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Discovery ... main

Author SHA1 Message Date
Adrian A. Baumann
0fa9493928 Merge pull request 'dev' (#1) from dev into main 
Reviewed-on: #1
 2026-04-11 17:47:37 +00:00
6 changed files with 188 additions and 341 deletions
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3d_model/Box for one.stl
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3d_model/case_test.stl
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11
config.multi.example.json
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@@ -20,9 +20,7 @@
"unit": "W", "unit": "W",
"leds": { "leds": {
"red_pin": 33, "red_pin": 33,
"green_pin": 32, "green_pin": 32
"ws2812_red": [255, 0, 0],
"ws2812_green": [0, 255, 0]
} }
}, },
{ {
@@ -36,17 +34,14 @@
"unit": "C", "unit": "C",
"leds": { "leds": {
"red_pin": 21, "red_pin": 21,
"green_pin": 20, "green_pin": 20
"ws2812_red": [255, 0, 0],
"ws2812_green": [0, 255, 0]
} }
} }
], ],
"backlight": { "backlight": {
"pin": 23, "pin": 23,
"num_leds_per_gauge": 3, "num_leds_per_gauge": 3
"num_status_leds_per_gauge": 2
}, },
"device": { "device": {

2
gauge_vid6008.py
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@@ -108,7 +108,7 @@ class Gauge:
else: else:
for _ in range(abs(delta)): for _ in range(abs(delta)):
self._step(1 if delta > 0 else -1) self._step(1 if delta > 0 else -1)
utime.sleep_us(self._step_us) utime.sleep_ms(self._step_us)
self._current_step = target_step self._current_step = target_step

398
gaugemqttcontinuous.py
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@@ -23,7 +23,6 @@ Serial log format: [HH:MM:SS.mmm] LEVEL message
import network import network
import utime import utime
import ujson import ujson
import urandom
from umqtt.robust import MQTTClient from umqtt.robust import MQTTClient
from machine import Pin from machine import Pin
from neopixel import NeoPixel from neopixel import NeoPixel
@@ -99,7 +98,6 @@ REZERO_INTERVAL_MS = int(_cfg.get("rezero_interval_ms", 3600000))
backlight_cfg = _cfg.get("backlight", {}) backlight_cfg = _cfg.get("backlight", {})
BACKLIGHT_PIN = int(backlight_cfg.get("pin", _cfg.get("led_bl_pin", 23))) BACKLIGHT_PIN = int(backlight_cfg.get("pin", _cfg.get("led_bl_pin", 23)))
BACKLIGHT_LEDS_PER_GAUGE = int(backlight_cfg.get("num_leds_per_gauge", 3)) BACKLIGHT_LEDS_PER_GAUGE = int(backlight_cfg.get("num_leds_per_gauge", 3))
STATUS_LEDS_PER_GAUGE = int(backlight_cfg.get("num_status_leds_per_gauge", 2))
device_cfg = _cfg.get("device", {}) device_cfg = _cfg.get("device", {})
DEVICE_NAME = device_cfg.get("name", _cfg.get("device_name", "Selsyn Multi")) DEVICE_NAME = device_cfg.get("name", _cfg.get("device_name", "Selsyn Multi"))
@@ -128,8 +126,6 @@ if "gauges" in _cfg:
"unit": g.get("unit", ""), "unit": g.get("unit", ""),
"red_pin": int(led_cfg.get("red_pin", 33)), "red_pin": int(led_cfg.get("red_pin", 33)),
"green_pin": int(led_cfg.get("green_pin", 32)), "green_pin": int(led_cfg.get("green_pin", 32)),
"ws2812_red": tuple(led_cfg.get("ws2812_red", [255, 0, 0])),
"ws2812_green": tuple(led_cfg.get("ws2812_green", [0, 255, 0])),
} }
) )
else: else:
@@ -146,8 +142,6 @@ else:
"unit": _cfg.get("gauge_unit", "W"), "unit": _cfg.get("gauge_unit", "W"),
"red_pin": int(_cfg.get("led_red_pin", 33)), "red_pin": int(_cfg.get("led_red_pin", 33)),
"green_pin": int(_cfg.get("led_green_pin", 32)), "green_pin": int(_cfg.get("led_green_pin", 32)),
"ws2812_red": tuple(_cfg.get("ws2812_red", [255, 0, 0])),
"ws2812_green": tuple(_cfg.get("ws2812_green", [0, 255, 0])),
} }
) )
BL_UNIT = _cfg.get("backlight_unit", "%") BL_UNIT = _cfg.get("backlight_unit", "%")
@@ -195,17 +189,18 @@ def make_gauge_topics(prefix, gauge_id):
"led_red_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_red/config", "led_red_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_red/config",
