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17e3a2fefd88dc3029a6fb25151ff7461ec165aa
mpp/test/mpi_enc_test.c
Herman Chen 17e3a2fefd [mpp_enc]: Use qp config in rc to setup encoder 
1. Unify H.264/H.265/vp8 qp config
2. H.264/H.265 encoder setup default rc qp config.
3. Move rc_cfg process all to mpp_enc module.
4. Fix some encoder config in encoder test.

Change-Id: I2a31c6abf904f1c16c2acd937c8d467d48db531d
Signed-off-by: Herman Chen <herman.chen@rock-chips.com>
Signed-off-by: sayon.chen <sayon.chen@rock-chips.com>
2021-01-11 16:26:49 +08:00

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/*
* Copyright 2015 Rockchip Electronics Co. LTD
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#if defined(_WIN32)
#include "vld.h"
#endif
#define MODULE_TAG "mpi_enc_test"
#include <string.h>
#include "rk_mpi.h"
#include "mpp_env.h"
#include "mpp_mem.h"
#include "mpp_log.h"
#include "mpp_time.h"
#include "mpp_common.h"
#include "utils.h"
#include "mpi_enc_utils.h"
#include "camera_source.h"
typedef struct {
// global flow control flag
RK_U32 frm_eos;
RK_U32 pkt_eos;
RK_U32 frm_pkt_cnt;
RK_S32 frame_count;
RK_U64 stream_size;
// src and dst
FILE *fp_input;
FILE *fp_output;
// base flow context
MppCtx ctx;
MppApi *mpi;
MppEncCfg cfg;
MppEncPrepCfg prep_cfg;
MppEncRcCfg rc_cfg;
MppEncCodecCfg codec_cfg;
MppEncSliceSplit split_cfg;
MppEncOSDPltCfg osd_plt_cfg;
MppEncOSDPlt osd_plt;
MppEncOSDData osd_data;
MppEncROIRegion roi_region[3];
MppEncROICfg roi_cfg;
// input / output
MppBufferGroup buf_grp;
MppBuffer frm_buf;
MppBuffer pkt_buf;
MppEncSeiMode sei_mode;
MppEncHeaderMode header_mode;
// paramter for resource malloc
RK_U32 width;
RK_U32 height;
RK_U32 hor_stride;
RK_U32 ver_stride;
MppFrameFormat fmt;
MppCodingType type;
RK_S32 num_frames;
RK_S32 loop_times;
CamSource *cam_ctx;
// resources
size_t header_size;
size_t frame_size;
/* NOTE: packet buffer may overflow */
size_t packet_size;
RK_U32 osd_enable;
RK_U32 osd_mode;
RK_U32 split_mode;
RK_U32 split_arg;
RK_U32 user_data_enable;
RK_U32 roi_enable;
// rate control runtime parameter
RK_S32 fps_in_flex;
RK_S32 fps_in_den;
RK_S32 fps_in_num;
RK_S32 fps_out_flex;
RK_S32 fps_out_den;
RK_S32 fps_out_num;
RK_S32 bps;
RK_S32 bps_max;
RK_S32 bps_min;
RK_S32 rc_mode;
RK_S32 gop_mode;
RK_S32 gop_len;
RK_S32 vi_len;
} MpiEncTestData;
MPP_RET test_ctx_init(MpiEncTestData **data, MpiEncTestArgs *cmd)
{
MpiEncTestData *p = NULL;
MPP_RET ret = MPP_OK;
if (!data || !cmd) {
mpp_err_f("invalid input data %p cmd %p\n", data, cmd);
