I`m trying to compile ffmpeg in windows with nvidia libraries for hardware acceleration using MinGW/msys. tried to follow the instruction on nvidias website (section: Getting Started with FFmpeg/libav using NVIDIA GPUs). configured with --enable-nonfree --disable-shared --enable-nvenc --enable-cuda --enable-cuvid --enable-libnpp --extra-cflags=-Ilocal/include --extra-cflags=-I../common/inc --extra-ldflags=-L../common/lib/x64 --prefix=ffmpeg but stopped at "ERROR: libnpp not found." where common folder is downloaded from NVIDIA Video Codec SDK but there is no npp libs or header files. is there any solution for that? thanks for edvice.
I managed to successfuly cross compile ffmpeg under linux targeting Windows 64 bit with --enable-libnpp included.
My environment is Ubuntu Server 16.10 64bit.
After a fresh installation I installed MinGW using the command:
sudo apt-get install mingw-w64
First I successfully compiled the Linux version with the --enable-libnpp option activated following the instructions on the NVIDIA dev site Compile Ffmpeg with NVIDIA Video Codec SDK.
In order to do that you need to install the CUDA Toolkit. Just follow the instructions and the package installer will create the symbolic links (I have the CUDA Toolkit 8.0):
/usr/local/cuda/include/ -> /usr/local/cuda-8.0/targets/x86_64-linux/include
/usr/local/cuda/lib64/ -> /usr/local/cuda-8.0/targets/x86_64-linux/lib
This should provide Configure the right path to find the correct libraries and headers.
The command line I have used to compile the linux version of ffmpeg is:
./configure --enable-nonfree --disable-shared --enable-nvenc --enable-cuda --enable-cuvid --enable-libnpp --extra-cflags=-I/usr/local/cuda/include/ --extra-ldflags=-L/usr/local/cuda/lib64/
The problem you got is that when using cross-compilation you need to provide Configure the right path where to find headers and library for the Windows version of the libnpp library.
From the CUDA Toolkit Download page mentioned above I simply downloaded the exe(local) version of the Windows package.
Under the root of my working folder I created a folder called tmp where I copied the subfolders I found under npp_dev inside the package cuda_8.0.61_win10.exe:
cuda_8.0.61_win10.exe\npp_dev\lib -> tmp/lib
cuda_8.0.61_win10.exe\npp_dev\include -> tmp/include
As final step I launched Configure once again using the following parameters:
./configure --arch=x86_64 --target-os=mingw32 --cross-prefix=x86_64-w64-mingw32- --pkg-config=pkg-config --enable-nonfree --disable-shared --enable-nvenc --enable-cuda --enable-cuvid --enable-libnpp --extra-cflags=-I/usr/local/include --extra-cflags=-I/usr/local/cuda/include/ --extra-ldflags=-L/usr/local/cuda/lib64/ --extra-cflags=-I../tmp/include/ --extra-ldflags=-L../tmp/lib/x64/
The compilation completed successully. When I copied the ffmpeg.exe file to Windows and tried to execute it I got an errore message saying the executable was missing some npp_*.dll.
From the package cuda_8.0.61_win10.exe I copied all the dlls included into the folder npp\bin to the same directory I put ffmpeg.exe.
After that the application run normally and a simple conversion from a 4K file completed as expected.
Actually I went nuts about ffmpeg is not building with the same problem. I fianally managed to get it worked under Windows 10 x64:
Download msys2 from https://www.msys2.org/ and install all packages with Pacman
pacman -Su
pacman -S make
pacman -S diffutils
pacman -S yasm
pacman -S mingw-w64-x86_64-gcc
pacman -S mingw-w64-x86_64-toolchain
add pkgconfig to environment variable PKG_CONFIG_PATH=$PKG_CONFIG_PATH:/usr/local/lib/pkgconfig
Add additional installed toolchain to path: PATH=$PATH:/opt/bin
Start mingw64 version: C:\msys64\msys2_shell.cmd -mingw64
Download and install Cuda from nVidia https://developer.nvidia.com/cuda-downloads?target_os=Windows&target_arch=x86_64&target_version=10&target_type=exenetwork
Extract the downloaded file e.g. cuda_11.2.2_461.33_win10.exe with 7zip locally
Copy cuda_nvcc\nvcc\include to your msys2 e.g. C:\msys64\tmp\nvidia_include
Copy libnpp\npp_dev\lib\x64 to your C:\msys64\tmp\nvidia_lib\x64
Copy libnpp\npp_dev\include to C:\msys64\tmp\nvidia_npp_include
git clone https://github.com/FFmpeg/FFmpeg.git to C:\msys64\home\<user>
git clone https://github.com/libav/libav to C:\msys64\home\<user>
Maybe optional step: git clone https://git.videolan.org/git/ffmpeg/nv-codec-headers.git to C:\msys64\home\<user>
make
make install
Optional because make install should have done this for you: Copy ffnvcodec.pc to C:\msys64\usr\local\lib\pkgconfig
Build libav avconv.exe and avprobe.exe are needed for ffmpeg later:
cd C:\msys64\home\<user>\libav
./configure
make
make install
Finally build ffmpeg:
cd C:\msys64\home\<user>\ffmpeg
./configure --enable-nonfree --disable-shared --enable-nvenc --enable-cuda --enable-cuvid --enable-libnpp --extra-cflags=-I/tmp/nvidia_npp_include --extra-cflags=-I/tmp/nvidia_include --extra-ldflags=-L/tmp/nvidia_lib/x64
make
make install
Copy avconv.exe and avprobe.exe to ffmpeg directory
Done.