"led_green_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_green/config", "led_green_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_green/config",
"led_bl_disc": f"homeassistant/light/{MQTT_CLIENT_ID}_g{gauge_id}_bl/config", "led_bl_disc": f"homeassistant/light/{MQTT_CLIENT_ID}_g{gauge_id}_bl/config",
"status_red": f"{prefix}/gauge{gauge_id}/status_led/red/set",
"status_green": f"{prefix}/gauge{gauge_id}/status_led/green/set",
"status_red_state": f"{prefix}/gauge{gauge_id}/status_led/red/state",
"status_green_state": f"{prefix}/gauge{gauge_id}/status_led/green/state",
"status_red_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_status_red/config",
"status_green_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_status_green/config",
} }
gauge_topics = [make_gauge_topics(MQTT_PREFIX, g["id"]) for g in gauges] gauge_topics = [make_gauge_topics(MQTT_PREFIX, g["id"]) for g in gauges]
T_SET = f"{MQTT_PREFIX}/set"
T_STATE = f"{MQTT_PREFIX}/state"
T_STATUS = f"{MQTT_PREFIX}/status"
T_ZERO = f"{MQTT_PREFIX}/zero"
gauge_topics = [make_gauge_topics(MQTT_PREFIX, g["id"]) for g in gauges]
T_SET = f"{MQTT_PREFIX}/set" T_SET = f"{MQTT_PREFIX}/set"
T_STATE = f"{MQTT_PREFIX}/state" T_STATE = f"{MQTT_PREFIX}/state"
@@ -218,6 +213,25 @@ T_DISC_GREEN = f"homeassistant/switch/{MQTT_CLIENT_ID}_green/config"
T_DISC_BL = f"homeassistant/light/{MQTT_CLIENT_ID}_bl/config" T_DISC_BL = f"homeassistant/light/{MQTT_CLIENT_ID}_bl/config"
def make_gauge_topics(prefix, gauge_id):
return {
"set": f"{prefix}/gauge{gauge_id}/set",
"state": f"{prefix}/gauge{gauge_id}/state",
"status": f"{prefix}/gauge{gauge_id}/status",
"zero": f"{prefix}/gauge{gauge_id}/zero",
"disc": f"homeassistant/number/{MQTT_CLIENT_ID}_g{gauge_id}/config",
"led_red": f"{prefix}/gauge{gauge_id}/led/red/set",
"led_green": f"{prefix}/gauge{gauge_id}/led/green/set",
"led_bl": f"{prefix}/gauge{gauge_id}/led/backlight/set",
"led_red_state": f"{prefix}/gauge{gauge_id}/led/red/state",
"led_green_state": f"{prefix}/gauge{gauge_id}/led/green/state",
"led_bl_state": f"{prefix}/gauge{gauge_id}/led/backlight/state",
"led_red_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_red/config",
"led_green_disc": f"homeassistant/switch/{MQTT_CLIENT_ID}_g{gauge_id}_green/config",
"led_bl_disc": f"homeassistant/light/{MQTT_CLIENT_ID}_g{gauge_id}_bl/config",
}
_DEVICE = { _DEVICE = {
"identifiers": [MQTT_CLIENT_ID], "identifiers": [MQTT_CLIENT_ID],
"name": DEVICE_NAME, "name": DEVICE_NAME,
@@ -235,6 +249,7 @@ _wifi_check_interval_ms = 30000
_last_wifi_check = 0 _last_wifi_check = 0
_wifi_sta = None _wifi_sta = None
def connect_wifi(ssid, password, timeout_s=15): def connect_wifi(ssid, password, timeout_s=15):
global _wifi_sta global _wifi_sta
_wifi_sta = network.WLAN(network.STA_IF) _wifi_sta = network.WLAN(network.STA_IF)
@@ -290,6 +305,10 @@ def check_wifi():
log_err(f"WiFi reconnect failed: {e}") log_err(f"WiFi reconnect failed: {e}")
# ---------------------------------------------------------------------------
# LEDs (per gauge)
# ---------------------------------------------------------------------------
num_gauges = len(gauges) num_gauges = len(gauges)
leds_red = [] leds_red = []
leds_green = [] leds_green = []
@@ -298,18 +317,40 @@ for g in gauges:
leds_red.append(Pin(g["red_pin"], Pin.OUT, value=0)) leds_red.append(Pin(g["red_pin"], Pin.OUT, value=0))
leds_green.append(Pin(g["green_pin"], Pin.OUT, value=0)) leds_green.append(Pin(g["green_pin"], Pin.OUT, value=0))
total_backlight_leds = num_gauges * (BACKLIGHT_LEDS_PER_GAUGE + STATUS_LEDS_PER_GAUGE) total_backlight_leds = num_gauges * BACKLIGHT_LEDS_PER_GAUGE
leds_bl = NeoPixel(Pin(BACKLIGHT_PIN), total_backlight_leds) leds_bl = NeoPixel(Pin(BACKLIGHT_PIN), total_backlight_leds)
_backlight_color = (0, 0, 0)