return MPP_ERR_NULL_PTR;
}
p = mpp_calloc(MpiEncTestData, 1);
if (!p) {
mpp_err_f("create MpiEncTestData failed\n");
ret = MPP_ERR_MALLOC;
goto RET;
}
// get paramter from cmd
p->width = cmd->width;
p->height = cmd->height;
p->hor_stride = (cmd->hor_stride) ? (cmd->hor_stride) :
(MPP_ALIGN(cmd->width, 16));
p->ver_stride = (cmd->ver_stride) ? (cmd->ver_stride) :
(MPP_ALIGN(cmd->height, 16));
p->fmt = cmd->format;
p->type = cmd->type;
p->bps = cmd->bps_target;
p->bps_min = cmd->bps_min;
p->bps_max = cmd->bps_max;
p->rc_mode = cmd->rc_mode;
p->num_frames = cmd->num_frames;
if (cmd->type == MPP_VIDEO_CodingMJPEG && p->num_frames == 0) {
mpp_log("jpege default encode only one frame. Use -n [num] for rc case\n");
p->num_frames = 1;
}
p->gop_mode = cmd->gop_mode;
p->gop_len = cmd->gop_len;
p->vi_len = cmd->vi_len;
p->fps_in_flex = cmd->fps_in_flex;
p->fps_in_den = cmd->fps_in_den;
p->fps_in_num = cmd->fps_in_num;
p->fps_out_flex = cmd->fps_out_flex;
p->fps_out_den = cmd->fps_out_den;
p->fps_out_num = cmd->fps_out_num;
if (cmd->file_input) {
if (!strncmp(cmd->file_input, "/dev/video", 10)) {
mpp_log("open camera device");
p->cam_ctx = camera_source_init(cmd->file_input, 4, p->width, p->height, p->fmt);
mpp_log("new framecap ok");
if (p->cam_ctx == NULL)
mpp_err("open %s fail", cmd->file_input);
} else {
p->fp_input = fopen(cmd->file_input, "rb");
if (NULL == p->fp_input) {
mpp_err("failed to open input file %s\n", cmd->file_input);
mpp_err("create default yuv image for test\n");
}
}
}
if (cmd->file_output) {
p->fp_output = fopen(cmd->file_output, "w+b");
if (NULL == p->fp_output) {
mpp_err("failed to open output file %s\n", cmd->file_output);
ret = MPP_ERR_OPEN_FILE;
}
}
// update resource parameter
switch (p->fmt & MPP_FRAME_FMT_MASK) {
case MPP_FMT_YUV420SP:
case MPP_FMT_YUV420P: {
p->frame_size = MPP_ALIGN(p->hor_stride, 64) * MPP_ALIGN(p->ver_stride, 64) * 3 / 2;
} break;
case MPP_FMT_YUV422_YUYV :
case MPP_FMT_YUV422_YVYU :
case MPP_FMT_YUV422_UYVY :
case MPP_FMT_YUV422_VYUY :
case MPP_FMT_YUV422P :
case MPP_FMT_YUV422SP :
case MPP_FMT_RGB444 :
case MPP_FMT_BGR444 :
case MPP_FMT_RGB555 :
case MPP_FMT_BGR555 :
case MPP_FMT_RGB565 :
case MPP_FMT_BGR565 : {
p->frame_size = MPP_ALIGN(p->hor_stride, 64) * MPP_ALIGN(p->ver_stride, 64) * 2;
} break;
default: {
p->frame_size = MPP_ALIGN(p->hor_stride, 64) * MPP_ALIGN(p->ver_stride, 64) * 4;
} break;
}
if (MPP_FRAME_FMT_IS_FBC(p->fmt))
p->header_size = MPP_ALIGN(MPP_ALIGN(p->width, 16) * MPP_ALIGN(p->height, 16) / 16, SZ_4K);
