1 P skip picture (VC1 only) */
> + PIC_TYPE_MP4_P_SKIP_NOT_CODED = 4, /* not coded P picture in MPEG4 packed mode */
> + PIC_TYPE_AVS2_S = 4, /* S picture in AVS2 */
> + PIC_TYPE_IDR = 5, /* H.264/H.265 IDR picture */
> + PIC_TYPE_AVS2_G = 5, /* G picture in AVS2 */
> + PIC_TYPE_AVS2_GB = 6, /* GB picture in AVS2 */
> + PIC_TYPE_MAX /* no meaning */
> +};
> +
> +enum bit_stream_mode {
> + BS_MODE_INTERRUPT,
> + BS_MODE_RESERVED, /* reserved for the future */
> + BS_MODE_PIC_END,
> +};
> +
> +enum sw_reset_mode {
> + SW_RESET_SAFETY,
> + SW_RESET_FORCE,
> + SW_RESET_ON_BOOT
> +};
> +
> +enum tiled_map_type {
> + LINEAR_FRAME_MAP = 0, /* linear frame map type */
> + COMPRESSED_FRAME_MAP = 17, /* compressed frame map type*/
> +};
> +
> +enum temporal_id_mode {
> + TEMPORAL_ID_MODE_ABSOLUTE,
> + TEMPORAL_ID_MODE_RELATIVE,
> +};
> +
> +struct vpu_attr {
> + u32 product_id; /* the product ID */
> + char product_name[8]; /* the product name in ascii code */
> + u32 product_version; /* the product version number */
> + u32 fw_version; /* the F/W version */
> + u32 customer_id; /* customer ID number */
> + u32 support_decoders; /* bitmask: see <<vpuapi_h_cod_std>> */
> + u32 support_encoders; /* bitmask: see <<vpuapi_h_cod_std>> */
> + bool support_bitstream_mode;
> + bool support_backbone;
> + bool support_avc10bit_enc;
> + bool support_hevc10bit_enc;
> + u32 support_endian_mask; /* A variable of supported endian mode in product */
> + bool support_dual_core; /* this indicates whether a product has two vcores. */
> + bool support_vcore_backbone;
> + bool support_vcpu_backbone;
> +};
> +
> +struct frame_buffer {
> + dma_addr_t buf_y;
> + dma_addr_t buf_cb;
> + dma_addr_t buf_cr;
> + u32 buf_y_size;
> + u32 buf_cb_size;
> + u32 buf_cr_size;
> + int cbcr_interleave;
> + int endian;
> + enum tiled_map_type map_type;
> + int stride; /* A horizontal stride for given frame buffer */
> + int width; /* A width for given frame buffer */
> + int height; /* A height for given frame buffer */
> + int size; /* A size for given frame buffer */
> + int sequence_no;
> + bool update_fb_info;
> +};
> +
> +struct vpu_rect {
> + u32 left; /* A horizontal pixel offset of top-left corner of rectangle from (0, 0) */
> + u32 top; /* A vertical pixel offset of top-left corner of rectangle from (0, 0) */
> + u32 right; /* A horizontal pixel offset of bottom-right corner of rectangle from (0, 0) */
> + u32 bottom; /* A vertical pixel offset of bottom-right corner of rectangle from (0, 0) */
> +};
> +
> +/*
> + * decode struct and definition
> + */
> +
> +struct dec_open_param {
> + dma_addr_t bitstream_buffer;
> + int bitstream_buffer_size;
> + int cbcr_interleave;
> + int nv21;
> + int cbcr_order;
> + enum endian_mode frame_endian;
> + enum endian_mode stream_endian;
> + enum bit_stream_mode bitstream_mode;
> + bool enable_non_ref_fbc_write;
> + int av1_format;
> + enum error_conceal_unit error_conceal_unit;
> + enum error_conceal_mode error_conceal_mode;
> +};
> +
> +struct dec_initial_info {
> + s32 pic_width;
> + s32 pic_height;
> + s32 f_rate_numerator; /* the numerator part of frame rate fraction */
> + s32 f_rate_denominator; /* the denominator part of frame rate fraction */
> + struct vpu_rect pic_crop_rect;
> + s32 min_frame_buffer_count;
> + s32 frame_buf_delay;
> +
> + s32 max_temporal_layers; /* it indicates the max number of temporal sub-layers. */
> + s32 max_spatial_layers;
> + s32 profile;
> + s32 level;
> + s32 tier;
> + s32 is_ext_sar;
> + s32 aspect_rate_info;
> + s32 bit_rate;
> + u32 user_data_header;
> + s32 user_data_num;
> + s32 user_data_size;
> + s32 user_data_buf_full;
> + s32 chroma_format_idc;/* A chroma format indicator */
> + s32 luma_bitdepth; /* A bit-depth of luma sample */
> + s32 chroma_bitdepth; /* A bit-depth of chroma sample */
> + u32 seq_init_err_reason;
> + s32 warn_info;
> + dma_addr_t rd_ptr; /* A read pointer of bitstream buffer */
> + dma_addr_t wr_ptr; /* A write pointer of bitstream buffer */
> + u32 sequence_no;
> + u32 output_bit_depth;
> + u32 vlc_buf_size; /* the size of vlc buffer */
> + u32 param_buf_size; /* the size of param buffer */
> +};
> +
> +#define WAVE_SKIPMODE_WAVE_NONE 0
> +#define WAVE_SKIPMODE_NON_IRAP 1
> +#define WAVE_SKIPMODE_NON_REF 2
> +
> +struct dec_param {
> + s32 skipframe_mode;
> + bool cra_as_bla_flag;
> + bool disable_film_grain;
> +};
> +
> +struct dec_output_ext_data {
> + u32 user_data_header;
> + u32 user_data_num; /* this is the number of user data. */
> + u32 user_data_size; /* this is the size of user data. */
> + u32 user_data_buf_full;
> + u32 active_format;
> +};
> +
> +struct h265_rp_sei {
> + unsigned int exist;
> + int recovery_poc_cnt; /* recovery_poc_cnt */
> + int exact_match_flag; /* exact_match_flag */
> + int broken_link_flag; /* broken_link_flag */
> +};
> +
> +struct avs2_info {
> + int decoded_poi;
> + int display_poi;
> +};
> +
> +struct av1_info {
> + int allow_screen_content_tools; /* it indicates whether screen content tool is enabled. */
> + int allow_intra_bc; /* it indicates whether intra block copy is enabled. */
> + int spatial_id; /* it indicates a spatial ID of the picture. */
> +};
> +
> +struct dec_output_info {
> + /**
> + * this is a frame buffer index for the picture to be displayed at the moment among
> + * frame buffers which are registered using vpu_dec_register_frame_buffer(). frame
> + * data to be displayed are stored into the frame buffer with this index.
> + * when there is no display delay, this index is always
> + * the same with index_frame_decoded. however, if display delay does exist for display
> + * reordering in AVC
> + * or B-frames in VC1), this index might be different with index_frame_decoded.
> + * by checking this index, HOST application can easily know whether sequence decoding
> + * has been finished or not.
> + *
> + * -3(0xFFFD) or -2(0xFFFE) : it is when a display output cannot be given due to picture
> + * reordering or skip option.
> + * -1(0xFFFF) : it is when there is no more output for display at the end of sequence
> + * decoding.
> + */
> + int index_frame_display;
> + int index_frame_display_for_tiled; /* in case of WTL mode, this index indicates a display
> + * index of tiled or compressed framebuffer.
> + */
> + /**
> + * this is a frame buffer index of decoded picture among frame buffers which were
> + * registered using vpu_dec_register_frame_buffer(). the currently decoded frame is stored
> + * into the frame buffer specified by
> + * this index.
> + *
> + * -2 : it indicates that no decoded output is generated because decoder meets EOS
> + * (end of sequence) or skip.
> + * -1 : it indicates that decoder fails to decode a picture because there is no available
> + * frame buffer.
> + */
> + int index_frame_decoded;
> + int index_inter_frame_decoded;
> + int index_frame_decoded_for_tiled;
> + int nal_type;
> + int pic_type;
> + int num_of_err_m_bs;
> + int num_of_tot_m_bs;
> + int num_of_err_m_bs_in_disp;
> + int num_of_tot_m_bs_in_disp;
> + u32 decoding_success;
> + struct vpu_rect rc_display;
> + int disp_pic_width;
> + int disp_pic_height;
> + struct vpu_rect rc_decoded;
> + int dec_pic_width;
> + int dec_pic_height;
> + struct avs2_info avs2_info;
> + struct av1_info av1_info;
> + int decoded_poc;
> + int display_poc;
> + int temporal_id; /* A temporal ID of the picture */
> + struct h265_rp_sei h265_rp_sei;
> + struct dec_output_ext_data dec_output_ext_data;
> + int consumed_byte; /* the number of bytes that are consumed by VPU. */
> + int rd_ptr; /* A stream buffer read pointer for the current decoder instance */
> + int wr_ptr; /* A stream buffer write pointer for the current decoder instance */
> + dma_addr_t byte_pos_frame_start;
> + dma_addr_t byte_pos_frame_end;
> + struct frame_buffer disp_frame;
> + int frame_display_flag; /* it reports a frame buffer flag to be displayed. */
> + /**
> + * this variable reports that sequence has been changed while H.264/AVC stream decoding.
> + * if it is 1, HOST application can get the new sequence information by calling
> + * vpu_dec_get_initial_info() or wave5_vpu_dec_issue_seq_init().
> + *
> + * for H.265/HEVC decoder, each bit has a different meaning as follows.
> + *
> + * sequence_changed[5] : it indicates that the profile_idc has been changed.
> + * sequence_changed[16] : it indicates that the resolution has been changed.
> + * sequence_changed[19] : it indicates that the required number of frame buffer has
> + * been changed.
> + */
> + int sequence_changed;
> + int frame_cycle; /* this variable reports the number of cycles for processing a frame. */
> + int error_reason;
> + u32 error_reason_ext;
> + int warn_info;
> + u32 sequence_no;
> +
> + u32 dec_host_cmd_tick; /* tick of DEC_PIC command for the picture */
> + u32 dec_seek_start_tick; /* start tick of seeking slices of the picture */
> + u32 dec_seek_end_tick; /* end tick of seeking slices of the picture */
> + u32 dec_parse_start_tick; /* start tick of parsing slices of the picture */
> + u32 dec_parse_end_tick; /* end tick of parsing slices of the picture */
> + u32 dec_decode_start_tick; /* start tick of decoding slices of the picture */
> + u32 dec_decode_end_tick; /* end tick of decoding slices of the picture */
> +
> + u32 seek_cycle;
> + u32 parse_cycle;
> + u32 decoded_cycle;
> +
> + s32 ctu_size;
> + s32 output_flag;
> +};
> +
> +struct queue_status_info {
> + u32 instance_queue_count;
> + u32 report_queue_count;
> +};
> +
> +/*
> + * encode struct and definition
> + */
> +
> +#define MAX_NUM_TEMPORAL_LAYER 7
> +#define MAX_NUM_SPATIAL_LAYER 3
> +#define MAX_GOP_NUM 8
> +
> +struct custom_gop_pic_param {
> + int pic_type; /* A picture type of nth picture in the custom GOP */
> + int poc_offset; /* A POC of nth picture in the custom GOP */
> + int pic_qp; /* A quantization parameter of nth picture in the custom GOP */
> + int use_multi_ref_p; /* use multiref pic for P picture. valid only if PIC_TYPE is P */
> + int ref_poc_l0; /* A POC of reference L0 of nth picture in the custom GOP */
> + int ref_poc_l1; /* A POC of reference L1 of nth picture in the custom GOP */
> + int temporal_id; /* A temporal ID of nth picture in the custom GOP */
> +};
> +
> +struct custom_gop_param {
> + int custom_gop_size; /* the size of custom GOP (0~8) */
> + struct custom_gop_pic_param pic_param[MAX_GOP_NUM];
> +};
> +
> +struct wave_custom_map_opt {
> + int roi_avg_qp; /* it sets an average QP of ROI map. */
> + int custom_roi_map_enable; /* it enables ROI map. */
> + int custom_lambda_map_enable; /* it enables custom lambda map. */
> + int custom_mode_map_enable;
> + int custom_coef_drop_enable;
> + dma_addr_t addr_custom_map;
> +};
> +
> +struct enc_wave_param {
> + /*
> + * A profile indicator (HEVC only)
> + *
> + * 0 : the firmware determines a profile according to internalbitdepth.
> + * 1 : main profile
> + * 2 : main10 profile
> + * 3 : main still picture profile
> + * in AVC encoder, a profile cannot be set by host application. the firmware decides it
> + * based on internalbitdepth. it is HIGH profile for bitdepth of 8 and HIGH10 profile for
> + * bitdepth of 10.
> + */
> + int profile;
> + int en_still_picture; /* still picture profile */
> + int level; /* A level indicator (level * 10) */
> + int tier; /* 0=main, 1=high */
> + int internal_bit_depth;
> + int gop_preset_idx;
> + int decoding_refresh_type; /* 0=non-IRAP, 1=CRA, 2=IDR */
> + int intra_qp; /* A quantization parameter of intra picture */
> + int intra_period; /* A period of intra picture in GOP size */
> + int forced_idr_header_enable;
> + int conf_win_top; /* A top offset of conformance window */
> + int conf_win_bot; /* A bottom offset of conformance window */
> + int conf_win_left; /* A left offset of conformance window */
> + int conf_win_right; /* A right offset of conformance window */
> + int independ_slice_mode_arg;
> + int depend_slice_mode_arg;
> + int intra_refresh_mode;
> + /*
> + * it specifies an intra CTU refresh interval. depending on intra_refresh_mode,
> + * it can mean one of the following.
> + *
> + * the number of consecutive CTU rows for intra_ctu_refresh_mode of 1
> + * the number of consecutive CTU columns for intra_ctu_refresh_mode of 2
> + * A step size in CTU for intra_ctu_refresh_mode of 3
> + * the number of intra ct_us to be encoded in a picture for intra_ctu_refresh_mode of 4
> + */
> + int intra_refresh_arg;
> + /*
> + * 0 : custom setting
> + * 1 : recommended encoder parameters (slow encoding speed, highest picture quality)
> + * 2 : boost mode (normal encoding speed, moderate picture quality)
> + * 3 : fast mode (fast encoding speed, low picture quality)
> + */
> + uint32_t depend_slice_mode : 2;
> + uint32_t independ_slice_mode : 1; /* 0=no-multi-slice, 1=slice-in-ctu-number*/
> + uint32_t use_recommend_enc_param: 2;
> + uint32_t max_num_merge: 2;
> + uint32_t scaling_list_enable: 2;
> + uint32_t bit_alloc_mode: 2; /* 0=ref-pic-priority, 1=uniform, 2=fixed_bit_ratio */
> + int beta_offset_div2: 4; /* it sets beta_offset_div2 for deblocking filter. */
> + int tc_offset_div2: 4; /* it sets tc_offset_div3 for deblocking filter. */
> + int hvs_qp_scale: 4; /* QP scaling factor for CU QP adjustment if hvs_qp_scale_enable is 1 */
> + int hvs_max_delta_qp; /* A maximum delta QP for HVS */
> + /*
> + * A fixed bit ratio (1 ~ 255) for each picture of GOP's bit
> + * allocation
> + *
> + * N = 0 ~ (MAX_GOP_SIZE - 1)
> + * MAX_GOP_SIZE = 8
> + *
> + * for instance when MAX_GOP_SIZE is 3, fixed_bit_ratio0, fixed_bit_ratio1, and
> + * fixed_bit_ratio2 can be set as 2, 1, and 1 respectively for
> + * the fixed bit ratio 2:1:1. this is only valid when bit_alloc_mode is 2.
> + */
> + u8 fixed_bit_ratio[MAX_GOP_NUM];
> + struct custom_gop_param gop_param; /* <<vpuapi_h_custom_gop_param>> */
> + u32 num_units_in_tick;
> + u32 time_scale;
> + u32 num_ticks_poc_diff_one;
> + int chroma_cb_qp_offset; /* the value of chroma(cb) QP offset */
> + int chroma_cr_qp_offset; /* the value of chroma(cr) QP offset */
> + int initial_rc_qp;
> + u32 nr_intra_weight_y;
> + u32 nr_intra_weight_cb; /* A weight to cb noise level for intra picture (0 ~ 31) */
> + u32 nr_intra_weight_cr; /* A weight to cr noise level for intra picture (0 ~ 31) */
> + u32 nr_inter_weight_y;
> + u32 nr_inter_weight_cb; /* A weight to cb noise level for inter picture (0 ~ 31) */
> + u32 nr_inter_weight_cr; /* A weight to cr noise level for inter picture (0 ~ 31) */
> + u32 nr_noise_sigma_y; /* Y noise standard deviation if nr_noise_est_enable is 0. */
> + u32 nr_noise_sigma_cb;/* cb noise standard deviation if nr_noise_est_enable is 0. */
> + u32 nr_noise_sigma_cr;/* cr noise standard deviation if nr_noise_est_enable is 0. */
> + u32 bg_thr_diff;
> + u32 bg_thr_mean_diff;
> + u32 bg_lambda_qp;
> + int bg_delta_qp;
> + int pu04_delta_rate: 8; /* added to the total cost of 4x4 blocks */
> + int pu08_delta_rate: 8; /* added to the total cost of 8x8 blocks */
> + int pu16_delta_rate: 8; /* added to the total cost of 16x16 blocks */
> + int pu32_delta_rate: 8; /* added to the total cost of 32x32 blocks */
> + int pu04_intra_planar_delta_rate: 8;
> + int pu04_intra_dc_delta_rate: 8;
> + int pu04_intra_angle_delta_rate: 8;
> + int pu08_intra_planar_delta_rate: 8;
> + int pu08_intra_dc_delta_rate: 8;
> + int pu08_intra_angle_delta_rate: 8;
> + int pu16_intra_planar_delta_rate: 8;
> + int pu16_intra_dc_delta_rate: 8;
> + int pu16_intra_angle_delta_rate: 8;
> + int pu32_intra_planar_delta_rate: 8;
> + int pu32_intra_dc_delta_rate: 8;
> + int pu32_intra_angle_delta_rate: 8;
> + int cu08_intra_delta_rate: 8;
> + int cu08_inter_delta_rate: 8;
> + int cu08_merge_delta_rate: 8;
> + int cu16_intra_delta_rate: 8;
> + int cu16_inter_delta_rate: 8;
> + int cu16_merge_delta_rate: 8;
> + int cu32_intra_delta_rate: 8;
> + int cu32_inter_delta_rate: 8;
> + int cu32_merge_delta_rate: 8;
> + int coef_clear_disable: 8;
> + int min_qp_i; /* A minimum QP of I picture for rate control */
> + int max_qp_i; /* A maximum QP of I picture for rate control */
> + int min_qp_p; /* A minimum QP of P picture for rate control */
> + int max_qp_p; /* A maximum QP of P picture for rate control */
> + int min_qp_b; /* A minimum QP of B picture for rate control */
> + int max_qp_b; /* A maximum QP of B picture for rate control */
> + dma_addr_t custom_lambda_addr; /* it specifies the address of custom lambda map. */
> + dma_addr_t user_scaling_list_addr; /* it specifies the address of user scaling list file. */
> + int avc_idr_period;/* A period of IDR picture (0 ~ 1024). 0 - implies an infinite period */
> + int avc_slice_mode; /* 0=none, 1=slice-in-mb-number */
> + int avc_slice_arg; /* the number of MB for a slice when avc_slice_mode is set with 1 */
> + int intra_mb_refresh_mode; /* 0=none, 1=row, 2=column, 3=step-size-in-mb */
> + /**
> + * it specifies an intra MB refresh interval. depending on intra_mb_refresh_mode,
> + * it can mean one of the following.
