Root cause: vpx_max_postboot_acks=200, a Phase-2 bring-up guard, capped how
many post-boot replies the device would ever feed. A real BattleTech session
issues an unbounded stream of sync/frame/render replies and aborted with
"velocirender_receive timed out - sends_wo_rcv" at exactly the 200th ack
(143 sync + 55 frame-ack + 2 render). Cap is now effectively unlimited
(0x7fffffff; override VPX_MAX_ACKS for diagnostics).
After the fix the full game (game.conf, RIO disabled, cycles=max) runs
indefinitely: 2500+ syncs, 1264+ frame-acks, no abort, into L4VIDEO content
load (Thor mech + terrain from ALPHA_1/REL410/BT/VIDEO/GEO -- 841 real .bgf
models; test.egg is only mission params). Window still shows background:
the game uses the full DPL hierarchy (instance/object/lod/geogroup + DCS
transforms) which the flat flyk-tuned scene walk doesn't traverse yet -- that
is Phase 3d, documented in PHASE3-PROGRESS.md.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The emulated VPX board now draws frames in real time. The FIFO burst
assembler feeds an in-process DPL scene store; each vr_draw_scene publishes a
frame snapshot to a dedicated WGL window thread that renders it fixed-function.
- vpxlog.cpp: scene_burst() decode + VScene store + rt_main GL window thread;
glFrustum from the view-node window rect, glScalef(-1,1,1) for Division's
mirrored screen-x, action-31 camera as modelview. No build change (opengl32
already linked).
- Validated: flyk divrgb.scn opens the "VPX VelociRender (emulated)" window
and draws the SMPTE bars live via the real camera.spl spline camera
(divrgb-live-gl.png), matching the offline render_capture.py decode.
- Game path (alpha1.conf) opens the window + draws background but hits the
pre-existing production btdpl.ini vr_sync timeout (sends_wo_rcv) -- not a 3b
issue. Remaining work tracked in PHASE3-PROGRESS.md.
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
- vpxlog.cpp: VPX_FIFODUMP=<path> records every FIFO burst ('VPXM' records)
- decode_fifodump.py: action census + payload dumps of a capture
- render_capture.py: reconstruct the DPL scene graph from a capture and
software-render each draw_scene frame (camera, view, materials, geometry
all taken from the wire)
- divrgb.conf + divrgb.fifodump: flyk divrgb.scn capture fixture
- divrgb-decoded.png / divrgb-frame0.png: first images ever produced from
the Rel 4.10 VPX protocol without a real board -- the textbook SMPTE
color-bar pattern, validating verts/conns/materials/camera in one shot
- PHASE3-PROGRESS.md: the established Rel 4.10 wire protocol (action map,
node types, message layouts); RENDER-HARNESS.md updated
Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
The production image's VWETEST diagnostic suite provides a clean,
game-independent render harness. FLYK (VGLTEST, 32rtm build, newer
token-based sync) + clear.scn drives the ENTIRE VPX protocol through
the emulated board with zero errors: boot, iserver handshake, i860
download, token sync, scene build, draw_scene, frame-ack, clean exit
('Exiting rendering'). This validates the VPX emulation for an
arbitrary DPL renderer, not just the game.
Notes: the CYCLE flyk is a DOS/4GW build using the OLDER DPL3-style
velocirender_sync (action-check) and needs separate handling; the
VPX/DBE0151 iserver board test + reference TGAs are a future
golden-image validation avenue.
Adds RENDER-HARNESS.md and harness configs (flyk/cycle/alpha1).
Next (Phase 3): flyk DIVRGB.SCN color bars -> decode FIFO geometry
(same DIV-BIZ2 formats as restoration/divformats.py) -> OpenGL.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Disassembled BTL4OPT.EXE (PE-in-DOS32RTM) to crack the last unknowns:
- velocirender_sync (@0x48D220): sends action 0x2D with a data token and
checks cmp token, reply.node[0] (the 'unexpected action' text only prints
the action; the real check is the echoed token). Device now echoes the
token in node[0]. Sync passes.
- Speculative-poll gating: only feed a reply after consecutive empty polls
(a blocking inRecord spin), not single handle_iserver_stuff() checks.
- Frame-ack: velocirender_frameack expects action 9 (vr_draw_scene); device
tracks outstanding draw_scene and replies 9. Frame-ack passes.
The game now passes sync, loads renderer config, builds the scene
(create/flush/list_add/draw_scene), completes frame-ack, and enters its own
content loader (L4VIDEO.cpp) loading BattleTech models. Remaining issues are
content packaging/paths and an empty DPL config -- not VPX protocol. The
board emulation is functionally complete for boot + scene setup + frame-ack.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
RIO (Phase 5) validated with real hardware: with a physical RIO on
COM1 and serial1=directserial realport:COM1, the game's 1996 RIO
driver talks to the board — the 'RIO never came back' error is gone
and expected activity was seen on the RIO board.
VPX FIFO fast path decoded (OUTSW.ASM + capture): after i860 boot the
render protocol pumps 16-bit words to a FIFO data port seen as
0x154/0x155 byte writes, payload starting with the 4-byte action. The
device now extracts FIFO message actions (confirmed vr_init=0 with the
args string, vr_create=1 with node type 0x2D) and echoes replies with
handler-specific overrides from board source VR_REMOT.C (init/statistics
reply action = 1).