else
p->header_size = 0;
RET:
*data = p;
return ret;
}
MPP_RET test_ctx_deinit(MpiEncTestData **data)
{
MpiEncTestData *p = NULL;
if (!data) {
mpp_err_f("invalid input data %p\n", data);
return MPP_ERR_NULL_PTR;
}
p = *data;
if (p) {
if (p->cam_ctx) {
camera_source_deinit(p->cam_ctx);
p->cam_ctx = NULL;
}
if (p->fp_input) {
fclose(p->fp_input);
p->fp_input = NULL;
}
if (p->fp_output) {
fclose(p->fp_output);
p->fp_output = NULL;
}
MPP_FREE(p);
*data = NULL;
}
return MPP_OK;
}
MPP_RET test_mpp_enc_cfg_setup(MpiEncTestData *p)
{
MPP_RET ret;
MppApi *mpi;
MppCtx ctx;
MppEncCfg cfg;
if (NULL == p)
return MPP_ERR_NULL_PTR;
mpi = p->mpi;
ctx = p->ctx;
cfg = p->cfg;
/* setup default parameter */
if (p->fps_in_den == 0)
p->fps_in_den = 1;
if (p->fps_in_num == 0)
p->fps_in_num = 30;
if (p->fps_out_den == 0)
p->fps_out_den = 1;
if (p->fps_out_num == 0)
p->fps_out_num = 30;
if (!p->bps)
p->bps = p->width * p->height / 8 * (p->fps_out_num / p->fps_out_den);
mpp_enc_cfg_set_s32(cfg, "prep:width", p->width);
mpp_enc_cfg_set_s32(cfg, "prep:height", p->height);
mpp_enc_cfg_set_s32(cfg, "prep:hor_stride", p->hor_stride);
mpp_enc_cfg_set_s32(cfg, "prep:ver_stride", p->ver_stride);
mpp_enc_cfg_set_s32(cfg, "prep:format", p->fmt);
mpp_enc_cfg_set_s32(cfg, "rc:mode", p->rc_mode);
/* fix input / output frame rate */
mpp_enc_cfg_set_s32(cfg, "rc:fps_in_flex", p->fps_in_flex);
mpp_enc_cfg_set_s32(cfg, "rc:fps_in_num", p->fps_in_num);
mpp_enc_cfg_set_s32(cfg, "rc:fps_in_denorm", p->fps_in_den);
mpp_enc_cfg_set_s32(cfg, "rc:fps_out_flex", p->fps_out_flex);
mpp_enc_cfg_set_s32(cfg, "rc:fps_out_num", p->fps_out_num);
mpp_enc_cfg_set_s32(cfg, "rc:fps_out_denorm", p->fps_out_den);
mpp_enc_cfg_set_s32(cfg, "rc:gop", p->gop_len ? p->gop_len : p->fps_out_num * 2);
/* drop frame or not when bitrate overflow */
mpp_enc_cfg_set_u32(cfg, "rc:drop_mode", MPP_ENC_RC_DROP_FRM_DISABLED);
mpp_enc_cfg_set_u32(cfg, "rc:drop_thd", 20); /* 20% of max bps */
mpp_enc_cfg_set_u32(cfg, "rc:drop_gap", 1); /* Do not continuous drop frame */
/* setup bitrate for different rc_mode */
mpp_enc_cfg_set_s32(cfg, "rc:bps_target", p->bps);
switch (p->rc_mode) {
case MPP_ENC_RC_MODE_FIXQP : {
/* do not setup bitrate on FIXQP mode */
} break;
case MPP_ENC_RC_MODE_CBR : {
/* CBR mode has narrow bound */
mpp_enc_cfg_set_s32(cfg, "rc:bps_max", p->bps_max ? p->bps_max : p->bps * 17 / 16);
mpp_enc_cfg_set_s32(cfg, "rc:bps_min", p->bps_min ? p->bps_min : p->bps * 15 / 16);
} break;
case MPP_ENC_RC_MODE_VBR :
