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new/external/rockit/mpi/example/mod/test_mpi_venc.cpp
zjl 295e01dc7a first commit
2025-05-10 21:58:58 +08:00

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/*
* Copyright 2018 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.
*
*/
#include <cstdio>
#include <cerrno>
#include <cstring>
#include <cstdlib>
#include <unistd.h>
#include <pthread.h>
#include <sys/stat.h>
#include <sys/types.h>
#include "rk_debug.h"
#include "rk_mpi_sys.h"
#include "rk_mpi_mb.h"
#include "rk_mpi_venc.h"
#include "rk_mpi_cal.h"
#include "test_comm_argparse.h"
#include "test_comm_imgproc.h"
#include "test_comm_venc.h"
#include "test_comm_utils.h"
#define MAX_TIME_OUT_MS 20
#define TEST_RC_MODE 0
#define TEST_CROP_PARAM_CHANGE 0
typedef struct _rkMpiVENCCtx {
const char *srcFileUri;
const char *dstFilePath;
RK_U32 u32SrcWidth;
RK_U32 u32SrcHeight;
RK_U32 u32srcVirWidth;
RK_U32 u32srcVirHeight;
RK_S32 s32LoopCount;
RK_U32 u32ChnIndex;
RK_U32 u32ChNum;
RK_U32 u32SrcPixFormat;
RK_U32 u32DstCodec;
RK_U32 u32BufferSize;
RK_U32 u32StreamSize;
RK_U32 u32StreamBufCnt;
RK_U32 u32BitRateKb;
RK_U32 u32BitRateKbMax;
RK_U32 u32BitRateKbMin;
RK_U32 u32GopSize;
RK_U32 u32RoiTestCount;
RK_U32 u32FixQp;
RK_U32 u32DeBreath;
RK_U32 u32StatTime;
RK_S32 s32SnapPicCount;
RK_S32 s32FrameRateIn;
RK_S32 s32FrameRateOut;
RK_BOOL threadExit;
RK_BOOL bFrameRate;
RK_BOOL bInsertUserData;
COMPRESS_MODE_E enCompressMode;
VENC_RC_MODE_E enRcMode;
VENC_GOP_MODE_E enGopMode;
VENC_CROP_TYPE_E enCropType;
ROTATION_E enRotation;
MIRROR_E enMirror;
RK_BOOL bSuperFrm;
RK_BOOL bFrmLost;
RK_BOOL bIntraRefresh;
RK_BOOL bHierarchicalQp;
RK_BOOL bMjpegParam;
RK_BOOL bMjpegRcParam;
RK_BOOL bForceIdr;
RK_BOOL bFullRange;
RK_BOOL bSendFrameEx;
RK_BOOL bQpmap;
RK_BOOL bRefParam;
MB_POOL vencPoolInput;
MB_POOL vencPoolOutput[VENC_MAX_CHN_NUM];
RK_BOOL bAttachPool;
RK_BOOL bPerformance;
RK_BOOL bSliceSplit;
} TEST_VENC_CTX_S;
static RK_S32 read_with_pixel_width(RK_U8 *pBuf, RK_U32 u32Width, RK_U32 u32VirHeight,
RK_U32 u32VirWidth, RK_U32 u32PixWidth, FILE *fp) {
RK_U32 u32Row;
RK_S32 s32ReadSize;
for (u32Row = 0; u32Row < u32VirHeight; u32Row++) {
s32ReadSize = fread(pBuf + u32Row * u32VirWidth * u32PixWidth, 1, u32Width * u32PixWidth, fp);
if (s32ReadSize != u32Width * u32PixWidth) {
RK_LOGE("read file failed expect %d vs %d\n",
u32Width * u32PixWidth, s32ReadSize);
return RK_FAILURE;
}
}
return RK_SUCCESS;
}
static RK_S32 read_image(RK_U8 *pVirAddr, RK_U32 u32Width, RK_U32 u32Height,
RK_U32 u32VirWidth, RK_U32 u32VirHeight, RK_U32 u32PixFormat, FILE *fp) {
RK_U32 u32Row = 0;
RK_U32 u32ReadSize = 0;
RK_S32 s32Ret = RK_SUCCESS;
RK_U8 *pBufy = pVirAddr;
RK_U8 *pBufu = pBufy + u32VirWidth * u32VirHeight;
RK_U8 *pBufv = pBufu + u32VirWidth * u32VirHeight / 4;
switch (u32PixFormat) {
case RK_FMT_YUV420SP: {
for (u32Row = 0; u32Row < u32VirHeight; u32Row++) {
u32ReadSize = fread(pBufy + u32Row * u32VirWidth, 1, u32Width, fp);
if (u32ReadSize != u32Width) {
return RK_FAILURE;
}
}
for (u32Row = 0; u32Row < u32VirHeight / 2; u32Row++) {
u32ReadSize = fread(pBufu + u32Row * u32VirWidth, 1, u32Width, fp);
if (u32ReadSize != u32Width) {
return RK_FAILURE;
}
}
} break;
case RK_FMT_RGB888:
case RK_FMT_BGR888: {
s32Ret = read_with_pixel_width(pBufy, u32Width, u32VirHeight, u32VirWidth, 3, fp);
} break;
default : {
RK_LOGE("read image do not support fmt %d\n", u32PixFormat);
return RK_FAILURE;
} break;
}
return s32Ret;
}
static RK_S32 check_options(const TEST_VENC_CTX_S *ctx) {
if (ctx->u32SrcPixFormat == RK_FMT_BUTT ||
ctx->u32DstCodec <= RK_VIDEO_ID_Unused ||
ctx->u32SrcWidth <= 0 ||
ctx->u32SrcHeight <= 0) {
goto __FAILED;
}
return RK_SUCCESS;
__FAILED:
return RK_ERR_VENC_ILLEGAL_PARAM;
}
void* venc_force_idr(void *pArgs) {
TEST_VENC_CTX_S *pstCtx = reinterpret_cast<TEST_VENC_CTX_S *>(pArgs);
RK_U32 u32Ch = pstCtx->u32ChnIndex;
while (!pstCtx->threadExit) {
RK_MPI_VENC_RequestIDR(u32Ch, RK_FALSE);
usleep(30000);
}
return RK_NULL;
}
void* venc_get_stream(void *pArgs) {
TEST_VENC_CTX_S *pstCtx = reinterpret_cast<TEST_VENC_CTX_S *>(pArgs);