> + *
> + * the number of consecutive MB rows for intra_mb_refresh_mode of 1
> + * the number of consecutive MB columns for intra_mb_refresh_mode of 2
> + * A step size in MB for intra_mb_refresh_mode of 3
> + */
> + int intra_mb_refresh_arg;
> + int entropy_coding_mode; /* 0=CAVLC, 1=CABAC */
> + u32 rc_weight_param;
> + u32 rc_weight_buf;
> +
> + /* flags */
> + uint32_t lossless_enable: 1; /*enables lossless coding. */
> + uint32_t const_intra_pred_flag: 1; /*enables constrained intra prediction. */
> + uint32_t tmvp_enable: 1; /*enables temporal motion vector prediction. */
> + uint32_t wpp_enable: 1;
> + uint32_t disable_deblk: 1; /* it disables in-loop deblocking filtering. */
> + uint32_t lf_cross_slice_boundary_enable: 1;
> + uint32_t skip_intra_trans: 1;
> + uint32_t sao_enable: 1; /* it enables SAO (sample adaptive offset). */
> + uint32_t intra_nx_n_enable: 1; /* it enables intra nx_n p_us. */
> + uint32_t cu_level_rc_enable: 1; /* it enable CU level rate control. */
> + uint32_t hvs_qp_enable: 1; /* enable CU QP adjustment for subjective quality enhancement. */
> + uint32_t roi_enable: 1; /* it enables ROI map. NOTE: it is valid when rate control is on. */
> + uint32_t nr_y_enable: 1; /* it enables noise reduction algorithm to Y component. */
> + uint32_t nr_noise_est_enable: 1;
> + uint32_t nr_cb_enable: 1; /* it enables noise reduction algorithm to cb component. */
> + uint32_t nr_cr_enable: 1; /* it enables noise reduction algorithm to cr component. */
> + uint32_t use_long_term: 1; /* it enables long-term reference function. */
> + uint32_t monochrome_enable: 1; /* it enables monochrom encoding mode. */
> + uint32_t strong_intra_smooth_enable: 1; /* it enables strong intra smoothing. */
> + uint32_t weight_pred_enable: 1; /* it enables to use weighted prediction.*/
> + uint32_t bg_detect_enable: 1; /* it enables background detection. */
> + uint32_t custom_lambda_enable: 1; /* it enables custom lambda table. */
> + uint32_t custom_md_enable: 1; /* it enables custom mode decision. */
> + uint32_t rdo_skip: 1; /* it skips RDO(rate distortion optimization). */
> + uint32_t lambda_scaling_enable: 1; /* it enables lambda scaling using custom GOP. */
> + uint32_t transform8x8_enable: 1; /* it enables 8x8 intra prediction and 8x8 transform. */
> + uint32_t mb_level_rc_enable: 1; /* it enables MB-level rate control. */
> + uint32_t s2fme_disable: 1; /* it disables s2me_fme (only for AVC encoder). */
> +};
> +
> +struct enc_sub_frame_sync_config {
> + u32 sub_frame_sync_mode; /* 0=wire-based, 1=register-based */
> + u32 sub_frame_sync_on;
> +};
> +
> +struct enc_open_param {
> + dma_addr_t bitstream_buffer;
> + u32 bitstream_buffer_size;
> + int ring_buffer_enable;
> + int pic_width; /* the width of a picture to be encoded in unit of sample. */
> + int pic_height; /* the height of a picture to be encoded in unit of sample. */
> + int frame_rate_info;/* desired fps */
> + int vbv_buffer_size;
> + int bit_rate; /* target bitrate in bps */
> + u32 rc_enable : 1; /* rate control */
> + struct enc_wave_param wave_param;
> + int cbcr_interleave;
> + int cbcr_order;
> + int stream_endian;
> + int source_endian;
> + int line_buf_int_en;
> + int packed_format; /* <<vpuapi_h_packed_format_num>> */
> + enum frame_buffer_format src_format;
> + enum frame_buffer_format output_format;
> + int nv21;
> + bool enable_pts; /* an enable flag to report PTS(presentation timestamp) */
> + bool enable_non_ref_fbc_write;
> + int sub_frame_sync_enable;
> + int sub_frame_sync_mode;
> + u32 enc_hrd_rbsp_in_vps; /* it encodes the HRD syntax rbsp into VPS. */
> + u32 hrd_rbsp_data_size; /* the bit size of the HRD rbsp data */
> + dma_addr_t hrd_rbsp_data_addr; /* the address of the HRD rbsp data */
> + u32 encode_vui_rbsp;
> + u32 vui_rbsp_data_size; /* the bit size of the VUI rbsp data */
> + dma_addr_t vui_rbsp_data_addr; /* the address of the VUI rbsp data */
> +};
> +
> +struct enc_initial_info {
> + int min_frame_buffer_count; /* minimum number of frame buffer */
> + int min_src_frame_count; /* minimum number of source buffer */
> + int max_latency_pictures; /* maximum number of picture latency */
> + int seq_init_err_reason; /* error information */
> + int warn_info; /* warn information */
> + u32 vlc_buf_size; /* the size of task buffer */
> + u32 param_buf_size; /* the size of task buffer */
> +};
> +
> +struct enc_code_opt {
> + int implicit_header_encode;
> + int encode_vcl; /* A flag to encode VCL nal unit explicitly */
> + int encode_vps; /* A flag to encode VPS nal unit explicitly */
> + int encode_sps; /* A flag to encode SPS nal unit explicitly */
> + int encode_pps; /* A flag to encode PPS nal unit explicitly */
> + int encode_aud; /* A flag to encode AUD nal unit explicitly */
> + int encode_eos;
> + int encode_eob;
> + int encode_vui; /* A flag to encode VUI nal unit explicitly */
> +};
> +
> +struct enc_param {
> + struct frame_buffer *source_frame;
> + int skip_picture : 1;
> + dma_addr_t pic_stream_buffer_addr;
> + int pic_stream_buffer_size;
> + int force_pic_qp_enable; /* flag used to force picture quantization parameter */
> + int force_pic_qp_i;
> + int force_pic_qp_p;
> + int force_pic_qp_b;
> + int force_pic_type_enable; /* A flag to use a force picture type */
> + int force_pic_type;
> + int src_idx; /* A source frame buffer index */
> + int src_end_flag;
> + struct enc_code_opt code_option;
> + u32 use_cur_src_as_longterm_pic;
> + u32 use_longterm_ref;
> + u64 pts; /* the presentation timestamp (PTS) of input source */
> + struct wave_custom_map_opt custom_map_opt;
> + u32 wp_pix_sigma_y; /* pixel variance of Y component for weighted prediction */
> + u32 wp_pix_sigma_cb; /* pixel variance of cb component for weighted prediction */
> + u32 wp_pix_sigma_cr; /* pixel variance of cr component for weighted prediction */
> + u32 wp_pix_mean_y; /* pixel mean value of Y component for weighted prediction */
> + u32 wp_pix_mean_cb; /* pixel mean value of cb component for weighted prediction */
> + u32 wp_pix_mean_cr; /* pixel mean value of cr component for weighted prediction */
> + u32 force_all_ctu_coef_drop_enable; /* it forces all coefficients to be zero after TQ . */
> +};
> +
> +struct enc_output_info {
> + dma_addr_t bitstream_buffer;
> + u32 bitstream_size; /* the byte size of encoded bitstream */
> + int bitstream_wrap_around;
> + int pic_type; /* <<vpuapi_h_pic_type>> */
> + int num_of_slices; /* the number of slices of the currently being encoded picture */
> + int recon_frame_index;
> + struct frame_buffer recon_frame;
> + int rd_ptr;
> + int wr_ptr;
> + int pic_skipped; /* whether the current encoding has been skipped or not */
> + int num_of_intra; /* the number of intra coded block */
> + int num_of_merge; /* the number of merge block in 8x8 */
> + int num_of_skip_block; /* the number of skip block in 8x8 */
> + int avg_ctu_qp; /* the average value of CTU q_ps */
> + int enc_pic_byte; /* the number of encoded picture bytes */
> + int enc_gop_pic_idx; /* the GOP index of the currently encoded picture */
> + int enc_pic_poc; /* the POC(picture order count) of the currently encoded picture */
> + int release_src_flag; /* the source buffer indicator of the encoded pictures */
> + int enc_src_idx; /* the source buffer index of the currently encoded picture */
> + int enc_vcl_nut;
> + int enc_pic_cnt; /* the encoded picture number */
> + int error_reason; /* the error reason of the currently encoded picture */
> + int warn_info; /* the warning information of the currently encoded picture */
> + int frame_cycle; /* the param for reporting the cycle number of encoding one frame.*/
> + u64 pts;
> + u32 enc_host_cmd_tick; /* tick of ENC_PIC command for the picture */
> + u32 enc_prepare_start_tick; /* start tick of preparing slices of the picture */
> + u32 enc_prepare_end_tick; /* end tick of preparing slices of the picture */
> + u32 enc_processing_start_tick; /* start tick of processing slices of the picture */
> + u32 enc_processing_end_tick; /* end tick of processing slices of the picture */
> + u32 enc_encode_start_tick; /* start tick of encoding slices of the picture */
> + u32 enc_encode_end_tick; /* end tick of encoding slices of the picture */
> + u32 prepare_cycle; /* the number of cycles for preparing slices of a picture */
> + u32 processing; /* the number of cycles for processing slices of a picture */
> + u32 encoded_cycle; /* the number of cycles for encoding slices of a picture */
> + u32 pic_distortion_low;
> + u32 pic_distortion_high;
> +};
> +
> +enum ENC_PIC_CODE_OPTION {
> + CODEOPT_ENC_HEADER_IMPLICIT = (1 << 0),
> + CODEOPT_ENC_VCL = (1 << 1), /* A flag to encode VCL nal unit explicitly */
> +};
> +
> +enum GOP_PRESET_IDX {
> + PRESET_IDX_CUSTOM_GOP = 0, /* user defined GOP structure */
> + PRESET_IDX_ALL_I = 1, /* all intra, gopsize = 1 */
> + PRESET_IDX_IPP = 2, /* consecutive P, cyclic gopsize = 1 */
> + PRESET_IDX_IBBB = 3, /* consecutive B, cyclic gopsize = 1 */
> + PRESET_IDX_IBPBP = 4, /* gopsize = 2 */
> + PRESET_IDX_IBBBP = 5, /* gopsize = 4 */
> + PRESET_IDX_IPPPP = 6, /* consecutive P, cyclic gopsize = 4 */
> + PRESET_IDX_IBBBB = 7, /* consecutive B, cyclic gopsize = 4 */
> + PRESET_IDX_RA_IB = 8, /* random access, cyclic gopsize = 8 */
> + PRESET_IDX_IPP_SINGLE = 9, /* consecutive P, cyclic gopsize = 1, with single ref */
> +};
> +
> +struct sec_axi_info {
> + struct {
> + int use_ip_enable;
> + int use_lf_row_enable;
> + int use_bit_enable;
> + int use_enc_rdo_enable;
> + int use_enc_lf_enable;
> + } wave;
> + int buf_size;
> + dma_addr_t buf_base;
> +};
> +
> +struct dec_info {
> + struct dec_open_param open_param;
> + struct dec_initial_info initial_info;
> + struct dec_initial_info new_seq_info; /* temporal new sequence information */
> + dma_addr_t stream_wr_ptr;
> + dma_addr_t stream_rd_ptr;
> + int stream_endflag;
> + int frame_display_flag;
> + dma_addr_t stream_buf_start_addr;
> + dma_addr_t stream_buf_end_addr;
> + int stream_buf_size;
> + struct vpu_buf vb_mv[MAX_REG_FRAME];
> + struct vpu_buf vb_fbc_y_tbl[MAX_REG_FRAME];
> + struct vpu_buf vb_fbc_c_tbl[MAX_REG_FRAME];
> + int num_fbs_for_decoding;
> + int num_fbs_for_wtl;
> + int stride;
> + int rotation_enable;
> + int mirror_enable;
> + int dering_enable;
> + enum mirror_direction mirror_direction;
> + int rotation_angle;
> + struct frame_buffer rotator_output;
> + int rotator_stride;
> + int initial_info_obtained;
> + struct sec_axi_info sec_axi_info;
> + int seq_init_escape;
> + dma_addr_t user_data_buf_addr;
> + u32 user_data_enable;
> + int user_data_buf_size;
> + int frame_start_pos;
> + int frame_end_pos;
> + struct vpu_buf vb_work;
> + struct vpu_buf vb_task;
> + struct dec_output_info dec_out_info[WAVE5_MAX_FBS];
> + int reorder_enable;
> + int thumbnail_mode;
> + int seq_change_mask;
> + enum temporal_id_mode temp_id_select_mode;
> + s32 target_temp_id;
> + s32 target_spatial_id;
> + s32 instance_queue_count;
> + s32 report_queue_count;
> + u32 first_cycle_check;
> + u32 cycle_per_tick;
> + u32 product_code;
> + u32 vlc_buf_size;
> + u32 param_buf_size;
> +};
> +
> +struct enc_info {
> + struct enc_open_param open_param;
> + struct enc_initial_info initial_info;
> + dma_addr_t stream_rd_ptr;
> + dma_addr_t stream_wr_ptr;
> + dma_addr_t stream_buf_start_addr;
> + dma_addr_t stream_buf_end_addr;
> + int stream_buf_size;
> + int num_frame_buffers;
> + int stride;
> + int rotation_enable;
> + int mirror_enable;
> + enum mirror_direction mirror_direction;
> + int rotation_angle;
> + int initial_info_obtained;
> + int ring_buffer_enable;
> + struct sec_axi_info sec_axi_info;
> + struct enc_sub_frame_sync_config sub_frame_sync_config;
> + int line_buf_int_en;
> + struct vpu_buf vb_work;
> + struct vpu_buf vb_mv; /* col_mv buffer */
> + struct vpu_buf vb_fbc_y_tbl; /* FBC luma table buffer */
> + struct vpu_buf vb_fbc_c_tbl; /* FBC chroma table buffer */
> + struct vpu_buf vb_sub_sam_buf; /* sub-sampled buffer for ME */
> + struct vpu_buf vb_task;
> + u64 cur_pts; /* current timestamp in 90_k_hz */
> + u64 pts_map[32]; /* PTS mapped with source frame index */