case MPP_ENC_RC_MODE_AVBR : {
/* VBR mode has wide bound */
mpp_enc_cfg_set_s32(cfg, "rc:bps_max", p->bps_max ? p->bps_max : p->bps * 17 / 16);
mpp_enc_cfg_set_s32(cfg, "rc:bps_min", p->bps_min ? p->bps_min : p->bps * 1 / 16);
} break;
default : {
/* default use CBR mode */
mpp_enc_cfg_set_s32(cfg, "rc:bps_max", p->bps_max ? p->bps_max : p->bps * 17 / 16);
mpp_enc_cfg_set_s32(cfg, "rc:bps_min", p->bps_min ? p->bps_min : p->bps * 15 / 16);
} break;
}
/* setup qp for different codec and rc_mode */
switch (p->type) {
case MPP_VIDEO_CodingAVC :
case MPP_VIDEO_CodingHEVC : {
switch (p->rc_mode) {
case MPP_ENC_RC_MODE_FIXQP : {
mpp_enc_cfg_set_s32(cfg, "rc:qp_init", 20);
mpp_enc_cfg_set_s32(cfg, "rc:qp_max", 20);
mpp_enc_cfg_set_s32(cfg, "rc:qp_min", 20);
mpp_enc_cfg_set_s32(cfg, "rc:qp_max_i", 20);
mpp_enc_cfg_set_s32(cfg, "rc:qp_min_i", 20);
mpp_enc_cfg_set_s32(cfg, "rc:qp_ip", 4);
} break;
case MPP_ENC_RC_MODE_CBR :
case MPP_ENC_RC_MODE_VBR :
case MPP_ENC_RC_MODE_AVBR : {
mpp_enc_cfg_set_s32(cfg, "rc:qp_init", 26);
mpp_enc_cfg_set_s32(cfg, "rc:qp_max", 51);
mpp_enc_cfg_set_s32(cfg, "rc:qp_min", 10);
mpp_enc_cfg_set_s32(cfg, "rc:qp_max_i", 51);
mpp_enc_cfg_set_s32(cfg, "rc:qp_min_i", 10);
mpp_enc_cfg_set_s32(cfg, "rc:qp_ip", 4);
} break;
default : {
mpp_err_f("unsupport encoder rc mode %d\n", p->rc_mode);
} break;
}
} break;
case MPP_VIDEO_CodingVP8 : {
/* vp8 only setup base qp range */
mpp_enc_cfg_set_s32(cfg, "rc:qp_init", 40);
mpp_enc_cfg_set_s32(cfg, "rc:qp_max", 127);
mpp_enc_cfg_set_s32(cfg, "rc:qp_min", 0);
mpp_enc_cfg_set_s32(cfg, "rc:qp_max_i", 127);
mpp_enc_cfg_set_s32(cfg, "rc:qp_min_i", 0);
mpp_enc_cfg_set_s32(cfg, "rc:qp_ip", 6);
} break;
case MPP_VIDEO_CodingMJPEG : {
/* jpeg use special codec config to control qtable */
mpp_enc_cfg_set_s32(cfg, "jpeg:q_factor", 80);
mpp_enc_cfg_set_s32(cfg, "jpeg:qf_max", 99);
mpp_enc_cfg_set_s32(cfg, "jpeg:qf_min", 1);
} break;
default : {
} break;
}
/* setup codec */
mpp_enc_cfg_set_s32(cfg, "codec:type", p->type);
switch (p->type) {
case MPP_VIDEO_CodingAVC : {
/*
* H.264 profile_idc parameter
* 66 - Baseline profile
* 77 - Main profile
* 100 - High profile
*/
mpp_enc_cfg_set_s32(cfg, "h264:profile", 100);
/*
* H.264 level_idc parameter
* 10 / 11 / 12 / 13 - qcif@15fps / cif@7.5fps / cif@15fps / cif@30fps
* 20 / 21 / 22 - cif@30fps / half-D1@@25fps / D1@12.5fps
* 30 / 31 / 32 - D1@25fps / 720p@30fps / 720p@60fps
* 40 / 41 / 42 - 1080p@30fps / 1080p@30fps / 1080p@60fps
* 50 / 51 / 52 - 4K@30fps
*/
