srne-mqtt/solar_ble.py

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#!/usr/bin/env python3
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# -*- coding: utf-8 -*-
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import datetime
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import struct
import sys
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import time
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from io import RawIOBase
from typing import Optional, cast
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from bluepy import btle
from libscrc import modbus
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from feasycom_ble import BTLEUart
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MAC = "DC:0D:30:9C:61:BA"
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# write_service = "0000ffd0-0000-1000-8000-00805f9b34fb"
# read_service = "0000fff0-0000-1000-8000-00805f9b34fb"
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ACTION_READ = 0x03
ACTION_WRITE = 0x03
POSSIBLE_MARKER = (0x01, 0xFD, 0xFE, 0xFF)
# get(255, 12, 2)
# "ff 03 00 0c 00 02"
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CMD_GET_1 = b"\xff\x03\x00\x0c\x00\x02"
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# > ff 03 04 20 20 20 20
# get(255, 12, 8)
# ff 03 00 0c 00 08
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CMD_GET_MODEL = b"\xff\x03\x00\x0c\x00\x08"
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# > ff 03 10 20 20 20 20 4d 4c 32 34 32 30 20 20 20 20 20 20
# Device SKU: ML2420
# get(255, 20, 4)
# ff 03 00 14 00 04
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CMD_GET_VERSION = b"\xff\x03\x00\x14\x00\x04"
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# > ff 03 08 00 04 02 00 02 00 00 03
# CC ?? 11 22 33 ?? 44 55 66
# Version: 4.2.0
# get(255, 24, 3)
# ff 03 00 18 00 03
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CMD_GET_SERIAL = b"\xff\x03\x00\x18\x00\x03"
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# > ff 03 06 3c 13 02 67 00 01
# CC 11 22 33 33 ?? ??
# SN: 60-19-0615
# get(255, 256, 7)
# ff 03 01 00 00 07
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CMD_GET_BATTERY_STATE = b"\xff\x03\x01\x00\x00\x07"
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# > ff 03 0e 00 48 00 7e 00 1d 0e 0d 00 7e 00 1c 00 03
# CC 11 11 22 22 33 33 44 55 66 66 77 77 88 88
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# 1: Battery charge: 72 %
# 2: Battery voltage: 12.6 V
# 3: Battery current: 0.29 A
# 4: Internal temperature?
# 5: External temperature probe for battery signet 8bit: 13 degC
# 6: Load voltage: 12.6 V
# 7: Load current: 0.28 A
# 8: Load power: 3 W
# get(255, 263, 4)
# ff 03 01 07 00 04
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CMD_GET_PANEL_STATUS = b"\xff\x03\x01\x07\x00\x04"
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# > ff 03 08 00 c8 00 14 00 04 00 01
# CC 11 11 22 22 33 33 ?? ??
# 1: Panel voltage: 20.0 V
# 2: Panel current: 0.20 A
# 3: Panel power: 4 W
# Charging status?
# set(255, 266, 1 or 0)
# ff 06 01 0a 00 01
CMD_ENABLE_LOAD = b"\xff\x06\x01\x0a\x00\x01"
CMD_DISABLE_LOAD = b"\xff\x06\x01\x0a\x00\x00"
REG_LOAD_ENABLE = 0x010A
# get(255, 267, 21)
# ff 03 01 0b 00 15
CMD_GET_LOAD_PARAMETERS = b"\xff\x03\x01\x0b\x00\x15"
# > ff 03 2a 00 7c 00 7f 00 51 00 20 00 0a 00 03 00 00 00 00 00
# > 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
# > 00 00 00 00 00
# get(255, 288, 3)
# ff 03 01 20 00 03
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CMD_GET_2 = b"\xff\x03\x01\x20\x00\x03"
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# > ff 03 06 80 02 00 00 00 00
# CC 11 22 33 33 33 33
# 1: boolean flag?: 1
# 2: ?: 2
# 3: ?: 0
# get(255, 57345, 33)
# ff 03 e0 01 00 21
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CMD_GET_BATTERY_PARAMETERS = b"\xff\x03\xe0\x01\x00\x21"
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# > ff 03 42 07 d0 00 c8 ff 0c 00 02 00 a0 00 9b 00 92 00 90 00
# > 8a 00 84 00 7e 00 78 00 6f 00 6a 64 32 00 05 00 78 00 78 00
# > 1e 00 03 00 41 00 a3 00 4b 00 a3 00 00 00 00 00 00 00 00 00
# > 0f 00 05 00 05 00 04 01 00
# 33 * uint16
# get(1, 61440, 10)
# 01 03 f0 00 00 0a
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CMD_GET_HISTORICAL_TODAY = b"\x01\x03\xf0\x00\x00\x0a"
CMD_GET_HISTORICAL_YESTERDAY = b"\x01\x03\xf0\x01\x00\x0a"
CMD_GET_HISTORICAL_D2 = b"\x01\x03\xf0\x02\x00\x0a"
CMD_GET_HISTORICAL_D3 = b"\x01\x03\xf0\x03\x00\x0a"
