Fluster is a testing framework written in Python for decoder conformance. It is composed of a CLI application that runs a number of test suites with the supported decoders. Its purpose is to check different decoder implementations against known test suites with known and proven results. It was originally designed to check the conformance of H.265/HEVC decoders, but it also supports H.264/AVC, H.266/VVC, VP8, VP9, AV1 and AAC. It can easily be extended to add more decoders and test suites.
- Fluster
Fluster requires Python 3.6+ to work. It has zero dependencies apart from that. The requirements.txt file includes Python's modules used only for development.
The framework works with test suites. Each test suite is associated with one codec and contains a number of test vectors. Each test vector consists of an input file and and the expected result. The input file will be fed into each decoder that supports the codec of the test suite. The file format is a JSON file. You can find the ones included in the test_suites directory.
The decoders are the ones in charge of doing the decoding given an input file.
They implement two methods: decode
which is mandatory and check
which is
optional. Check out the decoder class for reference. The
@register_decoder
decorator is used to ensure the framework takes them into
account. Fluster is agnostic as to how the decoding itself is done. So far, all
decoders are external processes that need to run with a number of parameters,
but they could actually be decoders written in Python as far as Fluster is
concerned. The decoders directory contains all supported
decoders.
In order to run the tests for the different test suites and decoders, a
resources
directory containing all the input files for each test suite needs
to be collected first.
- Clone the repository:
git clone https://github.com/fluendo/fluster.git
or
- Release source code assets are available in the following formats zip, tar.gz
Find more about how to use Fluster in the next section.
-
Download the resources for the test suites. This will create the
resources
directory containing the input files for each test suite../fluster.py download
will spawn a number of processes to download and extract the files. You can change the number of parallel processes used with-j
. It defaults to 2x number of logical cores. -
(Optional) Build the reference decoders for AAC, H.264/AVC, H.265/HEVC, H.266/VVC running
make all_reference_decoders
. It assumes you have CMake and a native compiler such as gcc or clang installed so that they can be built. The resulting binaries will be moved to a newdecoders
directory in the root. -
List the test suites, the decoders and which of them can run using
./fluster.py list -c
.
List of available test suites:
ISO_IEC_13818-4_2004
Codec: AAC
Description: ISO_IEC_13818-4_2004 ADTS conformance test suite
Test vectors: 62
ISO_IEC_14496-26_2010