void *pData = RK_NULL;
RK_S32 s32Ret = RK_SUCCESS;
FILE *fp = RK_NULL;
char name[256] = {0};
RK_U32 u32Ch = pstCtx->u32ChnIndex;
RK_S32 s32StreamCnt = 0;
VENC_STREAM_S stFrame;
if (pstCtx->dstFilePath != RK_NULL) {
mkdir(pstCtx->dstFilePath, 0777);
snprintf(name, sizeof(name), "%s/test_%d.bin",
pstCtx->dstFilePath, pstCtx->u32ChnIndex);
fp = fopen(name, "wb");
if (fp == RK_NULL) {
RK_LOGE("chn %d can't open file %s in get picture thread!\n", u32Ch, name);
return RK_NULL;
}
}
stFrame.pstPack = reinterpret_cast<VENC_PACK_S *>(malloc(sizeof(VENC_PACK_S)));
while (!pstCtx->threadExit) {
s32Ret = RK_MPI_VENC_GetStream(u32Ch, &stFrame, -1);
if (s32Ret >= 0) {
s32StreamCnt++;
RK_LOGD("get chn %d stream %d", u32Ch, s32StreamCnt);
if (pstCtx->dstFilePath != RK_NULL) {
pData = RK_MPI_MB_Handle2VirAddr(stFrame.pstPack->pMbBlk);
fwrite(pData, 1, stFrame.pstPack->u32Len, fp);
fflush(fp);
}
RK_MPI_VENC_ReleaseStream(u32Ch, &stFrame);
if (stFrame.pstPack->bStreamEnd == RK_TRUE) {
RK_LOGI("chn %d reach EOS stream", u32Ch);
break;
}
} else {
if (pstCtx->threadExit) {
break;
}
usleep(1000llu);
}
}
if (stFrame.pstPack)
free(stFrame.pstPack);
if (fp)
fclose(fp);
return RK_NULL;
}
void h265_set_qpmap_64x64(RK_S16 *dst, RK_S16 *src, RK_S32 w, RK_S32 h) {
RK_S32 mb_w = RK_ALIGN(w, 64) / 64;
RK_S32 mb_h = RK_ALIGN(h, 64) / 64;
RK_S32 ctu_line = mb_w;
RK_S32 i, j, cu16cnt;
for (j = 0; j < mb_h; j++) {
for (i = 0; i < mb_w; i++) {
RK_S32 ctu_addr = j * ctu_line + i;
RK_S32 cu16_num_line = ctu_line * 4;
for (cu16cnt = 0; cu16cnt < 16; cu16cnt++) {
RK_S32 cu16_x;
RK_S32 cu16_y;
RK_S32 cu16_addr_in_frame;
cu16_x = cu16cnt & 3;
cu16_y = cu16cnt / 4;
cu16_x += i * 4;
cu16_y += j * 4;
cu16_addr_in_frame = cu16_x + cu16_y * cu16_num_line;
dst[ctu_addr * 16 + cu16cnt] = src[cu16_addr_in_frame];
}
}
}
}
void* venc_send_frame(void *pArgs) {
TEST_VENC_CTX_S *pstCtx = reinterpret_cast<TEST_VENC_CTX_S *>(pArgs);
RK_S32 s32Ret = RK_SUCCESS;
RK_U8 *pVirAddr = RK_NULL;
FILE *fp = RK_NULL;
MB_BLK blk = RK_NULL;
RK_S32 s32LoopCount = pstCtx->s32LoopCount;
MB_POOL pool = pstCtx->vencPoolInput;
RK_U32 u32Ch = pstCtx->u32ChnIndex;
RK_S32 s32FrameCount = 0;
RK_S32 s32ReachEOS = 0;
VIDEO_FRAME_INFO_S stFrame;
MB_BLK qpmapBlk = RK_NULL;
RK_S16 *qpmapData = RK_NULL;
RK_S16 *qpmapTmp = RK_NULL;
if (pstCtx->bSendFrameEx || pstCtx->bQpmap) {
if (pstCtx->u32DstCodec == RK_VIDEO_ID_AVC || pstCtx->u32DstCodec == RK_VIDEO_ID_HEVC) {
RK_U8 align = (pstCtx->u32DstCodec == RK_VIDEO_ID_AVC ? 16 : 64);
RK_U32 qpmapWidth = RK_ALIGN(pstCtx->u32SrcWidth, align) / 16;
RK_U32 qpmapHeight = RK_ALIGN(pstCtx->u32SrcHeight, align) / 16;
RK_U32 qpmapSize = qpmapWidth * qpmapHeight * 2;
RK_S16 *qpmap = RK_NULL;
if (!qpmapBlk) {
s32Ret = RK_MPI_SYS_MmzAlloc(&qpmapBlk, RK_NULL, RK_NULL, qpmapSize);
if (s32Ret != RK_SUCCESS)
goto __EXIT;
qpmapData = (RK_S16 *)RK_MPI_MB_Handle2VirAddr(qpmapBlk);
}
if (pstCtx->u32DstCodec == RK_VIDEO_ID_HEVC && !qpmapTmp) {
qpmapTmp = (RK_S16 *)malloc(qpmapSize);
if (!qpmapTmp)
goto __EXIT;
}
qpmap = (pstCtx->u32DstCodec == RK_VIDEO_ID_AVC ? qpmapData : qpmapTmp);
for (RK_U32 j = 0; j < qpmapHeight; j++) {
for (RK_U32 i = 0; i < qpmapWidth; i++) {
qpmap[j * qpmapHeight + i] = 0x8F80; // 0x8F: abs qp, qp 15, 0x80: must
}
}
if (pstCtx->u32DstCodec == RK_VIDEO_ID_HEVC) {
h265_set_qpmap_64x64(qpmapData, qpmapTmp, pstCtx->u32SrcWidth, pstCtx->u32SrcHeight);
}
}
}
if (pstCtx->bQpmap) {
RK_MPI_VENC_SetQpmap(pstCtx->u32ChnIndex, qpmapBlk);
}
memset(&stFrame, 0, sizeof(VIDEO_FRAME_INFO_S));
while (!pstCtx->threadExit) {
blk = RK_MPI_MB_GetMB(pool, pstCtx->u32BufferSize, RK_TRUE);
if (RK_NULL == blk) {
RK_LOGE("RK_MPI_MB_GetMB fail:%d", u32Ch);
usleep(2000llu);
continue;
}
pVirAddr = reinterpret_cast<RK_U8 *>(RK_MPI_MB_Handle2VirAddr(blk));
if (pstCtx->srcFileUri) {
if (fp == RK_NULL) {
fp = fopen(pstCtx->srcFileUri, "r");
if (fp == RK_NULL) {
RK_LOGE("chn %d can't open file %s!\n", u32Ch, pstCtx->srcFileUri);
return RK_NULL;
}
}
if (pstCtx->enCompressMode == COMPRESS_AFBC_16x16) {
