Ryan Malloy
486258a034
Replaces the read-only "structured comparison" banner with a real
editor. Structured AND records encode ``Arg1 OP Arg2`` where Arg1 is
a typed reference (Zone / Unit / Thermostat / Area / TimeDate) plus a
per-type field selector, and Arg2 is either another typed reference
or a literal constant.
I1 — TS types + decoders:
Wire layout (programs.py decoders, clsProgram.cs):
cond high byte = and_op (CondOP: 1=EQ, 2=NE, 3=LT,
4=GT, 5=ODD, 6=EVEN, 7=MULT,
8=IN, 9=NOT_IN)
cond low byte = and_arg1_argtype (CondArgType)
cond2 (whole) = and_arg1_ix (object idx; 0 for TimeDate)
cmd = and_arg1_field (per-type field selector)
par = and_arg2_argtype (Constant most common)
pr2 = and_arg2_ix (constant value or 2nd obj idx)
month = and_arg2_field
day,days = and_compconst (BE u16; usually 0)
decodeStructuredAnd / encodeStructuredAnd handle both directions;
round-trip exact.
Per-Arg1Type field menus in FIELDS_BY_TYPE — exact 1:1 with the
Python enuZoneField / enuUnitField / enuThermostatField /
enuTimeDateField enums in omni_pca.programs and the field handling
in StateEvaluator. Areas only expose "Security mode" (single useful
field). TimeDate exposes Year / Month / Day / DoW / Time / Hour /
Minute (skips the rarely-used Date / DST / SunriseSunset fields).
I2 — editor UI:
isEditableStructuredAnd guard: only opens the editor for records
matching the editor's scope (Arg1 in supported types, Arg2=Constant,
compConst=0). Out-of-scope structured records render with a
"read-only" tag — preserved on save, still removable.
Structured rows render with a "structured" tag and an orange-tinted
background to distinguish them from Traditional rows. Layout:
Arg1 type ▸ object picker ▸ Field ▸ Operator ▸ Compare against
Unary operators (ODD / EVEN) hide the Arg2 input. Changing Arg1 type
resets the Arg1 index + field to defaults so the form stays self-
consistent (no stale picker values from a previous type).
Arg2 is locked to Constant in this pass. Editing record-vs-record
comparisons (e.g. "Thermostat 1 temp > Thermostat 2 temp") is a
future cut — current real-world programs use the Constant form
exclusively per my homeowner-panel sample.
_pickBucket gains the missing "thermostat" branch (was missed in
earlier passes; only mattered now that thermostat is an Arg1Type).
Live screenshot 12-structured-and.png shows an injected chain with
both a Traditional AND (CTRL UNIT 1 ON) and a Structured AND
(Thermostat(1).Temperature > 70) — both editable end-to-end.
Frontend bundle: 88 KB minified (up from 82 KB).
Full suite: 653 passed, 1 skipped (no test changes).
omni-pca
Async Python client for HAI/Leviton Omni-Link II home automation panels — Omni Pro II, Omni IIe, Omni LTe, Lumina.
Includes a Home Assistant custom component (custom_components/omni_pca/).
Project home: https://github.com/rsp2k/omni-pca Documentation: https://hai-omni-pro-ii.warehack.ing/
Status
Alpha. Built from a full reverse-engineering of HAI's PC Access 3.17 (the Windows installer/programmer app). The protocol layer captures two non-public quirks that public Omni-Link clients miss:
- Session key is not the ControllerKey. Last 5 bytes are XORed with a controller-supplied SessionID nonce.
- Per-block XOR pre-whitening before AES. First two bytes of every 16-byte block are XORed with the packet's sequence number.
The full byte-level protocol spec lives at https://hai-omni-pro-ii.warehack.ing/reference/protocol/.
Install
pip install omni-pca
# Or with uv
uv add omni-pca
For Home Assistant users, install the integration through HACS — see the HA install how-to.
Quick start (library)
import asyncio
from omni_pca import OmniClient
async def main():
async with OmniClient(
host="192.168.1.9",
port=4369,
controller_key=bytes.fromhex("6ba7b4e9b4656de3cd7edd4c650cdb09"),
) as panel:
info = await panel.get_system_information()
print(info.model_name, info.firmware_version)
asyncio.run(main())
For the panel walkthrough — connect, list zones, react to push events — see the tutorial.
Two wire dialects — TCP/v2 vs UDP/v1
The Omni network module is configurable at the panel keypad to listen on TCP, UDP, or both. Each transport speaks a different wire dialect — OmniClient above handles the TCP path (OmniLink2, the modern wire format used by PC Access ≥ 3); panels configured UDP-only fall back to the legacy v1 protocol with typed RequestZoneStatus / RequestUnitStatus opcodes, no RequestProperties, and streaming name downloads. For those, use OmniClientV1 from the omni_pca.v1 subpackage:
from omni_pca.v1 import OmniClientV1
async with OmniClientV1(
host="192.168.1.9",
controller_key=bytes.fromhex("..."),
) as panel:
info = await panel.get_system_information() # same dataclass as v2
names = await panel.list_all_names() # streaming UploadNames
zones = await panel.get_zone_status(1, 16) # typed status by range
await panel.execute_security_command(area=1, mode=SecurityMode.AWAY, code=1234)
The HA integration picks the right client automatically based on the Transport dropdown in the config flow (TCP vs UDP). See zone & unit numbering for why v1 panels need the long-form RequestUnitStatus for unit indices > 255.
Quick start (Home Assistant)
# Manual install — works on every HA flavour
cd /path/to/your/homeassistant/config/
mkdir -p custom_components
cd custom_components
git clone https://github.com/rsp2k/omni-pca tmp-omni
cp -r tmp-omni/custom_components/omni_pca .
rm -rf tmp-omni
Restart HA, then add the integration via Settings → Devices & Services. You'll need:
- Panel IP / hostname
- TCP port (default 4369)
- ControllerKey as 32 hex chars
Get the ControllerKey from your .pca file using the bundled CLI:
omni-pca decode-pca '/path/to/Your.pca' --field controller_key
The integration creates one HA device per panel plus typed entities for every named object on the controller: alarm_control_panel for areas, light for units, binary_sensor + switch for zones (state + bypass), climate for thermostats, sensor for analog zones and panel telemetry, button for panel macros, and event for the typed push-notification stream. See custom_components/omni_pca/README.md for the full entity + service catalog, or the HA install how-to for the step-by-step.
Without a panel — mock controller
The library ships a stateful MockPanel that emulates the controller side of the protocol over real TCP. Useful for offline development, integration tests, and demos:
from omni_pca.mock_panel import MockPanel
async with MockPanel(controller_key=...).serve(port=14369):
# Connect a real OmniClient to localhost:14369 — full handshake + AES
...
The local dev stack (dev/docker-compose.yml) packages a real Home Assistant container and the mock panel side-by-side so you can click through the integration without touching real hardware. See the dev-stack tutorial.
Tests
uv sync --group ha
uv run pytest -q
351 tests across the protocol primitives, the mock panel, the OmniClient ↔ MockPanel end-to-end roundtrip, and an in-process Home Assistant harness driving the integration via the real config flow + service calls.
Versioning
Date-based (CalVer): YYYY.M.D. Bumped on backwards-incompatible changes. See CHANGELOG.md.
License
MIT. See LICENSE.
Acknowledgments
This client is independent and not affiliated with Leviton or HAI. Protocol details derived from clean-room analysis of the publicly-distributed PC Access installer. The reverse-engineering arc is documented at https://hai-omni-pro-ii.warehack.ing/journey/.