我使用的友坚的UT-6410开发板,linux内核版本是2.6.28,7英寸LCD。我使用友坚自带的MFC测试程序(
他们不提供源代码)UT_MultiMedia_test_800_480,能正常解码。我到网上下载了Multimedia_DD,编
译通过,拷贝在开发板上运行,出现“Size is too big to be supported”错误。后发现错误在
urbetter-linux2.6.28-v1.0/drivers/media/video/samsung/post/s3c_pp_6400.c下,
// S3C6410 support that the source image is up to 4096 x 4096
// and the destination image is up to 2048 x 2048.
if ( (temp_src_width > 4096) || (temp_src_height > 4096)
|| (temp_dst_width > 2048) || (temp_dst_height > 2048) )
{
printk(KERN_ERR "/n%s: Size is too big to be
supported./n", __FUNCTION__);
mutex_unlock(h_mutex);
return -EINVAL;
}
但是,我的视频文件时三星自带的,不可能超过4096 x 4096,后来我把这段代码注释掉,能运行,但
是出现黑白屏。我以为是友坚编译的内核出问题,我自己又编译了一次,还是出现同类问题,但是,
友坚自带的UT_MultiMedia_test_800_480测试代码,却正常。郁闷!
我的测试代码如下(三星的,我没有修改)
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/ioctl.h>
#include <fcntl.h>
#include <ctype.h>
#include <unistd.h>
#include <sys/mman.h>
#include <string.h>
#include <errno.h>
#include <sys/time.h>
#include <signal.h>
#include <linux/vt.h>
#include <linux/fb.h>
#include "SsbSipH264Decode.h"
#include "SsbSipMpeg4Decode.h"
#include "SsbSipVC1Decode.h"
#include "FrameExtractor.h"
#include "MPEG4Frames.h"
#include "H263Frames.h"
#include "H264Frames.h"
#include "VC1Frames.h"
#include "LogMsg.h"
#include "performance.h"
#include "post.h"
#include "lcd.h"
#include "MfcDriver.h"
#include "FileRead.h"
//#define H264_INPUT_FILE "./TestVectors/veggie.264"
#define H264_INPUT_FILE "./TestVectors/wanted.264"
#define MPEG4_INPUT_FILE "./TestVectors/shrek.m4v"
#define H263_INPUT_FILE "./TestVectors/iron.263"
#define VC1_INPUT_FILE "./TestVectors/test2_0.rcv"
static unsigned char delimiter_mpeg4[3] = {0x00, 0x00, 0x01};
static unsigned char delimiter_h264[4] = {0x00, 0x00, 0x00, 0x01};
#define INPUT_BUFFER_SIZE (204800)
static void *handle;
static int in_fd;
static int file_size;
static char *in_addr;
static int fb_size;
static int pp_fd, fb_fd;
static char *fb_addr;
static void sig_del_h264(int signo);
static void sig_del_mpeg4(int signo);
static void sig_del_vc1(int signo);
int Test_Display_H264(int argc, char **argv)
{
void *pStrmBuf;
int nFrameLeng = 0;
unsigned int pYUVBuf[2];
struct stat s;
FRAMEX_CTX *pFrameExCtx; // frame extractor
context
FRAMEX_STRM_PTR file_strm;
SSBSIP_H264_STREAM_INFO stream_info;
pp_params pp_param;
s3c_win_info_t osd_info_to_driver;
struct fb_fix_screeninfo lcd_info;
#ifdef FPS
struct timeval start, stop;
unsigned int time = 0;
int frame_cnt = 0;
int mod_cnt = 0;
#endif
if(signal(SIGINT, sig_del_h264) == SIG_ERR) {
printf("Sinal Error/n");
}
// in file open
in_fd = open(H264_INPUT_FILE, O_RDONLY);
if(in_fd < 0) {
printf("Input file open failed/n");
return -1;
}
// get input file size
fstat(in_fd, &s);
file_size = s.st_size;
// mapping input file to memory
in_addr = (char *)mmap(0, file_size, PROT_READ, MAP_SHARED, in_fd, 0);
