Front-end design notes: TeslaConsole control code analysis + Steam plan
Findings from TeslaConsole.RedPlanet and L4NET: the pod lifecycle (egg chunks/ACK, RunMission, telemetry, results), the egg as the entire mission definition (NotationFile text incl. pre-rendered plasma name bitmaps), the RPConfig.xml catalog, and the key topology finding - every pod gets the same egg and builds a deterministic full TCP mesh from the ordered pilots list (connect to earlier entries, listen for later). Maps 1:1 onto Steam: lobby owner = console, SteamIDs = pilot addresses, ISteamNetworkingSockets P2P = the mesh, with a NetTransport seam at L4NET mirroring the RIOBase pattern. Implementation options and open decisions listed for signoff. Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
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# RP412 Front End & Steam Multiplayer — Design Notes
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Findings from reading TeslaConsole's Red Planet control code
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(`TeslaSuite/Console/TeslaConsole.RedPlanet/`) against the game side
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(`MUNGA_L4/L4NET.CPP`, `MUNGA/NETWORK.cpp`), and how a Steam front end maps
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onto it. Written 2026-07-12 for the implement-decision.
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## 1. What the console actually does
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TeslaConsole is four things, and RP412's front end must absorb all four:
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### a) Pod control channel (`Munga.Net`, TCP console port)
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Per-pod state machine (`RPGame.cs`): take **ownership** of a pod, watch its
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app state, and drive the lifecycle:
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```
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WaitingForEgg --egg chunks--> (ACK, 5s retry)
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WaitingForLaunch --RunMissionMessage-->
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RunningMission --telemetry--> EndMission (final scores)
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--AbortMissionMessage--> reset
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```
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The egg is sent as `EggFileMessage` chunks of 1000 bytes with an
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`AcknowledgeEggFileMessage` reply from the pod.
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### b) The mission egg (the ENTIRE mission definition)
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A NotationFile-format text file (`RPMission.ToEggString()`), newline→NUL:
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```ini
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[mission] adventure=Red Planet, scenario, map, time, weather,
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temperature, compression, length (seconds)
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[pilots] ordered pilot=<host address> list (players, then cameras)
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[<address>] per participant: hostType, dropzone, name, bitmapindex,
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loadzones, vehicle, color, badge (+ team/position in football)
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[largebitmap] player names PRE-RENDERED as 1bpp bitmaps for the plasma
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[smallbitmap] glass (128x32 and 64x16), generated by the console
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[ordinals] 1st-4th place plasma graphics (hardcoded art)
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```
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The game already loads a local egg with `-egg <file>` (standalone mode) —
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the same text format. **Building an egg locally = the whole single-player
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front end problem.**
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### c) The catalog (`RedPlanet/RPConfig.xml`)
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Two scenarios — **Martian Death Race** and **Martian Football** (2-color
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teams, crusher/blocker/runner positions) — 11 maps, ~30 vehicles (sharing a
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handful of models), 9 colors, 11 badges, day/night, 3 weather levels, with
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per-scenario exclusion lists. Clean data file; reusable as-is.
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### d) Results & telemetry
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During the mission the pods stream `VTVBooster/Damaged/Killed/Scored/
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ScoreUpdate` and `EndMission(finalScore)` to the console host, which records
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them (`RPMissionRecorder`) into `RPMissionResults` and prints score sheets.
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The consumer version wants this as a post-race results screen (and, later,
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Steam leaderboards/achievements fed from the same events).
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## 2. How the pods network with each other (the key finding)
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The console does NOT relay gameplay. Every pod receives the *same* egg, and
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`L4NetworkManager::StartConnecting` builds a **deterministic full TCP mesh**
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from the ordered `[pilots]` list:
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- Resolve each address (`ip[:port]`, default = game port).
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- Entries **before your own**: open a TCP connection to them.
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- Entries **after your own**: listen for their incoming connection.
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- No entry matching a local address → single-user mode, immediate load.
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- Egg-from-network (`SlaveMode`) → ACK the egg, wait for mesh completion.
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So the "lobby protocol" is simply: *agree on an ordered participant list,
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then everyone meshes*. This is an exceptionally good fit for Steam.
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## 3. Steam mapping (plan)
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| Arcade concept | Steam concept |
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|---|---|
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| TeslaConsole operator | **Lobby owner** (host player) |
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| Pod list / Site Management | `ISteamMatchmaking` lobby members |
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| Pilot config dialog | In-lobby cockpit UI; member data (name/vehicle/color/badge) via lobby member data |
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| Egg delivery + ACK | Owner builds the canonical egg, distributes via lobby data or reliable P2P channel; same ACK semantics |
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| `[pilots]` host addresses | **Ordered SteamID list** — same list, different address type |
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| TCP mesh (`StartConnecting`) | `ISteamNetworkingSockets` P2P mesh over SDR: ConnectP2P to earlier entries, accept later ones — the connect/listen ordering ports 1:1 |
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| Console telemetry sink | Lobby owner doubles as the console host (results collection); results screen replaces the printout |
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| Site network / fixed IPs | NAT traversal + IP privacy for free via Steam Datagram Relay |
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Transport seam: mirror the `RIOBase` pattern at the L4NET layer — a
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`NetTransport` interface with the existing WinSock TCP implementation
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(LAN/dev, keeps working today) and a Steam-sockets implementation (retail).
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`L4Host` keeps its identity/queue role; only connect/listen/send/recv move
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behind the interface.
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## 4. Implementation options (decide here)
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**A. In-engine front end (recommended).** Port the egg builder (~300 lines:
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`RPMission/RPPlayer.ToEggString` + the plasma name-bitmap generator) to C++
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inside RP_L4. New application state before `WaitingForEgg`: a menu that
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renders on the cockpit displays we just built — scenario/map/weather/length
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on the viewscreen, selections driven by the MFD buttons and map presets
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(the cockpit IS the menu — maximally pod-authentic). Single player works
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immediately: build egg → hand to the existing egg-load path. Multiplayer
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then layers the Steam lobby under the same UI (owner builds the egg,
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distributes, mesh over Steam sockets).
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**B. Standalone launcher app** (C#, reuse TeslaConsole code nearly verbatim,
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drive the game via `-net` + console port like the arcade). Fastest to stand
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up, but a second process, not cockpit-feel, and awkward under Steam (overlay,
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launch flow, no in-game rejoin). Useful as a dev tool, not the product.
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**C. Hybrid:** in-engine UI, but mission/egg logic in a small shared C++
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library so a dev console tool and the game share one egg builder.
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### Open decisions
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1. Front end location — Option A (in-engine, cockpit-rendered) confirmed?
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2. v1 scenario scope — Death Race only, or Football (needs teams UI) too?
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3. Results screen — post-race on the cockpit displays (replaces printout)?
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4. Steam model — lobby-owner-as-console confirmed? (Implies owner migration
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handling later; the egg re-issue path makes host migration plausible.)
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5. Pilot identity — Steam persona as pilot name; vehicle/color/badge
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persisted per player (Steam Cloud later)?
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