_backlight_brightness = 100
_backlight_on = False
_bl_dirty_since = None
_BL_SAVE_DELAY_MS = 5000
backlight_color = [(0, 0, 0) for _ in range(num_gauges)] backlight_color = [(0, 0, 0) for _ in range(num_gauges)]
backlight_brightness = [100 for _ in range(num_gauges)] backlight_brightness = [100 for _ in range(num_gauges)]
backlight_on = [False for _ in range(num_gauges)] backlight_on = [False for _ in range(num_gauges)]
status_led_red = [False for _ in range(num_gauges)]
status_led_green = [False for _ in range(num_gauges)]
_bl_dirty_since = None def _flush_backlight(client):
_BL_SAVE_DELAY_MS = 5000 for i in range(num_gauges):
gt = gauge_topics[i]
payload = {
"state": "ON" if backlight_on[i] else "OFF",
"color": {
"r": backlight_color[i][0],
"g": backlight_color[i][1],
"b": backlight_color[i][2],
},
"brightness": int(backlight_brightness[i] * 2.55),
}
client.publish(
f"{gt['set'].replace('/set', '/backlight/state')}",
ujson.dumps(payload),
retain=True,
)
info(
f"Gauge {i} backlight: {payload['state']} {backlight_color[i]} @ {backlight_brightness[i]}%"
)
def _backlight_changed(gauge_idx, new_color, new_on, new_brightness): def _backlight_changed(gauge_idx, new_color, new_on, new_brightness):
@@ -338,11 +379,9 @@ def set_backlight_color(gauge_idx, r, g, b, brightness=None):
backlight_on[gauge_idx] = new_on backlight_on[gauge_idx] = new_on
scale = brightness / 100 scale = brightness / 100
leds_per_gauge = BACKLIGHT_LEDS_PER_GAUGE + STATUS_LEDS_PER_GAUGE base_idx = gauge_idx * BACKLIGHT_LEDS_PER_GAUGE
base_idx = gauge_idx * leds_per_gauge
for j in range(BACKLIGHT_LEDS_PER_GAUGE): for j in range(BACKLIGHT_LEDS_PER_GAUGE):
leds_bl[base_idx + j] = (int(g * scale), int(r * scale), int(b * scale)) leds_bl[base_idx + j] = (int(g * scale), int(r * scale), int(b * scale))
_update_status_leds(gauge_idx)
leds_bl.write() leds_bl.write()
_mark_bl_dirty() _mark_bl_dirty()
@@ -358,73 +397,21 @@ def set_backlight_brightness(gauge_idx, brightness):
backlight_on[gauge_idx] = new_on backlight_on[gauge_idx] = new_on
r, g, b = backlight_color[gauge_idx] r, g, b = backlight_color[gauge_idx]
scale = clamped / 100 scale = clamped / 100
leds_per_gauge = BACKLIGHT_LEDS_PER_GAUGE + STATUS_LEDS_PER_GAUGE base_idx = gauge_idx * BACKLIGHT_LEDS_PER_GAUGE
base_idx = gauge_idx * leds_per_gauge
for j in range(BACKLIGHT_LEDS_PER_GAUGE): for j in range(BACKLIGHT_LEDS_PER_GAUGE):
leds_bl[base_idx + j] = (int(g * scale), int(r * scale), int(b * scale)) leds_bl[base_idx + j] = (int(g * scale), int(r * scale), int(b * scale))
_update_status_leds(gauge_idx)
leds_bl.write() leds_bl.write()
_mark_bl_dirty() _mark_bl_dirty()
def _update_status_leds(gauge_idx): # ---------------------------------------------------------------------------
leds_per_gauge = BACKLIGHT_LEDS_PER_GAUGE + STATUS_LEDS_PER_GAUGE # State
base_idx = gauge_idx * leds_per_gauge + BACKLIGHT_LEDS_PER_GAUGE # ---------------------------------------------------------------------------
g_cfg = gauges[gauge_idx] _last_rezero_ms = None # set to ticks_ms() in main()
red_color = g_cfg["ws2812_red"] client_ref = None
green_color = g_cfg["ws2812_green"] _mqtt_connected = False
_last_mqtt_check = 0
if status_led_red[gauge_idx]:
leds_bl[base_idx] = (red_color[1], red_color[0], red_color[2])
else:
leds_bl[base_idx] = (0, 0, 0)
if status_led_green[gauge_idx]:
leds_bl[base_idx + 1] = (green_color[1], green_color[0], green_color[2])
else:
leds_bl[base_idx + 1] = (0, 0, 0)
def set_status_led(gauge_idx, led_type, state):
global status_led_red, status_led_green
if led_type == "red":
status_led_red[gauge_idx] = state
elif led_type == "green":
status_led_green[gauge_idx] = state
_update_status_leds(gauge_idx)
leds_bl.write()
def publish_backlight_states(client):
"""Publish current backlight state for all gauges as retained MQTT messages."""