Bugfixing:
Missing DLLs: find x64 missing DLLs on your harddisk or in internet.
Use dependency walker for analyzing errors
Download the newest nVidia drivers and use nSight making sure CUVID is supported for your graphic card.
This would seem to be caused by a broken configuration script in the FFmpeg code base. There is no library called npp in recent CUDA distributions, instead on Windows platforms you will have
nppc.lib
nppi.lib
npps.lib
and on linux
libnppc.so
libnppi.so
libnpps.so
You will either need to modify the configuration system yourself or file a bug request with the project developers to do it for you.
There might still be additional problems building the project with MinGW, but that is way beyond the scope of a Stack Overflow question.
If you check config.log, there may have a lot link warnings:
LINK : warning LNK4044: unrecognized option '/L...'; ignored
cause
ERROR: libnpp not found.
Since /L is not a correct argument for msvc linker, in order to include library path, the argument should as follow:
./configure .... --extra-cflags=-I/usr/local/cuda/... --extra-ldflags=-LIBPATH:/usr/local/cuda/...
This should able to solve the libnpp not found issue.
FYI, linker options are listed in the following link (included LIBPATH):
Linker Options
2022 Update
On this weekend I also managed to build latest ffmpeg with working scale_npp filter. Without any npp missing library error during compilation and building. But with some caveats (see below).
I followed this guide by NVIDIA with installed NVIDIA GPU Computing Toolkit v11.7 and latest driver display 473.47 for my video card GeForce GT 710 on Windows 10 21H2 x64
Changes (adaptations) for steps in the guide
I copied all headers including folders from directory path_to_CUDA_toolkit/include
I excluded pkg-config from pacman packages, because after recommended installation steps (step 7 in particular) of MSYS2 it conflicts with installed pkgconf package, i.e. use this command instead:
pacman -S diffutils make yasm
I added directories to Visual Studio C compiler to PATH environment variable in advance (using Windows GUI), in addition to declaring them in the MinGW64 terminal as specified in the guide:
export PATH="/c/Program Files (x86)/Microsoft Visual Studio/2017/BuildTools/VC/Tools/MSVC/14.16.27023/bin/Hostx64/x64/":$PATH
export PATH="/d/NVIDIA GPU Computing Toolkit/CUDA/v11.7/bin/":$PATH
After making (building) ffnvcodec headers, define PKG_CONFIG_PATH (where compiled file ffnvcodec.pc is located) before configure command.
Use absolute paths for --extra-cflags and --extra-ldflags options of configure command. It's probably the main thing in solving "not found" errors. But don't forget that these paths will be printed in ffmpeg banner with other explicit build options.
PKG_CONFIG_PATH="/d/_makeit/nv-codec-headers/" ./configure --enable-nonfree --disable-shared --enable-cuda-nvcc --enable-libnpp --toolchain=msvc --extra-cflags="-I/d/_makeit/ffmpeg/nv_sdk/" --extra-ldflags="-LIBPATH:/d/_makeit/ffmpeg/nv_sdk/"
And that's it. At least -vf scale_npp should work.
In my case still DO NOT WORK the following things from the guide:
cuda built-in resizer and cropper, i.e. -hwaccel_output_format cuda –resize 1280x720 and -hwaccel_output_format cuda –crop 16x16x32x32. I bet that this is due to my old video card is not in GPU Support Matrix. But NVENC and NVDEC works fine for me almost without crutches. And it seems I'm note alone.