mpp_enc_cfg_set_s32(cfg, "h264:level", 40);
mpp_enc_cfg_set_s32(cfg, "h264:cabac_en", 1);
mpp_enc_cfg_set_s32(cfg, "h264:cabac_idc", 0);
mpp_enc_cfg_set_s32(cfg, "h264:trans8x8", 1);
} break;
case MPP_VIDEO_CodingHEVC :
case MPP_VIDEO_CodingMJPEG :
case MPP_VIDEO_CodingVP8 : {
} break;
default : {
mpp_err_f("unsupport encoder coding type %d\n", p->type);
} break;
}
p->split_mode = 0;
p->split_arg = 0;
mpp_env_get_u32("split_mode", &p->split_mode, MPP_ENC_SPLIT_NONE);
mpp_env_get_u32("split_arg", &p->split_arg, 0);
if (p->split_mode) {
mpp_log("%p split_mode %d split_arg %d\n", ctx, p->split_mode, p->split_arg);
mpp_enc_cfg_set_s32(cfg, "split:mode", p->split_mode);
mpp_enc_cfg_set_s32(cfg, "split:arg", p->split_arg);
}
ret = mpi->control(ctx, MPP_ENC_SET_CFG, cfg);
if (ret) {
mpp_err("mpi control enc set cfg failed ret %d\n", ret);
goto RET;
}
/* optional */
p->sei_mode = MPP_ENC_SEI_MODE_ONE_FRAME;
ret = mpi->control(ctx, MPP_ENC_SET_SEI_CFG, &p->sei_mode);
if (ret) {
mpp_err("mpi control enc set sei cfg failed ret %d\n", ret);
goto RET;
}
if (p->type == MPP_VIDEO_CodingAVC || p->type == MPP_VIDEO_CodingHEVC) {
p->header_mode = MPP_ENC_HEADER_MODE_EACH_IDR;
ret = mpi->control(ctx, MPP_ENC_SET_HEADER_MODE, &p->header_mode);
if (ret) {
mpp_err("mpi control enc set header mode failed ret %d\n", ret);
goto RET;
}
}
RK_U32 gop_mode = p->gop_mode;
mpp_env_get_u32("gop_mode", &gop_mode, gop_mode);
if (gop_mode) {
MppEncRefCfg ref;
mpp_enc_ref_cfg_init(&ref);
if (p->gop_mode < 4)
mpi_enc_gen_ref_cfg(ref, gop_mode);
else
mpi_enc_gen_smart_gop_ref_cfg(ref, p->gop_len, p->vi_len);
ret = mpi->control(ctx, MPP_ENC_SET_REF_CFG, ref);
if (ret) {
mpp_err("mpi control enc set ref cfg failed ret %d\n", ret);
goto RET;
}
mpp_enc_ref_cfg_deinit(&ref);
}
/* setup test mode by env */
mpp_env_get_u32("osd_enable", &p->osd_enable, 0);
mpp_env_get_u32("osd_mode", &p->osd_mode, MPP_ENC_OSD_PLT_TYPE_DEFAULT);
mpp_env_get_u32("roi_enable", &p->roi_enable, 0);
mpp_env_get_u32("user_data_enable", &p->user_data_enable, 0);
RET:
return ret;
}
MPP_RET test_mpp_run(MpiEncTestData *p)
{
MPP_RET ret = MPP_OK;
MppApi *mpi;
MppCtx ctx;
RK_U32 cap_num = 0;
if (NULL == p)
return MPP_ERR_NULL_PTR;
mpi = p->mpi;
ctx = p->ctx;
if (p->type == MPP_VIDEO_CodingAVC || p->type == MPP_VIDEO_CodingHEVC) {
MppPacket packet = NULL;
/*
* Can use packet with normal malloc buffer as input not pkt_buf.
* Please refer to vpu_api_legacy.cpp for normal buffer case.
* Using pkt_buf buffer here is just for simplifing demo.