if (fread(pVirAddr, 1, pstCtx->u32BufferSize, fp) != pstCtx->u32BufferSize)
s32Ret = RK_FAILURE;
else
s32Ret = RK_SUCCESS;
} else {
s32Ret = read_image(pVirAddr, pstCtx->u32SrcWidth, pstCtx->u32SrcHeight,
pstCtx->u32srcVirWidth, pstCtx->u32srcVirHeight, pstCtx->u32SrcPixFormat, fp);
}
} else {
s32Ret = TEST_COMM_FillImage(pVirAddr, pstCtx->u32SrcWidth,
pstCtx->u32SrcHeight,
pstCtx->u32srcVirWidth,
pstCtx->u32srcVirHeight,
(PIXEL_FORMAT_E)pstCtx->u32SrcPixFormat, s32FrameCount);
if (s32Ret != RK_SUCCESS) {
RK_MPI_MB_ReleaseMB(blk);
RK_LOGE("TEST_COMM_FillImage fail ch %d", u32Ch);
return RK_NULL;
}
}
if (s32Ret != RK_SUCCESS) {
s32ReachEOS = 1;
if (s32LoopCount > 0) {
s32LoopCount--;
RK_LOGD("finish venc count %d\n", pstCtx->s32LoopCount - s32LoopCount);
if (s32LoopCount > 0) {
s32ReachEOS = 0;
RK_MPI_MB_ReleaseMB(blk);
fseek(fp, 0L, SEEK_SET);
RK_LOGI("seek finish ch %d", u32Ch);
continue;
}
}
}
#if TEST_CROP_PARAM_CHANGE
if (s32FrameCount == 50) {
VENC_CHN_PARAM_S stParam;
RK_MPI_VENC_GetChnParam(u32Ch, &stParam);
// for crop test
if (stParam.stCropCfg.enCropType == VENC_CROP_ONLY) {
stParam.stCropCfg.stCropRect.s32X = 100;
stParam.stCropCfg.stCropRect.s32Y = 100;
stParam.stCropCfg.stCropRect.u32Height = 400;
stParam.stCropCfg.stCropRect.u32Width = 300;
} else if (stParam.stCropCfg.enCropType == VENC_CROP_SCALE) {
// for crop/scale test
stParam.stCropCfg.stScaleRect.stSrc.s32X = 100;
stParam.stCropCfg.stScaleRect.stSrc.s32Y = 200;
stParam.stCropCfg.stScaleRect.stSrc.u32Width = pstCtx->u32SrcWidth / 2;
stParam.stCropCfg.stScaleRect.stSrc.u32Height = pstCtx->u32SrcHeight / 2;
stParam.stCropCfg.stScaleRect.stDst.s32X = 0;
stParam.stCropCfg.stScaleRect.stDst.s32Y = 0;
stParam.stCropCfg.stScaleRect.stDst.u32Width = 1280;
stParam.stCropCfg.stScaleRect.stDst.u32Height = 720;
}
RK_MPI_VENC_SetChnParam(u32Ch, &stParam);
}
#endif
RK_MPI_SYS_MmzFlushCache(blk, RK_FALSE);
stFrame.stVFrame.pMbBlk = blk;
stFrame.stVFrame.u32Width = pstCtx->u32SrcWidth;
stFrame.stVFrame.u32Height = pstCtx->u32SrcHeight;
stFrame.stVFrame.u32VirWidth = pstCtx->u32srcVirWidth;
stFrame.stVFrame.u32VirHeight = pstCtx->u32srcVirHeight;
stFrame.stVFrame.enPixelFormat = (PIXEL_FORMAT_E)pstCtx->u32SrcPixFormat;
stFrame.stVFrame.u32FrameFlag |= s32ReachEOS ? FRAME_FLAG_SNAP_END : 0;
stFrame.stVFrame.enCompressMode = pstCtx->enCompressMode;
if (pstCtx->bInsertUserData) {
RK_U32 user_len;
RK_U8 user_data[] = "this is rockchip user data";
user_len = sizeof(user_data);
RK_MPI_VENC_InsertUserData(u32Ch, user_data, user_len);
RK_CHAR user_data2[1024];
snprintf(user_data2, sizeof(user_data2), "rockchip continuous user data:%d", s32FrameCount);
user_len = strlen(user_data2);
RK_MPI_VENC_InsertUserData(u32Ch, reinterpret_cast<RK_U8 *>(user_data2), user_len);
}
__RETRY:
if (pstCtx->bSendFrameEx) {
if (pstCtx->u32DstCodec == RK_VIDEO_ID_AVC || pstCtx->u32DstCodec == RK_VIDEO_ID_HEVC) {
USER_FRAME_INFO_S stUser;
memset(&stUser, 0, sizeof(stUser));
memcpy(&stUser.stUserFrame, &stFrame, sizeof(stFrame));
stUser.stUserRcInfo.bQpMapValid = RK_TRUE;
stUser.stUserRcInfo.pMbBlkQpMap = qpmapBlk;
s32Ret = RK_MPI_VENC_SendFrameEx(u32Ch, &stUser, -1);
} else {
s32Ret = RK_MPI_VENC_SendFrame(u32Ch, &stFrame, -1);
}
} else {
s32Ret = RK_MPI_VENC_SendFrame(u32Ch, &stFrame, -1);
}
if (s32Ret < 0) {
if (pstCtx->threadExit) {
RK_MPI_MB_ReleaseMB(blk);
break;
}
usleep(10000llu);
goto __RETRY;
} else {
if (!pstCtx->bPerformance)
RK_MPI_MB_ReleaseMB(blk);
s32FrameCount++;
RK_LOGD("chn %d frame %d", u32Ch, s32FrameCount);
}
if (s32ReachEOS ||
(pstCtx->s32SnapPicCount != -1 && s32FrameCount >= pstCtx->s32SnapPicCount)) {
RK_LOGI("chn %d reach EOS.", u32Ch);
if (pstCtx->bPerformance)
RK_MPI_MB_ReleaseMB(blk);
break;
}
if (pstCtx->bPerformance) {
usleep(1000llu);
goto __RETRY;
}
}
__EXIT:
if (fp)
fclose(fp);
if (pstCtx->bSendFrameEx || pstCtx->bQpmap) {
if (qpmapBlk)
RK_MPI_SYS_MmzFree(qpmapBlk);
if (qpmapTmp)
free(qpmapTmp);
}
return RK_NULL;
}
RK_S32 unit_test_mpi_venc(TEST_VENC_CTX_S *ctx) {
RK_S32 s32Ret = RK_SUCCESS;
RK_U32 u32Ch = 0;
VENC_CHN_ATTR_S stAttr;
VENC_CHN_PARAM_S stParam;