> + u32 instance_queue_count;
> + u32 report_queue_count;
> + u32 first_cycle_check;
> + u32 cycle_per_tick;
> + u32 product_code;
> + u32 vlc_buf_size;
> + u32 param_buf_size;
> +};
> +
> +struct vpu_device {
> + struct device *dev;
> + struct v4l2_device v4l2_dev;
> + struct v4l2_m2m_dev *v4l2_m2m_dev;
> + struct video_device *video_dev_dec;
> + struct video_device *video_dev_enc;
> + struct mutex dev_lock; /* the lock for the src,dst v4l2 queues */
> + struct mutex hw_lock; /* lock hw configurations */
> + struct kfifo irq_status;
> + int irq;
> + struct completion irq_done;
> + enum product_id product;
> + struct vpu_attr attr;
> + struct vpu_buf common_mem;
> + u32 last_performance_cycles;
> + struct vpu_buf sram_buf;
> + struct vpu_buf vdb_register;
> + int product_code;
> + struct ida inst_ida;
> + struct clk *clk;
> +};
> +
> +struct vpu_instance;
> +
> +struct vpu_instance_ops {
> + void (*start_process)(struct vpu_instance *inst);
> + void (*stop_process)(struct vpu_instance *inst);
> + void (*finish_process)(struct vpu_instance *inst);
> +};
> +
> +struct vpu_instance {
> + struct v4l2_fh v4l2_fh;
> + struct v4l2_ctrl_handler v4l2_ctrl_hdl;
> + struct vpu_device *dev;
> +
> + struct v4l2_pix_format_mplane src_fmt;
> + struct v4l2_pix_format_mplane dst_fmt;
> + enum v4l2_colorspace colorspace;
> + enum v4l2_xfer_func xfer_func;
> + enum v4l2_ycbcr_encoding ycbcr_enc;
> + enum v4l2_quantization quantization;
> + enum v4l2_hsv_encoding hsv_enc;
> +
> + enum vpu_instance_state state;
> + enum vpu_instance_type type;
> + const struct vpu_instance_ops *ops;
> +
> + enum wave_std std;
> + int id;
> + union {
> + struct enc_info enc_info;
> + struct dec_info dec_info;
> + } *codec_info;
> + struct frame_buffer frame_buf[MAX_REG_FRAME];
> + struct vpu_buf frame_vbuf[MAX_REG_FRAME];
> + u32 min_dst_frame_buf_count;
> + u32 queued_src_buf_num;
> + u32 queued_dst_buf_num;
> + u64 timestamp;
> +
> + spinlock_t bitstream_lock; /* lock the src buf queue of the m2m ctx */
> + struct vpu_buf bitstream_vbuf;
> + bool thumbnail_mode;
> +
> + unsigned int min_src_frame_buf_count;
> + unsigned int rot_angle;
> + unsigned int mirror_direction;
> + unsigned int profile;
> + unsigned int level;
> + unsigned int bit_depth;
> + unsigned int frame_rate;
> + unsigned int vbv_buf_size;
> + unsigned int min_qp_i;
> + unsigned int max_qp_i;
> + unsigned int min_qp_p;
> + unsigned int max_qp_p;
> + unsigned int min_qp_b;
> + unsigned int max_qp_b;
> +};
> +
> +void wave5_vdi_write_register(struct vpu_device *vpu_device, unsigned int addr, unsigned int data);
> +unsigned int wave5_vdi_read_register(struct vpu_device *vpu_dev, unsigned int addr);
> +int wave5_vdi_clear_memory(struct vpu_device *vpu_dev, struct vpu_buf *vb);
> +int wave5_vdi_allocate_dma_memory(struct vpu_device *vpu_dev, struct vpu_buf *vb);
> +int wave5_vdi_write_memory(struct vpu_device *vpu_dev, struct vpu_buf *vb, size_t offset, unsigned char *data, int len, int endian);
> +int wave5_vdi_convert_endian(struct vpu_device *vpu_dev, unsigned int endian);
> +void wave5_vdi_free_dma_memory(struct vpu_device *vpu_dev, struct vpu_buf *vb);
> +
> +int wave5_vpu_init_with_bitcode(struct device *dev, const uint16_t *bitcode, uint32_t size_in_word);
> +void wave5_vpu_clear_interrupt_ex(struct vpu_instance *inst, int32_t intr_flag);
> +int wave5_vpu_get_version_info(struct device *dev, uint32_t *version_info, uint32_t *revision, uint32_t *product_id);
> +int wave5_vpu_dec_open_api(struct vpu_instance *vpu_inst, struct dec_open_param *pop);
> +int wave5_vpu_dec_close(struct vpu_instance *inst, u32 *fail_res);
> +int wave5_vpu_dec_issue_seq_init(struct vpu_instance *inst);
> +int wave5_vpu_dec_complete_seq_init(struct vpu_instance *inst, struct dec_initial_info *info);
> +int wave5_vpu_dec_register_frame_buffer_ex(struct vpu_instance *inst, int num_of_dec_fbs,
> + int num_of_display_fbs, int stride, int height, int map_type);
> +int wave5_vpu_dec_start_one_frame(struct vpu_instance *inst, struct dec_param *param, u32 *res_fail);
> +int wave5_vpu_dec_get_output_info(struct vpu_instance *inst, struct dec_output_info *info);
> +int wave5_vpu_dec_give_command(struct vpu_instance *inst, enum codec_command cmd, void *parameter);
> +int wave5_vpu_dec_get_bitstream_buffer(struct vpu_instance *inst, dma_addr_t *prd_prt,
> + dma_addr_t *pwr_ptr, uint32_t *size);
> +int wave5_vpu_dec_update_bitstream_buffer(struct vpu_instance *inst, int size);
> +int wave5_vpu_dec_clr_disp_flag(struct vpu_instance *inst, int index);
> +
> +int wave5_vpu_enc_open_api(struct vpu_instance *vpu_inst, struct enc_open_param *enc_op_param);
> +int wave5_vpu_enc_close(struct vpu_instance *inst, u32 *fail_res);
> +int wave5_vpu_enc_issue_seq_init(struct vpu_instance *inst);
> +int wave5_vpu_enc_complete_seq_init(struct vpu_instance *inst, struct enc_initial_info *info);
> +int wave5_vpu_enc_register_frame_buffer(struct vpu_instance *inst, int num, unsigned int stride,
> + int height, enum tiled_map_type map_type);
> +int wave5_vpu_enc_start_one_frame(struct vpu_instance *inst, struct enc_param *param, u32 *fail_res);
> +int wave5_vpu_enc_get_output_info(struct vpu_instance *inst, struct enc_output_info *info);
> +int wave5_vpu_enc_give_command(struct vpu_instance *inst, enum codec_command cmd, void *parameter);
> +
> +#endif
> +
> diff --git a/drivers/staging/media/wave5/vpuconfig.h b/drivers/staging/media/wave5/vpuconfig.h
> new file mode 100644
> index 000000000000..4c71799e440e
> --- /dev/null
> +++ b/drivers/staging/media/wave5/vpuconfig.h
> @@ -0,0 +1,85 @@
> +/* SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause) */
> +/*
> + * Wave5 series multi-standard codec IP - product config definitions
> + *
> + * Copyright (C) 2021 CHIPS&MEDIA INC
> + */
> +
> +#ifndef _VPU_CONFIG_H_
> +#define _VPU_CONFIG_H_
> +
> +#define WAVE517_CODE 0x5170
> +#define WAVE537_CODE 0x5370
> +#define WAVE511_CODE 0x5110
> +#define WAVE521_CODE 0x5210
> +#define WAVE521C_CODE 0x521c
> +#define WAVE521C_DUAL_CODE 0x521d // wave521 dual core
> +#define WAVE521E1_CODE 0x5211
> +
> +#define PRODUCT_CODE_W_SERIES(x) ({ \
> + int c = x; \
> + ((c) == WAVE517_CODE || (c) == WAVE537_CODE || \
> + (c) == WAVE511_CODE || (c) == WAVE521_CODE || \
> + (c) == WAVE521E1_CODE || (c) == WAVE521C_CODE || \
> + (c) == WAVE521C_DUAL_CODE); \
> +})
> +
> +#define WAVE517_WORKBUF_SIZE (2 * 1024 * 1024)
> +#define WAVE521ENC_WORKBUF_SIZE (128 * 1024) //HEVC 128K, AVC 40K
> +#define WAVE521DEC_WORKBUF_SIZE (1784 * 1024)
> +
> +#define MAX_NUM_INSTANCE 32
> +
> +#define W5_MIN_ENC_PIC_WIDTH 256
> +#define W5_MIN_ENC_PIC_HEIGHT 128
> +#define W5_MAX_ENC_PIC_WIDTH 8192
> +#define W5_MAX_ENC_PIC_HEIGHT 8192
> +
> +// application specific configuration
> +#define VPU_ENC_TIMEOUT 60000
> +#define VPU_DEC_TIMEOUT 60000
> +#define VPU_BUSY_CHECK_TIMEOUT 10000
> +
> +#define HOST_ENDIAN VDI_128BIT_LITTLE_ENDIAN
> +#define VPU_FRAME_ENDIAN HOST_ENDIAN
> +#define VPU_STREAM_ENDIAN HOST_ENDIAN
> +#define VPU_USER_DATA_ENDIAN HOST_ENDIAN
> +#define VPU_SOURCE_ENDIAN HOST_ENDIAN
> +
> +// for WAVE encoder
> +#define USE_SRC_PRP_AXI 0
> +#define USE_SRC_PRI_AXI 1
> +#define DEFAULT_SRC_AXI USE_SRC_PRP_AXI
> +
> +/************************************************************************/
> +/* VPU COMMON MEMORY */
> +/************************************************************************/
> +#define VLC_BUF_NUM (3)
> +
> +#define COMMAND_QUEUE_DEPTH (4)
> +
> +#define W5_REMAP_INDEX0 0
> +#define W5_REMAP_INDEX1 1
> +#define W5_REMAP_MAX_SIZE (1024 * 1024)
> +
> +#define WAVE5_MAX_CODE_BUF_SIZE (2 * 1024 * 1024)
> +#define WAVE5_TEMPBUF_OFFSET WAVE5_MAX_CODE_BUF_SIZE
> +#define WAVE5_TEMPBUF_SIZE (1024 * 1024)
> +
> +#define SIZE_COMMON (WAVE5_MAX_CODE_BUF_SIZE + WAVE5_TEMPBUF_SIZE)
> +
> +//=====4. VPU REPORT MEMORY ======================//
> +
> +#define WAVE5_UPPER_PROC_AXI_ID 0x0
> +
> +#define WAVE5_PROC_AXI_ID 0x0
> +#define WAVE5_PRP_AXI_ID 0x0
> +#define WAVE5_FBD_Y_AXI_ID 0x0
> +#define WAVE5_FBC_Y_AXI_ID 0x0
> +#define WAVE5_FBD_C_AXI_ID 0x0
> +#define WAVE5_FBC_C_AXI_ID 0x0
> +#define WAVE5_SEC_AXI_ID 0x0
> +#define WAVE5_PRI_AXI_ID 0x0
> +
> +#endif /* _VPU_CONFIG_H_ */
> +
> diff --git a/drivers/staging/media/wave5/vpuerror.h b/drivers/staging/media/wave5/vpuerror.h
> new file mode 100644
> index 000000000000..0ece5bc517bd
> --- /dev/null
> +++ b/drivers/staging/media/wave5/vpuerror.h
> @@ -0,0 +1,455 @@
> +/* SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause) */
> +/*
> + * Wave5 series multi-standard codec IP - error values
> + *
> + * Copyright (C) 2021 CHIPS&MEDIA INC
> + */
> +
> +#ifndef ERROR_CODE_H_INCLUDED
> +#define ERROR_CODE_H_INCLUDED
> +
> +/*
> + * WAVE5
> + */
> +
> +/************************************************************************/
> +/* WAVE5 COMMON SYSTEM ERROR (FAIL_REASON) */
> +/************************************************************************/
> +#define WAVE5_SYSERR_QUEUEING_FAIL 0x00000001
> +#define WAVE5_SYSERR_ACCESS_VIOLATION_HW 0x00000040
> +#define WAVE5_SYSERR_BUS_ERROR 0x00000200
> +#define WAVE5_SYSERR_DOUBLE_FAULT 0x00000400
> +#define WAVE5_SYSERR_RESULT_NOT_READY 0x00000800
> +#define WAVE5_SYSERR_VPU_STILL_RUNNING 0x00001000
> +#define WAVE5_SYSERR_UNKNOWN_CMD 0x00002000
> +#define WAVE5_SYSERR_UNKNOWN_CODEC_STD 0x00004000
> +#define WAVE5_SYSERR_UNKNOWN_QUERY_OPTION 0x00008000
> +#define WAVE5_SYSERR_VLC_BUF_FULL 0x00010000
> +#define WAVE5_SYSERR_WATCHDOG_TIMEOUT 0x00020000
> +#define WAVE5_SYSERR_VCPU_TIMEOUT 0x00080000
> +#define WAVE5_SYSERR_TEMP_SEC_BUF_OVERFLOW 0x00200000
> +#define WAVE5_SYSERR_NEED_MORE_TASK_BUF 0x00400000
> +#define WAVE5_SYSERR_PRESCAN_ERR 0x00800000
> +#define WAVE5_SYSERR_ENC_GBIN_OVERCONSUME 0x01000000
> +#define WAVE5_SYSERR_ENC_MAX_ZERO_DETECT 0x02000000
> +#define WAVE5_SYSERR_ENC_LVL_FIRST_ERROR 0x04000000
> +#define WAVE5_SYSERR_ENC_EG_RANGE_OVER 0x08000000
> +#define WAVE5_SYSERR_ENC_IRB_FRAME_DROP 0x10000000
> +#define WAVE5_SYSERR_INPLACE_V 0x20000000
> +#define WAVE5_SYSERR_FATAL_VPU_HANGUP 0xf0000000
> +
> +/************************************************************************/
> +/* WAVE5 COMMAND QUEUE ERROR (FAIL_REASON) */
> +/************************************************************************/
> +#define WAVE5_CMDQ_ERR_NOT_QUEABLE_CMD 0x00000001
> +#define WAVE5_CMDQ_ERR_SKIP_MODE_ENABLE 0x00000002
> +#define WAVE5_CMDQ_ERR_INST_FLUSHING 0x00000003
> +#define WAVE5_CMDQ_ERR_INST_INACTIVE 0x00000004
> +#define WAVE5_CMDQ_ERR_QUEUE_FAIL 0x00000005
> +#define WAVE5_CMDQ_ERR_CMD_BUF_FULL 0x00000006
> +
> +/************************************************************************/
> +/* WAVE5 ERROR ON DECODER (ERR_INFO) */
> +/************************************************************************/
> +// HEVC
> +#define HEVC_SPSERR_SEQ_PARAMETER_SET_ID 0x00001000
> +#define HEVC_SPSERR_CHROMA_FORMAT_IDC 0x00001001
> +#define HEVC_SPSERR_PIC_WIDTH_IN_LUMA_SAMPLES 0x00001002
> +#define HEVC_SPSERR_PIC_HEIGHT_IN_LUMA_SAMPLES 0x00001003
> +#define HEVC_SPSERR_CONF_WIN_LEFT_OFFSET 0x00001004
> +#define HEVC_SPSERR_CONF_WIN_RIGHT_OFFSET 0x00001005
> +#define HEVC_SPSERR_CONF_WIN_TOP_OFFSET 0x00001006
> +#define HEVC_SPSERR_CONF_WIN_BOTTOM_OFFSET 0x00001007
> +#define HEVC_SPSERR_BIT_DEPTH_LUMA_MINUS8 0x00001008
> +#define HEVC_SPSERR_BIT_DEPTH_CHROMA_MINUS8 0x00001009
> +#define HEVC_SPSERR_LOG2_MAX_PIC_ORDER_CNT_LSB_MINUS4 0x0000100A
> +#define HEVC_SPSERR_SPS_MAX_DEC_PIC_BUFFERING 0x0000100B
> +#define HEVC_SPSERR_SPS_MAX_NUM_REORDER_PICS 0x0000100C
> +#define HEVC_SPSERR_SPS_MAX_LATENCY_INCREASE 0x0000100D
> +#define HEVC_SPSERR_LOG2_MIN_LUMA_CODING_BLOCK_SIZE_MINUS3 0x0000100E
> +#define HEVC_SPSERR_LOG2_DIFF_MAX_MIN_LUMA_CODING_BLOCK_SIZE 0x0000100F
> +#define HEVC_SPSERR_LOG2_MIN_TRANSFORM_BLOCK_SIZE_MINUS2 0x00001010
> +#define HEVC_SPSERR_LOG2_DIFF_MAX_MIN_TRANSFORM_BLOCK_SIZE 0x00001011
> +#define HEVC_SPSERR_MAX_TRANSFORM_HIERARCHY_DEPTH_INTER 0x00001012
> +#define HEVC_SPSERR_MAX_TRANSFORM_HIERARCHY_DEPTH_INTRA 0x00001013
> +#define HEVC_SPSERR_SCALING_LIST 0x00001014
> +#define HEVC_SPSERR_LOG2_DIFF_MIN_PCM_LUMA_CODING_BLOCK_SIZE_MINUS3 0x00001015
