Reorganize the SRS (Simple Realtime Server) repository to
follow a conventional Go project structure, setting the stage for a
progressive transition from a C++ project to a Go project. The proxy,
which was once contained within its own `proxy/` subdirectory, will now
be converted into the initial Go module located at the root of the
repository, serving as a template for subsequent Go modules.
- **Go module at repo root:** `go.mod` moved to repo root, module
renamed from `proxy` to `srsx`. The repo is now a proper Go project with
`cmd/` and `internal/` at the top level.
- **Elevation of Proxy Code:** Move the proxy code from
`proxy/cmd/proxy-go/` to `cmd/proxy/`, and from `proxy/internal/` to
`internal/`. The proxy serves as the inaugural application; subsequent
modules (for instance, `cmd/origin`) will mimic this arrangement.
- **Documentation Restructured:** Transfer the documentation from
`proxy/docs/` to `docs/proxy/`, revise the main README to endorse
OpenClaw as the preferred AI tool, and update `proxy/README.md` to point
to the new documentation locations.
- **Build and config:** `Makefile` moved to root, `PROXY_STATIC_FILES`
default path corrected for the new layout, `.gitignore` consolidated.
- **Cleanup:** removed standalone `proxy/LICENSE` (repo-level license
applies), all internal imports updated to `srsx/internal/...`.
- **OpenClaw workspace:** added community bot info, git workflow
conventions, and support group behavior guidance.
This restructuring was performed by OpenClaw orchestrating Claude Code
and Codex via ACP.
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: chatgpt-codex-connector[bot] <199175422+chatgpt-codex-connector[bot]@users.noreply.github.com>
- Add a comprehensive ST knowledge base document:
- openclaw/memory/srs-coroutines.md
- Add ST-focused developer skill:
- openclaw/skills/st-develop/SKILL.md
- openclaw/skills/st-develop/scripts/verify.sh
- Add KB workflow skills that support ST documentation quality and
learning:
- openclaw/skills/kb-review/SKILL.md
- openclaw/skills/srs-learn/SKILL.md
- Update openclaw/skills/srs-support/SKILL.md to use dynamic SRS_ROOT
path resolution, improving portability for KB/source
loading.
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: chatgpt-codex-connector[bot] <199175422+chatgpt-codex-connector[bot]@users.noreply.github.com>
This PR renames the trunk/ide/ directory to trunk/cmake/ to better
reflect its actual purpose. The directory contains CMake build
configuration files used by multiple IDEs (CLion, VSCode), not
IDE-specific files.
* Directory rename: trunk/ide/ → trunk/cmake/
* Build output location: trunk/ide/vscode-build/ → trunk/cmake/build/
* CMakeLists.txt: Moved from trunk/ide/srs_clion/CMakeLists.txt to
trunk/cmake/CMakeLists.txt
**Introduce**
This pull request builds upon the foundation laid in
https://github.com/ossrs/srs/pull/4289 . While the previous work solely
implemented unidirectional HEVC support from RTMP to RTC, this
submission further enhances it by introducing support for the RTC to
RTMP direction.
**Usage**
Launch SRS with `rtc2rtmp.conf`
```bash
./objs/srs -c conf/rtc2rtmp.conf
```
**Push with WebRTC**
Upgrade browser to Chrome(136+) or Safari(18+), then open [WHIP
encoder](http://localhost:8080/players/whip.html?schema=http&&codec=hevc),
push stream with URL that enables HEVC by query string `codec=hevc`:
```bash
http://localhost:1985/rtc/v1/whip/?app=live&stream=livestream&codec=hevc
```
This query string `codec=hevc` is used to select the video codec, and
generate lines in the answer SDP.
```
m=video 9 UDP/TLS/RTP/SAVPF 49 123
a=rtpmap:49 H265/90000
```
The encoder log also show the codec:
```
Audio: opus, 48000HZ, channels: 2, pt: 111
Video: H265, 90000HZ, pt: 49
```
**Play with RTMP**
Play HEVC stream via RTMP.
```bash
ffplay -i rtmp://localhost/live/livestream
```
You will see the codec in logs:
```
Stream #0:0: Audio: aac (LC), 48000 Hz, stereo, fltp
Stream #0:1: Video: hevc (Main), yuv420p(tv, bt709), 320x240, 30 fps, 30 tbr, 1k tbn
```
You can also use [WHEP
player](http://localhost:8080/players/whep.html?schema=http&&codec=hevc)
to play the stream.
Important refactor with AI:
* [AI: Refactor packet cache for RTC frame
builder.](b8ffa1630e)
* [AI: Refactor the packet copy and free for
SrsRtcFrameBuilder](f3487b45d7)
* [AI: Refactor the frame detector for
SrsRtcFrameBuilder](4ffc1526b9)
* [AI: Refactor the packet_video_rtmp for
SrsRtcFrameBuilder](81f6aef4ed)
* [AI: Add utests for
SrsCodecPayload.codec](61eb1c0bfc)
* [AI: Add utests for VideoPacketCache in
SrsRtcFrameBuilder.](fd25480dfa)
* [AI: Add utests for VideoFrameDetector in
SrsRtcFrameBuilder.](b4aa977bbd)
* [AI: Add regression test for RTC2RTMP with
HEVC.](5259a2aac3)
---------
Co-authored-by: Jacob Su <suzp1984@gmail.com>
Co-authored-by: winlin <winlinvip@gmail.com>
1. Support github actions on Windows Server 2022.
2. Use cygwin64 in windows-latest to build SRS.
3. Package SRS-xxx-setup.exe by NSIS.exe
4. Patch crypto/include/config.h for libsrtp.
5. Support run as administrator.
6. Apply utest for cygwin.
7. Enable srtp over openssl.
1. Replase ln by cp for windows.
2. Refine OS and CPU arch detecting.
3. Support configure from any directory by `SRS_WORKDIR`.
4. Support output to any directory by `SRS_OUTPUT`.
5. Disable sanitizer for gperf.
6. Use parallels build for make.
7. Refine bash variable check.