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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2016 MediaTek Inc.
* Author: PC Chen <pc.chen@mediatek.com>
*/
#include <linux/module.h>
#include <linux/slab.h>
#include "../vdec_drv_if.h"
#include "../mtk_vcodec_util.h"
#include "../mtk_vcodec_dec.h"
#include "../mtk_vcodec_intr.h"
#include "../vdec_vpu_if.h"
#include "../vdec_drv_base.h"
#define NAL_NON_IDR_SLICE 0x01
#define NAL_IDR_SLICE 0x05
#define NAL_H264_PPS 0x08
#define NAL_TYPE(value) ((value) & 0x1F)
#define BUF_PREDICTION_SZ (32 * 1024)
#define MB_UNIT_LEN 16
/* motion vector size (bytes) for every macro block */
#define HW_MB_STORE_SZ 64
#define H264_MAX_FB_NUM 17
#define HDR_PARSING_BUF_SZ 1024
/**
* struct h264_fb - h264 decode frame buffer information
* @vdec_fb_va : virtual address of struct vdec_fb
* @y_fb_dma : dma address of Y frame buffer (luma)
* @c_fb_dma : dma address of C frame buffer (chroma)
* @poc : picture order count of frame buffer
* @reserved : for 8 bytes alignment
*/
struct h264_fb {
uint64_t vdec_fb_va;
uint64_t y_fb_dma;
uint64_t c_fb_dma;
int32_t poc;
uint32_t reserved;
};
/**
* struct h264_ring_fb_list - ring frame buffer list
* @fb_list : frame buffer array
* @read_idx : read index
* @write_idx : write index
* @count : buffer count in list
* @reserved : for 8 bytes alignment
*/
struct h264_ring_fb_list {
struct h264_fb fb_list[H264_MAX_FB_NUM];
unsigned int read_idx;
unsigned int write_idx;
unsigned int count;
unsigned int reserved;
};
/**
* struct vdec_h264_dec_info - decode information
* @dpb_sz : decoding picture buffer size
* @resolution_changed : resolution change happen
* @realloc_mv_buf : flag to notify driver to re-allocate mv buffer
* @reserved : for 8 bytes alignment
* @bs_dma : Input bit-stream buffer dma address
* @y_fb_dma : Y frame buffer dma address
* @c_fb_dma : C frame buffer dma address
* @vdec_fb_va : VDEC frame buffer struct virtual address
*/
struct vdec_h264_dec_info {
uint32_t dpb_sz;
uint32_t resolution_changed;
uint32_t realloc_mv_buf;
uint32_t reserved;
uint64_t bs_dma;
uint64_t y_fb_dma;
uint64_t c_fb_dma;
uint64_t vdec_fb_va;
};
/**
* struct vdec_h264_vsi - shared memory for decode information exchange
* between VPU and Host.
* The memory is allocated by VPU then mapping to Host
* in vpu_dec_init() and freed in vpu_dec_deinit()
* by VPU.