Codec: AAC
Description: ISO_IEC_14496-26_2010 ADTS conformance test suite
Test vectors: 9
JCT-VC-HEVC_V1
Codec: H.265
Description: JCT-VC HEVC version 1
Test vectors: 147
JVT-AVC_V1
Codec: H.264
Description: JVT AVC version 1
Test vectors: 135
JVT-FR-EXT
Codec: H.264
Description: JVT Fidelity Range Extensions
Test vectors: 69
JVET-VVC_draft6
Codec: H.266
Description: JVET VVC draft6
Test vectors: 282
VP8-TEST-VECTORS
Codec: VP8
Description: VP8 Test Vector Catalogue from https://github.com/webmproject/vp8-test-vectors
Test vectors: 61
VP9-TEST-VECTORS-HIGH
Codec: VP9
Description: VP9 High Bit Depth Test Vectors from https://storage.googleapis.com/downloads.webmproject.org/test_data/libvpx/
Test vectors: 6
VP9-TEST-VECTORS
Codec: VP9
Description: VP9 Test Vector Catalogue from https://storage.googleapis.com/downloads.webmproject.org/test_data/libvpx/
Test vectors: 305
AV1-TEST-VECTORS
Codec: AV1
Description: AV1 Test Vector Catalogue from https://storage.googleapis.com/aom-test-data
Test vectors: 239
CHROMIUM-8bit-AV1-TEST-VECTORS
Codec: AV1
Description: AV1 Test Vector Catalogue from https://source.chromium.org/chromiumos/chromiumos/codesearch/+/main:src/platform/tast-tests/src/chromiumos/tast/local/bundles/cros/video/data/test_vectors/av1/
Test vectors: 13
CHROMIUM-10bit-AV1-TEST-VECTORS
Codec: AV1
Description: AV1 Test Vector Catalogue from https://source.chromium.org/chromiumos/chromiumos/codesearch/+/main:src/platform/tast-tests/src/chromiumos/tast/local/bundles/cros/video/data/test_vectors/av1/
Test vectors: 23
List of available decoders:
H264
Chromium-H.264: Chromium H.264 decoder for Chromium... ❌
FFmpeg-H.264: FFmpeg H.264 SW decoder... ✔️
FFmpeg-H.264-D3D11VA: FFmpeg H.264 D3D11VA decoder... ❌
FFmpeg-H.264-DXVA2: FFmpeg H.264 DXVA2 decoder... ❌
FFmpeg-H.264-VAAPI: FFmpeg H.264 VAAPI decoder... ✔️
FFmpeg-H.264-VDPAU: FFmpeg H.264 VDPAU decoder... ✔️
FFmpeg-H.264-h264_v4l2m2m: FFmpeg H.264 h264_v4l2m2m decoder... ✔️
Fluendo-H.264-HW-Gst1.0: Fluendo H.264 HW decoder for GStreamer 1.0... ❌
Fluendo-H.264-HW-hwvah264dec-Gst1.0: Fluendo H.264 HW decoder for GStreamer 1.0... ❌
Fluendo-H.264-SW-Gst1.0: Fluendo H.264 SW decoder for GStreamer 1.0... ❌
GStreamer-H.264-D3D11-Gst1.0: GStreamer H.264 D3D11 decoder for GStreamer 1.0... ❌
GStreamer-H.264-Libav-Gst1.0: GStreamer H.264 Libav decoder for GStreamer 1.0... ✔️
GStreamer-H.264-MSDK-Gst1.0: GStreamer H.264 MSDK decoder for GStreamer 1.0... ❌
GStreamer-H.264-NVDEC-Gst1.0: GStreamer H.264 NVDEC decoder for GStreamer 1.0... ❌
GStreamer-H.264-NVDECSL-Gst1.0: GStreamer H.264 NVDECSL decoder for GStreamer 1.0... ❌
GStreamer-H.264-V4L2-Gst1.0: GStreamer H.264 V4L2 decoder for GStreamer 1.0... ❌
GStreamer-H.264-V4L2SL-Gst1.0: GStreamer H.264 V4L2SL decoder for GStreamer 1.0... ❌
GStreamer-H.264-VA-Gst1.0: GStreamer H.264 VA decoder for GStreamer 1.0... ❌
