From b0bf43e6a272d42a55158e657bd937cb82fc3d8d Mon Sep 17 00:00:00 2001
From: Evgeny Zinoviev <me@ch1p.io>
Date: Sat, 10 Jun 2023 23:02:34 +0300
Subject: move files, rename home package to homekit

---
 py_include/homekit/mqtt/module/inverter.py | 195 +++++++++++++++++++++++++++++
 1 file changed, 195 insertions(+)
 create mode 100644 py_include/homekit/mqtt/module/inverter.py

(limited to 'py_include/homekit/mqtt/module/inverter.py')

diff --git a/py_include/homekit/mqtt/module/inverter.py b/py_include/homekit/mqtt/module/inverter.py
new file mode 100644
index 0000000..29bde0a
--- /dev/null
+++ b/py_include/homekit/mqtt/module/inverter.py
@@ -0,0 +1,195 @@
+import time
+import json
+import datetime
+try:
+    import inverterd
+except:
+    pass
+
+from typing import Optional
+from .._module import MqttModule
+from .._node import MqttNode
+from .._payload import MqttPayload, bit_field
+try:
+    from homekit.database import InverterDatabase
+except:
+    pass
+
+_mult_10 = lambda n: int(n*10)
+_div_10 = lambda n: n/10
+
+
+MODULE_NAME = 'MqttInverterModule'
+
+STATUS_TOPIC = 'status'
+GENERATION_TOPIC = 'generation'
+
+
+class MqttInverterStatusPayload(MqttPayload):
+    # 46 bytes
+    FORMAT = 'IHHHHHHBHHHHHBHHHHHHHH'
+
+    PACKER = {
+        'grid_voltage': _mult_10,
+        'grid_freq': _mult_10,
+        'ac_output_voltage': _mult_10,
+        'ac_output_freq': _mult_10,
+        'battery_voltage': _mult_10,
+        'battery_voltage_scc': _mult_10,
+        'battery_voltage_scc2': _mult_10,
+        'pv1_input_voltage': _mult_10,
+        'pv2_input_voltage': _mult_10
+    }
+    UNPACKER = {
+        'grid_voltage': _div_10,
+        'grid_freq': _div_10,
+        'ac_output_voltage': _div_10,
+        'ac_output_freq': _div_10,
+        'battery_voltage': _div_10,
+        'battery_voltage_scc': _div_10,
+        'battery_voltage_scc2': _div_10,
+        'pv1_input_voltage': _div_10,
+        'pv2_input_voltage': _div_10
+    }
+
+    time: int
+    grid_voltage: float
+    grid_freq: float
+    ac_output_voltage: float
+    ac_output_freq: float
+    ac_output_apparent_power: int
+    ac_output_active_power: int
+    output_load_percent: int
+    battery_voltage: float
+    battery_voltage_scc: float
+    battery_voltage_scc2: float
+    battery_discharge_current: int
+    battery_charge_current: int
+    battery_capacity: int
+    inverter_heat_sink_temp: int
+    mppt1_charger_temp: int
+    mppt2_charger_temp: int
+    pv1_input_power: int
+    pv2_input_power: int
+    pv1_input_voltage: float
+    pv2_input_voltage: float
+
+    # H
+    mppt1_charger_status: bit_field(0, 16, 2)
+    mppt2_charger_status: bit_field(0, 16, 2)
+    battery_power_direction: bit_field(0, 16, 2)
+    dc_ac_power_direction: bit_field(0, 16, 2)
+    line_power_direction: bit_field(0, 16, 2)
+    load_connected: bit_field(0, 16, 1)
+
+
+class MqttInverterGenerationPayload(MqttPayload):
+    # 8 bytes
+    FORMAT = 'II'
+
+    time: int
+    wh: int
+
+
+class MqttInverterModule(MqttModule):
+    _status_poll_freq: int
+    _generation_poll_freq: int
+    _inverter: Optional[inverterd.Client]
+    _database: Optional[InverterDatabase]
+    _gen_prev: float
+
+    def __init__(self, status_poll_freq=0, generation_poll_freq=0):
+        super().__init__(tick_interval=status_poll_freq)
+        self._status_poll_freq = status_poll_freq
+        self._generation_poll_freq = generation_poll_freq
+
+        # this defines whether this is a publisher or a subscriber
+        if status_poll_freq > 0:
+            self._inverter = inverterd.Client()
+            self._inverter.connect()
+            self._inverter.format(inverterd.Format.SIMPLE_JSON)
+            self._database = None
+        else:
+            self._inverter = None
+            self._database = InverterDatabase()
+
+        self._gen_prev = 0
+
+    def on_connect(self, mqtt: MqttNode):
+        super().on_connect(mqtt)
+        if not self._inverter:
+            mqtt.subscribe_module(STATUS_TOPIC, self)
+            mqtt.subscribe_module(GENERATION_TOPIC, self)