* AP-W/R : AP is writer/reader on this item
* VPU-W/R: VPU is write/reader on this item
* @hdr_buf : Header parsing buffer (AP-W, VPU-R)
* @pred_buf_dma : HW working predication buffer dma address (AP-W, VPU-R)
* @mv_buf_dma : HW working motion vector buffer dma address (AP-W, VPU-R)
* @list_free : free frame buffer ring list (AP-W/R, VPU-W)
* @list_disp : display frame buffer ring list (AP-R, VPU-W)
* @dec : decode information (AP-R, VPU-W)
* @pic : picture information (AP-R, VPU-W)
* @crop : crop information (AP-R, VPU-W)
*/
struct vdec_h264_vsi {
unsigned char hdr_buf[HDR_PARSING_BUF_SZ];
uint64_t pred_buf_dma;
uint64_t mv_buf_dma[H264_MAX_FB_NUM];
struct h264_ring_fb_list list_free;
struct h264_ring_fb_list list_disp;
struct vdec_h264_dec_info dec;
struct vdec_pic_info pic;
struct v4l2_rect crop;
};
/**
* struct vdec_h264_inst - h264 decoder instance
* @num_nalu : how many nalus be decoded
* @ctx : point to mtk_vcodec_ctx
* @pred_buf : HW working predication buffer
* @mv_buf : HW working motion vector buffer
* @vpu : VPU instance
* @vsi : VPU shared information
*/
struct vdec_h264_inst {
unsigned int num_nalu;
struct mtk_vcodec_ctx *ctx;
struct mtk_vcodec_mem pred_buf;
struct mtk_vcodec_mem mv_buf[H264_MAX_FB_NUM];
struct vdec_vpu_inst vpu;
struct vdec_h264_vsi *vsi;
};
static unsigned int get_mv_buf_size(unsigned int width, unsigned int height)
{
return HW_MB_STORE_SZ * (width/MB_UNIT_LEN) * (height/MB_UNIT_LEN);
}
static int allocate_predication_buf(struct vdec_h264_inst *inst)
{
int err = 0;
inst->pred_buf.size = BUF_PREDICTION_SZ;
err = mtk_vcodec_mem_alloc(inst->ctx, &inst->pred_buf);
if (err) {
mtk_vcodec_err(inst, "failed to allocate ppl buf");
return err;
}
inst->vsi->pred_buf_dma = inst->pred_buf.dma_addr;
return 0;
}
static void free_predication_buf(struct vdec_h264_inst *inst)
{
struct mtk_vcodec_mem *mem = NULL;
mtk_vcodec_debug_enter(inst);
inst->vsi->pred_buf_dma = 0;
mem = &inst->pred_buf;
if (mem->va)
mtk_vcodec_mem_free(inst->ctx, mem);
}
static int alloc_mv_buf(struct vdec_h264_inst *inst, struct vdec_pic_info *pic)
{
int i;
int err;
struct mtk_vcodec_mem *mem = NULL;
unsigned int buf_sz = get_mv_buf_size(pic->buf_w, pic->buf_h);
for (i = 0; i < H264_MAX_FB_NUM; i++) {
mem = &inst->mv_buf[i];
if (mem->va)
mtk_vcodec_mem_free(inst->ctx, mem);
mem->size = buf_sz;
err = mtk_vcodec_mem_alloc(inst->ctx, mem);
if (err) {
mtk_vcodec_err(inst, "failed to allocate mv buf");
return err;
}
inst->vsi->mv_buf_dma[i] = mem->dma_addr;
}
return 0;
}
static void free_mv_buf(struct vdec_h264_inst *inst)
{
int i;
struct mtk_vcodec_mem *mem = NULL;
for (i = 0; i < H264_MAX_FB_NUM; i++) {
inst->vsi->mv_buf_dma[i] = 0;
mem = &inst->mv_buf[i];
if (mem->va)
mtk_vcodec_mem_free(inst->ctx, mem);
}
}
static int check_list_validity(struct vdec_h264_inst *inst, bool disp_list)
{
struct h264_ring_fb_list *list;
list = disp_list ? &inst->vsi->list_disp : &inst->vsi->list_free;
if (list->count > H264_MAX_FB_NUM ||
list->read_idx >= H264_MAX_FB_NUM ||
list->write_idx >= H264_MAX_FB_NUM) {
mtk_vcodec_err(inst, "%s list err: cnt=%d r_idx=%d w_idx=%d",
disp_list ? "disp" : "free", list->count,
list->read_idx, list->write_idx);
return -EINVAL;
}
return 0;
}
static void put_fb_to_free(struct vdec_h264_inst *inst, struct vdec_fb *fb)
{
struct h264_ring_fb_list *list;
if (fb) {
if (check_list_validity(inst, false))
return;
list = &inst->vsi->list_free;
if (list->count == H264_MAX_FB_NUM) {
mtk_vcodec_err(inst, "[FB] put fb free_list full");
return;
}
mtk_vcodec_debug(inst, "[FB] put fb into free_list @(%p, %llx)",
fb->base_y.va, (u64)fb->base_y.dma_addr);
list->fb_list[list->write_idx].vdec_fb_va = (u64)(uintptr_t)fb;
list->write_idx = (list->write_idx == H264_MAX_FB_NUM - 1) ?