for i in range(num_gauges):
gt = gauge_topics[i]
r, g, b = backlight_color[i]
brightness = backlight_brightness[i]
state = {
"state": "ON" if backlight_on[i] else "OFF",
"color_mode": "rgb",
"brightness": int(brightness * 2.55),
"color": {"r": r, "g": g, "b": b},
}
try:
client.publish(gt["led_bl_state"], ujson.dumps(state), retain=True)
except Exception as e:
log_err(f"Backlight state publish failed for gauge {i}: {e}")
def _flush_backlight_state():
global _bl_dirty_since
if _bl_dirty_since is None:
return
if utime.ticks_diff(utime.ticks_ms(), _bl_dirty_since) < _BL_SAVE_DELAY_MS:
return
if client_ref is None:
return
publish_backlight_states(client_ref)
_bl_dirty_since = None
info("Backlight state flushed to MQTT")
def _publish(topic, payload, retain=False): def _publish(topic, payload, retain=False):
@@ -445,7 +432,6 @@ def _publish(topic, payload, retain=False):
def on_message(topic, payload): def on_message(topic, payload):
global backlight_brightness, backlight_color
if client_ref is None: if client_ref is None:
return return
topic = topic.decode() topic = topic.decode()
@@ -469,6 +455,15 @@ def on_message(topic, payload):
warn(f"Invalid set value for gauge {i}: '{payload}'") warn(f"Invalid set value for gauge {i}: '{payload}'")
return return
if topic == T_ZERO:
for i, g in enumerate(gauge_objects):
info(f"Zeroing all gauges")
g.zero()
gauge_last_rezero[i] = utime.ticks_ms()
info("All gauges zeroed")
return
for i, gt in enumerate(gauge_topics):
if topic == gt["led_red"]: if topic == gt["led_red"]:
state = payload.upper() == "ON" state = payload.upper() == "ON"
leds_red[i].value(1 if state else 0) leds_red[i].value(1 if state else 0)
@@ -518,73 +513,12 @@ def on_message(topic, payload):
info(f"Gauge {i} backlight → #{r:02x}{g:02x}{b:02x} @ {brightness}%") info(f"Gauge {i} backlight → #{r:02x}{g:02x}{b:02x} @ {brightness}%")
return return
if topic == gt["status_red"]:
state = payload.upper() == "ON"
set_status_led(i, "red", state)
_publish(gt["status_red_state"], "ON" if state else "OFF", retain=True)
info(f"Gauge {i} status red → {'ON' if state else 'OFF'}")
return
if topic == gt["status_green"]:
state = payload.upper() == "ON"
set_status_led(i, "green", state)
_publish(gt["status_green_state"], "ON" if state else "OFF", retain=True)
info(f"Gauge {i} status green → {'ON' if state else 'OFF'}")
return
if topic == T_ZERO:
for i, g in enumerate(gauge_objects):
g.zero()
gauge_last_rezero[i] = utime.ticks_ms()
info("All gauges zeroed")
return
if topic == T_SET:
try:
data = ujson.loads(payload)
if isinstance(data, dict):
for i, val in enumerate(data.values()):
if i < len(gauges):
g = gauges[i]
gauge_targets[i] = max(g["min"], min(g["max"], float(val)))
info(f"Gauge {i} target → {gauge_targets[i]:.1f}")
else:
val = float(payload)
for i in range(len(gauges)):
gauge_targets[i] = max(gauges[i]["min"], min(gauges[i]["max"], val))
info(f"All gauges target → {val:.1f}")
except Exception:
try:
val = float(payload)
for i in range(len(gauges)):
gauge_targets[i] = max(gauges[i]["min"], min(gauges[i]["max"], val))
info(f"All gauges target → {val:.1f}")
except:
warn(f"Invalid set value: '{payload}'")
return
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# MQTT connect + discovery # MQTT connect + discovery
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def _subscribe_all(c):
c.subscribe(f"{MQTT_PREFIX}/set")
c.subscribe(f"{MQTT_PREFIX}/zero")
for i in range(num_gauges):
prefix = f"{MQTT_PREFIX}/gauge{i}"
c.subscribe(f"{prefix}/set")
c.subscribe(f"{prefix}/zero")
c.subscribe(f"{prefix}/led/red/set")
c.subscribe(f"{prefix}/led/green/set")
c.subscribe(f"{prefix}/led/backlight/set")
c.subscribe(f"{prefix}/status_led/red/set")
c.subscribe(f"{prefix}/status_led/green/set")
def connect_mqtt(): def connect_mqtt():
global client_ref, _mqtt_connected global client_ref, _mqtt_connected
info(f"Connecting to MQTT broker {MQTT_BROKER}:{MQTT_PORT} ...") info(f"Connecting to MQTT broker {MQTT_BROKER}:{MQTT_PORT} ...")
@@ -594,22 +528,27 @@ def connect_mqtt():
port=MQTT_PORT, port=MQTT_PORT,
user=MQTT_USER, user=MQTT_USER,
password=MQTT_PASSWORD, password=MQTT_PASSWORD,
keepalive=30, keepalive=60,
) )
# Don't set last will - it might be causing issues client.set_last_will(T_STATUS, b"offline", retain=True, qos=0)
# client.set_last_will(T_STATUS, b"offline", retain=True, qos=0)
client.set_callback(on_message) client.set_callback(on_message)
client.connect() client.connect()
client_ref = client client_ref = client
client.subscribe(T_SET)
client.subscribe(T_ZERO)
for gt in gauge_topics:
client.subscribe(gt["set"])
client.subscribe(gt["zero"])
client.subscribe(gt["led_red"])
client.subscribe(gt["led_green"])
client.subscribe(gt["led_bl"])
_mqtt_connected = True _mqtt_connected = True
info(f"MQTT connected client_id={MQTT_CLIENT_ID}") info(f"MQTT connected client_id={MQTT_CLIENT_ID}")
return client
_mqtt_check_interval_ms = 30000 _mqtt_check_interval_ms = 30000
_last_mqtt_check = 0 _last_mqtt_check = 0
client_ref = None
_mqtt_connected = False
def check_mqtt(): def check_mqtt():
@@ -645,7 +584,14 @@ def check_mqtt():
client_ref.set_last_will(T_STATUS, b"offline", retain=True, qos=0) client_ref.set_last_will(T_STATUS, b"offline", retain=True, qos=0)
client_ref.set_callback(on_message) client_ref.set_callback(on_message)
client_ref.connect() client_ref.connect()
_subscribe_all(client_ref) client_ref.subscribe(T_SET)
client_ref.subscribe(T_ZERO)
for gt in gauge_topics:
client_ref.subscribe(gt["set"])
client_ref.subscribe(gt["zero"])
client_ref.subscribe(gt["led_red"])
client_ref.subscribe(gt["led_green"])
client_ref.subscribe(gt["led_bl"])
_mqtt_connected = True _mqtt_connected = True
info("MQTT reconnected!") info("MQTT reconnected!")
publish_discovery(client_ref) publish_discovery(client_ref)
@@ -659,10 +605,15 @@ def check_mqtt():
return False return False
def publish_discovery(client): def publish_discovery(client):
"""Publish all HA MQTT discovery payloads for gauges and LEDs.""" """Publish all HA MQTT discovery payloads for gauges and LEDs."""