GStreamer-H.264-VAAPI-Gst1.0: GStreamer H.264 VAAPI decoder for GStreamer 1.0... ❌
JCT-VT-H.264: JCT-VT H.264/AVC reference decoder... ✔️
DUMMY
Dummy: This is a dummy implementation for the dummy codec... ✔️
AV1
FFmpeg-AV1-VAAPI: FFmpeg AV1 VAAPI decoder... ✔️
GStreamer-AV1-D3D11-Gst1.0: GStreamer AV1 D3D11 decoder for GStreamer 1.0... ❌
GStreamer-AV1-V4L2SL-Gst1.0: GStreamer AV1 V4L2SL decoder for GStreamer 1.0... ❌
GStreamer-AV1-VA-Gst1.0: GStreamer AV1 VA decoder for GStreamer 1.0... ❌
GStreamer-AV1-VAAPI-Gst1.0: GStreamer AV1 VAAPI decoder for GStreamer 1.0... ❌
libaom-AV1: libaom AV1 reference decoder... ✔️
H265
FFmpeg-H.265: FFmpeg H.265 SW decoder... ✔️
FFmpeg-H.265-D3D11VA: FFmpeg H.265 D3D11VA decoder... ❌
FFmpeg-H.265-DXVA2: FFmpeg H.265 DXVA2 decoder... ❌
FFmpeg-H.265-VAAPI: FFmpeg H.265 VAAPI decoder... ✔️
FFmpeg-H.265-VDPAU: FFmpeg H.265 VDPAU decoder... ✔️
Fluendo-H.265-HW-hwvah265dec-Gst1.0: Fluendo H.265 HW decoder for GStreamer 1.0... ❌
Fluendo-H.265-SW-Gst1.0: Fluendo H.265 SW decoder for GStreamer 1.0... ❌
Fluendo-H.265-byte-stream-au-HW-Gst1.0: Fluendo H.265-byte-stream-au HW decoder for GStreamer 1.0... ❌
Fluendo-H.265-byte-stream-nal-HW-Gst1.0: Fluendo H.265-byte-stream-nal HW decoder for GStreamer 1.0... ❌
Fluendo-H.265-hev1-au-HW-Gst1.0: Fluendo H.265-hev1-au HW decoder for GStreamer 1.0... ❌
Fluendo-H.265-hev1-nal-HW-Gst1.0: Fluendo H.265-hev1-nal HW decoder for GStreamer 1.0... ❌
Fluendo-H.265-hvc1-au-HW-Gst1.0: Fluendo H.265-hvc1-au HW decoder for GStreamer 1.0... ❌
Fluendo-H.265-hvc1-nal-HW-Gst1.0: Fluendo H.265-hvc1-nal HW decoder for GStreamer 1.0... ❌
GStreamer-H.265-D3D11-Gst1.0: GStreamer H.265 D3D11 decoder for GStreamer 1.0... ❌
GStreamer-H.265-Libav-Gst1.0: GStreamer H.265 Libav decoder for GStreamer 1.0... ✔️
GStreamer-H.265-MSDK-Gst1.0: GStreamer H.265 MSDK decoder for GStreamer 1.0... ❌
GStreamer-H.265-NVDEC-Gst1.0: GStreamer H.265 NVDEC decoder for GStreamer 1.0... ❌
GStreamer-H.265-NVDECSL-Gst1.0: GStreamer H.265 NVDECSL decoder for GStreamer 1.0... ❌
GStreamer-H.265-V4L2-Gst1.0: GStreamer H.265 V4L2 decoder for GStreamer 1.0... ❌
GStreamer-H.265-V4L2SL-Gst1.0: GStreamer H.265 V4L2SL decoder for GStreamer 1.0... ❌
GStreamer-H.265-VA-Gst1.0: GStreamer H.265 VA decoder for GStreamer 1.0... ❌
GStreamer-H.265-VAAPI-Gst1.0: GStreamer H.265 VAAPI decoder for GStreamer 1.0... ❌
JCT-VT-H.265: JCT-VT H.265/HEVC reference decoder... ✔️
VP8
FFmpeg-VP8: FFmpeg VP8 SW decoder... ✔️
FFmpeg-VP8-VAAPI: FFmpeg VP8 VAAPI decoder... ✔️
FFmpeg-VP8-vp8_v4l2m2m: FFmpeg VP8 vp8_v4l2m2m decoder... ✔️
GStreamer-VP8-D3D11-Gst1.0: GStreamer VP8 D3D11 decoder for GStreamer 1.0... ❌
GStreamer-VP8-Libav-Gst1.0: GStreamer VP8 Libav decoder for GStreamer 1.0... ✔️
GStreamer-VP8-NVDEC-Gst1.0: GStreamer VP8 NVDEC decoder for GStreamer 1.0... ❌
GStreamer-VP8-NVDECSL-Gst1.0: GStreamer VP8 NVDECSL decoder for GStreamer 1.0... ❌