*/
mpp_packet_init_with_buffer(&packet, p->pkt_buf);
/* NOTE: It is important to clear output packet length!! */
mpp_packet_set_length(packet, 0);
ret = mpi->control(ctx, MPP_ENC_GET_HDR_SYNC, packet);
if (ret) {
mpp_err("mpi control enc get extra info failed\n");
goto RET;
} else {
/* get and write sps/pps for H.264 */
void *ptr = mpp_packet_get_pos(packet);
size_t len = mpp_packet_get_length(packet);
if (p->fp_output)
fwrite(ptr, 1, len, p->fp_output);
}
mpp_packet_deinit(&packet);
}
while (!p->pkt_eos) {
MppMeta meta = NULL;
MppFrame frame = NULL;
MppPacket packet = NULL;
void *buf = mpp_buffer_get_ptr(p->frm_buf);
RK_S32 cam_frm_idx = -1;
MppBuffer cam_buf = NULL;
RK_U32 eoi = 1;
if (p->fp_input) {
ret = read_image(buf, p->fp_input, p->width, p->height,
p->hor_stride, p->ver_stride, p->fmt);
if (ret == MPP_NOK || feof(p->fp_input)) {
p->frm_eos = 1;
if (p->num_frames < 0 || p->frame_count < p->num_frames) {
clearerr(p->fp_input);
rewind(p->fp_input);
p->frm_eos = 0;
mpp_log("%p loop times %d\n", ctx, ++p->loop_times);
continue;
}
mpp_log("%p found last frame. feof %d\n", ctx, feof(p->fp_input));
} else if (ret == MPP_ERR_VALUE)
goto RET;
} else {
if (p->cam_ctx == NULL) {
ret = fill_image(buf, p->width, p->height, p->hor_stride,
p->ver_stride, p->fmt, p->frame_count);
if (ret)
goto RET;
} else {
cam_frm_idx = camera_source_get_frame(p->cam_ctx);
mpp_assert(cam_frm_idx >= 0);
/* skip unstable frames */
if (cap_num++ < 50) {
camera_source_put_frame(p->cam_ctx, cam_frm_idx);
continue;
}
cam_buf = camera_frame_to_buf(p->cam_ctx, cam_frm_idx);
mpp_assert(cam_buf);
}
}
ret = mpp_frame_init(&frame);
if (ret) {
mpp_err_f("mpp_frame_init failed\n");
goto RET;
}
mpp_frame_set_width(frame, p->width);
mpp_frame_set_height(frame, p->height);
mpp_frame_set_hor_stride(frame, p->hor_stride);
mpp_frame_set_ver_stride(frame, p->ver_stride);
mpp_frame_set_fmt(frame, p->fmt);
mpp_frame_set_eos(frame, p->frm_eos);
if (p->fp_input && feof(p->fp_input))
mpp_frame_set_buffer(frame, NULL);
else if (cam_buf)
mpp_frame_set_buffer(frame, cam_buf);
else
mpp_frame_set_buffer(frame, p->frm_buf);
meta = mpp_frame_get_meta(frame);
mpp_packet_init_with_buffer(&packet, p->pkt_buf);
/* NOTE: It is important to clear output packet length!! */
mpp_packet_set_length(packet, 0);
mpp_meta_set_packet(meta, KEY_OUTPUT_PACKET, packet);
if (p->osd_enable || p->user_data_enable || p->roi_enable) {
if (p->user_data_enable) {
MppEncUserData user_data;
char *str = "this is user data\n";
if ((p->frame_count & 10) == 0) {
user_data.pdata = str;
user_data.len = strlen(str) + 1;
mpp_meta_set_ptr(meta, KEY_USER_DATA, &user_data);
}
static RK_U8 uuid_debug_info[16] = {
0x57, 0x68, 0x97, 0x80, 0xe7, 0x0c, 0x4b, 0x65,
0xa9, 0x06, 0xae, 0x29, 0x94, 0x11, 0xcd, 0x9a
};
MppEncUserDataSet data_group;
MppEncUserDataFull datas[2];
char *str1 = "this is user data 1\n";
char *str2 = "this is user data 2\n";
data_group.count = 2;
datas[0].len = strlen(str1) + 1;
datas[0].pdata = str1;
datas[0].uuid = uuid_debug_info;
datas[1].len = strlen(str2) + 1;
datas[1].pdata = str2;
datas[1].uuid = uuid_debug_info;
data_group.datas = datas;
mpp_meta_set_ptr(meta, KEY_USER_DATAS, &data_group);