_dev_ref = _DEVICE _dev_ref = {
"identifiers": [MQTT_CLIENT_ID],
"name": DEVICE_NAME,
"model": DEVICE_MODEL,
"manufacturer": DEVICE_MFR,
"suggested_area": DEVICE_AREA,
}
for i, g in enumerate(gauges): for i, g in enumerate(gauges):
gt = gauge_topics[i] gt = gauge_topics[i]
@@ -687,12 +638,7 @@ def publish_discovery(client):
retain=True, retain=True,
) )
info(f"Discovery: gauge {i} ({g['name']})") info(f"Discovery: gauge {i} ({g['name']})")
# Process MQTT messages between gauges
for _ in range(5):
client.check_msg()
utime.sleep_ms(10)
client.publish( client.publish(
gt["led_red_disc"], gt["led_red_disc"],
ujson.dumps( ujson.dumps(
@@ -711,7 +657,7 @@ def publish_discovery(client):
retain=True, retain=True,
) )
info(f"Discovery: gauge {i} red LED") info(f"Discovery: gauge {i} red LED")
client.publish( client.publish(
gt["led_green_disc"], gt["led_green_disc"],
ujson.dumps( ujson.dumps(
@@ -730,11 +676,6 @@ def publish_discovery(client):
retain=True, retain=True,
) )
info(f"Discovery: gauge {i} green LED") info(f"Discovery: gauge {i} green LED")
# Process MQTT messages
for _ in range(5):
client.check_msg()
utime.sleep_ms(10)
client.publish( client.publish(
gt["led_bl_disc"], gt["led_bl_disc"],
@@ -755,55 +696,14 @@ def publish_discovery(client):
) )
info(f"Discovery: gauge {i} backlight") info(f"Discovery: gauge {i} backlight")
client.publish(
gt["status_red_disc"],
ujson.dumps(
{
"name": f"{g['name']} Status Red",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_status_red",
"cmd_t": gt["status_red"],
"stat_t": gt["status_red_state"],
"pl_on": "ON",
"pl_off": "OFF",
"icon": "mdi:led-on",
"dev": _dev_ref,
"ret": True,
}
),
retain=True,
)
info(f"Discovery: gauge {i} status red")
client.publish(
gt["status_green_disc"],
ujson.dumps(
{
"name": f"{g['name']} Status Green",
"uniq_id": f"{MQTT_CLIENT_ID}_g{i}_status_green",
"cmd_t": gt["status_green"],
"stat_t": gt["status_green_state"],
"pl_on": "ON",
"pl_off": "OFF",
"icon": "mdi:led-on",
"dev": _dev_ref,
"ret": True,
}
),
retain=True,
)
info(f"Discovery: gauge {i} status green")
# Process between gauges to avoid MQTT blocking
for _ in range(5):
client.check_msg()
utime.sleep_ms(10)
def publish_state(client): def publish_state(client):
for i, g in enumerate(gauge_objects): for i, g in enumerate(gauge_objects):
gt = gauge_topics[i] gt = gauge_topics[i]
val = g.get() val = g.get()
client.publish(gt["state"], str(val)) client.publish(gt["state"], str(round(val, 1)), retain=True)
client.publish(gt["status"], "online", retain=True)
info(f"Gauge {i} state: {val:.1f} step={g._current_step}")
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
@@ -818,52 +718,32 @@ def main():
connect_wifi(WIFI_SSID, WIFI_PASSWORD) connect_wifi(WIFI_SSID, WIFI_PASSWORD)
# Connect MQTT (no subscriptions yet — keeps broker silent during discovery)
connect_mqtt()
# Publish discovery — broker has nothing to send back yet
info("Publishing discovery...")
publish_discovery(client_ref)
# Subscribe now — retained messages will start arriving from here
_subscribe_all(client_ref)
info("Draining initial retained messages...")
for _ in range(50):
client_ref.check_msg()
utime.sleep_ms(20)
# Now initialize gauges
info("Zeroing gauges on startup ...") info("Zeroing gauges on startup ...")
