| name | jetson-customize-camera |
| description | Enable MIPI/GMSL camera sensors on a Jetson Thor or Orin custom carrier by rendering a kernel-DT overlay from the in-tree sensor DTSI. Do NOT use for UPHY lane allocation or ODMDATA edits. |
| version | 0.0.1 |
| license | Apache-2.0 |
| metadata | {"data-classification":"public","author":"Jetson Team","tags":["bsp","phase-2","io","camera","csi"],"domain":"meta"} |
Customize camera (CSI / MIPI / GMSL sensor bring-up)
Overview
Tegra264 (Thor) and Tegra234 (Orin) expose a single tegra-capture-vi
controller fronted by NVCSI and a fixed set of CSI ports. Camera
bring-up is:
- Sensor selection — picked from the set NVIDIA ships in-tree
.dtsi references for on the active platform.
- Carrier + module support check — verified against the Camera
Development Guide, Adaptation Guide §Camera, carrier schematic,
Module TRM, and carrier pinmap.
- Wiring — derived from the in-tree
tegra<soc>-camera-<sensor>*.dtsi when one exists (the DTSI IS
the wiring source of truth); captured per-sensor from the user
when the sensor is custom.
- Kernel-DT overlay — cpp-expand the in-tree DTSI, extract its
fragment@N body, append into the composite custom overlay
.dts for the active target (per
../../references/bsp-customization-kernel-dtb.md),
verify the composite with fdtoverlay.
/jetson-build-source compiles the composite and owns the
carrier conf's OVERLAY_DTB_FILE+= registration.
Agentic, not table-driven — sensor list is built at runtime by
globbing in-tree per-sensor dtbos. No _THOR_CAMERAS dict, no
questions.json, no Python renderer in the question path.
No ODMDATA edit — cameras don't consume UPHY lanes (CSI is a
separate PHY pool). The skill emits only a kernel-DT overlay; the
ODMDATA line in the carrier conf is untouched by this skill.
The output is one commit:
- Camera
fragment@N block (plus jetson-header-name on the
composite root if not already present) appended to the composite
custom overlay .dts per
../../references/bsp-customization-kernel-dtb.md
→ committed to the bsp_sources/ hardware repo.
/jetson-build-source compiles the composite to .dtbo and
owns its Makefile + flash-conf registration.
When to invoke
- The user says "enable camera", "configure CSI", "wire a Hawk /
Owl / IMX sensor", "MIPI camera", "GMSL camera", or asks to bring
up
tegra-capture-vi / NVCSI on a custom carrier.
- Flash boots but
v4l2-ctl --list-devices shows no
tegra-capture-vi channels, OR sensor enumeration on a fresh
daughter-card needs to be confirmed.
- A sensor was previously enabled and the user wants to add another
(multi-sensor bring-up).
Prerequisites:
- Active profile with
reference_devkit: + custom_carrier: blocks.
<source.root_path>/Linux_for_Tegra/.git exists
(/jetson-init-source).
/jetson-derive-carrier has run — the carrier flash-conf fork is
in the overlay tracker.
<source.root_path>/bsp_sources/hardware/nvidia/<chip-dir>/nv-public/overlay/
exists and contains the in-tree per-sensor .dtsi files (sourced
by /jetson-init-source's Branch A archive extract).
<source.root_path>/bsp_sources/kernel/kernel-noble/include/dt-bindings/
contains the macro headers cpp needs (source_sync.sh may need to
run if Branch B was used — see Step 5a.i below).
- Source-of-truth docs registered or supplied at prompt:
Camera Development Guide (in
bsp_developer_guide mirror or
separate path), Adaptation Guide §Camera, carrier schematic, SoC
TRM, Module Design Guide.
dtc, cpp, fdtoverlay on PATH.
Procedure
Detailed step-by-step procedure (Steps 1–7, with all tables, code
blocks, and gates) lives in
references/procedure.md. Summary:
- Step 1 — Resolve active target + open source-of-truth docs.
- Step 2 — Enumerate supported sensors by globbing in-tree
per-platform camera dtbos; classify as DPHY-direct / GMSL /
custom. Never invent sensors.