GStreamer-VP8-V4L2-Gst1.0: GStreamer VP8 V4L2 decoder for GStreamer 1.0... ❌
GStreamer-VP8-V4L2SL-Gst1.0: GStreamer VP8 V4L2SL decoder for GStreamer 1.0... ❌
GStreamer-VP8-VA-Gst1.0: GStreamer VP8 VA decoder for GStreamer 1.0... ❌
GStreamer-VP8-VAAPI-Gst1.0: GStreamer VP8 VAAPI decoder for GStreamer 1.0... ❌
GStreamer-VP8-libvpx-Gst1.0: GStreamer VP8 libvpx decoder for GStreamer 1.0... ✔️
libvpx-VP8: VP8 reference decoder... ✔️
VP9
FFmpeg-VP9: FFmpeg VP9 SW decoder... ✔️
FFmpeg-VP9-VAAPI: FFmpeg VP9 VAAPI decoder... ✔️
FFmpeg-VP9-vp9_v4l2m2m: FFmpeg VP9 vp9_v4l2m2m decoder... ✔️
GStreamer-VP9-D3D11-Gst1.0: GStreamer VP9 D3D11 decoder for GStreamer 1.0... ❌
GStreamer-VP9-Libav-Gst1.0: GStreamer VP9 Libav decoder for GStreamer 1.0... ✔️
GStreamer-VP9-NVDEC-Gst1.0: GStreamer VP9 NVDEC decoder for GStreamer 1.0... ❌
GStreamer-VP9-NVDECSL-Gst1.0: GStreamer VP9 NVDECSL decoder for GStreamer 1.0... ❌
GStreamer-VP9-V4L2SL-Gst1.0: GStreamer VP9 V4L2SL decoder for GStreamer 1.0... ❌
GStreamer-VP9-VA-Gst1.0: GStreamer VP9 VA decoder for GStreamer 1.0... ❌
GStreamer-VP9-VAAPI-Gst1.0: GStreamer VP9 VAAPI decoder for GStreamer 1.0... ❌
GStreamer-VP9-libvpx-Gst1.0: GStreamer VP9 libvpx decoder for GStreamer 1.0... ✔️
libvpx-VP9: VP9 reference decoder... ✔️
AAC
Fluendo-AAC-SW-Gst1.0: Fluendo AAC SW decoder for GStreamer 1.0... ✔️
ISO-MPEG4-AAC: ISO MPEG4 AAC reference decoder... ✔️
H266
GStreamer-H.266-VVdeC-Gst1.0: GStreamer H.266 VVdeC decoder for GStreamer 1.0... ✔
VVdeC-H266: VVdeC H.266/VVC reference decoder... ✔️
-
Run the test suite (or a number of them) for all decoders (or a number of them). By default, decoder tests are run in parallel. By default fluster uses the same amount of parallel jobs as number of cores, but it can be configured using the
-j
option. You can pass-d
to filter only the decoders that you want to run,-ts
for the test suites and-tv
for the test vectors. Examples:./fluster.py run
runs all test suites for all decoders available that match each test suite's codec../fluster.py run -ts JCT-VC-HEVC_V1
runs the JCT-VC-HEVC_V1 test suite for all decoders that support H.265/HEVC../fluster.py run -ts JCT-VC-HEVC_V1 -tv AMP_A_Samsung_7
runs only the test vector AMP_A_Samsung_7 of the JCT-VC-HEVC_V1 test suite../fluster.py run -d FFmpeg-H.265
runs the FFmpeg-H265 decoder on all test suites for H.265/HEVC../fluster.py run -d FFmpeg-H.265 -j1
runs the FFmpeg-H265 decoder on all test suites for H.265/HEVC using one job.
- Dummy test suite for testing purposes.
- AAC.
- AAC.
- AV1.
- AV1.
- H.264/AVC.
- H.265/HEVC.
- H.266/VVC.
- VP8.
- VP9.
- Dummy decoder for testing purposes.
- JCT-VT H.264/AVC as reference decoder for H.264/AVC.
- JCT-VT H.265/HEVC as reference decoder for H.265/HEVC.
- JCT-VT H.266/VVC as reference decoder for H.266/VVC.
- Fluendo's proprietary decoders for H.264/AVC and H.265/HEVC that are included in Fluendo Codec Pack.
- GStreamer's for H.266/VVC.