}
if (p->osd_enable) {
/* gen and cfg osd plt */
mpi_enc_gen_osd_plt(&p->osd_plt, p->frame_count);
p->osd_plt_cfg.change = MPP_ENC_OSD_PLT_CFG_CHANGE_ALL;
p->osd_plt_cfg.type = MPP_ENC_OSD_PLT_TYPE_USERDEF;
p->osd_plt_cfg.plt = &p->osd_plt;
ret = mpi->control(ctx, MPP_ENC_SET_OSD_PLT_CFG, &p->osd_plt_cfg);
if (ret) {
mpp_err("mpi control enc set osd plt failed ret %d\n", ret);
goto RET;
}
/* gen and cfg osd plt */
mpi_enc_gen_osd_data(&p->osd_data, p->buf_grp, p->width,
p->height, p->frame_count);
mpp_meta_set_ptr(meta, KEY_OSD_DATA, (void*)&p->osd_data);
}
if (p->roi_enable) {
MppEncROIRegion *region = p->roi_region;
/* calculated in pixels */
region->x = 304;
region->y = 480;
region->w = 1344;
region->h = 600;
region->intra = 0; /* flag of forced intra macroblock */
region->quality = 24; /* qp of macroblock */
region->abs_qp_en = 1;
region->area_map_en = 1;
region->qp_area_idx = 0;
region++;
region->x = region->y = 16;
region->w = region->h = 64; /* 16-pixel aligned is better */
region->intra = 1; /* flag of forced intra macroblock */
region->quality = 10; /* qp of macroblock */
region->abs_qp_en = 1;
region->area_map_en = 1;
region->qp_area_idx = 1;
p->roi_cfg.number = 2;
p->roi_cfg.regions = p->roi_region;
mpp_meta_set_ptr(meta, KEY_ROI_DATA, (void*)&p->roi_cfg); // new way for roi
}
}
/*
* NOTE: in non-block mode the frame can be resent.
* The default input timeout mode is block.
*
* User should release the input frame to meet the requirements of
* resource creator must be the resource destroyer.
*/
ret = mpi->encode_put_frame(ctx, frame);
if (ret) {
mpp_err("mpp encode put frame failed\n");
mpp_frame_deinit(&frame);
goto RET;
}
mpp_frame_deinit(&frame);
do {
ret = mpi->encode_get_packet(ctx, &packet);
if (ret) {
mpp_err("mpp encode get packet failed\n");
goto RET;
}
mpp_assert(packet);
if (packet) {
// write packet to file here
void *ptr = mpp_packet_get_pos(packet);
size_t len = mpp_packet_get_length(packet);
char log_buf[256];
RK_S32 log_size = sizeof(log_buf) - 1;
RK_S32 log_len = 0;
p->pkt_eos = mpp_packet_get_eos(packet);
if (p->fp_output)
fwrite(ptr, 1, len, p->fp_output);
log_len += snprintf(log_buf + log_len, log_size - log_len,
"encoded frame %-4d", p->frame_count);
/* for low delay partition encoding */
if (mpp_packet_is_partition(packet)) {
eoi = mpp_packet_is_eoi(packet);
log_len += snprintf(log_buf + log_len, log_size - log_len,
" pkt %d", p->frm_pkt_cnt);
p->frm_pkt_cnt = (eoi) ? (0) : (p->frm_pkt_cnt + 1);
}
log_len += snprintf(log_buf + log_len, log_size - log_len,
" size %-7u", len);
if (mpp_packet_has_meta(packet)) {
meta = mpp_packet_get_meta(packet);
RK_S32 temporal_id = 0;
RK_S32 lt_idx = -1;
if (MPP_OK == mpp_meta_get_s32(meta, KEY_TEMPORAL_ID, &temporal_id))
log_len += snprintf(log_buf + log_len, log_size - log_len,
" tid %d", temporal_id);
if (MPP_OK == mpp_meta_get_s32(meta, KEY_LONG_REF_IDX, &lt_idx))
log_len += snprintf(log_buf + log_len, log_size - log_len,
" lt %d", lt_idx);
}
mpp_log("%p %s\n", ctx, log_buf);
mpp_packet_deinit(&packet);
p->stream_size += len;
p->frame_count += eoi;
if (p->pkt_eos) {
mpp_log("%p found last packet\n", ctx);
mpp_assert(p->frm_eos);
}
}
} while (!eoi);