VENC_RECV_PIC_PARAM_S stRecvParam;
VENC_RC_PARAM_S stRcParam;
MB_POOL_CONFIG_S stMbPoolCfg;
TEST_VENC_CTX_S stVencCtx[VENC_MAX_CHN_NUM];
pthread_t vencThread[VENC_MAX_CHN_NUM] = {0};
pthread_t getStreamThread[VENC_MAX_CHN_NUM] = {0};
pthread_t forceIdrThread[VENC_MAX_CHN_NUM];
memset(&stAttr, 0, sizeof(VENC_CHN_ATTR_S));
memset(&stRecvParam, 0, sizeof(VENC_RECV_PIC_PARAM_S));
memset(&stRcParam, 0, sizeof(VENC_RC_PARAM_S));
memset(&stParam, 0, sizeof(VENC_CHN_PARAM_S));
if (ctx->u32BufferSize <= 0) {
PIC_BUF_ATTR_S stPicBufAttr;
MB_PIC_CAL_S stMbPicCalResult;
stPicBufAttr.u32Width = ctx->u32SrcWidth;
stPicBufAttr.u32Height = ctx->u32SrcHeight;
stPicBufAttr.enPixelFormat = (PIXEL_FORMAT_E)ctx->u32SrcPixFormat;
stPicBufAttr.enCompMode = ctx->enCompressMode;
s32Ret = RK_MPI_CAL_COMM_GetPicBufferSize(&stPicBufAttr, &stMbPicCalResult);
if (s32Ret != RK_SUCCESS) {
RK_LOGE("get picture buffer size failed. err 0x%x", s32Ret);
return s32Ret;
}
ctx->u32BufferSize = stMbPicCalResult.u32MBSize;
RK_LOGD("calc picture size: %d", ctx->u32BufferSize);
}
if (ctx->u32BufferSize > 8192 * 8192 * 4) {
RK_LOGE("too large picture size: %d", ctx->u32BufferSize);
return RK_FAILURE;
}
if (ctx->u32StreamSize == 0) {
ctx->u32StreamSize = ctx->u32BufferSize;
}
// for input image pool
memset(&stMbPoolCfg, 0, sizeof(MB_POOL_CONFIG_S));
stMbPoolCfg.u64MBSize = ctx->u32BufferSize;
stMbPoolCfg.u32MBCnt = 3 * ctx->u32ChNum;
stMbPoolCfg.enAllocType = MB_ALLOC_TYPE_DMA;
stMbPoolCfg.bPreAlloc = RK_TRUE;
ctx->vencPoolInput = RK_MPI_MB_CreatePool(&stMbPoolCfg);
if (ctx->vencPoolInput == MB_INVALID_POOLID) {
RK_LOGE("create vencPoolInput failed!");
return RK_FAILURE;
}
for (u32Ch = 0; u32Ch < ctx->u32ChNum; u32Ch++) {
memset(&stAttr, 0, sizeof(VENC_CHN_ATTR_S));
memset(&stRecvParam, 0, sizeof(VENC_RECV_PIC_PARAM_S));
memset(&stRcParam, 0, sizeof(VENC_RC_PARAM_S));
memset(&stParam, 0, sizeof(VENC_CHN_PARAM_S));
if (ctx->u32ChNum >= 1) {
ctx->u32ChnIndex = u32Ch;
}
stAttr.stRcAttr.enRcMode = ctx->enRcMode;
stAttr.stRcAttr.stH264Cbr.u32Gop = ctx->u32GopSize;
stAttr.stRcAttr.stH264Cbr.u32BitRate = ctx->u32BitRateKb;
TEST_VENC_SET_BitRate(&stAttr.stRcAttr, ctx->u32BitRateKb, ctx->u32BitRateKbMax, ctx->u32BitRateKbMin);
TEST_VENC_SET_FixQp(&stAttr.stRcAttr, ctx->u32FixQp, ctx->u32FixQp + 2, ctx->u32FixQp);
TEST_VENC_SET_StatTime(&stAttr.stRcAttr, ctx->u32StatTime);
stAttr.stVencAttr.enType = (RK_CODEC_ID_E)ctx->u32DstCodec;
stAttr.stVencAttr.u32Profile = H264E_PROFILE_HIGH;
stAttr.stVencAttr.enPixelFormat = (PIXEL_FORMAT_E)ctx->u32SrcPixFormat;
stAttr.stVencAttr.u32PicWidth = ctx->u32SrcWidth;
stAttr.stVencAttr.u32PicHeight = ctx->u32SrcHeight;
stAttr.stVencAttr.enMirror = ctx->enMirror;
if (ctx->u32srcVirWidth <= 0) {
ctx->u32srcVirWidth = ctx->u32SrcWidth;
}
stAttr.stVencAttr.u32VirWidth = ctx->u32srcVirWidth;
if (ctx->u32srcVirHeight <= 0) {
ctx->u32srcVirHeight = ctx->u32SrcHeight;
}
stAttr.stVencAttr.u32VirHeight = ctx->u32srcVirHeight;
stAttr.stVencAttr.u32StreamBufCnt = ctx->u32StreamBufCnt;
stAttr.stVencAttr.u32BufSize = ctx->u32StreamSize;
if (stAttr.stVencAttr.enType == RK_VIDEO_ID_JPEG) {
stAttr.stVencAttr.stAttrJpege.bSupportDCF = RK_FALSE;
stAttr.stVencAttr.stAttrJpege.stMPFCfg.u8LargeThumbNailNum = 0;
stAttr.stVencAttr.stAttrJpege.enReceiveMode = VENC_PIC_RECEIVE_SINGLE;
}
RK_MPI_VENC_CreateChn(u32Ch, &stAttr);
stParam.stCropCfg.enCropType = ctx->enCropType;
// for crop test
if (stParam.stCropCfg.enCropType == VENC_CROP_ONLY) {
stParam.stCropCfg.stCropRect.s32X = 10;
stParam.stCropCfg.stCropRect.s32Y = 10;
stParam.stCropCfg.stCropRect.u32Height = 100;
stParam.stCropCfg.stCropRect.u32Width = 100;
} else if (stParam.stCropCfg.enCropType == VENC_CROP_SCALE) {
// for crop/scale test
stParam.stCropCfg.stScaleRect.stSrc.s32X = 0;
stParam.stCropCfg.stScaleRect.stSrc.s32Y = 0;
stParam.stCropCfg.stScaleRect.stSrc.u32Width = 0;
stParam.stCropCfg.stScaleRect.stSrc.u32Height = 0;
stParam.stCropCfg.stScaleRect.stDst.s32X = 0;
stParam.stCropCfg.stScaleRect.stDst.s32Y = 0;
stParam.stCropCfg.stScaleRect.stDst.u32Width = 640;