- GStreamer's for H.265/HEVC.
- GStreamer's for H.264/AVC.
- FFmpeg's for H.265/HEVC.
- FFmpeg's for H.264/AVC.
- libvpx's for VP8.
- libvpx's for VP9.
- aom's for AV1.
./fluster.py --help
usage: fluster.py [-h] [-r RESOURCES] [-o OUTPUT] [-ne] [-tsd TEST_SUITES_DIR]
{list,l,run,r,download,d,reference,f} ...
optional arguments:
-h, --help show this help message and exit
-r RESOURCES, --resources RESOURCES
set the directory where resources are taken from
-o OUTPUT, --output OUTPUT
set the directory where decoder outputs will be stored
-ne, --no-emoji set to use plain text instead of emojis
-tsd TEST_SUITES_DIR, --test-suites-dir TEST_SUITES_DIR
set directory where test suite will be read from, multiple directories are supported with OS path separator (:)
subcommands:
{list,l,run,r,download,d,reference,f}
list (l) show list of available test suites and decoders
run (r) run test suites for decoders
download (d) downloads test suites resources
reference (f) use a specific decoder to set its results for the test
suites given
./fluster.py list --help
usage: fluster.py list [-h] [-ts TESTSUITES [TESTSUITES ...]] [-tv] [-c] [-v]
optional arguments:
-h, --help show this help message and exit
-ts TESTSUITES [TESTSUITES ...], --testsuites TESTSUITES [TESTSUITES ...]
show only the test suites given
-tv, --testvectors show test vectors of test suites
-c, --check check which decoders can be run successfully. Reports ✔️ or ❌
-v, --verbose show stdout and stderr of commands executed
./fluster.py run --help
usage: fluster.py run [-h] [-j JOBS] [-t TIMEOUT] [-ff] [-q]
[-ts TESTSUITES [TESTSUITES ...]] [-tv TESTVECTORS [TESTVECTORS ...]]
[-sv SKIPVECTORS [SKIPVECTORS ...]] [-d DECODERS [DECODERS ...]] [-s]
[-so SUMMARY_OUTPUT] [-f {md,csv,junitxml}] [-k] [-th THRESHOLD]
[-tth TIME_THRESHOLD] [-v]
optional arguments:
-h, --help show this help message and exit
-j JOBS, --jobs JOBS number of parallel jobs to use. 1x logical cores by
default.0 means all logical cores
-t TIMEOUT, --timeout TIMEOUT
timeout in secs for each decoding. Defaults to 30 secs
-ff, --failfast stop after first fail
-q, --quiet don't show every test run
-ts TESTSUITES [TESTSUITES ...], --testsuites TESTSUITES [TESTSUITES ...]
run only the specific test suites
-tv TESTVECTORS [TESTVECTORS ...], --testvectors TESTVECTORS [TESTVECTORS ...]
run only the specific test vectors
-sv SKIPVECTORS [SKIPVECTORS ...], --skipvectors SKIPVECTORS [SKIPVECTORS ...]
skip the specific test vectors
-d DECODERS [DECODERS ...], --decoders DECODERS [DECODERS ...]
run only the specific decoders
-s, --summary generate a summary in Markdown format for each test
suite
-so SUMMARY_OUTPUT, --summary-output SUMMARY_OUTPUT
dump summary output to file
-f {md,csv,junitxml}, --format {md,csv,junitxml}
specify the format for the summary file
-k, --keep keep output files generated during the test
-th THRESHOLD, --threshold THRESHOLD
set exit code to 2 if threshold tests are not success.
exit code is 0 otherwise
-tth TIME_THRESHOLD, --time-threshold TIME_THRESHOLD
set exit code to 3 if test suite takes longer than
threshold seconds. exit code is 0 otherwise
-v, --verbose show stdout and stderr of commands executed
./fluster.py download --help
usage: fluster.py download [-h] [-j JOBS] [-k] [testsuites [testsuites ...]]