UPD: resizer and cropper work! BUT in the mentioned guide commands are incorrect. I found correct way in another NVIDIA FFmpeg Transcoding Guide. Decoder h264_cuvid was missed, must be so:
ffmpeg.exe -y -vsync passthrough -hwaccel cuda -hwaccel_output_format cuda -c:v h264_cuvid -resize 1280x720 -i input.mp4 -c:a copy -c:v h264_nvenc -b:v 5M output.mp4
ffmpeg.exe -y -vsync passthrough -hwaccel cuda -hwaccel_output_format cuda -c:v h264_cuvid -crop 16x16x32x32 -i input.mp4 -c:a copy -c:v h264_nvenc -b:v 5M output.mp4
-vf scale_cuda fails with error. Maybe I used wrong C compiler version or didn't install DirectX SDK from here or installed wrong packages after installing MSYS2 and ignoring pkg-config
[Parsed_scale_cuda_0 # 000001A461479DC0] cu->cuModuleLoadData(cu_module, data) failed -> CUDA_ERROR_UNSUPPORTED_PTX_VERSION: the provided PTX was compiled with an unsupported toolchain.
there is no possibility to use -preset option for h264_nvenc with latest ffmpeg version where presets (enum) were updated. I noticed from ffmpeg report file, this is because using any preset causes "auto" enabling lookahead mode with log raw:
[h264_nvenc # 00000158EFC6E500] Lookahead enabled: depth 28, scenecut enabled, B-adapt enabled.
Even though the options -rc-lookahead and -temporal-aq are not supported by my device (video card). I have to use only one preset p4 (medium) which is by default. And I don't know how to workaround this issue. Value 0 for -rc-lookahead also does not help.
specifying -bf 2 only works with option -extra_hw_frames 6 (six in my case - number of extra frames can differ for your card). Or using only -bf 0. But this is due to constraints of my old video card.
ffmpeg.exe -v verbose -y -vsync passthrough -hwaccel cuda -hwaccel_output_format cuda -extra_hw_frames 6 -i input-1080p.mkv -map 0:v -map 0:a -c:a copy -c:v h264_nvenc -b:v 1M -bf 2 -bufsize 1M -maxrate 2M -qmin 0 -g 250 -b_ref_mode middle -i_qfactor 0.75 -b_qfactor 1.1 output.mp4
I hope my notes will help future Google and SO users.
Related
I'm building ffmpeg version 5.0.1 from source, but for some reason I don't get it to cross-compile against aarch64 as I want to run ffmpeg on a Khadas VIM4 which is a ARMv8 CPU, to be specific the CPU is an Amlogic A311D2 with non-free codecs..
To build ffmpeg from source, I have setup a build-suite put together from various sources which currently works fine with x86_64 and can be obtained here: https://github.com/venomone/ffmpeg_build_suite
Simply run trigger.sh from the terminal, make sure docker is installed on your host if you are interested. The script will output ffprobe and ffmpeg in a folder called /build
From my understanding, the ffmpeg configuration part must get extended by the following lines:
--enable-cross-compile \
--target-os=linux \
--arch=arm64 \
--cross-prefix=aarch64-linux-gnu- \
--enable-shared \
But even with these settings, I'm running into the following error:
#11 938.3 aarch64-linux-gnu-gcc is unable to create an executable file.
#11 938.3 C compiler test failed.
Is somebody able to provide me a hint, what might be the problem here?
I'm trying to install ffmpeg on my Raspberry Pi Zero W, but I get several error messages.
OS: Raspberry Pi OS (32-bit) Lite (May 2020)
I have executed the following commands:
sudo apt update
sudo apt full-upgrade
sudo apt install git
git clone https://github.com/FFmpeg/FFmpeg.git
cd FFmpeg
./configure --arch=armel --target-os=linux --enable-gpl --enable-omx --enable-omx-rpi --enable-nonfree
make -j2
sudo make install
Output of last command:
...
LD ffmpeg_g
/usr/bin/ld: libavformat/libavformat.a(fifo.o): in function `fifo_init':
/home/pi/FFmpeg/libavformat/fifo.c:519: undefined reference to `__atomic_store_8'
/usr/bin/ld: libavformat/libavformat.a(fifo.o): in function `fifo_write_trailer':
/home/pi/FFmpeg/libavformat/fifo.c:624: undefined reference to `__atomic_fetch_add_8'
/usr/bin/ld: /home/pi/FFmpeg/libavformat/fifo.c:631: undefined reference to `__atomic_store_8'
/usr/bin/ld: libavformat/libavformat.a(fifo.o): in function `fifo_thread_write_packet':
/home/pi/FFmpeg/libavformat/fifo.c:188: undefined reference to `__atomic_fetch_sub_8'
/usr/bin/ld: libavformat/libavformat.a(fifo.o): in function `fifo_consumer_thread':
/home/pi/FFmpeg/libavformat/fifo.c:457: undefined reference to `__atomic_load_8'
/usr/bin/ld: libavformat/libavformat.a(fifo.o): in function `fifo_write_packet':
/home/pi/FFmpeg/libavformat/fifo.c:597: undefined reference to `__atomic_fetch_add_8'
collect2: error: ld returned 1 exit status
make: *** [Makefile:114: ffmpeg_g] Error 1
Maybe another package is missing? Do I have to change anything in the config?