0 : list->write_idx + 1;
list->count++;
}
}
static void get_pic_info(struct vdec_h264_inst *inst,
struct vdec_pic_info *pic)
{
*pic = inst->vsi->pic;
mtk_vcodec_debug(inst, "pic(%d, %d), buf(%d, %d)",
pic->pic_w, pic->pic_h, pic->buf_w, pic->buf_h);
mtk_vcodec_debug(inst, "fb size: Y(%d), C(%d)",
pic->fb_sz[0], pic->fb_sz[1]);
}
static void get_crop_info(struct vdec_h264_inst *inst, struct v4l2_rect *cr)
{
cr->left = inst->vsi->crop.left;
cr->top = inst->vsi->crop.top;
cr->width = inst->vsi->crop.width;
cr->height = inst->vsi->crop.height;
mtk_vcodec_debug(inst, "l=%d, t=%d, w=%d, h=%d",
cr->left, cr->top, cr->width, cr->height);
}
static void get_dpb_size(struct vdec_h264_inst *inst, unsigned int *dpb_sz)
{
*dpb_sz = inst->vsi->dec.dpb_sz;
mtk_vcodec_debug(inst, "sz=%d", *dpb_sz);
}
static int vdec_h264_init(struct mtk_vcodec_ctx *ctx)
{
struct vdec_h264_inst *inst = NULL;
int err;
inst = kzalloc(sizeof(*inst), GFP_KERNEL);
if (!inst)
return -ENOMEM;
inst->ctx = ctx;
inst->vpu.id = IPI_VDEC_H264;
inst->vpu.dev = ctx->dev->vpu_plat_dev;
inst->vpu.ctx = ctx;
inst->vpu.handler = vpu_dec_ipi_handler;
err = vpu_dec_init(&inst->vpu);
if (err) {
mtk_vcodec_err(inst, "vdec_h264 init err=%d", err);
goto error_free_inst;
}
inst->vsi = (struct vdec_h264_vsi *)inst->vpu.vsi;
err = allocate_predication_buf(inst);
if (err)
goto error_deinit;
mtk_vcodec_debug(inst, "H264 Instance >> %p", inst);
ctx->drv_handle = inst;
return 0;
error_deinit:
vpu_dec_deinit(&inst->vpu);
error_free_inst:
kfree(inst);
return err;
}
static void vdec_h264_deinit(void *h_vdec)
{
struct vdec_h264_inst *inst = (struct vdec_h264_inst *)h_vdec;
mtk_vcodec_debug_enter(inst);
vpu_dec_deinit(&inst->vpu);
free_predication_buf(inst);
free_mv_buf(inst);
kfree(inst);
}
static int find_start_code(unsigned char *data, unsigned int data_sz)
{
if (data_sz > 3 && data[0] == 0 && data[1] == 0 && data[2] == 1)
return 3;
if (data_sz > 4 && data[0] == 0 && data[1] == 0 && data[2] == 0 &&
data[3] == 1)
return 4;
return -1;
}
static int vdec_h264_decode(void *h_vdec, struct mtk_vcodec_mem *bs,
struct vdec_fb *fb, bool *res_chg)
{
struct vdec_h264_inst *inst = (struct vdec_h264_inst *)h_vdec;
struct vdec_vpu_inst *vpu = &inst->vpu;
int nal_start_idx = 0;
int err = 0;
unsigned int nal_start;
unsigned int nal_type;
unsigned char *buf;
unsigned int buf_sz;
unsigned int data[2];
uint64_t vdec_fb_va = (u64)(uintptr_t)fb;
uint64_t y_fb_dma = fb ? (u64)fb->base_y.dma_addr : 0;
uint64_t c_fb_dma = fb ? (u64)fb->base_c.dma_addr : 0;
mtk_vcodec_debug(inst, "+ [%d] FB y_dma=%llx c_dma=%llx va=%p",
++inst->num_nalu, y_fb_dma, c_fb_dma, fb);
/* bs NULL means flush decoder */
if (bs == NULL)
return vpu_dec_reset(vpu);
buf = (unsigned char *)bs->va;
buf_sz = bs->size;
nal_start_idx = find_start_code(buf, buf_sz);
if (nal_start_idx < 0)
goto err_free_fb_out;
nal_start = buf[nal_start_idx];
nal_type = NAL_TYPE(buf[nal_start_idx]);