Blocked on one unknown: velocirender_sync checks the init reply against
a constant that is neither 0 nor 1, so the Rel 4.10 board differs from
the DPL3 dev source. Needs the Rel 4.10 LIBDPL source or disassembly of
BTL4OPT.EXE at the format string (file offset 0x107772). Device has a
VPX_INIT_REPLY experiment hook for candidate values.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
The VPX responder device now drives production BattleTech v4.10
through the full transputer/i860 boot, far past the Phase 1 wall:
- iserver boot handshake solved: feeds 3 well-formed 'version' (tag 42)
iserver requests, satisfying startup_handshake()'s 3 transactions.
- i860 download solved: parses the outbound framed renderer messages
(vr_860args/code/data/bss) and absorbs them, staying byte-aligned.
- echo-action reply model validated against board source
(VRENDER/VR_REMOT.C reply() echoes the received action); device
tracks and echoes the last outbound action generally.
Remaining sub-protocol identified and characterized: after i860 boot
the host switches to a FIFO fast path (OUTSW.ASM: 0x40 tag + REP OUTSW
16-bit words to FIFO port 0x154/0x155, gated by ok_to_fifo at 0x160).
The current build stops at velocirender_sync because the device only
implements the slow byte path. PHASE2-PROGRESS.md documents the exact
next steps (FIFO transport + render loop -> Phase 3 OpenGL backend).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Built DOSBox-X from source with a custom VPX link-adapter logging
device (vpx-device/vpxlog.cpp) and captured the game's outbound boot
sequence. Findings:
- Register map confirmed against LINKIO.C: outputData 0x151,
outputStatus 0x153 (polled bit0), resetRoot 0x160, analyseRoot 0x161.
- Reset preamble captured exactly (analyse=0, reset 0->1->0 + status inits).
- The game streams 85298 bytes to outputData that are BYTE-FOR-BYTE
identical to VRENDMON.BTL; first byte 0xF0 = transputer boot-from-link
primary-bootstrap length. Protocol stage 1 (reset + monitor download)
fully characterized; no hidden bulk/interrupt path.
- Production cockpit dump ALPHA_1 added (git-ignored): its BT is v1.1.0.6
with a VRENDMON.BTL byte-identical to the captured stream, so this
result reflects the exact cockpit software. ALPHA_1 is the reference
image going forward (carries RP + production pod/network boot chain).
Adds analyze_capture.py, capture.conf, PHASE1-RESULTS.md. DOSBox-X
source tree and capture artifacts are git-ignored.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Baseline boot test under DOSBox-X confirms the emulation architecture
empirically. Key findings:
- Borland 32RTM/DPMI runtime works under DOSBox-X (risk retired).
- BTLIVE ships a version-mismatched BTL4.RES (1.0.1.2 vs EXE 1.0.1.4);
BTRAVINE (1.1.0.6) is self-consistent and matches this repo's source
(BTL4VER.HPP), so it is the development image.
- With the matched image the game boots through the resource check and
BTL4Application construction, polls the RIO on COM1, then reads the
VPX link at port 0x150, gets 0xffffffff, and fails rcv_protocol with
'length 65535 too big' — the exact VR_COMMS.C path the plan predicted.
Adds emulator/baseline.conf (repro) and emulator/PHASE0-RESULTS.md.
Working binaries (dosbox-x/, image/) are git-ignored.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
emulator/PLAN.md: run the unported DOS Rel 4.10 games in the
surviving cockpits via a DOSBox-X fork with an HLE device
impersonating the Division VPX board at its C012/B004 link
interface (I/O port 0x150 per BTLIVE SETENV.BAT), rendering the
frame stream in OpenGL. Cockpit RIO (COM1) and plasma (COM2) pass
through to the game's original serial drivers (L4RIO.CPP).
Eight phases with acceptance criteria, evidence table, protocol
appendices, risks, and test strategy. Gauge displays deferred.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Cracks the DIV-BIZ2 binary format (BGF/BMF) using Division's own
reader source (DPL3/BIZREAD.C) as reference: block stream, 14 vertex
layouts, pmesh/strip connectivity, LOD nesting, embedded materials.
Adds SVT raw-texture decoding, 1995-dialect VGF support (implicit
CONNECTION_LIST, header SCALE), and a whole-drive scene audit.
108 of 241 scenes on the Glaze drive are recoverable; 26 are curated
into restoration/vwe-archive.html, a self-contained WebGL gallery:
Star Trek, Hull Pressure, BattleTech (incl. the polar-map mech
lineup), Red Planet's Mars-canal raceway, and the Canyon demos.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Parses the DIV-VIZ2 formats (VGF geometry, VMF materials, TGA
textures, SPL splines, SCN scenes) from the STDAVE directory of the
Glaze drive and re-renders VWE's unreleased 1996 Star Trek pod
scenes in a self-contained WebGL page: the Enterprise-D among
drifting starfields (TREK.SCN) and the Klingon flyby (KLNGVID.SCN).
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Records the contents of the recovered VWE developer hard drive
(git-ignored sda4/): pod lab infrastructure, Division renderer
source with i860/Pixel-Planes 5 code, runnable game builds, and
unreleased projects (Star Trek prototype, Hull Pressure, Renegade
Legion, and the Starship Troopers pitch that became DisneyQuest's
Invasion!). Includes a source-completeness analysis showing the
engine libraries are rebuildable but most game-logic sources are
absent from this release cut.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
Archival snapshot of the Virtual World Entertainment Tesla cockpit
software, 1994-1996: MUNGA engine and L4 pod layer source (Borland
C++ 5.0), BT/RP game code, and game content (models, audio, maps,
gauges, Division renderer data). Includes third-party libraries:
Division dVS/DPL graphics, HMI SOS audio, WATTCP networking.
Files are preserved byte-for-byte (.gitattributes disables all
line-ending conversion). README.md documents the layout, target
hardware, and toolchain.
Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>