Add the following to the ./configure parameters.
--extra-ldflags="-latomic"
So your command becomes:
./configure --extra-ldflags="-latomic" --arch=armel --target-os=linux --enable-gpl --enable-omx --enable-omx-rpi --enable-nonfree
On arm platforms with the latest version of "something" installed, I've come across several programs (including ffmpeg) that seem to no longer automatically link the atomic library giving you this or a similar error. I haven't had the time to find out exactly what is causing it or why yet.
The above command manually tells the configure script to include atomic when linking.
Trying to enable the Pi's hardware h264 encoding by any chance?
As I don't know the reason of the above behavior, I can confirm that this happens to me too, on Raspberry Pi 3.
I found a workaround, by installing an oldest package by the next commands:
wget -O ffmpeg-4.1.5.tar.bz2 https://ffmpeg.org/releases/ffmpeg-4.1.5.tar.bz2
tar xvjf ffmpeg-4.1.5.tar.bz2
UPDATE:
I found some problems with the installation from source, as Pi Zero
f.ex the CPU may be hard float, so you should change some flags before compiling.
if you don't mind a version, install the already precompiled packages by:
sudo apt install ffmpeg -y
I was also trying to live stream video to Youtube with a Raspberry Pi Zero W at 1080p. However it would also crash after 2-3 min. My guess was that it couldn't handled it, so I downgraded it to 720p.
I was able to run 720p#30fps/2000Kbps without any problems. I tested it for about 2 hours without dropping any frames or any other issues, pretty stable.
The settings I've used to accomplish that are the following:
v4l2-ctl --set-fmt-video=width=1280,height=720,pixelformat=4
v4l2-ctl --set-ctrl=rotate=180
v4l2-ctl --overlay=1
v4l2-ctl -p 30
v4l2-ctl --set-ctrl=video_bitrate=2000000
ffmpeg -ar 44100 -ac 2 -acodec pcm_s16le -f s16le -i /dev/zero -f h264 -framerate 30 -i /dev/video0 -vcodec copy -acodec aac -ab 128k -g 60 -f flv -r 30 rtmp://a.rtmp.youtube.com/live2/YOURKEY
I need ffmpeg with hardware acceleration.
I am compiling ffmpeg following this guide:
https://gist.github.com/Brainiarc7/eb45d2e22afec7534f4a117d15fe6d89
x264 never works after compile.
I follow the official guide, adding "--enable-shared", compile again, still no luck.
https://trac.ffmpeg.org/wiki/CompilationGuide/Ubuntu
Simply installing libx264-dev does not work as well.
$ ldd ~/bin/ffmpeg | grep x264 libx264.so.155 => not found
Does anyone know how to make x264 work?
Thanks.
Is there not any error message when you configure ffmpeg?
Or you can command ffmpeg, and show the configuration like
configuration: --enable-shared --enable-libx264 --enable-libx265 --enable-gpl --enable-nonfree
Maybe you can try install x264 from source.
You can use VCPKG to install ffmpeg with x264 support this project is avaliable on GIT.
Its a straight forward installation using VCPKG.
how to use vcpkg
https://www.youtube.com/watch?v=wRnjahwxZ8A&t=114s
all I am trying to --enable-protocol=SRT of ffmpeg. What I do as the following:
1.Check current configuration of ffmpeg which shows it doesn't suppport protocol of SRT.
2.So I trying to use msys64 to compile ffmpeg with --enable-protocol=SRT,and the command
$ ./configure --toolchain=msvc --arch=x64 --enable-yasm --enable-asm --enable-shared --enable-protocol=SRT
but the result as the following:
it's showing that the config is no use.Can you help me,thanks!
SRT is provided via an external library, so you'll need that library available for linking via pkg-config.
configure flags are --enable-protocol=libsrt --enable-libsrt. The former flag is only needed if you have disabled all components or protocols. Won't hurt to keep it, though.
FFmpeg compilation with encoder x264 not found Windows
I am trying to compile FFmpeg with several encoder (x264, NVENC). I already
managed to compile FFmpeg with MinGW and also x264 but I do not know how I can
tell where my compiled encoders are.
I have a folder where my FFmpeg sources are and in this directory I have my
compiled x264 encoder in a subfolder called x264.
OS: Windows 10
Compiler: MinGW
You need to install x264 to the correct place. When building x264, use this
or similar:
./configure --prefix=/usr/x86_64-w64-mingw32/sys-root/mingw
Example
Use the appropriate options when compiling FFmpeg, for example:
./configure --arch=x86_64 --target-os=mingw32 --cross-prefix=x86_64-w64-mingw32-
Example
This will allow FFmpeg to find your build tools and libraries.