> +#define HEVC_SPSERR_LOG2_DIFF_MAX_MIN_PCM_LUMA_CODING_BLOCK_SIZE 0x00001016
> +#define HEVC_SPSERR_NUM_SHORT_TERM_REF_PIC_SETS 0x00001017
> +#define HEVC_SPSERR_NUM_LONG_TERM_REF_PICS_SPS 0x00001018
> +#define HEVC_SPSERR_GBU_PARSING_ERROR 0x00001019
> +#define HEVC_SPSERR_EXTENSION_FLAG 0x0000101A
> +#define HEVC_SPSERR_VUI_ERROR 0x0000101B
> +#define HEVC_SPSERR_ACTIVATE_SPS 0x0000101C
> +#define HEVC_SPSERR_PROFILE_SPACE 0x0000101D
> +#define HEVC_PPSERR_PPS_PIC_PARAMETER_SET_ID 0x00002000
> +#define HEVC_PPSERR_PPS_SEQ_PARAMETER_SET_ID 0x00002001
> +#define HEVC_PPSERR_NUM_REF_IDX_L0_DEFAULT_ACTIVE_MINUS1 0x00002002
> +#define HEVC_PPSERR_NUM_REF_IDX_L1_DEFAULT_ACTIVE_MINUS1 0x00002003
> +#define HEVC_PPSERR_INIT_QP_MINUS26 0x00002004
> +#define HEVC_PPSERR_DIFF_CU_QP_DELTA_DEPTH 0x00002005
> +#define HEVC_PPSERR_PPS_CB_QP_OFFSET 0x00002006
> +#define HEVC_PPSERR_PPS_CR_QP_OFFSET 0x00002007
> +#define HEVC_PPSERR_NUM_TILE_COLUMNS_MINUS1 0x00002008
> +#define HEVC_PPSERR_NUM_TILE_ROWS_MINUS1 0x00002009
> +#define HEVC_PPSERR_COLUMN_WIDTH_MINUS1 0x0000200A
> +#define HEVC_PPSERR_ROW_HEIGHT_MINUS1 0x0000200B
> +#define HEVC_PPSERR_PPS_BETA_OFFSET_DIV2 0x0000200C
> +#define HEVC_PPSERR_PPS_TC_OFFSET_DIV2 0x0000200D
> +#define HEVC_PPSERR_SCALING_LIST 0x0000200E
> +#define HEVC_PPSERR_LOG2_PARALLEL_MERGE_LEVEL_MINUS2 0x0000200F
> +#define HEVC_PPSERR_NUM_TILE_COLUMNS_RANGE_OUT 0x00002010
> +#define HEVC_PPSERR_NUM_TILE_ROWS_RANGE_OUT 0x00002011
> +#define HEVC_PPSERR_MORE_RBSP_DATA_ERROR 0x00002012
> +#define HEVC_PPSERR_PPS_PIC_PARAMETER_SET_ID_RANGE_OUT 0x00002013
> +#define HEVC_PPSERR_PPS_SEQ_PARAMETER_SET_ID_RANGE_OUT 0x00002014
> +#define HEVC_PPSERR_NUM_REF_IDX_L0_DEFAULT_ACTIVE_MINUS1_RANGE_OUT 0x00002015
> +#define HEVC_PPSERR_NUM_REF_IDX_L1_DEFAULT_ACTIVE_MINUS1_RANGE_OUT 0x00002016
> +#define HEVC_PPSERR_PPS_CB_QP_OFFSET_RANGE_OUT 0x00002017
> +#define HEVC_PPSERR_PPS_CR_QP_OFFSET_RANGE_OUT 0x00002018
> +#define HEVC_PPSERR_COLUMN_WIDTH_MINUS1_RANGE_OUT 0x00002019
> +#define HEVC_PPSERR_ROW_HEIGHT_MINUS1_RANGE_OUT 0x00002020
> +#define HEVC_PPSERR_PPS_BETA_OFFSET_DIV2_RANGE_OUT 0x00002021
> +#define HEVC_PPSERR_PPS_TC_OFFSET_DIV2_RANGE_OUT 0x00002022
> +#define HEVC_SHERR_SLICE_PIC_PARAMETER_SET_ID 0x00003000
> +#define HEVC_SHERR_ACTIVATE_PPS 0x00003001
> +#define HEVC_SHERR_ACTIVATE_SPS 0x00003002
> +#define HEVC_SHERR_SLICE_TYPE 0x00003003
> +#define HEVC_SHERR_FIRST_SLICE_IS_DEPENDENT_SLICE 0x00003004
> +#define HEVC_SHERR_SHORT_TERM_REF_PIC_SET_SPS_FLAG 0x00003005
> +#define HEVC_SHERR_SHORT_TERM_REF_PIC_SET 0x00003006
> +#define HEVC_SHERR_SHORT_TERM_REF_PIC_SET_IDX 0x00003007
> +#define HEVC_SHERR_NUM_LONG_TERM_SPS 0x00003008
> +#define HEVC_SHERR_NUM_LONG_TERM_PICS 0x00003009
> +#define HEVC_SHERR_LT_IDX_SPS_IS_OUT_OF_RANGE 0x0000300A
> +#define HEVC_SHERR_DELTA_POC_MSB_CYCLE_LT 0x0000300B
> +#define HEVC_SHERR_NUM_REF_IDX_L0_ACTIVE_MINUS1 0x0000300C
> +#define HEVC_SHERR_NUM_REF_IDX_L1_ACTIVE_MINUS1 0x0000300D
> +#define HEVC_SHERR_COLLOCATED_REF_IDX 0x0000300E
> +#define HEVC_SHERR_PRED_WEIGHT_TABLE 0x0000300F
> +#define HEVC_SHERR_FIVE_MINUS_MAX_NUM_MERGE_CAND 0x00003010
> +#define HEVC_SHERR_SLICE_QP_DELTA 0x00003011
> +#define HEVC_SHERR_SLICE_QP_DELTA_IS_OUT_OF_RANGE 0x00003012
> +#define HEVC_SHERR_SLICE_CB_QP_OFFSET 0x00003013
> +#define HEVC_SHERR_SLICE_CR_QP_OFFSET 0x00003014
> +#define HEVC_SHERR_SLICE_BETA_OFFSET_DIV2 0x00003015
> +#define HEVC_SHERR_SLICE_TC_OFFSET_DIV2 0x00003016
> +#define HEVC_SHERR_NUM_ENTRY_POINT_OFFSETS 0x00003017
> +#define HEVC_SHERR_OFFSET_LEN_MINUS1 0x00003018
> +#define HEVC_SHERR_SLICE_SEGMENT_HEADER_EXTENSION_LENGTH 0x00003019
> +#define HEVC_SHERR_WRONG_POC_IN_STILL_PICTURE_PROFILE 0x0000301A
> +#define HEVC_SHERR_SLICE_TYPE_ERROR_IN_STILL_PICTURE_PROFILE 0x0000301B
> +#define HEVC_SHERR_PPS_ID_NOT_EQUAL_PREV_VALUE 0x0000301C
> +#define HEVC_SPECERR_OVER_PICTURE_WIDTH_SIZE 0x00004000
> +#define HEVC_SPECERR_OVER_PICTURE_HEIGHT_SIZE 0x00004001
> +#define HEVC_SPECERR_OVER_CHROMA_FORMAT 0x00004002
> +#define HEVC_SPECERR_OVER_BIT_DEPTH 0x00004003
> +#define HEVC_SPECERR_OVER_BUFFER_OVER_FLOW 0x00004004
> +#define HEVC_SPECERR_OVER_WRONG_BUFFER_ACCESS 0x00004005
> +#define HEVC_ETCERR_INIT_SEQ_SPS_NOT_FOUND 0x00005000
> +#define HEVC_ETCERR_DEC_PIC_VCL_NOT_FOUND 0x00005001
> +#define HEVC_ETCERR_NO_VALID_SLICE_IN_AU 0x00005002
> +#define HEVC_ETCERR_INPLACE_V 0x0000500F
> +
> +// AVC
> +#define AVC_SPSERR_SEQ_PARAMETER_SET_ID 0x00001000
> +#define AVC_SPSERR_CHROMA_FORMAT_IDC 0x00001001
> +#define AVC_SPSERR_PIC_WIDTH_IN_LUMA_SAMPLES 0x00001002
> +#define AVC_SPSERR_PIC_HEIGHT_IN_LUMA_SAMPLES 0x00001003
> +#define AVC_SPSERR_CONF_WIN_LEFT_OFFSET 0x00001004
> +#define AVC_SPSERR_CONF_WIN_RIGHT_OFFSET 0x00001005
> +#define AVC_SPSERR_CONF_WIN_TOP_OFFSET 0x00001006
> +#define AVC_SPSERR_CONF_WIN_BOTTOM_OFFSET 0x00001007
> +#define AVC_SPSERR_BIT_DEPTH_LUMA_MINUS8 0x00001008
> +#define AVC_SPSERR_BIT_DEPTH_CHROMA_MINUS8 0x00001009
> +#define AVC_SPSERR_SPS_MAX_DEC_PIC_BUFFERING 0x0000100B
> +#define AVC_SPSERR_SPS_MAX_NUM_REORDER_PICS 0x0000100C
> +#define AVC_SPSERR_SCALING_LIST 0x00001014
> +#define AVC_SPSERR_GBU_PARSING_ERROR 0x00001019
> +#define AVC_SPSERR_VUI_ERROR 0x0000101B
> +#define AVC_SPSERR_ACTIVATE_SPS 0x0000101C
> +#define AVC_PPSERR_PPS_PIC_PARAMETER_SET_ID 0x00002000
> +#define AVC_PPSERR_PPS_SEQ_PARAMETER_SET_ID 0x00002001
> +#define AVC_PPSERR_NUM_REF_IDX_L0_DEFAULT_ACTIVE_MINUS1 0x00002002
> +#define AVC_PPSERR_NUM_REF_IDX_L1_DEFAULT_ACTIVE_MINUS1 0x00002003
> +#define AVC_PPSERR_INIT_QP_MINUS26 0x00002004
> +#define AVC_PPSERR_PPS_CB_QP_OFFSET 0x00002006
> +#define AVC_PPSERR_PPS_CR_QP_OFFSET 0x00002007
> +#define AVC_PPSERR_SCALING_LIST 0x0000200E
> +#define AVC_PPSERR_MORE_RBSP_DATA_ERROR 0x00002012
> +#define AVC_PPSERR_PPS_PIC_PARAMETER_SET_ID_RANGE_OUT 0x00002013
> +#define AVC_PPSERR_PPS_SEQ_PARAMETER_SET_ID_RANGE_OUT 0x00002014
> +#define AVC_PPSERR_NUM_REF_IDX_L0_DEFAULT_ACTIVE_MINUS1_RANGE_OUT 0x00002015
> +#define AVC_PPSERR_NUM_REF_IDX_L1_DEFAULT_ACTIVE_MINUS1_RANGE_OUT 0x00002016
> +#define AVC_PPSERR_PPS_CB_QP_OFFSET_RANGE_OUT 0x00002017
> +#define AVC_PPSERR_PPS_CR_QP_OFFSET_RANGE_OUT 0x00002018
> +#define AVC_SHERR_SLICE_PIC_PARAMETER_SET_ID 0x00003000
> +#define AVC_SHERR_ACTIVATE_PPS 0x00003001
> +#define AVC_SHERR_ACTIVATE_SPS 0x00003002
> +#define AVC_SHERR_SLICE_TYPE 0x00003003
> +#define AVC_SHERR_FIRST_MB_IN_SLICE 0x00003004
> +#define AVC_SHERR_RPLM 0x00003006
> +#define AVC_SHERR_LT_IDX_SPS_IS_OUT_OF_RANGE 0x0000300A
> +#define AVC_SHERR_NUM_REF_IDX_L0_ACTIVE_MINUS1 0x0000300C
> +#define AVC_SHERR_NUM_REF_IDX_L1_ACTIVE_MINUS1 0x0000300D
> +#define AVC_SHERR_PRED_WEIGHT_TABLE 0x0000300F
> +#define AVC_SHERR_SLICE_QP_DELTA 0x00003011
> +#define AVC_SHERR_SLICE_BETA_OFFSET_DIV2 0x00003015
> +#define AVC_SHERR_SLICE_TC_OFFSET_DIV2 0x00003016
> +#define AVC_SHERR_DISABLE_DEBLOCK_FILTER_IDC 0x00003017
> +#define AVC_SPECERR_OVER_PICTURE_WIDTH_SIZE 0x00004000
> +#define AVC_SPECERR_OVER_PICTURE_HEIGHT_SIZE 0x00004001
> +#define AVC_SPECERR_OVER_CHROMA_FORMAT 0x00004002
> +#define AVC_SPECERR_OVER_BIT_DEPTH 0x00004003
> +#define AVC_SPECERR_OVER_BUFFER_OVER_FLOW 0x00004004
> +#define AVC_SPECERR_OVER_WRONG_BUFFER_ACCESS 0x00004005
> +#define AVC_ETCERR_INIT_SEQ_SPS_NOT_FOUND 0x00005000
> +#define AVC_ETCERR_DEC_PIC_VCL_NOT_FOUND 0x00005001
> +#define AVC_ETCERR_NO_VALID_SLICE_IN_AU 0x00005002
> +#define AVC_ETCERR_ASO 0x00005004
> +#define AVC_ETCERR_FMO 0x00005005
> +#define AVC_ETCERR_INPLACE_V 0x0000500F
> +
> +// AV1
> +#define AV1_SPSERR_MAX_FRAME_WIDTH 0x00001001
> +#define AV1_SPSERR_MAX_FRAME_HEIGHT 0x00001002
> +#define AV1_SPSERR_ID_LEN_EXCEED_16 0x00001004
> +#define AV1_SPSERR_NOT_FOUND_FIRST_SPS 0x0000100A
> +#define AV1_SPSERR_SEQ_PROFILE 0x0000100B
> +#define AV1_SPSERR_STILL_PICTURE 0x0000100C
> +#define AV1_PPSERR_FRAME_SIZE_WIDTH 0x00002001
> +#define AV1_PPSERR_FRAME_SIZE_HEIGHT 0x00002002
> +#define AV1_PPSERR_SEEN_FRAME_HEADER 0x00002003
> +#define AV1_PPSERR_REF_VALID 0x00002007
> +#define AV1_PPSERR_LAST_ORDER_HINT 0x0000200B
> +#define AV1_PPSERR_GOLD_ORDER_HINT 0x0000200C
> +#define AV1_PPSERR_CODED_LOSSLESS_DELTA_Q 0x0000200E
> +#define AV1_PPSERR_FILM_GRAIN_PARAM_REF_IDX 0x0000200F
> +#define AV1_PPSERR_SEQ_CHANGE_BIT_DEPTH 0x00002010
> +#define AV1_PPSERR_SEQ_CHANGE_PROFILE 0x00002012
> +#define AV1_PPSERR_SEQ_CHANGE_DETECTED_INTER 0x00002013
> +#define AV1_PPSERR_NUM_Y_POINTS 0x00002014
> +#define AV1_PPSERR_POINT_Y_VALUE 0x00002015
> +#define AV1_PPSERR_NUM_CB_POINTS 0x00002016
> +#define AV1_PPSERR_POINT_CB_VALUE 0x00002017
> +#define AV1_PPSERR_NUM_CR_POINTS 0x00002018
> +#define AV1_PPSERR_POINT_CR_VALUE 0x00002019
> +#define AV1_PPSERR_SUBSAMPLING_FORMAT 0x0000201A
> +#define AV1_FRAMEERR_TILE_START_END_PRESENT 0x00003001
> +#define AV1_FRAMEERR_SHOW_EXISING_FRAME 0x00003002
> +#define AV1_TGERR_NUM_TILES_ZERO 0x00004001
> +#define AV1_TGERR_START_NOT_TILE_NUM 0x00004002
> +#define AV1_TGERR_END_LESS_THAN_TG_START 0x00004003
> +#define AV1_TGERR_TILE_SIZE_GREATER_THAN_32M 0x00004004
> +#define AV1_SPECERR_OVER_MAX_H_SIZE 0x00005001
> +#define AV1_SPECERR_OVER_MAX_V_SIZE 0x00005002
> +#define AV1_SPECERR_OVER_MAX_TILE_COLS 0x00005004
> +#define AV1_SPECERR_OVER_MAX_TILE_ROWS 0x00005005
> +#define AV1_SPECERR_OVER_TILE_SIZE 0x00005006
> +#define AV1_SPECERR_OVER_NUMTILES_GT_MAX_TILES 0x00005007
> +#define AV1_ETCERR_OBU_HEADER 0x00006001
> +#define AV1_ETCERR_OBU_SIZE 0x00006003
> +#define AV1_ETCERR_OVERCONSUME 0x00006004
> +#define AV1_ETCERR_NOT_SUPPORTED_FEATURE 0x00006005
> +#define AV1_ETCERR_RESILIENCE_FAIL 0x00006006
> +
> +// VP9
> +#define VP9_PICERR_FRAME_MARKER 0x00001000
> +#define VP9_PICERR_PROFILE 0x00001001
> +#define VP9_PICERR_SYNC_CODE 0x00001002
> +#define VP9_PICERR_PROFILE_COLOR_SAMPLE 0x00001003
> +#define VP9_PICERR_FRAME_SIZE 0x00001004
> +#define VP9_PICERR_SEGMENT 0x00001005
> +#define VP9_PICERR_TILE 0x00001006
> +#define VP9_PICERR_PROFILE_COMP_MISMATCH_WITH_REF 0x00001007
> +#define VP9_PICERR_COMP_DAT_OVER_CS 0x00001008
> +#define VP9_PICERR_COMP_TRAILING_BIT_ERR 0x00001009
> +#define VP9_PICERR_MARKER 0x0000100A
> +#define VP9_PICERR_NOT_EXIST_REF_FRAME 0x0000100B
> +#define VP9_PICERR_UNINIT_CTX 0x0000100C
> +#define VP9_PICERR_FRAME_SIZE_LIMIT_BY_REF 0x0000100D
> +#define VP9_SPECERR_OVER_PICTURE_WIDTH_SIZE 0x00004000
> +#define VP9_SPECERR_OVER_PICTURE_HEIGHT_SIZE 0x00004001
> +#define VP9_SPECERR_OVER_CHROMA_FORMAT 0x00004002
> +#define VP9_SPECERR_OVER_BIT_DEPTH 0x00004003
> +#define VP9_ETCERR_INIT_KEY_FRAME_NOT_FOUND 0x00005000
> +#define VP9_ETCERR_FORBIDDEN_BS_MODE 0x00005004
> +#define VP9_ETCERR_SPP_OVER_CS_AU 0x00005005
> +
> +// AVS2
> +#define AVS2_SPSERR_PROFILE_ID 0x00001000
> +#define AVS2_SPSERR_LEVEL_ID 0x00001001
> +#define AVS2_SPSERR_HORIZONTAL_SIZE 0x00001002
> +#define AVS2_SPSERR_VERTICAL_SIZE 0x00001003
> +#define AVS2_SPSERR_CHROMA_FORMAT 0x00001004
> +#define AVS2_SPSERR_SAMPLE_PRECISION 0x00001005
> +#define AVS2_SPSERR_ENCODING_PRECISION 0x00001006
> +#define AVS2_SPSERR_LCU_SIZE 0x00001007
> +#define AVS2_SPSERR_WEIGHT_QUANT_MATRIX 0x00001008
> +#define AVS2_SPSERR_NUM_OF_RCS 0x00001009
> +#define AVS2_SPSERR_REFERENCE_CONFIGURATION_SET 0x0000100A
> +#define AVS2_SPSERR_OUTPUT_REORDER_DELAY 0x0000100B
> +#define AVS2_PPSERR_BBV_DELAY 0x00002000
> +#define AVS2_PPSERR_TIME_CODE 0x00002001
> +#define AVS2_PPSERR_DECODE_ORDER_INDEX 0x00002002
> +#define AVS2_PPSERR_TEMPORAL_ID 0x00002003
> +#define AVS2_PPSERR_PICTURE_OUTPUT_DELAY 0x00002004
> +#define AVS2_PPSERR_RCS_INDEX 0x00002005
> +#define AVS2_PPSERR_REFERENCE_CONFIGURATION_SET 0x00002006
> +#define AVS2_PPSERR_BBV_CHECK_TIMES 0x00002007
> +#define AVS2_PPSERR_PICTURE_QP 0x00002008
> +#define AVS2_PPSERR_ALPHA_C_OFFSET 0x00002009
> +#define AVS2_PPSERR_BETA_OFFSET 0x0000200A
> +#define AVS2_PPSERR_CHROMA_QUANT_PARAM_DELTA_CB 0x0000200B
> +#define AVS2_PPSERR_CHROMA_QUANT_PARAM_DELTA_CR 0x0000200C
> +#define AVS2_PPSERR_WEIGHT_QUANT_PARAM_DELTA1 0x0000200D
> +#define AVS2_PPSERR_WEIGHT_QUANT_PARAM_DELTA2 0x0000200E