- Step 3 / 3a — Cross-check carrier + module support against
DTSI, Camera Development Guide, Adaptation Guide §Camera, SoC TRM,
Module Design Guide, schematic, and carrier pinmap. Render the
wiring table FIRST, then issue the confirm-or-customize gate.
- Step 4 (custom path only) — Batched per-sensor wiring
questions auto-filled from the carrier pinmap.
- Step 5 — Append exactly ONE
/* custom-bsp: camera:<sensor> */
fragment to the composite custom overlay .dts (see
../../references/bsp-customization-kernel-dtb.md).
Clone path cpp-expands the in-tree DTSI; custom path splices Step-4
answers + mode tables in-place. Idempotently set
jetson-header-name on the composite root. Verify with
dtc + fdtoverlay (pre-compile single-fragment gate;
post-compile deep-tree uniqueness gate). Commit via the
workflow's commit-message preview gate.
- Step 6 — Verify ancillary CAM pin SFIOs (
cam_i2c_*,
extperiph<m>_clk, reset/PWDN/PWR_EN GPIOs) via
pin_verifier.py; route mismatches to /jetson-customize-pinmux.
- Step 7 — Atomic-write run-state JSON sidecar at
<workspace>/target-platform/<profile-stem>.jetson-customize-camera.json
and emit the headline, then drive the downstream next-step chain via
sequential AskUserQuestion prompts per references/procedure.md
Step 7. The chain is a documented workflow gate, not a clarifying
question — auto-mode does NOT exempt it. Never substitute a
printed "Next step: …" line for the prompts.
Gotchas
- Dual-fragment trap. Contribute exactly ONE camera-tagged
fragment@N to the composite. A second one carrying status
overrides triggers dtc deep-merge → duplicate sibling subtrees
(e.g. two tca9546@70) → runtime first-match drops the dtsi-
supplied deep tree → camera silently doesn't enumerate. Gate on
this skill's marker only (Step 5c).
- Composite root
compatible is owned globally, not by this
skill. Don't widen from any in-tree per-sensor dtbo's
compatible (devkit-SKU-gated). Fix the composite root if needed.
jetson-header-name from any in-tree per-sensor dtbo. Fixed,
carrier-agnostic; read once, paste onto the metadata root.
- DO NOT also append the in-tree per-sensor dtbo to
OVERLAY_DTB_FILE. Registering both your rendered overlay AND
the in-tree tegra<soc>-p3971-camera-<sensor>-overlay.dtbo
produces a phantom subdev bind that bricks camera enumeration.
- Stub overlay is a known footgun. Committing
tegra-capture-vi { status="okay"; num-channels=<N>; } with no
ports / sensor / nvcsi body bricks the camera (all channel init failed). Splice the FULL sensor body via cpp + dtc.
- Sensor mode tables must be spliced, never hand-authored.
mode<N>, sensor_modes, pixel_phase — copy verbatim from the
closest in-tree DTSI.
camera_common_regulator_get (null) ERR: -EINVAL = missing
avdd-reg / iovdd-reg / dvdd-reg strings — splice the FULL
sensor body; always-on rails fall back to dummy regulator.
- External
&label refs must exist in base DTB's __symbols__.
Use target-path = "/tegra-capture-vi" when the label is absent;
fdtoverlay exits non-zero with FDT_ERR_NOTFOUND otherwise.
cpp failure on dt-bindings/gpio/gpio.h: No such file =
L4T source tree isn't staged. Re-run /jetson-init-source (Branch
B's source_sync.sh fetches the headers). Never fabricate the
macro expansion.
- No ODMDATA edit, no flash-conf edit. Camera doesn't consume
UPHY lanes. The carrier conf's
ODMDATA="..." is untouched.
OVERLAY_DTB_FILE+= is owned by /jetson-build-source Step
5.0a — this skill never touches the carrier flash conf.
- Don't touch the upstream BSP at
<bsp_image.root_path>. All
edits land in <source.root_path>/Linux_for_Tegra/ (overlay
tracker) and <source.root_path>/bsp_sources/ (overlay .dts)
under the pristine + customization commit pattern.
References