stParam.stCropCfg.stScaleRect.stDst.u32Height = 360;
}
// for framerate test
{
stParam.stFrameRate.bEnable = ctx->bFrameRate;
stParam.stFrameRate.s32SrcFrmRateNum = ctx->s32FrameRateIn;
stParam.stFrameRate.s32SrcFrmRateDen = 1;
stParam.stFrameRate.s32DstFrmRateNum = ctx->s32FrameRateOut;
stParam.stFrameRate.s32DstFrmRateDen = 1;
}
RK_MPI_VENC_SetChnParam(u32Ch, &stParam);
#if TEST_RC_MODE
stAttr.stRcAttr.enRcMode = VENC_RC_MODE_H264AVBR;
stAttr.stRcAttr.stH264Avbr.u32Gop = 99;
stAttr.stRcAttr.stH264Avbr.u32SrcFrameRateNum = 25;
stAttr.stRcAttr.stH264Avbr.u32SrcFrameRateDen = 1;
stAttr.stRcAttr.stH264Avbr.fr32DstFrameRateNum = 25;
stAttr.stRcAttr.stH264Avbr.fr32DstFrameRateDen = 1;
stAttr.stRcAttr.stH264Avbr.u32BitRate = 614400;
RK_MPI_VENC_SetChnAttr(u32Ch, &stAttr);
#endif
if (ctx->bAttachPool) {
// for output stream pool
memset(&stMbPoolCfg, 0, sizeof(MB_POOL_CONFIG_S));
stMbPoolCfg.u64MBSize = ctx->u32StreamSize;
stMbPoolCfg.u32MBCnt = 3;
stMbPoolCfg.enAllocType = MB_ALLOC_TYPE_DMA;
stMbPoolCfg.bPreAlloc = RK_TRUE; // this must prealloc if attach enc output
ctx->vencPoolOutput[u32Ch] = RK_MPI_MB_CreatePool(&stMbPoolCfg);
if (ctx->vencPoolOutput[u32Ch] == MB_INVALID_POOLID) {
RK_LOGE("create vencPoolOutput[%d] failed!", u32Ch);
goto __FAILED;
}
s32Ret = RK_MPI_VENC_AttachMbPool(u32Ch, ctx->vencPoolOutput[u32Ch]);
if (s32Ret != RK_SUCCESS) {
RK_LOGE("RK_MPI_VENC_AttachMbPool fail:0x%x!", s32Ret);
goto __FAILED;
}
}
if (ctx->enGopMode) {
stAttr.stGopAttr.enGopMode = ctx->enGopMode;
if (!stAttr.stRcAttr.stH264Cbr.u32Gop)
stAttr.stRcAttr.stH264Cbr.u32Gop = 60;
stAttr.stGopAttr.s32VirIdrLen = stAttr.stRcAttr.stH264Cbr.u32Gop / 2;
RK_MPI_VENC_SetChnAttr(u32Ch, &stAttr);
}
if (ctx->enRotation) {
RK_MPI_VENC_SetChnRotation(u32Ch, ctx->enRotation);
}
stRecvParam.s32RecvPicNum = ctx->s32SnapPicCount;
RK_MPI_VENC_StartRecvFrame(u32Ch, &stRecvParam);
if (stAttr.stVencAttr.enType == RK_VIDEO_ID_JPEG) {
VENC_JPEG_PARAM_S stJpegParam;
memset(&stJpegParam, 0, sizeof(stJpegParam));
stJpegParam.u32Qfactor = 77;
RK_MPI_VENC_SetJpegParam(u32Ch, &stJpegParam);
}
for (RK_U32 i = 0; i < ctx->u32RoiTestCount; i++) {
VENC_ROI_ATTR_S stRoiAttr;
stRoiAttr.u32Index = i;
stRoiAttr.bEnable = RK_TRUE;
stRoiAttr.bAbsQp = i % 2 ? RK_FALSE : RK_TRUE;
stRoiAttr.s32Qp = i + 42;
stRoiAttr.bIntra = i % 2 ? RK_TRUE : RK_FALSE;
stRoiAttr.stRect.s32X = RK_ALIGN_16((i + 1) * 16);
stRoiAttr.stRect.s32Y = RK_ALIGN_16((i + 1) * 16);
stRoiAttr.stRect.u32Width = RK_ALIGN_16(ctx->u32SrcWidth / (i + 2));
stRoiAttr.stRect.u32Height = RK_ALIGN_16(ctx->u32SrcHeight / (i + 2));
RK_MPI_VENC_SetRoiAttr(u32Ch, &stRoiAttr);
}
#if TEST_RC_MODE
stRcParam.s32FirstFrameStartQp = 25;
stRcParam.stParamH264.u32StepQp = 4;
stRcParam.stParamH264.u32MinQp = 10;
stRcParam.stParamH264.u32MaxQp = 40;
stRcParam.stParamH264.u32MinIQp = 20;
stRcParam.stParamH264.u32MaxIQp = 30;
stRcParam.stParamH264.s32DeltIpQp = -2;
stRcParam.stParamH264.s32MaxReEncodeTimes = 2;
RK_MPI_VENC_SetRcParam(u32Ch, &stRcParam);
#endif
if (!ctx->bFullRange) {
if (stAttr.stVencAttr.enType == RK_VIDEO_ID_AVC) {
VENC_H264_VUI_S stH264Vui;
RK_MPI_VENC_GetH264Vui(u32Ch, &stH264Vui);
stH264Vui.stVuiVideoSignal.video_full_range_flag = 0;
RK_MPI_VENC_SetH264Vui(u32Ch, &stH264Vui);
} else if (stAttr.stVencAttr.enType == RK_VIDEO_ID_HEVC) {
VENC_H265_VUI_S stH265Vui;
RK_MPI_VENC_GetH265Vui(u32Ch, &stH265Vui);
stH265Vui.stVuiVideoSignal.video_full_range_flag = 0;
RK_MPI_VENC_SetH265Vui(u32Ch, &stH265Vui);
}
}
if (ctx->bSuperFrm) {
VENC_SUPERFRAME_CFG_S stSuperFrameCfg;
memset(&stSuperFrameCfg, 0, sizeof(stSuperFrameCfg));
stSuperFrameCfg.enSuperFrmMode = SUPERFRM_DISCARD;
stSuperFrameCfg.u32SuperIFrmBitsThr = 100 * 1024 * 8; // 100KByte
stSuperFrameCfg.u32SuperPFrmBitsThr = 20 * 1024 * 8; // 20KByte
stSuperFrameCfg.enRcPriority = VENC_RC_PRIORITY_FRAMEBITS_FIRST;
RK_MPI_VENC_SetSuperFrameStrategy(u32Ch, &stSuperFrameCfg);
}
if (ctx->bIntraRefresh) {
VENC_INTRA_REFRESH_S stIntraRefresh;
memset(&stIntraRefresh, 0, sizeof(stIntraRefresh));
stIntraRefresh.bRefreshEnable = RK_TRUE;