> +#define AVS2_PPSERR_PICTURE_CODING_TYPE 0x0000200F
> +#define AVS2_PPSERR_ALF_FILTER_NUM_MINUS1 0x00002010
> +#define AVS2_PPSERR_ALF_REGION_DISTANCE 0x00002011
> +#define AVS2_PPSERR_ALF_COEFF_LUMA 0x00002012
> +#define AVS2_PPSERR_ALF_COEFF_CHROMA_CB 0x00002013
> +#define AVS2_PPSERR_ALF_COEFF_CHROMA_CR 0x00002014
> +#define AVS2_SHERR_SLICE_VERTICAL_POSITION 0x00003000
> +#define AVS2_SHERR_SLICE_VERTICAL_POSITION_EXTENSION 0x00003001
> +#define AVS2_SHERR_SLICE_HORIZONTAL_POSITION 0x00003002
> +#define AVS2_SHERR_SLICE_HORIZONTAL_POSITION_EXTENSION 0x00003003
> +#define AVS2_SHERR_FIXED_SLICE_QP 0x00003004
> +#define AVS2_SHERR_SLICE_QP 0x00003005
> +#define AVS2_SHERR_SLICE_SAO_ENABLE_FLAG 0x00003006
> +#define AVS2_SHERR_AEC_BYTE_ALIGNMENT_BIT 0x00003007
> +#define AVS2_SHERR_STREAM_END 0x00003008
> +#define AVS2_SPECERR_OVER_PICTURE_WIDTH_SIZE 0x00004000
> +#define AVS2_SPECERR_OVER_PICTURE_HEIGHT_SIZE 0x00004001
> +#define AVS2_SPECERR_OVER_CHROMA_FORMAT 0x00004002
> +#define AVS2_SPECERR_OVER_BIT_DEPTH 0x00004003
> +#define AVS2_SPECERR_OVER_REF_TEMPORAL_ID 0x00004004
> +#define AVS2_ETCERR_SPS_NOT_FOUND 0x00005000
> +#define AVS2_ETCERR_DEC_PIC_VCL_NOT_FOUND 0x00005001
> +#define AVS2_ETCERR_NO_VALID_SLICE_IN_AU 0x00005002
> +#define AVS2_ETCERR_PPS_ERROR 0x00005003
> +#define AVS2_ETCERR_SLICE_NUM_OVERFLOW 0x00005004
> +
> +/************************************************************************/
> +/* WAVE5 WARNING ON DECODER (WARN_INFO) */
> +/************************************************************************/
> +// HEVC
> +#define HEVC_SPSWARN_MAX_SUB_LAYERS_MINUS1 0x00000001
> +#define HEVC_SPSWARN_GENERAL_RESERVED_ZERO_44BITS 0x00000002
> +#define HEVC_SPSWARN_RESERVED_ZERO_2BITS 0x00000004
> +#define HEVC_SPSWARN_SUB_LAYER_RESERVED_ZERO_44BITS 0x00000008
> +#define HEVC_SPSWARN_GENERAL_LEVEL_IDC 0x00000010
> +#define HEVC_SPSWARN_SPS_MAX_DEC_PIC_BUFFERING_VALUE_OVER 0x00000020
> +#define HEVC_SPSWARN_RBSP_TRAILING_BITS 0x00000040
> +#define HEVC_SPSWARN_ST_RPS_UE_ERROR 0x00000080
> +#define HEVC_SPSWARN_EXTENSION_FLAG 0x01000000
> +#define HEVC_SPSWARN_REPLACED_WITH_PREV_SPS 0x02000000
> +#define HEVC_PPSWARN_RBSP_TRAILING_BITS 0x00000100
> +#define HEVC_PPSWARN_REPLACED_WITH_PREV_PPS 0x00000200
> +#define HEVC_SHWARN_FIRST_SLICE_SEGMENT_IN_PIC_FLAG 0x00001000
> +#define HEVC_SHWARN_NO_OUTPUT_OF_PRIOR_PICS_FLAG 0x00002000
> +#define HEVC_SHWARN_PIC_OUTPUT_FLAG 0x00004000
> +#define HEVC_SHWARN_DUPLICATED_SLICE_SEGMENT 0x00008000
> +#define HEVC_ETCWARN_INIT_SEQ_VCL_NOT_FOUND 0x00010000
> +#define HEVC_ETCWARN_MISSING_REFERENCE_PICTURE 0x00020000
> +#define HEVC_ETCWARN_WRONG_TEMPORAL_ID 0x00040000
> +#define HEVC_ETCWARN_ERROR_PICTURE_IS_REFERENCED 0x00080000
> +#define HEVC_SPECWARN_OVER_PROFILE 0x00100000
> +#define HEVC_SPECWARN_OVER_LEVEL 0x00200000
> +#define HEVC_PRESWARN_PARSING_ERR 0x04000000
> +#define HEVC_PRESWARN_MVD_OUT_OF_RANGE 0x08000000
> +#define HEVC_PRESWARN_CU_QP_DELTA_VAL_OUT_OF_RANGE 0x09000000
> +#define HEVC_PRESWARN_COEFF_LEVEL_REMAINING_OUT_OF_RANGE 0x0A000000
> +#define HEVC_PRESWARN_PCM_ERR 0x0B000000
> +#define HEVC_PRESWARN_OVERCONSUME 0x0C000000
> +#define HEVC_PRESWARN_END_OF_SUBSET_ONE_BIT_ERR 0x10000000
> +#define HEVC_PRESWARN_END_OF_SLICE_SEGMENT_FLAG 0x20000000
> +
> +// AVC
> +#define AVC_SPSWARN_RESERVED_ZERO_2BITS 0x00000004
> +#define AVC_SPSWARN_GENERAL_LEVEL_IDC 0x00000010
> +#define AVC_SPSWARN_RBSP_TRAILING_BITS 0x00000040
> +#define AVC_PPSWARN_RBSP_TRAILING_BITS 0x00000100
> +#define AVC_SHWARN_NO_OUTPUT_OF_PRIOR_PICS_FLAG 0x00002000
> +#define AVC_ETCWARN_INIT_SEQ_VCL_NOT_FOUND 0x00010000
> +#define AVC_ETCWARN_MISSING_REFERENCE_PICTURE 0x00020000
> +#define AVC_ETCWARN_ERROR_PICTURE_IS_REFERENCED 0x00080000
> +#define AVC_SPECWARN_OVER_PROFILE 0x00100000
> +#define AVC_SPECWARN_OVER_LEVEL 0x00200000
> +#define AVC_PRESWARN_MVD_RANGE_OUT 0x00400000
> +#define AVC_PRESWARN_MB_QPD_RANGE_OUT 0x00500000
> +#define AVC_PRESWARN_COEFF_RANGE_OUT 0x00600000
> +#define AVC_PRESWARN_MV_RANGE_OUT 0x00700000
> +#define AVC_PRESWARN_MB_SKIP_RUN_RANGE_OUT 0x00800000
> +#define AVC_PRESWARN_MB_TYPE_RANGE_OUT 0x00900000
> +#define AVC_PRESWARN_SUB_MB_TYPE_RANGE_OUT 0x00A00000
> +#define AVC_PRESWARN_CBP_RANGE_OUT 0x00B00000
> +#define AVC_PRESWARN_INTRA_CHROMA_PRED_MODE_RANGE_OUT 0x00C00000
> +#define AVC_PRESWARN_REF_IDX_RANGE_OUT 0x00D00000
> +#define AVC_PRESWARN_COEFF_TOKEN_RANGE_OUT 0x00E00000
> +#define AVC_PRESWARN_TOTAL_ZERO_RANGE_OUT 0x00F00000
> +#define AVC_PRESWARN_RUN_BEFORE_RANGE_OUT 0x01000000
> +#define AVC_PRESWARN_OVERCONSUME 0x01100000
> +#define AVC_PRESWARN_MISSING_SLICE 0x01200000
> +
> +// AV1
> +#define AV1_SPSWARN_OBU_EXTENTION_FLAG_ZERO 0x00001000
> +#define AV1_SPSWARN_DUPLICATE_OPERATING_POINT_IDX 0x00001001
> +#define AV1_SPSWARN_MC_IDENTIY_SUBSAMPLING_X 0x00001002
> +#define AV1_PPSWARN_MC_IDENTIY_SUBSAMPLING_Y 0x00001003
> +#define AV1_SPSWARN_NUM_UNITS_IN_DISPLAY_TICK 0x00001004
> +#define AV1_SPSWARN_TIME_SCALE_ZERO 0x00001005
> +#define AV1_SPSWARN_NUM_TICKS_PER_PICTURE 0x00001006
> +#define AV1_PPSWARN_TILE_WIDTH 0x00002001
> +#define AV1_PPSWARN_TILE_HEIGHT 0x00002002
> +#define AV1_PPSWARN_SHOW_EXISTING_KEY_FRAME_OUTPUT 0x00002004
> +#define AV1_PPSWARN_DIFF_FRAME_ID 0x00002008
> +#define AV1_PPSWARN_CURRENT_FRAME_ID 0x00002010
> +#define AV1_PPSWARN_REFRESH_FRAME_FLAGS 0x00002020
> +#define AV1_PPSWARN_DISPLAY_ID 0x00002040
> +#define AV1_PPSWARN_PREV_FRAME_SHOWABLE_FLAG_ZERO 0x00002080
> +#define AV1_PPSWARN_EXPECTED_FRAME_ID 0x00002100
> +#define AV1_SPECWARN_OVER_MAX_TILE_AREA_SB 0x00005000
> +#define AV1_SPECWARN_OVER_MAX_PIC_SIZE 0x00005001
> +#define AV1_ETCWARN_OBU_EXTENTION_FLAG 0x00006000
> +#define AV1_TGWARN_TRAIL_BIT_POS 0x00400000
> +#define AV1_TGWARN_TRAIL_PAD_BIT 0x00800000
> +#define AV1_TGWARN_SYM_MAX_OVER 0x01000000
> +#define AV1_TGWARN_EXP_GOLB_OVER 0x02000000
> +#define AV1_TGWARN_MV_NOT_VAILD 0x04000000
> +
> +// VP9
> +#define VP9_PICWARN_COLOR_SPACE_MISMATCH_WITH_REF 0x00001000
> +#define VP9_PRESWARN_OVERCONSUME 0x00400000
> +#define VP9_PRESWARN_TRAILING_BITS 0x00800000
> +#define VP9_PRESWARN_MARKER 0x01000000
> +#define VP9_PRESWARN_MV_RANGE_OVER 0x02000000
> +#define VP9_PRESWARN_MISIZE_SEG_LVL_ACTIVE 0x04000000
> +
> +// AVS2
> +#define AVS2_ETCWARN_INIT_SEQ_VCL_NOT_FOUND 0x00010000
> +#define AVS2_ETCWARN_MISSING_REFERENCE_PICTURE 0x00020000
> +#define AVS2_ETCWARN_WRONG_TEMPORAL_ID 0x00040000
> +#define AVS2_ETCWARN_ERROR_PICTURE_IS_REFERENCED 0x00080000
> +#define AVS2_ETCWARN_REF_WRONG_TEMPORAL_ID 0x00080001
> +#define AVS2_ETCWARN_SPS_ERROR 0x00080002
> +
> +/************************************************************************/
> +/* WAVE5 ERROR ON ENCODER (ERR_INFO) */
> +/************************************************************************/
> +
> +/************************************************************************/
> +/* WAVE5 WARNING ON ENCODER (WARN_INFO) */
> +/************************************************************************/
> +#define WAVE5_ETCWARN_FORCED_SPLIT_BY_CU8X8 0x000000001
> +
> +/************************************************************************/
> +/* WAVE5 debug info (PRI_REASON) */
> +/************************************************************************/
> +#define WAVE5_DEC_VCORE_VCE_HANGUP 0x0001
> +#define WAVE5_DEC_VCORE_UNDETECTED_SYNTAX_ERR 0x0002
> +#define WAVE5_DEC_VCORE_MIB_BUSY 0x0003
> +#define WAVE5_DEC_VCORE_VLC_BUSY 0x0004
> +
> +#endif /* ERROR_CODE_H_INCLUDED */
> +
> diff --git a/drivers/staging/media/wave5/wave5-hw.c b/drivers/staging/media/wave5/wave5-hw.c
> new file mode 100644
> index 000000000000..5eb549037675
> --- /dev/null
> +++ b/drivers/staging/media/wave5/wave5-hw.c
> @@ -0,0 +1,3513 @@
> +// SPDX-License-Identifier: (GPL-2.0 OR BSD-3-Clause)
> +/*
> + * Wave5 series multi-standard codec IP - wave5 backend logic
> + *
> + * Copyright (C) 2021 CHIPS&MEDIA INC
> + */
> +
> +#include <linux/iopoll.h>
> +#include "vpu.h"
> +#include "wave5.h"
> +#include "wave5_regdefine.h"
> +
> +#define FIO_TIMEOUT 10000000
> +#define FIO_CTRL_READY BIT(31)
> +#define FIO_CTRL_WRITE BIT(16)
> +static void wave5_print_reg_err(struct vpu_device *vpu_dev, u32 reg_fail_reason)
> +{
> + char *caller = __builtin_return_address(0);
> + struct device *dev = vpu_dev->dev;
> + u32 reg_val;
> +
> + switch (reg_fail_reason) {
> + case WAVE5_SYSERR_QUEUEING_FAIL:
> + reg_val = vpu_read_reg(vpu_dev, W5_RET_QUEUE_FAIL_REASON);
> + dev_dbg(dev, "%s: queueing failure 0x%x\n", caller, reg_val);
> + break;
> + case WAVE5_SYSERR_RESULT_NOT_READY:
> + dev_err(dev, "%s: result not ready 0x%x\n", caller, reg_fail_reason);
> + break;
> + case WAVE5_SYSERR_ACCESS_VIOLATION_HW:
> + dev_err(dev, "%s: access violation 0x%x\n", caller, reg_fail_reason);
> + break;
> + case WAVE5_SYSERR_WATCHDOG_TIMEOUT:
> + dev_err(dev, "%s: watchdog timeout 0x%x\n", caller, reg_fail_reason);
> + break;
> + case WAVE5_SYSERR_BUS_ERROR:
> + dev_err(dev, "%s: bus error 0x%x\n", caller, reg_fail_reason);
> + break;
> + case WAVE5_SYSERR_DOUBLE_FAULT:
> + dev_err(dev, "%s: double fault 0x%x\n", caller, reg_fail_reason);
> + break;
> + case WAVE5_SYSERR_VPU_STILL_RUNNING:
> + dev_err(dev, "%s: still running 0x%x\n", caller, reg_fail_reason);
> + break;
> + case WAVE5_SYSERR_VLC_BUF_FULL:
> + dev_err(dev, "%s: vlc buf full 0x%x\n", caller, reg_fail_reason);
> + break;
> + default:
> + dev_err(dev, "%s: failure: 0x%x\n", caller, reg_fail_reason);
> + break;
> + }
> +}
> +
> +static unsigned int wave5_read_register(struct vpu_device *vpu_dev, unsigned int addr)
> +{
> + u32 ctrl;
> + int ret;
> +
> + ctrl = addr & 0xffff;
> + wave5_vdi_write_register(vpu_dev, W5_VPU_FIO_CTRL_ADDR, ctrl);
> + ret = read_poll_timeout(wave5_vdi_read_register, ctrl, ctrl & FIO_CTRL_READY,
> + 0, FIO_TIMEOUT, false, vpu_dev, W5_VPU_FIO_CTRL_ADDR);
> + if (ret)
> + return 0xffffffff;
> + return wave5_vdi_read_register(vpu_dev, W5_VPU_FIO_DATA);
> +}
> +
> +static void wave5_write_register(struct vpu_device *vpu_dev, unsigned int addr, unsigned int data)
> +{
> + unsigned int ctrl;
> +
> + wave5_vdi_write_register(vpu_dev, W5_VPU_FIO_DATA, data);
> + ctrl = FIO_CTRL_WRITE | (addr & 0xffff);
> + wave5_vdi_write_register(vpu_dev, W5_VPU_FIO_CTRL_ADDR, ctrl);
> + read_poll_timeout(wave5_vdi_read_register, ctrl, ctrl & FIO_CTRL_READY,
> + 0, FIO_TIMEOUT, false, vpu_dev, W5_VPU_FIO_CTRL_ADDR);
> +}
> +
> +static int wave5_wait_bus_busy(struct vpu_device *vpu_dev, int timeout, unsigned int addr)
> +{
> + u32 gdi_status_check_value = 0x3f;
> + u32 data;
> +
> + if (vpu_dev->product_code == WAVE521C_CODE ||
> + vpu_dev->product_code == WAVE521_CODE ||
> + vpu_dev->product_code == WAVE521E1_CODE)
> + gdi_status_check_value = 0x00ff1f3f;
> +
> + return read_poll_timeout(wave5_vdi_read_register, data, data == gdi_status_check_value,
> + 0, timeout * 1000, false, vpu_dev, addr);
> +}
> +
> +static int wave5_wait_vpu_busy(struct vpu_device *vpu_dev, int timeout, unsigned int addr)
> +{
> + u32 data;
> +
> + return read_poll_timeout(wave5_vdi_read_register, data, data == 0,
> + 0, timeout * 1000, false, vpu_dev, addr);
> +}
> +
> +static int wave5_wait_vcpu_bus_busy(struct vpu_device *vpu_dev, int timeout, unsigned int addr)
> +{
> + u32 data;
> +
> + return read_poll_timeout(wave5_read_register, data, data == 0,
> + 0, timeout * 1000, false, vpu_dev, addr);
> +}
> +
> +bool wave5_vpu_is_init(struct vpu_device *vpu_dev)
> +{
> + return vpu_read_reg(vpu_dev, W5_VCPU_CUR_PC) != 0;
> +}
> +
> +static struct vpu_buf *get_sram_memory(struct vpu_device *vpu_dev)
> +{
> + u32 sram_size = 0;
> + u32 val = vpu_read_reg(vpu_dev, W5_PRODUCT_NUMBER);
> +
> + if (vpu_dev->sram_buf.size)
> + return &vpu_dev->sram_buf;
> +
> + switch (val) {
> + case WAVE511_CODE:
> + /* 10bit profile : 8_kx8_k -> 129024, 4_kx2_k -> 64512
> + */
Move the close */ to the previous line:
/* 10bit profile : 8_kx8_k -> 129024, 4_kx2_k -> 64512 */
> + sram_size = 0x1F800;
> + break;
> + case WAVE517_CODE:
> + /* 10bit profile : 8_kx8_k -> 272384, 4_kx2_k -> 104448
> + */
Same everywhere.