positional arguments:
testsuites list of testsuites to download
optional arguments:
-h, --help show this help message and exit
-j JOBS, --jobs JOBS number of parallel jobs to use. 2x logical cores by
default.0 means all logical cores
-k, --keep keep original downloaded file after extracting. Only
applicable to compressed files such as .zip, .tar.gz,
etc
./fluster.py reference --help
usage: fluster.py reference [-h] [-j JOBS] [-t TIMEOUT] [-q] [-v]
decoder testsuites [testsuites ...]
positional arguments:
decoder decoder to run
testsuites list of testsuites to run the decoder with
optional arguments:
-h, --help show this help message and exit
-j JOBS, --jobs JOBS number of parallel jobs to use. 1x logical cores by
default.0 means all logical cores
-t TIMEOUT, --timeout TIMEOUT
timeout in secs for each decoding. Defaults to 30 secs
-q, --quiet don't show every test run
-v, --verbose show stdout and stderr of commands executed
Fluster in English means to (cause to) become nervous or confused. It looks like a very appropriate name for testing decoders.
- Create a new decoder in fluster/decoders directory.
- Implement the
decode
method. - Use the
register_decoder
decorator. - Ensure to set
hw_acceleration = True
if it requires hardware. - Optionally, implement the
check
to know whether the decoder is available to be run.
Check out the JSON format they follow in the test_suites directory. Add a new json file within, Fluster will automatically pick it up.
There is also a generator script (H.264), generator script (H.265), and a generator script (H.266) for the conformance test suites that you can use as a base to generate automatically new ones.
We can easily use Fluster in a CI to test that our test suites for particular decoders are still working as good as they were before. There are two arguments to be used with the run command that can help us achieve that. Both commands work only when running a single test suite:
-
-th/--threshold
sets the minimum number of tests that need to succeed in order to consider the command not a failure. In case of failure, the exit code is 2. Please notice that even if some tests fail, the exit code will still be 0 as long as the threshold is met. -
-tth/--time-threshold
sets the maximum amount of time for a test suite to run and still be considered a success. The exit code is 3 in case it takes longer and 0 otherwise. Please note that even if some tests fail, the exit code will still be 0 as long as the time it takes is less than the threshold.
However, in case we want to be even more explicit, ensuring exactly the same results are obtained, we can do the following procedure:
-
Store well-known results in an expected file with the output of Fluster's run.
-
Run Fluster again and compare with the expected result using diff. The following command will return an
exitStatus
different from 0 in case there's any difference.diffParams='-uB -I"|Test|" --strip-trailing-cr' diff $diffParams expected.out current.out
We recommend using the
--no-emoji
argument when running on the CI to ensure the log is properly displayed with no issues.
-
Fork the repo.
-
Install the required Python modules for development using
pip3 install -r requirements.txt
. -
Install the git hook that will run for every commit to ensure it works before pushing. About git hooks.
-
Modify the code. Make sure the git hook is properly checking that the basic functionality still works. You can also execute
make check
manually. Take into account that some basic tests are run to ensure that GStreamer, FFmpeg and libvpx decoders are working fine. Thus, you need to have them available. On an Ubuntu 20.04 the needed packages are:gstreamer1.0-tools gstreamer1.0-libav gstreamer1.0-plugins-bad ffmpeg vpx-tools aom-tools
-
Create a new PR with your changes.
-
Make sure the GitHub Actions is running and its result is a pass.
In case you find any problem or want to report something, don't hesitate to search for similar issues. Only when the issue can't be found, a new one should be created. Please try to provide as many details and context as possible to help us diagnose it.
LGPLv3
Fluster - testing framework for decoders conformance
Copyright (C) 2020-2022, Fluendo, S.A.
Author: Pablo Marcos Oltra <[email protected]>, Fluendo, S.A.
Author: Andoni Morales Alastruey <[email protected]>, Fluendo, S.A.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public License
as published by the Free Software Foundation, either version 3
of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library. If not, see <https://www.gnu.org/licenses/>.