6e964c230f
Phase A of the IoT initiative — gets the server-side infrastructure
in place before the Raspberry Pi hardware arrives, so the iot admin
UI + /fp/iot/ingest endpoint are ready to accept the first real
temperature reading as soon as the Pi is wired up.
New top-level folder: fusion_iot/
1. **iot_base/** — Odoo S.A. iot_base module, copied from
RePackaged-Odoo verbatim. LGPL-3 upstream, no changes needed.
2. **iot/** — Odoo S.A. iot module, repackaged:
- `models/update.py` neutralised (removed the publisher_warranty
IoT-Box-counting report that phones home to odoo.com for
enterprise licence enforcement)
- `iot_handlers/lib/load_worldline_library.sh` deleted (proprietary
Worldline payment lib fetch from download.odoo.com, not needed)
- `wizard/add_iot_box.py._connect_iot_box_with_pairing_code` —
upstream called odoo.com's iot-proxy to resolve pairing codes;
replaced with a no-op. Pi-side iot_drivers proxy registers
directly with this Odoo server instead.
- Manifest rebranded with an explicit changelog preamble.
3. **fusion_plating_iot/** — new plating-specific wrapper:
- `fp.tank.sensor` — maps an iot.device (or a direct-HTTP-ingest
sensor) to a fusion.plating.tank + fusion.plating.bath.parameter.
Supports DS18B20, PT100/1000, pH, conductivity, level. Per-sensor
alert_min/max overrides.
- `fp.tank.reading` — append-only time-series. On create, evaluates
against sensor's alert range. On in-spec → out-of-spec TRANSITION,
auto-raises a fusion.plating.quality.hold (once per excursion,
no spam during sustained out-of-spec).
- `POST /fp/iot/ingest` — shared-secret HTTP endpoint for sensors
bypassing the Pi proxy. Token via X-FP-IOT-Token header OR body.
Accepts single-reading or batch payloads.
- Menu under Plating → Operations → Sensors & Readings.
- Tank form inherits get a Sensors tab inline.
Deployed to entech. Verified end-to-end:
- Install: iot_base + iot + fusion_plating_iot all 'installed'
- Smoke test: in-spec → out-of-spec → hold raised (HOLD-0010);
continued excursion → NO duplicate hold; back-in-spec → NEW
excursion → NEW hold (HOLD-0011) ✓
- HTTP endpoint: correct token → 200 accepted; wrong token → 401;
unknown device_serial → 404; batch payload → 200 accepted=N ✓
Phase B (when Raspberry Pi hardware arrives): DS18B20 iot_handler
driver for the Pi-side iot_drivers proxy + systemd service on
vanilla Raspberry Pi OS + first live reading from physical probe.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
65 lines
2.4 KiB
Python
65 lines
2.4 KiB
Python
import json
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from odoo.tests import HttpCase
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from unittest.mock import patch
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from odoo.addons.iot.models.iot_channel import IotChannel
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class IotCommonTest(HttpCase):
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iot_websocket_messages = []
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@classmethod
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def setUpClass(cls):
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super().setUpClass()
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cls.shop_iot_box = cls.env['iot.box'].sudo().create({
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'name': 'Shop',
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'identifier': 'test_iot_box',
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'ip': '10.10.10.10',
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'version': '25.07',
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})
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cls.iot_receipt_printer = cls.env['iot.device'].sudo().create({
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'name': 'Receipt Printer',
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'identifier': 'printer_identifier',
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'iot_id': cls.shop_iot_box.id,
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'type': 'printer',
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'subtype': 'receipt_printer',
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'connection': 'network',
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'connected_status': 'connected',
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})
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def setUp(self):
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super().setUp()
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original_send_message = IotChannel.send_message
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def mock_send_message(iot_channel_record, message, message_type='iot_action'):
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self.iot_websocket_messages.append({message_type: message})
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if message_type == 'iot_action':
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# call the websocket response controller to simulate the response from the IoT Box
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return self.url_open(
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'/iot/box/send_websocket',
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headers={'Content-Type': 'application/json'},
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data=json.dumps({
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'params': {
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'session_id': message['session_id'],
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'iot_box_identifier': message['iot_identifiers'][0],
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'device_identifier': message['device_identifiers'][0],
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'status': 'success',
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},
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}),
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)
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return original_send_message(iot_channel_record, message, message_type)
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def mock_get_iot_channel(_iot_channel_record):
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return "mock_iot_channel"
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mock_get_iot_channel._api_model = True
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mock_send_message._api_model = True
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send_message_patcher = patch.object(IotChannel, 'send_message', mock_send_message)
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channel_patcher = patch.object(IotChannel, 'get_iot_channel', mock_get_iot_channel)
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self.addCleanup(send_message_patcher.stop)
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self.addCleanup(channel_patcher.stop)
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send_message_patcher.start()
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channel_patcher.start()
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