stIntraRefresh.enIntraRefreshMode = INTRA_REFRESH_ROW;
stIntraRefresh.u32RefreshNum = 5;
RK_MPI_VENC_SetIntraRefresh(u32Ch, &stIntraRefresh);
}
if (ctx->bHierarchicalQp) {
VENC_HIERARCHICAL_QP_S stHierarchicalQp;
memset(&stHierarchicalQp, 0, sizeof(stHierarchicalQp));
stHierarchicalQp.bHierarchicalQpEn = RK_TRUE;
stHierarchicalQp.s32HierarchicalQpDelta[0] = -10;
stHierarchicalQp.s32HierarchicalQpDelta[1] = -5;
stHierarchicalQp.s32HierarchicalFrameNum[0] = 2;
stHierarchicalQp.s32HierarchicalFrameNum[1] = 3;
RK_MPI_VENC_SetHierarchicalQp(u32Ch, &stHierarchicalQp);
}
if (ctx->bMjpegParam && stAttr.stVencAttr.enType == RK_VIDEO_ID_MJPEG) {
VENC_MJPEG_PARAM_S stMjpegParam;
memset(&stMjpegParam, 0, sizeof(stMjpegParam));
/* set qtable for test only, users need set actual qtable */
memset(&stMjpegParam.u8YQt, 1, sizeof(stMjpegParam.u8YQt));
memset(&stMjpegParam.u8CbQt, 1, sizeof(stMjpegParam.u8CbQt));
memset(&stMjpegParam.u8CrQt, 1, sizeof(stMjpegParam.u8CrQt));
stMjpegParam.u32MCUPerECS = 100;
RK_MPI_VENC_SetMjpegParam(u32Ch, &stMjpegParam);
}
if (ctx->bMjpegRcParam && stAttr.stVencAttr.enType == RK_VIDEO_ID_MJPEG) {
stRcParam.stParamMjpeg.u32Qfactor = 80;
stRcParam.stParamMjpeg.u32MaxQfactor = 90;
stRcParam.stParamMjpeg.u32MinQfactor = 50;
RK_MPI_VENC_SetRcParam(u32Ch, &stRcParam);
}
if (ctx->bFrmLost) {
VENC_FRAMELOST_S stFrmLost;
memset(&stFrmLost, 0, sizeof(stFrmLost));
stFrmLost.bFrmLostOpen = RK_TRUE;
stFrmLost.u32FrmLostBpsThr = 1;
stFrmLost.enFrmLostMode = FRMLOST_NORMAL;
stFrmLost.u32EncFrmGaps = 0;
RK_MPI_VENC_SetFrameLostStrategy(u32Ch, &stFrmLost);
}
if (ctx->u32DeBreath > 0) {
VENC_DEBREATHEFFECT_S stDeBreathEffect;
memset(&stDeBreathEffect, 0, sizeof(stDeBreathEffect));
stDeBreathEffect.bEnable = RK_TRUE;
stDeBreathEffect.s32Strength1 = ctx->u32DeBreath;
RK_MPI_VENC_SetDeBreathEffect(u32Ch, &stDeBreathEffect);
}
if (ctx->bRefParam) {
VENC_REF_PARAM_S stRefParam;
memset(&stRefParam, 0, sizeof(stRefParam));
stRefParam.u32Base = 3;
stRefParam.u32Enhance = 2;
stRefParam.bEnablePred = RK_TRUE;
RK_MPI_VENC_SetRefParam(u32Ch, &stRefParam);
}
if (ctx->bSliceSplit) {
VENC_SLICE_SPLIT_S stSliceSplit;
RK_MPI_VENC_GetSliceSplit(u32Ch, &stSliceSplit);
stSliceSplit.bSplitEnable = RK_TRUE;
stSliceSplit.u32SplitMode = 1;
stSliceSplit.u32SplitSize = 16;
RK_MPI_VENC_SetSliceSplit(u32Ch, &stSliceSplit);
}
if (ctx->bForceIdr)
pthread_create(&forceIdrThread[u32Ch], 0, venc_force_idr, reinterpret_cast<void *>(&stVencCtx[u32Ch]));
memcpy(&(stVencCtx[u32Ch]), ctx, sizeof(TEST_VENC_CTX_S));
pthread_create(&vencThread[u32Ch], 0, venc_send_frame, reinterpret_cast<void *>(&stVencCtx[u32Ch]));
pthread_create(&getStreamThread[u32Ch], 0, venc_get_stream, reinterpret_cast<void *>(&stVencCtx[u32Ch]));
}
__FAILED:
for (u32Ch = 0; u32Ch < ctx->u32ChNum; u32Ch++) {
if (vencThread[u32Ch])
pthread_join(vencThread[u32Ch], RK_NULL);
if (getStreamThread[u32Ch])
pthread_join(getStreamThread[u32Ch], RK_NULL);
stVencCtx[u32Ch].threadExit = RK_TRUE;
if (ctx->bForceIdr)
pthread_join(forceIdrThread[u32Ch], RK_NULL);
RK_MPI_VENC_StopRecvFrame(u32Ch);
if (ctx->bAttachPool) {
s32Ret = RK_MPI_VENC_DetachMbPool(u32Ch);
if (s32Ret != RK_SUCCESS) {
RK_LOGE("ch:%d RK_MPI_VENC_DetachMbPool fail:0x%x!", u32Ch, s32Ret);
}
}
RK_MPI_VENC_DestroyChn(u32Ch);
if (ctx->bAttachPool)
RK_MPI_MB_DestroyPool(ctx->vencPoolOutput[u32Ch]);
}
RK_MPI_MB_DestroyPool(ctx->vencPoolInput);
return RK_SUCCESS;
}
static const char *const usages[] = {
"./rk_mpi_venc_test [-i SRC_PATH] [-w SRC_WIDTH] [-h SRC_HEIGHT]",
NULL,
};
static void mpi_venc_test_show_options(const TEST_VENC_CTX_S *ctx) {
RK_PRINT("cmd parse result:\n");
RK_PRINT("input file name : %s\n", ctx->srcFileUri);
RK_PRINT("output file name : %s\n", ctx->dstFilePath);
RK_PRINT("src width : %d\n", ctx->u32SrcWidth);
RK_PRINT("src height : %d\n", ctx->u32SrcHeight);
RK_PRINT("src virWidth : %d\n", ctx->u32srcVirWidth);
RK_PRINT("src virHeight : %d\n", ctx->u32srcVirHeight);
RK_PRINT("src pixel format : %d\n", ctx->u32SrcPixFormat);
RK_PRINT("encode codec type : %d\n", ctx->u32DstCodec);
RK_PRINT("loop count : %d\n", ctx->s32LoopCount);