+
+    def tick(self):
+        if not self._inverter:
+            return
+
+        # read status
+        now = time.time()
+        try:
+            raw = self._inverter.exec('get-status')
+        except inverterd.InverterError as e:
+            self._logger.error(f'inverter error: {str(e)}')
+            # TODO send to server
+            return
+
+        data = json.loads(raw)['data']
+        status = MqttInverterStatusPayload(time=round(now), **data)
+        self._mqtt_node_ref.publish(STATUS_TOPIC, status.pack())
+
+        # read today's generation stat
+        now = time.time()
+        if self._gen_prev == 0 or now - self._gen_prev >= self._generation_poll_freq:
+            self._gen_prev = now
+            today = datetime.date.today()
+            try:
+                raw = self._inverter.exec('get-day-generated', (today.year, today.month, today.day))
+            except inverterd.InverterError as e:
+                self._logger.error(f'inverter error: {str(e)}')
+                # TODO send to server
+                return
+
+            data = json.loads(raw)['data']
+            gen = MqttInverterGenerationPayload(time=round(now), wh=data['wh'])
+            self._mqtt_node_ref.publish(GENERATION_TOPIC, gen.pack())
+
+    def handle_payload(self, mqtt: MqttNode, topic: str, payload: bytes) -> Optional[MqttPayload]:
+        home_id = 1  # legacy compat
+
+        if topic == STATUS_TOPIC:
+            s = MqttInverterStatusPayload.unpack(payload)
+            self._database.add_status(home_id=home_id,
+                                      client_time=s.time,
+                                      grid_voltage=int(s.grid_voltage*10),
+                                      grid_freq=int(s.grid_freq * 10),
+                                      ac_output_voltage=int(s.ac_output_voltage * 10),
+                                      ac_output_freq=int(s.ac_output_freq * 10),
+                                      ac_output_apparent_power=s.ac_output_apparent_power,
+                                      ac_output_active_power=s.ac_output_active_power,
+                                      output_load_percent=s.output_load_percent,
+                                      battery_voltage=int(s.battery_voltage * 10),
+                                      battery_voltage_scc=int(s.battery_voltage_scc * 10),
+                                      battery_voltage_scc2=int(s.battery_voltage_scc2 * 10),
+                                      battery_discharge_current=s.battery_discharge_current,
+                                      battery_charge_current=s.battery_charge_current,
+                                      battery_capacity=s.battery_capacity,
+                                      inverter_heat_sink_temp=s.inverter_heat_sink_temp,
+                                      mppt1_charger_temp=s.mppt1_charger_temp,
+                                      mppt2_charger_temp=s.mppt2_charger_temp,
+                                      pv1_input_power=s.pv1_input_power,
+                                      pv2_input_power=s.pv2_input_power,
+                                      pv1_input_voltage=int(s.pv1_input_voltage * 10),
+                                      pv2_input_voltage=int(s.pv2_input_voltage * 10),
+                                      mppt1_charger_status=s.mppt1_charger_status,
+                                      mppt2_charger_status=s.mppt2_charger_status,
+                                      battery_power_direction=s.battery_power_direction,
+                                      dc_ac_power_direction=s.dc_ac_power_direction,
+                                      line_power_direction=s.line_power_direction,
+                                      load_connected=s.load_connected)
+            return s
+
+        elif topic == GENERATION_TOPIC:
+            gen = MqttInverterGenerationPayload.unpack(payload)
+            self._database.add_generation(home_id, gen.time, gen.wh)
+            return gen
-- 
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