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# ,- battery_min_voltage
# | ,- battery_max_voltage
# | | ,- ?1 max charge %?
# | | | ,- ?2
# | | | | ,- charge_max_power
# | | | | | ,- discharge_max_power
# | | | | | | ,- charge_amp_hour
# | | | | | | | ,- discharge_amp_hour
# | | | | | | | | ,- production_power
# | | | | | | | | | ,- consumption_power
# _|___ _|___ _|___ _|___ _|___ _|___ _|___ _|___ _|___ _|___
# > 01 03 14 00 7c 00 7f 00 51 00 20 00 0a 00 03 00 00 00 00 00 00 00 00
# > 01 03 14 00 7c 00 7f 00 53 00 20 00 0a 00 03 00 00 00 00 00 00 00 00
# battery_min_voltage = 12.4 V
# battery_max_voltage = 12.7 V
# ?1 = 83 % ?
# ?2 =
# charge_max_power = 10 W
# discharge_max_power = 3 W
# charge_amp_hour = 0 Ah
# discharge_amp_hour = 0 Ah
# production_power = 0 Wh
# consumption_power = 0 Wh
# ff 78 00 00 00 01
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CMD_ = b"\xff\x78\x00\x00\x00\x01"
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# CMD_GET_BATTERY_STATE = b'\xff\x03\x01\x00\x00\x07'
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# > ff 03 0e 00 48 00 7e 00 1d 0e 0d 00 7e 00 1c 00 03
# CC 11 11 22 22 33 33 44 55 66 66 77 77 88 88
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# 1: Battery charge: 72 %
# 2: Battery voltage: 12.6 V
# 3: Battery current: 0.29 A
# 4: Internal temperature?
# 5: External temperature probe for battery signed 8bit: 13 degC
# 6: Load voltage: 12.6 V
# 7: Load current: 0.28 A
# 8: Load power: 3 W
# CMD_GET_PANEL_STATUS = b'\xff\x03\x01\x07\x00\x04'
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# > ff 03 08 00 c8 00 14 00 04 00 01
# CC 11 11 22 22 33 33 ?? ??
# > ff 03 08 00 00 00 00 00 00 00 00
# 1: Panel voltage: 20.0 V
# 2: Panel current: 0.20 A
# 3: Panel power: 4 W
# ?: load_enabled
def parse_temperature(bin):
if bin & 0x80:
return (bin & 0x7F) * -1
return bin & 0x7F
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# GET_BATTERY_STATE
def parse_battery_state(data: bytes) -> dict:
res = dict(
zip(
(
"battery_charge", # %
"battery_voltage", # V
"battery_current", # A
"_internal_temperature?", # °C
"battery_temperature", # °C
"load_voltage", # V
"load_current", # A
"load_power", # W
"panel_voltage", # V
"panel_current", # A
"panel_power", # W
"load_enabled", # bool
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),
struct.unpack("!HHHBBHHHHHHx?", data),
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)
)
res["battery_voltage"] /= 10
res["battery_current"] /= 100
res["load_voltage"] /= 10
res["load_current"] /= 100
res["_internal_temperature?"] = parse_temperature(res["_internal_temperature?"])