if (cam_frm_idx >= 0)
camera_source_put_frame(p->cam_ctx, cam_frm_idx);
if (p->num_frames > 0 && p->frame_count >= p->num_frames) {
mpp_log("%p encode max %d frames", ctx, p->frame_count);
break;
}
if (p->frm_eos && p->pkt_eos)
break;
}
RET:
return ret;
}
int mpi_enc_test(MpiEncTestArgs *cmd)
{
MPP_RET ret = MPP_OK;
MpiEncTestData *p = NULL;
MppPollType timeout = MPP_POLL_BLOCK;
mpp_log("mpi_enc_test start\n");
ret = test_ctx_init(&p, cmd);
if (ret) {
mpp_err_f("test data init failed ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = mpp_buffer_group_get_internal(&p->buf_grp, MPP_BUFFER_TYPE_DRM);
if (ret) {
mpp_err_f("failed to get mpp buffer group ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = mpp_buffer_get(p->buf_grp, &p->frm_buf, p->frame_size + p->header_size);
if (ret) {
mpp_err_f("failed to get buffer for input frame ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = mpp_buffer_get(p->buf_grp, &p->pkt_buf, p->frame_size);
if (ret) {
mpp_err_f("failed to get buffer for output packet ret %d\n", ret);
goto MPP_TEST_OUT;
}
// encoder demo
ret = mpp_create(&p->ctx, &p->mpi);
if (ret) {
mpp_err("mpp_create failed ret %d\n", ret);
goto MPP_TEST_OUT;
}
mpp_log("%p mpi_enc_test encoder test start w %d h %d type %d\n",
p->ctx, p->width, p->height, p->type);
ret = p->mpi->control(p->ctx, MPP_SET_OUTPUT_TIMEOUT, &timeout);
if (MPP_OK != ret) {
mpp_err("mpi control set output timeout %d ret %d\n", timeout, ret);
goto MPP_TEST_OUT;
}
ret = mpp_init(p->ctx, MPP_CTX_ENC, p->type);
if (ret) {
mpp_err("mpp_init failed ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = mpp_enc_cfg_init(&p->cfg);
if (ret) {
mpp_err_f("mpp_enc_cfg_init failed ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = test_mpp_enc_cfg_setup(p);
if (ret) {
mpp_err_f("test mpp setup failed ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = test_mpp_run(p);
if (ret) {
mpp_err_f("test mpp run failed ret %d\n", ret);
goto MPP_TEST_OUT;
}
ret = p->mpi->reset(p->ctx);
if (ret) {
mpp_err("mpi->reset failed\n");
goto MPP_TEST_OUT;
}
MPP_TEST_OUT:
if (MPP_OK == ret)
mpp_log("%p mpi_enc_test success total frame %d bps %lld\n",
p->ctx, p->frame_count,
(RK_U64)((p->stream_size * 8 * (p->fps_out_num / p->fps_out_den)) / p->frame_count));
else
mpp_err("%p mpi_enc_test failed ret %d\n", p->ctx, ret);
if (p->ctx) {
mpp_destroy(p->ctx);
p->ctx = NULL;
}
if (p->cfg) {
mpp_enc_cfg_deinit(p->cfg);
p->cfg = NULL;
}
if (p->frm_buf) {
mpp_buffer_put(p->frm_buf);
p->frm_buf = NULL;
}
if (p->pkt_buf) {
mpp_buffer_put(p->pkt_buf);
p->pkt_buf = NULL;
}
if (p->osd_data.buf) {
mpp_buffer_put(p->osd_data.buf);
p->osd_data.buf = NULL;
}
if (p->buf_grp) {
mpp_buffer_group_put(p->buf_grp);
p->buf_grp = NULL;
}
test_ctx_deinit(&p);
return ret;
}
int main(int argc, char **argv)
{
RK_S32 ret = MPP_NOK;
MpiEncTestArgs* cmd = mpi_enc_test_cmd_get();
memset((void*)cmd, 0, sizeof(*cmd));
// parse the cmd option
if (argc > 1)
ret = mpi_enc_test_cmd_update_by_args(cmd, argc, argv);
if (ret) {
mpi_enc_test_help();
goto DONE;
}
mpi_enc_test_cmd_show_opt(cmd);
ret = mpi_enc_test(cmd);
DONE:
mpi_enc_test_cmd_put(cmd);
return ret;
}
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