if(in_addr == NULL) {
printf("input file memory mapping failed/n");
return -1;
}
// Post processor open
pp_fd = open(PP_DEV_NAME, O_RDWR|O_NDELAY);
if(pp_fd < 0)
{
printf("Post processor open error/n");
return -1;
}
// LCD frame buffer open
fb_fd = open(FB_DEV_NAME, O_RDWR|O_NDELAY);
if(fb_fd < 0)
{
printf("LCD frame buffer open error/n");
return -1;
}
///////////////////////////////////
// FrameExtractor Initialization //
///////////////////////////////////
pFrameExCtx = FrameExtractorInit(FRAMEX_IN_TYPE_MEM, delimiter_h264, sizeof
(delimiter_h264), 1);
file_strm.p_start = file_strm.p_cur = (unsigned char *)in_addr;
file_strm.p_end = (unsigned char *)(in_addr + file_size);
FrameExtractorFirst(pFrameExCtx, &file_strm);
//////////////////////////////////////
/// 1. Create new instance ///
/// (SsbSipH264DecodeInit) ///
//////////////////////////////////////
handle = SsbSipH264DecodeInit();
if (handle == NULL) {
printf("H264_Dec_Init Failed./n");
return -1;
}
/////////////////////////////////////////////
/// 2. Obtaining the Input Buffer ///
/// (SsbSipH264DecodeGetInBuf) ///
/////////////////////////////////////////////
pStrmBuf = SsbSipH264DecodeGetInBuf(handle, nFrameLeng);
if (pStrmBuf == NULL) {
printf("SsbSipH264DecodeGetInBuf Failed./n");
SsbSipH264DecodeDeInit(handle);
return -1;
}
////////////////////////////////////
// H264 CONFIG stream extraction //
////////////////////////////////////
nFrameLeng = ExtractConfigStreamH264(pFrameExCtx, &file_strm, pStrmBuf,
INPUT_BUFFER_SIZE, NULL);
////////////////////////////////////////////////////////////////
/// 3. Configuring the instance with the config stream ///
/// (SsbSipH264DecodeExe) ///
////////////////////////////////////////////////////////////////
if (SsbSipH264DecodeExe(handle, nFrameLeng) != SSBSIP_H264_DEC_RET_OK) {
printf("H.264 Decoder Configuration Failed./n");
return -1;
}
/////////////////////////////////////
/// 4. Get stream information ///
/////////////////////////////////////
SsbSipH264DecodeGetConfig(handle, H264_DEC_GETCONF_STREAMINFO, &stream_info);
// printf("/t<STREAMINFO> width=%d height=%d./n", stream_info.width,
stream_info.height);
// set post processor configuration
pp_param.SrcFullWidth = 100;//stream_info.width;
pp_param.SrcFullHeight = 200;stream_info.height;
pp_param.SrcStartX = 0;
pp_param.SrcStartY = 0;
pp_param.SrcWidth = pp_param.SrcFullWidth;
pp_param.SrcHeight = pp_param.SrcFullHeight;
pp_param.SrcCSpace = YC420;
pp_param.DstStartX = 0;
pp_param.DstStartY = 0;
pp_param.DstFullWidth = 800; // destination width
pp_param.DstFullHeight = 480; // destination height
pp_param.DstWidth = pp_param.DstFullWidth;
pp_param.DstHeight = pp_param.DstFullHeight;
pp_param.DSTCSpace = RGB16;
#ifdef RGB24BPP
pp_param.DSTCSpace = RGB24;
#endif
pp_param.OutPath = POST_DMA;
pp_param.Mode = ONE_SHOT;
// get LCD frame buffer address