> + sram_size = 0x42800;
> + break;
> + case WAVE537_CODE:
> + /* 10bit profile : 8_kx8_k -> 272384, 4_kx2_k -> 104448
> + */
> + sram_size = 0x42800;
> + break;
> + case WAVE521_CODE:
> + /* 10bit profile : 8_kx8_k -> 126976, 4_kx2_k -> 63488
> + */
> + sram_size = 0x1F000;
> + break;
> + case WAVE521E1_CODE:
> + /* 10bit profile : 8_kx8_k -> 126976, 4_kx2_k -> 63488
> + */
> + sram_size = 0x1F000;
> + break;
> + case WAVE521C_CODE:
> + /* 10bit profile : 8_kx8_k -> 129024, 4_kx2_k -> 64512
> + * NOTE: decoder > encoder
> + */
> + sram_size = 0x1F800;
> + break;
> + case WAVE521C_DUAL_CODE:
> + /* 10bit profile : 8_kx8_k -> 129024, 4_kx2_k -> 64512
> + * NOTE: decoder > encoder
> + */
> + sram_size = 0x1F800;
> + break;
> + default:
> + dev_err(vpu_dev->dev, "invalid check product_code(%x)\n", val);
> + break;
> + }
> +
> + // if we can know the sram address directly in vdi layer, we use it first for sdram address
> + vpu_dev->sram_buf.daddr = 0;
> + vpu_dev->sram_buf.size = sram_size;
> + vpu_dev->sram_buf.vaddr = NULL;
> +
> + return &vpu_dev->sram_buf;
> +}
> +
> +int32_t wave_vpu_get_product_id(struct vpu_device *vpu_dev)
> +{
> + u32 product_id = PRODUCT_ID_NONE;
> + u32 val;
> +
> + val = vpu_read_reg(vpu_dev, W5_PRODUCT_NUMBER);
> +
> + switch (val) {
> + case WAVE521_CODE:
> + product_id = PRODUCT_ID_521; break;
> + case WAVE521C_CODE:
> + product_id = PRODUCT_ID_521; break;
> + case WAVE511_CODE:
> + product_id = PRODUCT_ID_511; break;
> + case WAVE521C_DUAL_CODE:
> + product_id = PRODUCT_ID_521; break;
> + case WAVE517_CODE:
> + product_id = PRODUCT_ID_517; break;
> + case WAVE537_CODE:
> + product_id = PRODUCT_ID_517; break;
> + case WAVE521E1_CODE:
> + product_id = PRODUCT_ID_521; break;
> + default:
> + dev_err(vpu_dev->dev, "check product_id(%x)\n", val);
> + break;
> + }
> + return product_id;
> +}
> +
> +void wave5_bit_issue_command(struct vpu_instance *vpu_inst, uint32_t cmd)
> +{
> + u32 instance_index = 0;
> + u32 codec_mode = 0;
Delete unused initializers.
> +
> + instance_index = vpu_inst->id;
> + codec_mode = vpu_inst->std;
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_INSTANCE_INFO, (codec_mode << 16) |
> + (instance_index & 0xffff));
> + vpu_write_reg(vpu_inst->dev, W5_VPU_BUSY_STATUS, 1);
> + vpu_write_reg(vpu_inst->dev, W5_COMMAND, cmd);
> +
> + dev_dbg(vpu_inst->dev->dev, "cmd=0x%x\n", cmd);
> +
> + vpu_write_reg(vpu_inst->dev, W5_VPU_HOST_INT_REQ, 1);
> +}
> +
> +static int wave5_send_query(struct vpu_instance *vpu_inst, enum QUERY_OPT query_opt)
> +{
> + int ret;
> +
> + vpu_write_reg(vpu_inst->dev, W5_QUERY_OPTION, query_opt);
> + vpu_write_reg(vpu_inst->dev, W5_VPU_BUSY_STATUS, 1);
> + wave5_bit_issue_command(vpu_inst, W5_QUERY);
> +
> + ret = wave5_wait_vpu_busy(vpu_inst->dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret) {
> + dev_warn(vpu_inst->dev->dev, "query timed out. opt=0x%x\n", query_opt);
> + return ret;
> + }
> +
> + if (!vpu_read_reg(vpu_inst->dev, W5_RET_SUCCESS))
> + return -EIO;
> +
> + return 0;
> +}
> +
> +int setup_wave5_properties(struct device *dev)
> +{
> + struct vpu_device *vpu_dev = (struct vpu_device *)dev_get_drvdata(dev);
Delete cast.
> + struct vpu_attr *p_attr = &vpu_dev->attr;
> + u32 reg_val;
> + u8 *str;
> + int ret;
> + u32 hw_config_def0, hw_config_def1, hw_config_feature, hw_config_rev;
> +
> + vpu_write_reg(vpu_dev, W5_QUERY_OPTION, GET_VPU_INFO);
> + vpu_write_reg(vpu_dev, W5_VPU_BUSY_STATUS, 1);
> + vpu_write_reg(vpu_dev, W5_COMMAND, W5_QUERY);
> + vpu_write_reg(vpu_dev, W5_VPU_HOST_INT_REQ, 1);
> + ret = wave5_wait_vpu_busy(vpu_dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret)
> + return ret;
> +
> + if (!vpu_read_reg(vpu_dev, W5_RET_SUCCESS))
> + return -EIO;
> +
> + reg_val = vpu_read_reg(vpu_dev, W5_RET_PRODUCT_NAME);
> + str = (uint8_t *)®_val;
> + p_attr->product_name[0] = str[3];
> + p_attr->product_name[1] = str[2];
> + p_attr->product_name[2] = str[1];
> + p_attr->product_name[3] = str[0];
> + p_attr->product_name[4] = 0;
> +
> + p_attr->product_id = wave_vpu_get_product_id(vpu_dev);
> + p_attr->product_version = vpu_read_reg(vpu_dev, W5_RET_PRODUCT_VERSION);
> + p_attr->fw_version = vpu_read_reg(vpu_dev, W5_RET_FW_VERSION);
> + p_attr->customer_id = vpu_read_reg(vpu_dev, W5_RET_CUSTOMER_ID);
> + hw_config_def0 = vpu_read_reg(vpu_dev, W5_RET_STD_DEF0);
> + hw_config_def1 = vpu_read_reg(vpu_dev, W5_RET_STD_DEF1);
> + hw_config_feature = vpu_read_reg(vpu_dev, W5_RET_CONF_FEATURE);
> + hw_config_rev = vpu_read_reg(vpu_dev, W5_RET_CONF_REVISION);
> +
> + p_attr->support_hevc10bit_enc = (hw_config_feature >> 3) & 1;
> + if (hw_config_rev > 167455) //20190321
> + p_attr->support_avc10bit_enc = (hw_config_feature >> 11) & 1;
> + else
> + p_attr->support_avc10bit_enc = p_attr->support_hevc10bit_enc;
> +
> + p_attr->support_decoders = 0;
> + p_attr->support_encoders = 0;
> + if (p_attr->product_id == PRODUCT_ID_521) {
> + p_attr->support_decoders = (((hw_config_def1 >> 3) & 0x01) << STD_AVC);
The "p_attr->support_decoders = 0;" assignment means we can do |= here
and it aligns better.
> + p_attr->support_decoders |= (((hw_config_def1 >> 2) & 0x01) << STD_HEVC);
> + p_attr->support_encoders = (((hw_config_def1 >> 1) & 0x01) << STD_AVC);
> + p_attr->support_encoders |= (((hw_config_def1 >> 0) & 0x01) << STD_HEVC);
> + p_attr->support_dual_core = ((hw_config_def1 >> 26) & 0x01);
> + if (p_attr->support_dual_core || hw_config_rev < 206116) {
> + p_attr->support_decoders = (1 << STD_AVC);
It's hard for me to tell if this is intentional or not. We just
assigned "p_attr->support_decoders =" earlier and now we're doing a new
assignment? This will cause static checker warnings at the very least.
> + p_attr->support_decoders |= (1 << STD_HEVC);
> + p_attr->support_encoders = (1 << STD_AVC);
> + p_attr->support_encoders |= (1 << STD_HEVC);
> + }
> + }
> + if (p_attr->product_id == PRODUCT_ID_511) {
Make this an } else if { for easier reading.
> + p_attr->support_decoders = (1 << STD_HEVC);
> + p_attr->support_decoders |= (1 << STD_AVC);
> + }
> + if (p_attr->product_id == PRODUCT_ID_517) {
else if.
> + p_attr->support_decoders = (((hw_config_def1 >> 4) & 0x01) << STD_AV1);
> + p_attr->support_decoders |= (((hw_config_def1 >> 3) & 0x01) << STD_AVS2);
> + p_attr->support_decoders |= (((hw_config_def1 >> 2) & 0x01) << STD_AVC);
> + p_attr->support_decoders |= (((hw_config_def1 >> 1) & 0x01) << STD_VP9);
> + p_attr->support_decoders |= (((hw_config_def1 >> 0) & 0x01) << STD_HEVC);
> + }
> +
> + p_attr->support_backbone = (hw_config_def0 >> 16) & 0x01;
> + p_attr->support_vcpu_backbone = (hw_config_def0 >> 28) & 0x01;
> + p_attr->support_vcore_backbone = (hw_config_def0 >> 22) & 0x01;
> + p_attr->support_dual_core = (hw_config_def1 >> 26) & 0x01;
> + p_attr->support_endian_mask = (uint32_t)((1 << VDI_LITTLE_ENDIAN)
No need for the cast. The | goes on the first line: Use the BIT()
macro.
> + | (1 << VDI_BIG_ENDIAN)
> + | (1 << VDI_32BIT_LITTLE_ENDIAN) | (1 << VDI_32BIT_BIG_ENDIAN)
> + | (0xffffUL << 16));
Replace 0xffff magic number with a define.
p_attr->support_endian_mask = BIT(VDI_LITTLE_ENDIAN) |
BIT(VDI_BIG_ENDIAN) |
BIT(VDI_32BIT_LITTLE_ENDIAN) |
BIT(VDI_32BIT_BIG_ENDIAN) |
(0xffffUL << 16));
> + p_attr->support_bitstream_mode = (1 << BS_MODE_INTERRUPT) |
> + (1 << BS_MODE_PIC_END);
> +
> + return 0;
> +}
> +
> +int wave5_vpu_get_version(struct vpu_device *vpu_dev, uint32_t *version_info,
> + uint32_t *revision)
> +{
> + u32 reg_val;
> + int ret;
> +
> + vpu_write_reg(vpu_dev, W5_QUERY_OPTION, GET_VPU_INFO);
> + vpu_write_reg(vpu_dev, W5_VPU_BUSY_STATUS, 1);
> + vpu_write_reg(vpu_dev, W5_COMMAND, W5_QUERY);
> + vpu_write_reg(vpu_dev, W5_VPU_HOST_INT_REQ, 1);
> + ret = wave5_wait_vpu_busy(vpu_dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret) {
> + dev_err(vpu_dev->dev, "%s: timeout\n", __func__);
> + return ret;
> + }
> +
> + if (!vpu_read_reg(vpu_dev, W5_RET_SUCCESS)) {
> + dev_err(vpu_dev->dev, "%s: FALSE\n", __func__);
> + return -EIO;
> + }
> +
> + reg_val = vpu_read_reg(vpu_dev, W5_RET_FW_VERSION);
> + if (version_info)
> + *version_info = 0;
> + if (revision)
> + *revision = reg_val;
> +
> + return 0;
> +}
> +
> +int wave5_vpu_init(struct device *dev, void *firmware, uint32_t size)
> +{
> + struct vpu_buf *vb;
> + dma_addr_t code_base, temp_base;
> + u32 code_size, temp_size;
> + u32 i, reg_val, remap_size;
> + u32 hw_option = 0;
What is "hw_option"?
> + int ret = 0;
Delete unused initializer?
> + struct vpu_device *vpu_dev = dev_get_drvdata(dev);
> +
> + vb = &vpu_dev->common_mem;
> +
> + code_base = (dma_addr_t)vb->daddr;
Why is "vb->daddr" not just declared as dma_addr_t and remove all the
casting?
> + /* ALIGN TO 4KB */
> + code_size = (WAVE5_MAX_CODE_BUF_SIZE & ~0xfff);
> + if (code_size < size * 2)
Instead of passign firmware->size / 2, just pass firmware->size so we
don't have to do the multiply here. Better yet, just pass the whole
fw struct.
> + return -EINVAL;
> +
> + temp_base = (dma_addr_t)vb->daddr + WAVE5_TEMPBUF_OFFSET;
> + temp_size = WAVE5_TEMPBUF_SIZE;
> +
> + dev_info(dev, "\n_vpu INIT start!!!\n");
A newline at the start (or anywhere before the end) of the dev_info()
will break the output. Just delete this debug output. Look at dmesg
and delete any other accidental debug output.
> + vpu_write_mem(vpu_dev, vb, 0, (unsigned char *)firmware, size * 2,
> + VDI_128BIT_LITTLE_ENDIAN);
> +
> + reg_val = 0;
> + vpu_write_reg(vpu_dev, W5_PO_CONF, reg_val);
This "reg_val = 0;" does not help anyone.
> +
> + /* clear registers */
> +
> + for (i = W5_CMD_REG_BASE; i < W5_CMD_REG_END; i += 4)
> + vpu_write_reg(vpu_dev, i, 0x00);
> +
> + /* remap page size 0*/
> + remap_size = (W5_REMAP_MAX_SIZE >> 12) & 0x1ff;
> + reg_val = 0x80000000 | (WAVE5_UPPER_PROC_AXI_ID << 20) | (0 << 16)
> + | (W5_REMAP_INDEX0 << 12) | (1 << 11) | remap_size;
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_CTRL, reg_val);
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_VADDR, W5_REMAP_INDEX0 * W5_REMAP_MAX_SIZE);
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_PADDR, code_base + W5_REMAP_INDEX0 * W5_REMAP_MAX_SIZE);
> +
> + /* remap page size 1*/
> + remap_size = (W5_REMAP_MAX_SIZE >> 12) & 0x1ff;
> + reg_val = 0x80000000 | (WAVE5_UPPER_PROC_AXI_ID << 20) | (0 << 16)
> + | (W5_REMAP_INDEX1 << 12) | (1 << 11) | remap_size;
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_CTRL, reg_val);
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_VADDR, W5_REMAP_INDEX1 * W5_REMAP_MAX_SIZE);
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_PADDR, code_base + W5_REMAP_INDEX1 * W5_REMAP_MAX_SIZE);
> +
> + vpu_write_reg(vpu_dev, W5_ADDR_CODE_BASE, code_base);
> + vpu_write_reg(vpu_dev, W5_CODE_SIZE, code_size);
> + vpu_write_reg(vpu_dev, W5_CODE_PARAM, (WAVE5_UPPER_PROC_AXI_ID << 4) | 0);
> + vpu_write_reg(vpu_dev, W5_ADDR_TEMP_BASE, temp_base);
> + vpu_write_reg(vpu_dev, W5_TEMP_SIZE, temp_size);
> +
> + vpu_write_reg(vpu_dev, W5_HW_OPTION, hw_option);
> +
> + /* interrupt */
> + // encoder
> + reg_val = (1 << INT_WAVE5_ENC_SET_PARAM);
> + reg_val |= (1 << INT_WAVE5_ENC_PIC);
> + reg_val |= (1 << INT_WAVE5_BSBUF_FULL);
> + // decoder
> + reg_val |= (1 << INT_WAVE5_INIT_SEQ);
> + reg_val |= (1 << INT_WAVE5_DEC_PIC);
> + reg_val |= (1 << INT_WAVE5_BSBUF_EMPTY);
> + vpu_write_reg(vpu_dev, W5_VPU_VINT_ENABLE, reg_val);
> +
> + reg_val = vpu_read_reg(vpu_dev, W5_VPU_RET_VPU_CONFIG0);
> + if (((reg_val >> 16) & 1) == 1) {
No need for the == 1. Magic numbers also.
if ((reg_val >> 16) & 1) {
> + reg_val = ((WAVE5_PROC_AXI_ID << 28) |
> + (WAVE5_PRP_AXI_ID << 24) |
> + (WAVE5_FBD_Y_AXI_ID << 20) |
> + (WAVE5_FBC_Y_AXI_ID << 16) |
> + (WAVE5_FBD_C_AXI_ID << 12) |
> + (WAVE5_FBC_C_AXI_ID << 8) |
> + (WAVE5_PRI_AXI_ID << 4) |
> + (WAVE5_SEC_AXI_ID << 0));
Make this align nicely.
reg_val = ((WAVE5_PROC_AXI_ID << 28) |
(WAVE5_PRP_AXI_ID << 24) |
(WAVE5_FBD_Y_AXI_ID << 20) |
(WAVE5_FBC_Y_AXI_ID << 16) |
(WAVE5_FBD_C_AXI_ID << 12) |
(WAVE5_FBC_C_AXI_ID << 8) |
(WAVE5_PRI_AXI_ID << 4) |
(WAVE5_SEC_AXI_ID << 0));
> + wave5_write_register(vpu_dev, W5_BACKBONE_PROG_AXI_ID, reg_val);
> + }
> +
> + vb = get_sram_memory(vpu_dev);
> +
> + vpu_write_reg(vpu_dev, W5_ADDR_SEC_AXI, vb->daddr);
> + vpu_write_reg(vpu_dev, W5_SEC_AXI_SIZE, vb->size);
> + vpu_write_reg(vpu_dev, W5_VPU_BUSY_STATUS, 1);
> + vpu_write_reg(vpu_dev, W5_COMMAND, W5_INIT_VPU);
> + vpu_write_reg(vpu_dev, W5_VPU_REMAP_CORE_START, 1);
> + ret = wave5_wait_vpu_busy(vpu_dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret) {
> + dev_err(vpu_dev->dev, "VPU init(W5_VPU_REMAP_CORE_START) timeout\n");
> + return ret;
> + }
> +
> + reg_val = vpu_read_reg(vpu_dev, W5_RET_SUCCESS);
> + if (!reg_val) {
> + u32 reason_code = vpu_read_reg(vpu_dev, W5_RET_FAIL_REASON);
> +
> + wave5_print_reg_err(vpu_dev, reason_code);
> + return -EIO;
> + }
> +
> + ret = setup_wave5_properties(dev);
> + return ret;
return setup_wave5_properties(dev);
> +}
> +
> +int wave5_vpu_build_up_dec_param(struct vpu_instance *vpu_inst,
> + struct dec_open_param *param)
> +{
> + int ret = 0;
Unused initializer.
