Two related additions to the native protocol, host-side (the client side of
each is exposed over the C ABI so the platform clients can wire it up).
Bitrate negotiation
- Hello/Welcome carry `bitrate_kbps` (appended trailing-byte field, back-compat:
old peers decode 0 = host default). The client requests a rate; the host
clamps it to [500 kbps, 500 Mbps] (or its 20 Mbps default when 0) and echoes
the resolved value in Welcome. Replaces the hardcoded 20 Mbps NVENC bitrate in
m3.rs — threaded through virtual_stream → build_pipeline → open_video, applied
on the initial mode and every reconfigure rebuild.
- C ABI: punktfunk_connect_ex3(..., bitrate_kbps, ...) (ex2 delegates with 0);
punktfunk_connection_bitrate() reads the resolved value.
Speed test (bandwidth probe)
- New typed control messages ProbeRequest{target_kbps,duration_ms} (0x20) /
ProbeResult{bytes_sent,packets_sent,duration_ms} (0x21), plus a FLAG_PROBE
packet flag. The client asks the host to burst zero-filled, FLAG_PROBE-tagged
access units over the data plane at a target goodput for a duration (clamped
≤ 1 Gbps / ≤ 5 s), pacing by a bytes-allowed budget; video pauses for the
burst. The host reports what it actually sent; the client measures received
bytes + window → goodput and loss. Probe filler is never fed to the decoder
(diverted in the connector pump and the reference client's poll loop).
- The host control task now multiplexes Reconfigure + ProbeRequest (inbound)
and ProbeResult (outbound) over select!; a probe channel reaches the
data-plane thread (both virtual and synthetic sources).
- Connector: NativeClient::request_probe()/probe_result() with an internal
accumulator; C ABI punktfunk_connection_speed_test() +
punktfunk_connection_probe_result() → PunktfunkProbeResult.
- punktfunk-client-rs gains `--bitrate KBPS` and `--speed-test KBPS:MS` (its own
loop measures + logs goodput/loss) for loopback verification.
Validated on loopback (synthetic source): a 20 Mbps / 2 s probe measured
20050 kbps at 0% loss, bitrate negotiated (0→20000 and 50000→50000), and the
interleaved probe AUs were correctly excluded from frame verification
(mismatched=0). Wire codecs + trailing-byte back-compat have unit tests. C
header regenerated.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
Full project rename, decided 2026-06-10:
- Crates/binaries: punktfunk-core / punktfunk-host / punktfunk-client-rs.
- C ABI: punktfunk_* symbols, Punktfunk* types, include/punktfunk_core.h,
PUNKTFUNK_FEATURE_QUIC guard (header regenerated; cbindgen renames updated, incl.
PUNKTFUNK_BTN_*/PUNKTFUNK_AXIS_* wire constants).
- Protocol: punktfunk/1 — control-plane magic LMN1 → PKF1, nonce salt lmn1 → pkf1.
WIRE BREAK: clients must be rebuilt from this revision.
- Env knobs: PUNKTFUNK_VIDEO_SOURCE / PUNKTFUNK_COMPOSITOR / PUNKTFUNK_ZEROCOPY / ….
- Host config dir: ~/.config/punktfunk (the box's dir was migrated in place — the
persistent identity is unchanged, pinned fingerprints stay valid).
- Swift package: PunktfunkKit + PunktfunkCore.xcframework + PunktfunkConnection
(Sources/PunktfunkClient app + tests renamed with it); build-xcframework.sh updated.
- scripts/: 60-punktfunk.rules, punktfunk-host.service; OpenAPI doc regenerated.
Also: scripts/headless/run-headless-kde.sh — full headless Plasma bringup. Root cause of
"desktop but no apps/settings" over the stream: plasmashell launched without
XDG_MENU_PREFIX=plasma-, so the launcher resolved a nonexistent applications.menu and
rendered an empty menu. The script sets the complete KDE session env (menu prefix,
KDE_FULL_SESSION, session version) and rebuilds ksycoca before starting plasmashell.
Gate: 97/97 tests, clippy -D warnings (both feature sets), fmt, C-ABI harness PASS,
zero lumen references left outside .git.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
enricobuehler