for i, g in enumerate(gauge_objects): for i, g in enumerate(gauge_objects):
g.zero() g.zero()
info(f"Zeroed gauge {i}") info(f"Zeroed gauge {i}")
info("Zero complete") info("Zero complete")
info("Publishing state...") connect_mqtt()
publish_discovery(client_ref)
publish_state(client_ref) publish_state(client_ref)
utime.sleep_ms(50)
for _ in range(5):
client_ref.check_msg()
utime.sleep_ms(20)
info("Entering main loop") info("Entering main loop")
info("-" * 48) info("-" * 48)
try: try:
import ota import ota
ota.mark_ok() ota.mark_ok()
except: info("OTA OK flag set")
except ImportError:
pass pass
# Initialize variables for main loop global _bl_dirty_since
last_heartbeat = utime.ticks_ms() last_heartbeat = utime.ticks_ms()
now = 0
was_moving = False
while True: while True:
try: try:
now = utime.ticks_ms()
check_wifi() check_wifi()
if not check_mqtt(): if not check_mqtt():
@@ -872,35 +752,49 @@ def main():
client_ref.check_msg() client_ref.check_msg()
pending = [] now = utime.ticks_ms()
for i, g in enumerate(gauge_objects):
delta = g._val_to_step(gauge_targets[i]) - g._current_step moved_any = False
steps = max(-5, min(5, delta)) for i, g in enumerate(gauge_objects):
pending.append(steps) current_target = g._val_to_step(gauge_targets[i])
if current_target != g._current_step:
direction = 1 if current_target > g._current_step else -1
steps_to_move = current_target - g._current_step
steps_to_move = max(-5, min(5, steps_to_move))
for _ in range(abs(steps_to_move)):
g.step(direction)
moved_any = True
moved_any = any(s != 0 for s in pending)
if moved_any: if moved_any:
was_moving = True
delay_us = 1_000_000 // MICROSTEPS_PER_SECOND delay_us = 1_000_000 // MICROSTEPS_PER_SECOND
for tick in range(max(abs(s) for s in pending)):
for i, g in enumerate(gauge_objects):
if tick < abs(pending[i]):
g.step(1 if pending[i] > 0 else -1)
utime.sleep_us(delay_us) utime.sleep_us(delay_us)
else:
if was_moving: if (
publish_state(client_ref) REZERO_INTERVAL_MS > 0
was_moving = False and utime.ticks_diff(now, gauge_last_rezero[0]) >= REZERO_INTERVAL_MS
utime.sleep_ms(10) ):
for i, g in enumerate(gauge_objects):
info(f"Auto-rezero gauge {i}")
saved = gauge_targets[i]
g.zero()
if saved > gauges[i]["min"]:
g.set(saved)
gauge_last_rezero[i] = now
publish_state(client_ref)
info("Auto-rezero complete")
if (
_bl_dirty_since is not None
and utime.ticks_diff(now, _bl_dirty_since) >= _BL_SAVE_DELAY_MS
):
_flush_backlight(client_ref)
_bl_dirty_since = None
if utime.ticks_diff(now, last_heartbeat) >= HEARTBEAT_MS: if utime.ticks_diff(now, last_heartbeat) >= HEARTBEAT_MS:
info(f"Heartbeat: {gauge_targets}")
publish_state(client_ref) publish_state(client_ref)
last_heartbeat = now last_heartbeat = now
except Exception as e: except Exception as e:
import sys
sys.print_exception(e)
log_err(f"Main loop error: {e} — continuing") log_err(f"Main loop error: {e} — continuing")
utime.sleep_ms(100) utime.sleep_ms(100)

118
ota.py
View File

@@ -63,84 +63,60 @@ import utime
# Default configuration — override via /ota_config.json # Default configuration — override via /ota_config.json
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
GITEA_BASE = "http://git.baumann.gr" # no trailing slash GITEA_BASE = "http://git.baumann.gr" # no trailing slash
REPO_OWNER = "adrian" REPO_OWNER = "adrian"
REPO_NAME = "esp32-gauge" REPO_NAME = "esp32-gauge"
REPO_FOLDER = "firmware" # folder inside repo to sync REPO_FOLDER = "firmware" # folder inside repo to sync
REPO_BRANCH = "main" REPO_BRANCH = "main"
API_TOKEN = None # set to string for private repos API_TOKEN = None # set to string for private repos
WIFI_SSID = None WIFI_SSID = None
WIFI_PASSWORD = None WIFI_PASSWORD = None
SETTINGS_FILE = "/ota_config.json" SETTINGS_FILE = "/ota_config.json"
MANIFEST_FILE = "/.ota_manifest.json" MANIFEST_FILE = "/.ota_manifest.json"
OK_FLAG_FILE = "/.ota_ok" OK_FLAG_FILE = "/.ota_ok"
OTA_MANIFEST = "ota_manifest.txt" OTA_MANIFEST = "ota_manifest.txt"
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# Logging # Logging
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def _ts(): def _ts():
ms = utime.ticks_ms() ms = utime.ticks_ms()
return f"{(ms // 3600000) % 24:02d}:{(ms // 60000) % 60:02d}:{(ms // 1000) % 60:02d}.{ms % 1000:03d}" return f"{(ms//3600000)%24:02d}:{(ms//60000)%60:02d}:{(ms//1000)%60:02d}.{ms%1000:03d}"
def _log(level, msg):
print(f"[{_ts()}] {level:5s} [OTA] {msg}")