> + struct dec_info *p_dec_info = &vpu_inst->codec_info->dec_info;
> + u32 bs_endian = 0;
Unused initializer.
> + struct vpu_buf *vb;
> + struct vpu_device *vpu_dev = vpu_inst->dev;
> +
> + switch (vpu_inst->std) {
> + case W_HEVC_DEC:
> + p_dec_info->seq_change_mask = SEQ_CHANGE_ENABLE_ALL_HEVC;
> + break;
> + case W_VP9_DEC:
> + p_dec_info->seq_change_mask = SEQ_CHANGE_ENABLE_ALL_VP9;
> + break;
> + case W_AVS2_DEC:
> + p_dec_info->seq_change_mask = SEQ_CHANGE_ENABLE_ALL_AVS2;
> + break;
> + case W_AVC_DEC:
> + p_dec_info->seq_change_mask = SEQ_CHANGE_ENABLE_ALL_AVC;
> + break;
> + case W_AV1_DEC:
> + p_dec_info->seq_change_mask = SEQ_CHANGE_ENABLE_ALL_AV1;
> + break;
> + default:
> + return -EINVAL;
> + }
> +
> + if (vpu_dev->product == PRODUCT_ID_517)
> + p_dec_info->vb_work.size = (uint32_t)WAVE517_WORKBUF_SIZE;
> + else if (vpu_dev->product == PRODUCT_ID_521)
> + p_dec_info->vb_work.size = (uint32_t)WAVE521DEC_WORKBUF_SIZE;
> + else if (vpu_dev->product == PRODUCT_ID_511)
> + p_dec_info->vb_work.size = (uint32_t)WAVE521DEC_WORKBUF_SIZE;
Delete these casts.
> +
> + ret = wave5_vdi_allocate_dma_memory(vpu_inst->dev, &p_dec_info->vb_work);
> + if (ret) {
> + memset(&p_dec_info->vb_work, 0, sizeof(p_dec_info->vb_work));
Why is this memset required? The caller is just going to free it.
> + return ret;
> + }
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_VCORE_INFO, 1);
> +
> + vb = get_sram_memory(vpu_inst->dev);
> + p_dec_info->sec_axi_info.buf_base = vb->daddr;
> + p_dec_info->sec_axi_info.buf_size = vb->size;
> +
> + wave5_vdi_clear_memory(vpu_inst->dev, &p_dec_info->vb_work);
> +
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_WORK_BASE, p_dec_info->vb_work.daddr);
> + vpu_write_reg(vpu_inst->dev, W5_WORK_SIZE, p_dec_info->vb_work.size);
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_BS_START_ADDR, p_dec_info->stream_buf_start_addr);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_BS_SIZE, p_dec_info->stream_buf_size);
> +
> + /* NOTE: when endian mode is 0, SDMA reads MSB first */
> + bs_endian = wave5_vdi_convert_endian(vpu_inst->dev, param->stream_endian);
> + bs_endian = (~bs_endian & VDI_128BIT_ENDIAN_MASK);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_BS_PARAM, bs_endian);
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_NUM_CQ_DEPTH_M1, (COMMAND_QUEUE_DEPTH - 1));
> + vpu_write_reg(vpu_inst->dev, W5_CMD_ERR_CONCEAL, (param->error_conceal_unit << 2) |
> + (param->error_conceal_mode));
> +
> + wave5_bit_issue_command(vpu_inst, W5_CREATE_INSTANCE);
> + // check QUEUE_DONE
> + ret = wave5_wait_vpu_busy(vpu_inst->dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret) {
> + dev_warn(vpu_inst->dev->dev, "create instance timed out\n");
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_work);
> + return ret;
> + }
> +
> + if (!vpu_read_reg(vpu_inst->dev, W5_RET_SUCCESS)) { // FAILED for adding into VCPU QUEUE
> + wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_work);
> + ret = -EIO;
If more than one function needs to release something then use a goto.
Try not to mix the success path and the failure path.
if (!vpu_read_reg(vpu_inst->dev, W5_RET_SUCCESS)) { // failed adding to VCPU QUEUE
ret = -EIO;
goto free_vb_work;
}
> + }
> +
> + p_dec_info->product_code = vpu_read_reg(vpu_inst->dev, W5_PRODUCT_NUMBER);
> +
> + return ret;
return 0;
free_dma:
wave5_vdi_free_dma_memory(vpu_dev, &p_dec_info->vb_work);
return ret;
> +}
> +
> +int wave5_vpu_dec_init_seq(struct vpu_instance *vpu_inst)
> +{
> + struct dec_info *p_dec_info;
> + u32 cmd_option = INIT_SEQ_NORMAL, bs_option;
> + u32 reg_val;
> + int ret;
> +
> + if (!vpu_inst->codec_info)
> + return -EINVAL;
> +
> + p_dec_info = &vpu_inst->codec_info->dec_info;
> + if (p_dec_info->thumbnail_mode)
> + cmd_option = INIT_SEQ_W_THUMBNAIL;
> +
> + /* set attributes of bitstream buffer controller */
> + bs_option = 0;
> + switch (p_dec_info->open_param.bitstream_mode) {
> + case BS_MODE_INTERRUPT:
> + if (p_dec_info->seq_init_escape)
> + bs_option = BSOPTION_ENABLE_EXPLICIT_END;
> + break;
> + case BS_MODE_PIC_END:
> + bs_option = BSOPTION_ENABLE_EXPLICIT_END;
> + break;
> + default:
> + return -EINVAL;
> + }
> +
> + vpu_write_reg(vpu_inst->dev, W5_BS_RD_PTR, p_dec_info->stream_rd_ptr);
> + vpu_write_reg(vpu_inst->dev, W5_BS_WR_PTR, p_dec_info->stream_wr_ptr);
> +
> + if (p_dec_info->stream_endflag == 1)
> + bs_option = 3;
> + if (vpu_inst->std == W_AV1_DEC)
> + bs_option |= ((p_dec_info->open_param.av1_format) << 2);
> + vpu_write_reg(vpu_inst->dev, W5_BS_OPTION, (1UL << 31) | bs_option);
> +
> + vpu_write_reg(vpu_inst->dev, W5_COMMAND_OPTION, cmd_option);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_USER_MASK, p_dec_info->user_data_enable);
> +
> + wave5_bit_issue_command(vpu_inst, W5_INIT_SEQ);
> +
> + // check QUEUE_DONE
> + ret = wave5_wait_vpu_busy(vpu_inst->dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret) {
> + dev_warn(vpu_inst->dev->dev, "init seq timed out\n");
> + return ret;
> + }
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_QUEUE_STATUS);
> +
> + p_dec_info->instance_queue_count = (reg_val >> 16) & 0xff;
> + p_dec_info->report_queue_count = (reg_val & 0xffff);
> +
> + // FAILED for adding a command into VCPU QUEUE
> + if (!vpu_read_reg(vpu_inst->dev, W5_RET_SUCCESS)) {
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_FAIL_REASON);
> + wave5_print_reg_err(vpu_inst->dev, reg_val);
> + return -EIO;
> + }
> +
> + return ret;
return 0;
> +}
> +
> +static void wave5_get_dec_seq_result(struct vpu_instance *vpu_inst, struct dec_initial_info *info)
> +{
> + u32 reg_val, sub_layer_info;
> + u32 profile_compatibility_flag;
> + u32 left, right, top, bottom;
> + u32 output_bit_depth_minus8;
> + struct dec_info *p_dec_info = &vpu_inst->codec_info->dec_info;
> +
> + p_dec_info->stream_rd_ptr = wave5_vpu_dec_get_rd_ptr(vpu_inst);
> + info->rd_ptr = p_dec_info->stream_rd_ptr;
> +
> + p_dec_info->frame_display_flag = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_DISP_IDC);
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_PIC_SIZE);
> + info->pic_width = ((reg_val >> 16) & 0xffff);
> + info->pic_height = (reg_val & 0xffff);
> + info->min_frame_buffer_count = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_NUM_REQUIRED_FB);
> + info->frame_buf_delay = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_NUM_REORDER_DELAY);
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_CROP_LEFT_RIGHT);
> + left = (reg_val >> 16) & 0xffff;
> + right = reg_val & 0xffff;
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_CROP_TOP_BOTTOM);
> + top = (reg_val >> 16) & 0xffff;
> + bottom = reg_val & 0xffff;
> +
> + info->pic_crop_rect.left = left;
> + info->pic_crop_rect.right = info->pic_width - right;
> + info->pic_crop_rect.top = top;
> + info->pic_crop_rect.bottom = info->pic_height - bottom;
> +
> + info->f_rate_numerator = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_FRAME_RATE_NR);
> + info->f_rate_denominator = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_FRAME_RATE_DR);
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_COLOR_SAMPLE_INFO);
> + info->luma_bitdepth = (reg_val >> 0) & 0x0f;
> + info->chroma_bitdepth = (reg_val >> 4) & 0x0f;
> + info->chroma_format_idc = (reg_val >> 8) & 0x0f;
> + info->aspect_rate_info = (reg_val >> 16) & 0xff;
> + info->is_ext_sar = (info->aspect_rate_info == 255 ? TRUE : FALSE);
> + /* [0:15] - vertical size, [16:31] - horizontal size */
> + if (info->is_ext_sar)
> + info->aspect_rate_info = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_ASPECT_RATIO);
> + info->bit_rate = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_BIT_RATE);
> +
> + sub_layer_info = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_SUB_LAYER_INFO);
> + info->max_temporal_layers = (sub_layer_info >> 8) & 0x7;
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_SEQ_PARAM);
> + info->level = reg_val & 0xff;
> + profile_compatibility_flag = (reg_val >> 12) & 0xff;
> + info->profile = (reg_val >> 24) & 0x1f;
> + info->tier = (reg_val >> 29) & 0x01;
> + output_bit_depth_minus8 = (reg_val >> 30) & 0x03;
> +
> + if (vpu_inst->std == W_HEVC_DEC) {
> + /* guessing profile */
> + if (!info->profile) {
> + if ((profile_compatibility_flag & 0x06) == 0x06)
> + info->profile = HEVC_PROFILE_MAIN; /* main profile */
> + else if ((profile_compatibility_flag & 0x04) == 0x04)
> + info->profile = HEVC_PROFILE_MAIN10; /* main10 profile */
> + else if ((profile_compatibility_flag & 0x08) == 0x08)
> + /* main still picture profile */
> + info->profile = HEVC_PROFILE_STILLPICTURE;
> + else
> + info->profile = HEVC_PROFILE_MAIN; /* for old version HM */
> + }
> +
> + } else if (vpu_inst->std == W_AVS2_DEC) {
> + if (info->luma_bitdepth == 10 && output_bit_depth_minus8 == 2)
> + info->output_bit_depth = 10;
> + else
> + info->output_bit_depth = 8;
> +
> + } else if (vpu_inst->std == W_AVC_DEC) {
> + info->profile = (reg_val >> 24) & 0x7f;
> + } else if (vpu_inst->std == W_AV1_DEC) {
> + info->max_spatial_layers = (sub_layer_info >> 24) & 0x3;
> + }
> +
> + info->vlc_buf_size = vpu_read_reg(vpu_inst->dev, W5_RET_VLC_BUF_SIZE);
> + info->param_buf_size = vpu_read_reg(vpu_inst->dev, W5_RET_PARAM_BUF_SIZE);
> + p_dec_info->vlc_buf_size = info->vlc_buf_size;
> + p_dec_info->param_buf_size = info->param_buf_size;
> +}
> +
> +int wave5_vpu_dec_get_seq_info(struct vpu_instance *vpu_inst, struct dec_initial_info *info)
> +{
> + int ret;
> + u32 reg_val, i;
> + struct dec_info *p_dec_info;
> +
> + p_dec_info = &vpu_inst->codec_info->dec_info;
Move to initializer.
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_ADDR_REPORT_BASE, p_dec_info->user_data_buf_addr);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_REPORT_SIZE, p_dec_info->user_data_buf_size);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_REPORT_PARAM,
> + VPU_USER_DATA_ENDIAN & VDI_128BIT_ENDIAN_MASK);
> +
> + // send QUERY cmd
> + ret = wave5_send_query(vpu_inst, GET_RESULT);
> + if (ret) {
> + if (ret == -EIO) {
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_FAIL_REASON);
> + wave5_print_reg_err(vpu_inst->dev, reg_val);
> + }
> + return ret;
> + }
> +
> + dev_dbg(vpu_inst->dev->dev, "init seq complete\n");
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_QUEUE_STATUS);
> +
> + p_dec_info->instance_queue_count = (reg_val >> 16) & 0xff;
> + p_dec_info->report_queue_count = (reg_val & 0xffff);
> +
> + if (vpu_read_reg(vpu_inst->dev, W5_RET_DEC_DECODING_SUCCESS) != 1) {
> + info->seq_init_err_reason = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_ERR_INFO);
> + ret = -EIO;
Why are we continuing here instead of just returning -EIO?
(I don't like mixing error paths and success paths).
> + } else {
> + info->warn_info = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_WARN_INFO);
> + }
> +
> + // get sequence info
> + info->user_data_size = 0;
> + info->user_data_num = 0;
> + info->user_data_buf_full = 0;
> + info->user_data_header = vpu_read_reg(vpu_inst->dev, W5_RET_DEC_USERDATA_IDC);
> + if (info->user_data_header) {
> + reg_val = info->user_data_header;
> + for (i = 0; i < 32; i++) {
> + if (i == 1) {
> + if (reg_val & (1 << i))
> + info->user_data_buf_full = 1;
> + } else {
> + if (reg_val & (1 << i))
> + info->user_data_num++;
> + }
> + }
> + info->user_data_size = p_dec_info->user_data_buf_size;
> + }
> +
> + wave5_get_dec_seq_result(vpu_inst, info);
> +
> + return ret;
> +}
> +
> +int wave5_vpu_dec_register_framebuffer(struct vpu_instance *vpu_inst, struct frame_buffer *fb_arr,
> + enum tiled_map_type map_type, uint32_t count)
> +{
> + int ret = 0;
Get rid of this initializer. Return 0; at the end.
> + struct dec_info *p_dec_info = &vpu_inst->codec_info->dec_info;
> + s32 q, j, i, remain, idx;
Never use s32 unless it is part of the hardware spec. What is "q"???
> + u32 mv_count;
Get rid of the mv_count variable.
> + u32 k;
There are too many iterators. Use "i" instead of "k". Iterators should
either be int, size_t or u64. Every thing else is nonsense. GCC
encourages bad iterator types and it regularly causes kernel bugs. GCC
is sometimes wrong headed.