RK_PRINT("channel index : %d\n", ctx->u32ChnIndex);
RK_PRINT("channel num : %d\n", ctx->u32ChNum);
RK_PRINT("output buffer count : %d\n", ctx->u32StreamBufCnt);
RK_PRINT("one picture size : %d\n", ctx->u32BufferSize);
RK_PRINT("out stream size : %d\n", ctx->u32StreamSize);
RK_PRINT("gop mode : %d\n", ctx->enGopMode);
RK_PRINT("snap picture count : %d\n", ctx->s32SnapPicCount);
RK_PRINT("insert user data : %d\n", ctx->bInsertUserData);
RK_PRINT("rotation : %d\n", ctx->enRotation);
RK_PRINT("compress mode : %d\n", ctx->enCompressMode);
RK_PRINT("rc mode : %d\n", ctx->enRcMode);
RK_PRINT("bitrate : %d\n", ctx->u32BitRateKb);
RK_PRINT("bitrate max : %d\n", ctx->u32BitRateKbMax);
RK_PRINT("bitrate mix : %d\n", ctx->u32BitRateKbMin);
RK_PRINT("gop size : %d\n", ctx->u32GopSize);
RK_PRINT("roi count : %d\n", ctx->u32RoiTestCount);
RK_PRINT("mirror : %d\n", ctx->enMirror);
RK_PRINT("fixqp : %d\n", ctx->u32FixQp);
RK_PRINT("full range : %d\n", ctx->bFullRange);
RK_PRINT("enable attach mb pool : %d\n", ctx->bAttachPool);
RK_PRINT("performance test : %d\n", ctx->bPerformance);
RK_PRINT("rc stat time : %d\n", ctx->u32StatTime);
RK_PRINT("slice split : %d\n", ctx->bSliceSplit);
return;
}
int main(int argc, const char **argv) {
RK_S32 s32Ret = RK_SUCCESS;
TEST_VENC_CTX_S ctx;
memset(&ctx, 0, sizeof(TEST_VENC_CTX_S));
ctx.s32LoopCount = 1;
ctx.u32StreamBufCnt = 8;
ctx.u32ChNum = 1;
ctx.u32SrcPixFormat = RK_FMT_YUV420SP;
ctx.u32DstCodec = RK_VIDEO_ID_AVC;
ctx.enCropType = VENC_CROP_NONE;
ctx.bFrameRate = RK_FALSE;
ctx.s32SnapPicCount = -1;
ctx.u32GopSize = 60;
ctx.enRcMode = VENC_RC_MODE_H264CBR;
ctx.u32BitRateKb = 10 * 1024;
ctx.bFullRange = RK_TRUE;
ctx.s32FrameRateIn = 25;
ctx.s32FrameRateOut = 10;
ctx.u32StatTime = 3;
struct argparse_option options[] = {
OPT_HELP(),
OPT_GROUP("basic options:"),
OPT_STRING('i', "input", &(ctx.srcFileUri),
"input file name.", NULL, 0, 0),
OPT_STRING('o', "output", &(ctx.dstFilePath),
"the directory of encoder output", NULL, 0, 0),
OPT_INTEGER('n', "loop_count", &(ctx.s32LoopCount),
"loop running count. default(1)", NULL, 0, 0),
OPT_INTEGER('w', "width", &(ctx.u32SrcWidth),
"input source width. <required>", NULL, 0, 0),
OPT_INTEGER('h', "height", &(ctx.u32SrcHeight),
"input source height. <required>", NULL, 0, 0),
OPT_INTEGER('\0', "vir_width", &(ctx.u32srcVirWidth),
"input source virWidth.", NULL, 0, 0),
OPT_INTEGER('\0', "vir_height", &(ctx.u32srcVirHeight),
"input source virHeight.", NULL, 0, 0),
OPT_INTEGER('f', "pixel_format", &(ctx.u32SrcPixFormat),
"input source pixel format. default(0: NV12).", NULL, 0, 0),
OPT_INTEGER('C', "codec", &(ctx.u32DstCodec),
"venc encode codec(8:h264, 9:mjpeg, 12:h265, 15:jpeg, ...). default(8)", NULL, 0, 0),
OPT_INTEGER('c', "channel_count", &(ctx.u32ChNum),
"venc channel count. default(1).", NULL, 0, 0),
OPT_INTEGER('\0', "channel_index", &(ctx.u32ChnIndex),
"venc channel index. default(0).", NULL, 0, 0),
OPT_INTEGER('\0', "enc_buf_cnt", &(ctx.u32StreamBufCnt),
"venc encode output buffer count, default(8)", NULL, 0, 0),
OPT_INTEGER('\0', "src_pic_size", &(ctx.u32BufferSize),
"the size of input single picture", NULL, 0, 0),
OPT_INTEGER('\0', "out_stream_size", &(ctx.u32StreamSize),
"the size of out stream buff alloc, default(equal to u32BufferSize)", NULL, 0, 0),
OPT_INTEGER('\0', "crop", &(ctx.enCropType),
"crop type(0:none 1:crop_only 2:crop_scale) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "framerate", &(ctx.bFrameRate),
"framerate enable flag(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "framerate_in", &(ctx.s32FrameRateIn),
"framerate in(when framerate=1 valid) default(25)", NULL, 0, 0),
OPT_INTEGER('\0', "framerate_out", &(ctx.s32FrameRateOut),
"framerate out(when framerate=1 valid) default(10)", NULL, 0, 0),
OPT_INTEGER('g', "gop_mode", &(ctx.enGopMode),
"gop mode(0/1:NORMALP 2:TSVC2 3:TSVC3 4:TSVC4 5:SMARTP) default(0)", NULL, 0, 0),
OPT_INTEGER('s', "snap_pic_cnt", &(ctx.s32SnapPicCount),
"snap picture count(effective range[-1,0)(0, 2147483647)"
"-1:not limit else:snap count) default(-1)", NULL, 0, 0),