mtk_vcodec_debug(inst, "\n + NALU[%d] type %d +\n", inst->num_nalu,
nal_type);
if (nal_type == NAL_H264_PPS) {
buf_sz -= nal_start_idx;
if (buf_sz > HDR_PARSING_BUF_SZ) {
err = -EILSEQ;
goto err_free_fb_out;
}
memcpy(inst->vsi->hdr_buf, buf + nal_start_idx, buf_sz);
}
inst->vsi->dec.bs_dma = (uint64_t)bs->dma_addr;
inst->vsi->dec.y_fb_dma = y_fb_dma;
inst->vsi->dec.c_fb_dma = c_fb_dma;
inst->vsi->dec.vdec_fb_va = vdec_fb_va;
data[0] = buf_sz;
data[1] = nal_start;
err = vpu_dec_start(vpu, data, 2);
if (err)
goto err_free_fb_out;
*res_chg = inst->vsi->dec.resolution_changed;
if (*res_chg) {
struct vdec_pic_info pic;
mtk_vcodec_debug(inst, "- resolution changed -");
get_pic_info(inst, &pic);
if (inst->vsi->dec.realloc_mv_buf) {
err = alloc_mv_buf(inst, &pic);
if (err)
goto err_free_fb_out;
}
}
if (nal_type == NAL_NON_IDR_SLICE || nal_type == NAL_IDR_SLICE) {
/* wait decoder done interrupt */
err = mtk_vcodec_wait_for_done_ctx(inst->ctx,
MTK_INST_IRQ_RECEIVED,
WAIT_INTR_TIMEOUT_MS);
if (err)
goto err_free_fb_out;
vpu_dec_end(vpu);
}
mtk_vcodec_debug(inst, "\n - NALU[%d] type=%d -\n", inst->num_nalu,
nal_type);
return 0;
err_free_fb_out:
put_fb_to_free(inst, fb);
mtk_vcodec_err(inst, "\n - NALU[%d] err=%d -\n", inst->num_nalu, err);
return err;
}
static void vdec_h264_get_fb(struct vdec_h264_inst *inst,
struct h264_ring_fb_list *list,
bool disp_list, struct vdec_fb **out_fb)
{
struct vdec_fb *fb;
if (check_list_validity(inst, disp_list))
return;
if (list->count == 0) {
mtk_vcodec_debug(inst, "[FB] there is no %s fb",
disp_list ? "disp" : "free");
*out_fb = NULL;
return;
}
fb = (struct vdec_fb *)
(uintptr_t)list->fb_list[list->read_idx].vdec_fb_va;
fb->status |= (disp_list ? FB_ST_DISPLAY : FB_ST_FREE);
*out_fb = fb;
mtk_vcodec_debug(inst, "[FB] get %s fb st=%d poc=%d %llx",
disp_list ? "disp" : "free",
fb->status, list->fb_list[list->read_idx].poc,
list->fb_list[list->read_idx].vdec_fb_va);
list->read_idx = (list->read_idx == H264_MAX_FB_NUM - 1) ?
0 : list->read_idx + 1;
list->count--;
}
static int vdec_h264_get_param(void *h_vdec, enum vdec_get_param_type type,
void *out)
{
struct vdec_h264_inst *inst = (struct vdec_h264_inst *)h_vdec;
switch (type) {
case GET_PARAM_DISP_FRAME_BUFFER:
vdec_h264_get_fb(inst, &inst->vsi->list_disp, true, out);
break;
case GET_PARAM_FREE_FRAME_BUFFER:
vdec_h264_get_fb(inst, &inst->vsi->list_free, false, out);
break;
case GET_PARAM_PIC_INFO:
get_pic_info(inst, out);
break;
case GET_PARAM_DPB_SIZE:
get_dpb_size(inst, out);
break;
case GET_PARAM_CROP_INFO:
get_crop_info(inst, out);
break;
default:
mtk_vcodec_err(inst, "invalid get parameter type=%d", type);
return -EINVAL;
}
return 0;
}
const struct vdec_common_if vdec_h264_if = {
.init = vdec_h264_init,
.decode = vdec_h264_decode,
.get_param = vdec_h264_get_param,
.deinit = vdec_h264_deinit,
};
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