> + s32 start_no, end_no;
> + u32 reg_val, cbcr_interleave, nv21, pic_size;
> + u32 endian, yuv_format = 0;
> + u32 addr_y, addr_cb, addr_cr;
> + u32 mv_col_size, fbc_y_tbl_size, fbc_c_tbl_size;
> + struct vpu_buf vb_buffer;
> + u32 color_format = 0;
> + u32 init_pic_width = 0, init_pic_height = 0;
> + u32 pixel_order = 1;
> + u32 bwb_flag = (map_type == LINEAR_FRAME_MAP) ? 1 : 0;
> +
> + cbcr_interleave = p_dec_info->open_param.cbcr_interleave;
> + nv21 = p_dec_info->open_param.nv21;
> + mv_col_size = 0;
> + fbc_y_tbl_size = 0;
> + fbc_c_tbl_size = 0;
> +
> + init_pic_width = p_dec_info->initial_info.pic_width;
> + init_pic_height = p_dec_info->initial_info.pic_height;
> +
> + if (map_type >= COMPRESSED_FRAME_MAP) {
> + cbcr_interleave = 0;
> + nv21 = 0;
> +
> + switch (vpu_inst->std) {
> + case W_HEVC_DEC:
> + mv_col_size = WAVE5_DEC_HEVC_BUF_SIZE(init_pic_width, init_pic_height);
> + break;
> + case W_VP9_DEC:
> + mv_col_size = WAVE5_DEC_VP9_BUF_SIZE(init_pic_width, init_pic_height);
> + break;
> + case W_AVS2_DEC:
> + mv_col_size = WAVE5_DEC_AVS2_BUF_SIZE(init_pic_width, init_pic_height);
> + break;
> + case W_AVC_DEC:
> + mv_col_size = WAVE5_DEC_AVC_BUF_SIZE(init_pic_width, init_pic_height);
> + break;
> + case W_AV1_DEC:
> + mv_col_size = WAVE5_DEC_AV1_BUF_SZ_1(init_pic_width, init_pic_height) +
> + WAVE5_DEC_AV1_BUF_SZ_2(init_pic_width, init_pic_width,
> + init_pic_height);
> + break;
> + default:
> + return -EINVAL;
> + }
> +
> + mv_col_size = ALIGN(mv_col_size, 16);
> + vb_buffer.daddr = 0;
> + if (vpu_inst->std == W_HEVC_DEC || vpu_inst->std == W_AVS2_DEC || vpu_inst->std ==
> + W_VP9_DEC || vpu_inst->std == W_AVC_DEC || vpu_inst->std ==
> + W_AV1_DEC) {
> + /* 4096 is a margin */
> + vb_buffer.size = ((mv_col_size + 4095) & ~4095) + 4096;
> + mv_count = count;
> +
> + for (k = 0 ; k < mv_count ; k++) {
> + if (p_dec_info->vb_mv[k].size == 0) {
> + ret = wave5_vdi_allocate_dma_memory(vpu_inst->dev, &vb_buffer);
> + if (ret)
> + return ret;
> + p_dec_info->vb_mv[k] = vb_buffer;
> + }
> + }
> + }
> +
> + if (p_dec_info->product_code == WAVE521C_DUAL_CODE) {
> + u32 bgs_width = (p_dec_info->initial_info.luma_bitdepth > 8 ? 256 :
> + 512);
> + u32 ot_bg_width = 1024;
> + u32 frm_width = VPU_CEIL(init_pic_width, 16);
> + u32 frm_height = VPU_CEIL(init_pic_height, 16);
> + // valid_width = align(width, 16),
> + // comp_frm_width = align(valid_width+pad_x, 16)
> + u32 comp_frm_width = VPU_CEIL(VPU_CEIL(frm_width, 16) + 16, 16);
> + // 1024 = offset table BG width
> + u32 ot_frm_width = VPU_CEIL(comp_frm_width, ot_bg_width);
> +
> + // sizeof_offset_table()
> + u32 ot_bg_height = 32;
> + u32 bgs_height = (1 << 14) / bgs_width /
> + (p_dec_info->initial_info.luma_bitdepth > 8 ? 2 : 1);
> + u32 comp_frm_height = VPU_CEIL(VPU_CEIL(frm_height, 4) + 4, bgs_height);
> + u32 ot_frm_height = VPU_CEIL(comp_frm_height, ot_bg_height);
> +
> + fbc_y_tbl_size = (ot_frm_width / 16) * (ot_frm_height / 4) * 2;
> + } else {
> + switch (vpu_inst->std) {
> + case W_HEVC_DEC:
> + fbc_y_tbl_size = WAVE5_FBC_LUMA_TABLE_SIZE(init_pic_width,
> + init_pic_height);
> + break;
> + case W_VP9_DEC:
> + fbc_y_tbl_size =
> + WAVE5_FBC_LUMA_TABLE_SIZE(ALIGN(init_pic_width, 64),
> + ALIGN(init_pic_height, 64));
> + break;
> + case W_AVS2_DEC:
> + fbc_y_tbl_size = WAVE5_FBC_LUMA_TABLE_SIZE(init_pic_width,
> + init_pic_height);
> + break;
> + case W_AVC_DEC:
> + fbc_y_tbl_size = WAVE5_FBC_LUMA_TABLE_SIZE(init_pic_width,
> + init_pic_height);
> + break;
> + case W_AV1_DEC:
> + fbc_y_tbl_size =
> + WAVE5_FBC_LUMA_TABLE_SIZE(ALIGN(init_pic_width, 16),
> + ALIGN(init_pic_height, 8));
> + break;
> + default:
> + return -EINVAL;
> + }
> + fbc_y_tbl_size = ALIGN(fbc_y_tbl_size, 16);
> + }
> +
> + vb_buffer.daddr = 0;
> + vb_buffer.size = ((fbc_y_tbl_size + 4095) & ~4095) + 4096;
This looks like an open coded round_up()?
> + for (k = 0 ; k < count ; k++) {
> + if (p_dec_info->vb_fbc_y_tbl[k].size == 0) {
> + ret = wave5_vdi_allocate_dma_memory(vpu_inst->dev, &vb_buffer);
> + if (ret)
> + return ret;
> + p_dec_info->vb_fbc_y_tbl[k] = vb_buffer;
> + }
> + }
> +
> + if (p_dec_info->product_code == WAVE521C_DUAL_CODE) {
> + u32 bgs_width = (p_dec_info->initial_info.chroma_bitdepth > 8 ? 256 : 512);
> + u32 ot_bg_width = 1024;
> + u32 frm_width = VPU_CEIL(init_pic_width, 16);
> + u32 frm_height = VPU_CEIL(init_pic_height, 16);
> + u32 comp_frm_width = VPU_CEIL(VPU_CEIL(frm_width / 2, 16) + 16, 16);
> + // valid_width = align(width, 16),
> + // comp_frm_width = align(valid_width+pad_x, 16)
> + // 1024 = offset table BG width
> + u32 ot_frm_width = VPU_CEIL(comp_frm_width, ot_bg_width);
> +
> + // sizeof_offset_table()
> + u32 ot_bg_height = 32;
> + u32 bgs_height = (1 << 14) / bgs_width /
> + (p_dec_info->initial_info.chroma_bitdepth > 8 ? 2 : 1);
> + u32 comp_frm_height = VPU_CEIL(VPU_CEIL(frm_height, 4) + 4, bgs_height);
> + u32 ot_frm_height = VPU_CEIL(comp_frm_height, ot_bg_height);
> +
> + fbc_c_tbl_size = (ot_frm_width / 16) * (ot_frm_height / 4) * 2;
> + } else {
> + switch (vpu_inst->std) {
> + case W_HEVC_DEC:
> + fbc_c_tbl_size = WAVE5_FBC_CHROMA_TABLE_SIZE(init_pic_width,
> + init_pic_height);
> + break;
> + case W_VP9_DEC:
> + fbc_c_tbl_size =
> + WAVE5_FBC_CHROMA_TABLE_SIZE(ALIGN(init_pic_width, 64),
> + ALIGN(init_pic_height, 64));
> + break;
> + case W_AVS2_DEC:
> + fbc_c_tbl_size = WAVE5_FBC_CHROMA_TABLE_SIZE(init_pic_width,
> + init_pic_height);
> + break;
> + case W_AVC_DEC:
> + fbc_c_tbl_size = WAVE5_FBC_CHROMA_TABLE_SIZE(init_pic_width,
> + init_pic_height);
> + break;
> + case W_AV1_DEC:
> + fbc_c_tbl_size =
> + WAVE5_FBC_CHROMA_TABLE_SIZE(ALIGN(init_pic_width, 16),
> + ALIGN(init_pic_height, 8));
> + break;
> + default:
> + return -EINVAL;
> + }
> + fbc_c_tbl_size = ALIGN(fbc_c_tbl_size, 16);
> + }
> +
> + vb_buffer.daddr = 0;
> + vb_buffer.size = ((fbc_c_tbl_size + 4095) & ~4095) + 4096;
> + for (k = 0 ; k < count ; k++) {
> + if (p_dec_info->vb_fbc_c_tbl[k].size == 0) {
> + ret = wave5_vdi_allocate_dma_memory(vpu_inst->dev, &vb_buffer);
> + if (ret)
> + return ret;
> + p_dec_info->vb_fbc_c_tbl[k] = vb_buffer;
> + }
> + }
> + pic_size = (init_pic_width << 16) | (init_pic_height);
> +
> + // allocate task_buffer
> + vb_buffer.size = (uint32_t)((p_dec_info->vlc_buf_size * VLC_BUF_NUM) +
> + (p_dec_info->param_buf_size * COMMAND_QUEUE_DEPTH));
> + vb_buffer.daddr = 0;
> + ret = wave5_vdi_allocate_dma_memory(vpu_inst->dev, &vb_buffer);
> + if (ret)
> + return ret;
> +
> + p_dec_info->vb_task = vb_buffer;
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_SET_FB_ADDR_TASK_BUF,
> + p_dec_info->vb_task.daddr);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_SET_FB_TASK_BUF_SIZE, vb_buffer.size);
> + } else {
> + pic_size = (init_pic_width << 16) | (init_pic_height);
> + }
> + endian = wave5_vdi_convert_endian(vpu_inst->dev, fb_arr[0].endian);
> + vpu_write_reg(vpu_inst->dev, W5_PIC_SIZE, pic_size);
> +
> + yuv_format = 0;
yuv_format was already set to zero. Zero is a magic number.
> + color_format = 0;
Same same.
> +
> + reg_val =
> + (bwb_flag << 28) |
> + (pixel_order << 23) | /* PIXEL ORDER in 128bit. first pixel in low address */
> + (yuv_format << 20) |
> + (color_format << 19) |
> + (nv21 << 17) |
> + (cbcr_interleave << 16) |
> + (fb_arr[0].stride);
> + vpu_write_reg(vpu_inst->dev, W5_COMMON_PIC_INFO, reg_val); //// 0x008012c0
> +
> + remain = count;
> + q = (remain + 7) / 8;
> + idx = 0;
> + for (j = 0; j < q; j++) {
> + reg_val = (endian << 16) | (j == q - 1) << 4 | ((j == 0) << 3);//lint !e514
> + reg_val |= (p_dec_info->open_param.enable_non_ref_fbc_write << 26);
> + vpu_write_reg(vpu_inst->dev, W5_SFB_OPTION, reg_val);
> + start_no = j * 8;
> + end_no = start_no + (remain >= 8 ? 8 : remain) - 1;
> +
> + vpu_write_reg(vpu_inst->dev, W5_SET_FB_NUM, (start_no << 8) | end_no);
> +
> + for (i = 0; i < 8 && i < remain; i++) {
> + if (map_type == LINEAR_FRAME_MAP && p_dec_info->open_param.cbcr_order ==
> + CBCR_ORDER_REVERSED) {
> + addr_y = fb_arr[i + start_no].buf_y;
> + addr_cb = fb_arr[i + start_no].buf_cr;
> + addr_cr = fb_arr[i + start_no].buf_cb;
> + } else {
> + addr_y = fb_arr[i + start_no].buf_y;
> + addr_cb = fb_arr[i + start_no].buf_cb;
> + addr_cr = fb_arr[i + start_no].buf_cr;
> + }
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_LUMA_BASE0 + (i << 4), addr_y);
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_CB_BASE0 + (i << 4), addr_cb);
> + if (map_type >= COMPRESSED_FRAME_MAP) {
> + /* luma FBC offset table */
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_FBC_Y_OFFSET0 + (i << 4),
> + p_dec_info->vb_fbc_y_tbl[idx].daddr);
> + /* chroma FBC offset table */
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_FBC_C_OFFSET0 + (i << 4),
> + p_dec_info->vb_fbc_c_tbl[idx].daddr);
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_MV_COL0 + (i << 2),
> + p_dec_info->vb_mv[idx].daddr);
> + } else {
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_CR_BASE0 + (i << 4), addr_cr);
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_FBC_C_OFFSET0 + (i << 4), 0);
> + vpu_write_reg(vpu_inst->dev, W5_ADDR_MV_COL0 + (i << 2), 0);
> + }
> + idx++;
> + }
> + remain -= i;
> +
> + wave5_bit_issue_command(vpu_inst, W5_SET_FB);
> + ret = wave5_wait_vpu_busy(vpu_inst->dev, VPU_BUSY_CHECK_TIMEOUT,
> + W5_VPU_BUSY_STATUS);
> + if (ret)
> + return ret;
> + }
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_SUCCESS);
> + if (!reg_val)
> + return -EIO;
> +
> + return ret;
return 0;
> +}
> +
> +int wave5_vpu_decode(struct vpu_instance *vpu_inst, struct dec_param *option, u32 *fail_res)
> +{
> + u32 mode_option = DEC_PIC_NORMAL, bs_option, reg_val;
> + s32 force_latency = -1;
Ugh.... Write this as:
bool force_latency = false;
> + struct dec_info *p_dec_info = &vpu_inst->codec_info->dec_info;
> + struct dec_open_param *p_open_param = &p_dec_info->open_param;
> + int ret;
> +
> + if (p_dec_info->thumbnail_mode) {
> + mode_option = DEC_PIC_W_THUMBNAIL;
> + } else if (option->skipframe_mode) {
> + switch (option->skipframe_mode) {
> + case WAVE_SKIPMODE_NON_IRAP:
> + mode_option = SKIP_NON_IRAP;
> + force_latency = 0;
force_latency = true;
> + break;
> + case WAVE_SKIPMODE_NON_REF:
> + mode_option = SKIP_NON_REF_PIC;
> + break;
> + default:
> + // skip off
> + break;
> + }
> + }
> +
> + // set disable reorder
> + if (!p_dec_info->reorder_enable)
> + force_latency = 0;
force_latency = true;
> +
> + /* set attributes of bitstream buffer controller */
> + bs_option = 0;
> + reg_val = 0;
This assign is never used.
> + switch (p_open_param->bitstream_mode) {
> + case BS_MODE_INTERRUPT:
> + bs_option = 0;
Already set above.
> + break;
> + case BS_MODE_PIC_END:
> + bs_option = BSOPTION_ENABLE_EXPLICIT_END;
> + break;
> + default:
> + return -EINVAL;
> + }
> +
> + vpu_write_reg(vpu_inst->dev, W5_BS_RD_PTR, p_dec_info->stream_rd_ptr);
> + vpu_write_reg(vpu_inst->dev, W5_BS_WR_PTR, p_dec_info->stream_wr_ptr);
> + if (p_dec_info->stream_endflag == 1)
> + bs_option = 3; // (stream_end_flag<<1) | EXPLICIT_END
> + if (p_open_param->bitstream_mode == BS_MODE_PIC_END)
> + bs_option |= (1UL << 31);
> + if (vpu_inst->std == W_AV1_DEC)
> + bs_option |= ((p_open_param->av1_format) << 2);
> + vpu_write_reg(vpu_inst->dev, W5_BS_OPTION, bs_option);
> +
> + /* secondary AXI */
> + reg_val = (p_dec_info->sec_axi_info.wave.use_bit_enable << 0) |
> + (p_dec_info->sec_axi_info.wave.use_ip_enable << 9) |
> + (p_dec_info->sec_axi_info.wave.use_lf_row_enable << 15);
> + vpu_write_reg(vpu_inst->dev, W5_USE_SEC_AXI, reg_val);
> +
> + /* set attributes of user buffer */
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_USER_MASK, p_dec_info->user_data_enable);
> +
> + vpu_write_reg(vpu_inst->dev, W5_COMMAND_OPTION,
> + ((option->disable_film_grain << 6) | (option->cra_as_bla_flag << 5) |
> + mode_option));
These are badly aligned and contribute to the Wall of Text Effect that
this code has. :(
vpu_write_reg(vpu_inst->dev, W5_COMMAND_OPTION,
(option->disable_film_grain << 6) |
(option->cra_as_bla_flag << 5) |
mode_option);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_TEMPORAL_ID_PLUS1,
> + ((p_dec_info->target_spatial_id + 1) << 9) |
> + (p_dec_info->temp_id_select_mode << 8) | (p_dec_info->target_temp_id + 1));
vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_TEMPORAL_ID_PLUS1,
((p_dec_info->target_spatial_id + 1) << 9) |
(p_dec_info->temp_id_select_mode << 8) |
(p_dec_info->target_temp_id + 1));
Why do we have to add "+ 1" to p_dec_info->target_spatial_id?
> + vpu_write_reg(vpu_inst->dev, W5_CMD_SEQ_CHANGE_ENABLE_FLAG, p_dec_info->seq_change_mask);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_FORCE_FB_LATENCY_PLUS1, force_latency + 1);
vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_FORCE_FB_LATENCY_PLUS1, force_latency);
> +
> + wave5_bit_issue_command(vpu_inst, W5_DEC_PIC);
> + // check QUEUE_DONE
> + ret = wave5_wait_vpu_busy(vpu_inst->dev, VPU_BUSY_CHECK_TIMEOUT, W5_VPU_BUSY_STATUS);
> + if (ret) {
> + dev_warn(vpu_inst->dev->dev, "dec pic timed out\n");
> + return -ETIMEDOUT;
> + }
> +
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_QUEUE_STATUS);
> +
> + p_dec_info->instance_queue_count = (reg_val >> 16) & 0xff;
> + p_dec_info->report_queue_count = (reg_val & 0xffff);
> + // FAILED for adding a command into VCPU QUEUE
> + if (!vpu_read_reg(vpu_inst->dev, W5_RET_SUCCESS)) {
> + *fail_res = vpu_read_reg(vpu_inst->dev, W5_RET_FAIL_REASON);
> + wave5_print_reg_err(vpu_inst->dev, *fail_res);
> + return -EIO;
> + }
> +
> + return 0;
> +}
> +
> +int wave5_vpu_dec_get_result(struct vpu_instance *vpu_inst, struct dec_output_info *result)
> +{
> + int ret;
> + u32 reg_val, sub_layer_info, index, nal_unit_type;
> + struct dec_info *p_dec_info;
> + struct vpu_device *vpu_dev = vpu_inst->dev;
> +
> + p_dec_info = &vpu_inst->codec_info->dec_info;
Move to initializer.
> +
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_ADDR_REPORT_BASE, p_dec_info->user_data_buf_addr);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_REPORT_SIZE, p_dec_info->user_data_buf_size);
> + vpu_write_reg(vpu_inst->dev, W5_CMD_DEC_REPORT_PARAM,
> + VPU_USER_DATA_ENDIAN & VDI_128BIT_ENDIAN_MASK);
> +
> + // send QUERY cmd
> + ret = wave5_send_query(vpu_inst, GET_RESULT);
> +
> + if (ret) {
Delete the blank line before the if statement.
> + if (ret == -EIO) {
> + reg_val = vpu_read_reg(vpu_inst->dev, W5_RET_FAIL_REASON);
> + wave5_print_reg_err(vpu_inst->dev, reg_val);
> + }
> +
> + return ret;
> + }
Okay, I have to go. I have run out of time for reviewing this code.
It's much better but there is still a way to go.
regards,
dan carpenter
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