res["battery_temperature"] = parse_temperature(res["battery_temperature"])
res["panel_voltage"] /= 10
res["panel_current"] /= 100
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return res
def parse_historical_entry(data: bytes) -> dict:
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res = dict(
zip(
(
"battery_voltage_min", # V
"battery_voltage_max", # V
"unknown1",
"unknown2",
"charge_max_power",
"discharge_max_power",
"charge_amp_hour",
"discharge_amp_hour",
"production_power",
"consumption_power",
),
struct.unpack_from("!10H", data),
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)
)
res["battery_voltage_min"] /= 10
res["battery_voltage_max"] /= 10
if len(data) > 20:
res.update(
dict(
zip(
(
"run_days",
"discharge_count",
"full_charge_count",
"total_charge_amp_hours",
"total_discharge_amp_hours",
"total_production_power",
"total_consumption_power",
),
struct.unpack_from("!3H4L", data, offset=20),
),
)
)
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return res
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def write(fh, data):
bdata = bytes(data)
crc = modbus(bdata)
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bcrc = bytes([crc & 0xFF, (crc & 0xFF00) >> 8])
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fh.write(data + bcrc)
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def construct_request(address, words=1, action=ACTION_READ, marker=0xFF):
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assert marker in POSSIBLE_MARKER, f"marker should be one of {POSSIBLE_MARKER}"
return struct.pack("!BBHH", marker, action, address, words)
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def log(message: object):
print(datetime.datetime.utcnow().isoformat(" "), message)
sys.stdout.flush()
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def parse_packet(data):
tag, operation, size = struct.unpack_from("BBB", data)
_unpacked = struct.unpack_from(f"<{size}BH", data, offset=3)
crc = _unpacked[-1]
payload = _unpacked[:-1]
calculated_crc = modbus(bytes([tag, operation, size, *payload]))
if crc != calculated_crc:
e = ValueError(f"CRC missmatch: expected {crc:04X}, got {calculated_crc:04X}.")
e.tag = tag
e.operation = operation
e.size = size
e.payload = payload
e.crc = crc
e.calculated_crc = calculated_crc
raise e
return payload
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def readMemory(fh: RawIOBase, address: int, words: int = 1):
# log(f"Reading {words} words from 0x{address:04X}")
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write(fh, construct_request(address, words=words))
header = fh.read(3)
if header and len(header) == 3:
tag, operation, size = header
data = fh.read(size)
_crc = fh.read(2)
if data and _crc:
crc = struct.unpack_from("<H", _crc)[0]
calculated_crc = modbus(bytes([tag, operation, size, *data]))
if crc == calculated_crc:
return data
class Periodical:
prev: float
interval: float
def __init__(self, interval: float, start: Optional[float] = None):
self.prev = time.time() - interval if start is None else start
self.interval = interval
def __call__(self, now: Optional[float] = None) -> bool:
if now is None:
now = time.time()
if (now - self.prev) >= self.interval:
self.prev += self.interval
return True
return False
if __name__ == "__main__":
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per_voltages = Periodical(interval=15)
per_current_hist = Periodical(interval=60)
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while True:
try:
log("Connecting...")
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with BTLEUart(MAC, timeout=10) as dev:
log("Connected.")
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# write(dev, construct_request(0, 32))
# Memory dump
# for address in range(0, 0x10000, 16):
# log(f"Reading 0x{address:04X}...")
# write(wd, construct_request(address, 16))
days = 7
res = readMemory(dev, 0x010B, 21)
if res:
d = parse_historical_entry(res)
log(d)
days = cast(int, d.get("run_days", 7))
for i in range(days):
res = readMemory(dev, 0xF000 + i, 10)
if res:
d = parse_historical_entry(res)
log({i: d})
while True:
now = time.time()
if per_voltages(now):
# CMD_GET_BATTERY_STATE + CMD_GET_PANEL_STATUS
res = readMemory(dev, 0x0100, 11)
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if res:
d = parse_battery_state(res)
log(d)
if per_current_hist(now):
res = readMemory(dev, 0x010B, 21)
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if res:
d = parse_historical_entry(res)
log(d)
# print(".")
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time.sleep(1)
# if STATUS.get('load_enabled'):
# write(wd, CMD_DISABLE_LOAD)
# else:
# write(wd, CMD_ENABLE_LOAD)
except btle.BTLEDisconnectError:
log("ERROR: Disconnected")
time.sleep(1)
except KeyboardInterrupt:
break