fb_size = pp_param.DstFullWidth * pp_param.DstFullHeight * 2; // RGB565
#ifdef RGB24BPP
fb_size = pp_param.DstFullWidth * pp_param.DstFullHeight * 4; // RGB888
#endif
fb_addr = (char *)mmap(0, fb_size, PROT_READ | PROT_WRITE, MAP_SHARED, fb_fd, 0);
if (fb_addr == NULL) {
printf("LCD frame buffer mmap failed/n");
return -1;
}
osd_info_to_driver.Bpp = 16; // RGB16
#ifdef RGB24BPP
osd_info_to_driver.Bpp = 24; // RGB16
#endif
osd_info_to_driver.LeftTop_x = 0;
osd_info_to_driver.LeftTop_y = 0;
osd_info_to_driver.Width = 800; // display width
osd_info_to_driver.Height = 480; // display height
// set OSD's information
if(ioctl(fb_fd, SET_OSD_INFO, &osd_info_to_driver)) {
printf("Some problem with the ioctl SET_OSD_INFO/n");
return -1;
}
ioctl(fb_fd, SET_OSD_START);
printf("/n[1. H.264 display]/n");
printf("Using IP : MFC, Post processor, LCD/n");
printf("Input filename : wanted.264/n");
printf("Input vector size : VGA(640x480)/n");
printf("Display size : WVGA(800x480)/n");
printf("Bitrate : 971 Kbps/n");
printf("FPS : 30/n");
while(1)
{
#ifdef FPS
gettimeofday(&start, NULL);
#endif
//////////////////////////////////
/// 5. DECODE ///
/// (SsbSipH264DecodeExe) ///
//////////////////////////////////
if (SsbSipH264DecodeExe(handle, nFrameLeng) != SSBSIP_H264_DEC_RET_OK)
break;
//////////////////////////////////////////////
/// 6. Obtaining the Output Buffer ///
/// (SsbSipH264DecodeGetOutBuf) ///
//////////////////////////////////////////////
SsbSipH264DecodeGetConfig(handle, H264_DEC_GETCONF_PHYADDR_FRAM_BUF,
pYUVBuf);
/////////////////////////////
// Next H.264 VIDEO stream //
/////////////////////////////
nFrameLeng = NextFrameH264(pFrameExCtx, &file_strm, pStrmBuf,
INPUT_BUFFER_SIZE, NULL);
if (nFrameLeng < 4)
break;
// Post processing
// pp_param.SrcFrmSt俊绰 MFC狼 output buffer狼 physical address啊
// pp_param.DstFrmSt俊绰 LCD frame buffer狼 physical address啊 涝仿栏肺
持绢具 茄促.
pp_param.SrcFrmSt = pYUVBuf[0]; // MFC output buffer
ioctl(fb_fd, FBIOGET_FSCREENINFO, &lcd_info);
pp_param.DstFrmSt = lcd_info.smem_start;
// LCD frame buffer
ioctl(pp_fd, PPROC_SET_PARAMS, &pp_param);
ioctl(pp_fd, PPROC_START);
#ifdef FPS
gettimeofday(&stop, NULL);
time += measureTime(&start, &stop);
frame_cnt++;
mod_cnt++;
if (mod_cnt == 50) {
printf("Average FPS : %u/n", (float)mod_cnt*1000/time);
mod_cnt = 0;
time = 0;
}
#endif
}
#ifdef FPS
printf("Display Time : %u, Frame Count : %d, FPS : %f/n", time, frame_cnt,
(float)frame_cnt*1000/time);
#endif
ioctl(fb_fd, SET_OSD_STOP);
SsbSipH264DecodeDeInit(handle);
munmap(in_addr, file_size);
munmap(fb_addr, fb_size);
close(pp_fd);
close(fb_fd);
close(in_fd);
return 0;
}
static void sig_del_h264(int signo)
{
printf("[H.264 display] signal handling/n");
ioctl(fb_fd, SET_OSD_STOP);
SsbSipH264DecodeDeInit(handle);
munmap(in_addr, file_size);
munmap(fb_addr, fb_size);
close(pp_fd);
close(fb_fd);
close(in_fd);
exit(1);
}