def info(msg):
_log("INFO", msg)
def warn(msg):
_log("WARN", msg)
def log_err(msg):
_log("ERROR", msg)
def _log(level, msg): print(f"[{_ts()}] {level:5s} [OTA] {msg}")
def info(msg): _log("INFO", msg)
def warn(msg): _log("WARN", msg)
def log_err(msg): _log("ERROR", msg)
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# HTTP helpers # HTTP helpers
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def _headers(): def _headers():
h = {"Accept": "application/json"} h = {"Accept": "application/json"}
if API_TOKEN: if API_TOKEN:
h["Authorization"] = f"token {API_TOKEN}" h["Authorization"] = f"token {API_TOKEN}"
return h return h
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# Config loader # Config loader
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def load_config(): def load_config():
global \ global GITEA_BASE, REPO_OWNER, REPO_NAME, REPO_FOLDER, REPO_BRANCH, API_TOKEN, WIFI_SSID, WIFI_PASSWORD
GITEA_BASE, \
REPO_OWNER, \
REPO_NAME, \
REPO_FOLDER, \
REPO_BRANCH, \
API_TOKEN, \
WIFI_SSID, \
WIFI_PASSWORD
try: try:
with open(SETTINGS_FILE) as f: with open(SETTINGS_FILE) as f:
cfg = ujson.load(f) cfg = ujson.load(f)
GITEA_BASE = cfg.get("gitea_base", GITEA_BASE) GITEA_BASE = cfg.get("gitea_base", GITEA_BASE)
REPO_OWNER = cfg.get("repo_owner", REPO_OWNER) REPO_OWNER = cfg.get("repo_owner", REPO_OWNER)
REPO_NAME = cfg.get("repo_name", REPO_NAME) REPO_NAME = cfg.get("repo_name", REPO_NAME)
REPO_FOLDER = cfg.get("repo_folder", REPO_FOLDER) REPO_FOLDER = cfg.get("repo_folder", REPO_FOLDER)
REPO_BRANCH = cfg.get("repo_branch", REPO_BRANCH) REPO_BRANCH = cfg.get("repo_branch", REPO_BRANCH)
API_TOKEN = cfg.get("api_token", API_TOKEN) API_TOKEN = cfg.get("api_token", API_TOKEN)
WIFI_SSID = cfg.get("wifi_ssid", WIFI_SSID) WIFI_SSID = cfg.get("wifi_ssid", WIFI_SSID)
WIFI_PASSWORD = cfg.get("wifi_password", WIFI_PASSWORD) WIFI_PASSWORD = cfg.get("wifi_password", WIFI_PASSWORD)
info(f"Config loaded from {SETTINGS_FILE}") info(f"Config loaded from {SETTINGS_FILE}")
except OSError: except OSError:
@@ -148,12 +124,10 @@ def load_config():
except Exception as e: except Exception as e:
warn(f"Config parse error: {e} — using defaults") warn(f"Config parse error: {e} — using defaults")
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# Helpers # Helpers
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def _match_pattern(name, pattern): def _match_pattern(name, pattern):
if "*" not in pattern: if "*" not in pattern:
return name == pattern return name == pattern
@@ -176,9 +150,11 @@ def _match_pattern(name, pattern):
i += 1 i += 1
return i == n and j == m return i == n and j == m
def _fetch_commit_sha(): def _fetch_commit_sha():
url = f"{GITEA_BASE}/api/v1/repos/{REPO_OWNER}/{REPO_NAME}/branches/{REPO_BRANCH}" url = (
f"{GITEA_BASE}/api/v1/repos/{REPO_OWNER}/{REPO_NAME}"
f"/branches/{REPO_BRANCH}"
)
try: try:
r = urequests.get(url, headers=_headers()) r = urequests.get(url, headers=_headers())
if r.status_code == 200: if r.status_code == 200:
@@ -190,7 +166,6 @@ def _fetch_commit_sha():
log_err(f"Failed to fetch commit: {e}") log_err(f"Failed to fetch commit: {e}")
return None return None
def _fetch_manifest(): def _fetch_manifest():
url = ( url = (
f"{GITEA_BASE}/api/v1/repos/{REPO_OWNER}/{REPO_NAME}" f"{GITEA_BASE}/api/v1/repos/{REPO_OWNER}/{REPO_NAME}"
@@ -203,7 +178,6 @@ def _fetch_manifest():
r.close() r.close()
if data.get("content"): if data.get("content"):
import ubinascii import ubinascii
content = ubinascii.a2b_base64(data["content"]).decode() content = ubinascii.a2b_base64(data["content"]).decode()
patterns = [line.strip() for line in content.splitlines()] patterns = [line.strip() for line in content.splitlines()]
return [p for p in patterns if p and not p.startswith("#")] return [p for p in patterns if p and not p.startswith("#")]
@@ -214,7 +188,6 @@ def _fetch_manifest():
log_err(f"Failed to fetch manifest: {e}") log_err(f"Failed to fetch manifest: {e}")
return None return None
def _fetch_dir(path): def _fetch_dir(path):
url = ( url = (
f"{GITEA_BASE}/api/v1/repos/{REPO_OWNER}/{REPO_NAME}" f"{GITEA_BASE}/api/v1/repos/{REPO_OWNER}/{REPO_NAME}"
@@ -222,7 +195,6 @@ def _fetch_dir(path):
) )
return _api_get(url) return _api_get(url)
def _api_get(url): def _api_get(url):
"""GET a URL and return parsed JSON, or None on failure.""" """GET a URL and return parsed JSON, or None on failure."""