OPT_INTEGER('\0', "insert_user_data", &(ctx.bInsertUserData),
"insert user data flag(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "rotation", &(ctx.enRotation),
"rotation output(0:0 1:90 2:180 3:270) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "compress_mode", &(ctx.enCompressMode),
"set input compressmode(default 0; 0:MODE_NONE 1:AFBC_16x16)", NULL, 0, 0),
OPT_INTEGER('\0', "rc_mode", &(ctx.enRcMode),
"rc mode(0:NULL 1:H264CBR 2:H264VBR 3:H264AVBR 4:H264FIXQP"
"5:MJPEGCBR 6:MJPEGVBR 7:MJPEGFIXQP"
"8:H265CBR 9:H265VBR 10:H265AVBR 11:H265FIXQP default(1)",
NULL, 0, 0),
OPT_INTEGER('b', "bit_rate", &(ctx.u32BitRateKb),
"bit rate kbps(h264/h265:range[3-200000],jpeg/mjpeg:range[5-800000] default(10*1024kb))",
NULL, 0, 0),
OPT_INTEGER('\0', "bit_rate_max", &(ctx.u32BitRateKbMax),
"bit rate kbps max(vbr/avbr valid)(h264/h265:range[3-200000];"
"jpeg/mjpeg:range[5-800000] default(0:auto calcu))",
NULL, 0, 0),
OPT_INTEGER('\0', "bit_rate_min", &(ctx.u32BitRateKbMin),
"bit rate kbps min(vbr/avbr valid)(h264/h265:range[3-200000];"
"jpeg/mjpeg:range[5-800000] default(0:auto calcu))",
NULL, 0, 0),
OPT_INTEGER('\0', "gop_size", &(ctx.u32GopSize),
"gop size(range >= 1 default(60))", NULL, 0, 0),
OPT_INTEGER('\0', "mirror", &(ctx.enMirror),
"enMirror output(0:none 1:horizontal 2:vertical) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "super_frm", &(ctx.bSuperFrm),
"super frm enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "frm_lost", &(ctx.bFrmLost),
"frm lost enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "intra_refresh", &(ctx.bIntraRefresh),
"intra refresh enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "hier_qp", &(ctx.bHierarchicalQp),
"hierarchical qp enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "mjpeg_param", &(ctx.bMjpegParam),
"mjpeg param enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "mjpeg_rc_param", &(ctx.bMjpegRcParam),
"mjpeg rc param test enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "force_idr", &(ctx.bForceIdr),
"force idr enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "roi_count", &(ctx.u32RoiTestCount),
"roi test count(range[0-8] default(0))", NULL, 0, 0),
OPT_INTEGER('\0', "fix_qp", &(ctx.u32FixQp),
"set fix qp(this value valid when rc_mode is fixqp;default(0))", NULL, 0, 0),
OPT_INTEGER('\0', "full_range", &(ctx.bFullRange),
"set clolor range(0:limit color range 1:full color range) default(1)", NULL, 0, 0),
OPT_INTEGER('\0', "send_frame_ex", &(ctx.bSendFrameEx),
"send frame ex enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "qpmap", &(ctx.bQpmap),
"qpmap enable(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "attach_mb_pool", &(ctx.bAttachPool),
"enable attach mb pool or not, default(0), 0: RK_FALSE, 1: RK_TRUE", NULL, 0, 0),
OPT_INTEGER('\0', "de_breath", &(ctx.u32DeBreath),
"debreath[0, 35] default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "ref_param", &(ctx.bRefParam),
"ref param test(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "performance", &(ctx.bPerformance),
"performance test(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_INTEGER('\0', "stat_time", &(ctx.u32StatTime),
"rc statistic time(range[1,60]) default(3)", NULL, 0, 0),
OPT_INTEGER('\0', "slice_split", &(ctx.bSliceSplit),
"slice split test(0:disable 1:enable) default(0)", NULL, 0, 0),
OPT_END(),
};
struct argparse argparse;
argparse_init(&argparse, options, usages, 0);
argparse_describe(&argparse, "\nselect a test case to run.",
"\nuse --help for details.");
argc = argparse_parse(&argparse, argc, argv);
mpi_venc_test_show_options(&ctx);
if (check_options(&ctx)) {
argparse_usage(&argparse);
return RK_FAILURE;
}
s32Ret = RK_MPI_SYS_Init();
if (s32Ret != RK_SUCCESS) {
return s32Ret;
}
if (unit_test_mpi_venc(&ctx) < 0) {
goto __FAILED;
}
s32Ret = RK_MPI_SYS_Exit();
if (s32Ret != RK_SUCCESS) {
return s32Ret;
}
RK_LOGE("test running success!");
return RK_SUCCESS;
__FAILED:
RK_MPI_SYS_Exit();
RK_LOGE("test running failed!");
return s32Ret;
}
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