try: try:
@@ -237,7 +209,6 @@ def _api_get(url):
log_err(f"GET {url} failed: {e}") log_err(f"GET {url} failed: {e}")
return None return None
def _download(url, dest_path): def _download(url, dest_path):
"""Download url to dest_path. Returns True on success.""" """Download url to dest_path. Returns True on success."""
tmp = dest_path + ".tmp" tmp = dest_path + ".tmp"
@@ -265,7 +236,6 @@ def _download(url, dest_path):
pass pass
return False return False
def _load_manifest(): def _load_manifest():
try: try:
with open(MANIFEST_FILE) as f: with open(MANIFEST_FILE) as f:
@@ -273,7 +243,6 @@ def _load_manifest():
except Exception: except Exception:
return {} return {}
def _save_manifest(manifest, commit_sha=None): def _save_manifest(manifest, commit_sha=None):
try: try:
with open(MANIFEST_FILE, "w") as f: with open(MANIFEST_FILE, "w") as f:
@@ -283,7 +252,6 @@ def _save_manifest(manifest, commit_sha=None):
except Exception as e: except Exception as e:
warn(f"Could not save manifest: {e}") warn(f"Could not save manifest: {e}")
def _wipe_manifest(): def _wipe_manifest():
try: try:
os.remove(MANIFEST_FILE) os.remove(MANIFEST_FILE)
@@ -291,7 +259,6 @@ def _wipe_manifest():
except OSError: except OSError:
pass pass
def _ok_flag_exists(): def _ok_flag_exists():
try: try:
os.stat(OK_FLAG_FILE) os.stat(OK_FLAG_FILE)
@@ -299,14 +266,12 @@ def _ok_flag_exists():
except OSError: except OSError:
return False return False
def _clear_ok_flag(): def _clear_ok_flag():
try: try:
os.remove(OK_FLAG_FILE) os.remove(OK_FLAG_FILE)
except OSError: except OSError:
pass pass
def mark_ok(): def mark_ok():
""" """
Call this from main.py after successful startup. Call this from main.py after successful startup.
@@ -318,12 +283,10 @@ def mark_ok():
except Exception as e: except Exception as e:
warn(f"Could not write OK flag: {e}") warn(f"Could not write OK flag: {e}")
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# Core update logic # Core update logic
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def _fetch_file_list(): def _fetch_file_list():
""" """
Returns list of {name, sha, download_url} dicts based on the Returns list of {name, sha, download_url} dicts based on the
@@ -356,13 +319,11 @@ def _fetch_file_list():
if _match_pattern(name, p) or _match_pattern(entry["path"], p): if _match_pattern(name, p) or _match_pattern(entry["path"], p):
if entry["path"] not in visited: if entry["path"] not in visited:
visited.add(entry["path"]) visited.add(entry["path"])
files.append( files.append({
{ "name": entry["path"],
"name": entry["path"], "sha": entry["sha"],
"sha": entry["sha"], "download_url": entry["download_url"],
"download_url": entry["download_url"], })
}
)
break break
root = _fetch_dir(REPO_FOLDER) root = _fetch_dir(REPO_FOLDER)
@@ -372,15 +333,12 @@ def _fetch_file_list():
fetch_matching(root, manifest_patterns) fetch_matching(root, manifest_patterns)
return files return files
def _do_update(commit_sha=None): def _do_update(commit_sha=None):
""" """
Fetch file list, download changed files, update manifest. Fetch file list, download changed files, update manifest.
Returns True if all succeeded (or nothing needed updating). Returns True if all succeeded (or nothing needed updating).
""" """
info( info(f"Checking {GITEA_BASE}/{REPO_OWNER}/{REPO_NAME}/{REPO_FOLDER} @ {REPO_BRANCH}")
f"Checking {GITEA_BASE}/{REPO_OWNER}/{REPO_NAME}/{REPO_FOLDER} @ {REPO_BRANCH}"
)
file_list = _fetch_file_list() file_list = _fetch_file_list()
if file_list is None: if file_list is None:
log_err("Could not fetch file list — skipping update") log_err("Could not fetch file list — skipping update")
@@ -388,12 +346,12 @@ def _do_update(commit_sha=None):
info(f"Found {len(file_list)} file(s) to sync") info(f"Found {len(file_list)} file(s) to sync")
manifest = _load_manifest() manifest = _load_manifest()
updated = [] updated = []
failed = [] failed = []
for entry in file_list: for entry in file_list:
name = entry["name"] name = entry["name"]
sha = entry["sha"] sha = entry["sha"]
if manifest.get(name) == sha: if manifest.get(name) == sha:
info(f" {name} up to date") info(f" {name} up to date")
@@ -424,12 +382,10 @@ def _do_update(commit_sha=None):
return True return True
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
# Public entry point # Public entry point
# --------------------------------------------------------------------------- # ---------------------------------------------------------------------------
def update(): def update():
""" """
Main entry point. Call from boot.py before importing application code. Main entry point. Call from boot.py before importing application code.
@@ -452,7 +408,9 @@ def update():
if not ok_flag: if not ok_flag:
warn("OK flag missing — last boot may have failed") warn("OK flag missing — last boot may have failed")
warn("Re-checking all files, will only download changed ones") warn("Wiping manifest to force full re-fetch")
_wipe_manifest()
manifest = {}
else: else:
info("OK flag present — last boot was good") info("OK flag present — last boot was good")