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srne-mqtt
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10 Commits
ea37cdd31a ... 82ee08a1d7

Author SHA1 Message Date
Odd Stråbø 82ee08a1d7 Refactor 2023-01-07 22:18:30 +01:00
Odd Stråbø 59fc5e4fa9 Move main executable code to __main__ 2023-01-07 19:02:34 +01:00
Odd Stråbø f7386d31d2 Fix module relative importing of consumer 2023-01-07 19:01:03 +01:00
Odd Stråbø ad51e0debe Add StdoutConsumer 2023-01-07 18:59:36 +01:00
Odd Stråbø 4d96174cfa Refactor 2023-01-07 18:24:41 +01:00
Odd Stråbø 853ee3db4a Rename 2023-01-04 18:20:43 +01:00
Odd Stråbø 114908de85 Rename 2023-01-04 18:20:37 +01:00
Odd Stråbø 83d26c9acf Rename 2023-01-04 18:16:22 +01:00
Odd Stråbø 441e820ac4 Start organizing file structure 2023-01-04 18:05:09 +01:00
Odd Stråbø 0b3a38276a Add reference links to readme 2023-01-04 17:58:42 +01:00
21 changed files with 509 additions and 470 deletions
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2
.isort.cfg Normal file
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@ -0,0 +1,2 @@
[settings]
profile = black

5
Readme.md
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@ -8,8 +8,11 @@ Python library for interracting with the rather generic MPPT solar charge contro
The Android app suggested for the bluetooth interface is
[SolarApp](https://play.google.com/store/apps/details?id=com.shuori.gfv2.guangfu) by srne
(I'm not currently able to find the bluetooth bridge on Biltema's website?
([Biltema 25-5079](https://www.biltema.no/bil---mc/elektrisk-anlegg/solcellspaneler/fjernstyringsenhet-2000046542)
It's got BT-1 printed on the front, and is basically just a RS-232 to BTLE UART GATT)
[![pre-commit](https://img.shields.io/badge/pre--commit-enabled-brightgreen?logo=pre-commit&logoColor=white)](https://github.com/pre-commit/pre-commit)
![example workflow](https://github.com/oddstr13/SolarMPPT/actions/workflows/pre-commit/badge.svg)
- [SRNE ML2420](https://www.srnesolar.com/product/mppt-solar-charge-controller-ml2420-2)
- [SRNE-BT-1](https://www.strømløs.no/tilbeh%c3%b8r/srne-bt-1/srne-bt-bluetooth-adapter)

3
draw_memory_map.py → misc/draw_memory_map.py
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@ -2,9 +2,10 @@
from ast import literal_eval
from typing import Iterable, List
from solar_ble import parse_packet
from table_drawing import table
from srnemqtt.protocol import parse_packet
def memory_table(
data: Iterable[int],

0
memory_dump.txt → misc/memory_dump.txt
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2
render_rrd.py → misc/render_rrd.py
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@ -7,7 +7,7 @@ from typing import Any, Dict
import rrdtool
from solar_types import DataName
from srnemqtt.solar_types import DataName
DT_FORMAT = "%Y-%m-%d %H:%M:%S.%f"

0
table_drawing.py → misc/table_drawing.py
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5
test_bleuart.py → misc/test_bleuart.py
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@ -1,6 +1,7 @@
# -*- coding: utf-8 -*-
from feasycom_ble import BTLEUart
from solar_ble import MAC, construct_request, write
from srnemqtt.constants import MAC
from srnemqtt.lib.feasycom_ble import BTLEUart
from srnemqtt.protocol import construct_request, write
with BTLEUart(MAC, timeout=1) as x:

458
solar_ble.py
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@ -1,458 +0,0 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
import datetime
import struct
import sys
import time
from decimal import Decimal
from io import RawIOBase
from typing import Callable, Collection, Optional, cast
from bluepy import btle
from libscrc import modbus
from feasycom_ble import BTLEUart
from solar_types import DATA_BATTERY_STATE, HISTORICAL_DATA, DataItem, DataName
from test_config import get_config, get_consumers
MAC = "DC:0D:30:9C:61:BA"
# write_service = "0000ffd0-0000-1000-8000-00805f9b34fb"
# read_service = "0000fff0-0000-1000-8000-00805f9b34fb"
ACTION_READ = 0x03
ACTION_WRITE = 0x03
POSSIBLE_MARKER = (0x01, 0xFD, 0xFE, 0xFF)
# get(255, 12, 2)
# "ff 03 00 0c 00 02"
CMD_GET_1 = b"\xff\x03\x00\x0c\x00\x02"
# > ff 03 04 20 20 20 20
# get(255, 12, 8)
# ff 03 00 0c 00 08
CMD_GET_MODEL = b"\xff\x03\x00\x0c\x00\x08"
# > 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
CMD_GET_VERSION = b"\xff\x03\x00\x14\x00\x04"
# > 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
CMD_GET_SERIAL = b"\xff\x03\x00\x18\x00\x03"
# > 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
CMD_GET_BATTERY_STATE = b"\xff\x03\x01\x00\x00\x07"
# > 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
# 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
CMD_GET_PANEL_STATUS = b"\xff\x03\x01\x07\x00\x04"
# > 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
CMD_GET_2 = b"\xff\x03\x01\x20\x00\x03"
# > 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
CMD_GET_BATTERY_PARAMETERS = b"\xff\x03\xe0\x01\x00\x21"
# > 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
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"
# ,- 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
CMD_ = b"\xff\x78\x00\x00\x00\x01"
# CMD_GET_BATTERY_STATE = b'\xff\x03\x01\x00\x00\x07'
# > 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
# 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'
# > 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
# Only factor of 1000
SI_PREFIXES_LARGE = "kMGTPEZY"
SI_PREFIXES_SMALL = "mµnpfazy"
def humanize_number(data, unit: str = ""):
counter = 0
while data >= 1000:
data /= 1000
counter += 1
if counter >= len(SI_PREFIXES_LARGE):
break
while data < 1:
data *= 1000
counter -= 1
if abs(counter) >= len(SI_PREFIXES_SMALL):
break
if not counter:
prefix = ""
elif counter > 0:
prefix = SI_PREFIXES_LARGE[counter - 1]
elif counter < 0:
prefix = SI_PREFIXES_SMALL[abs(counter) - 1]
return f"{data:.3g} {prefix}{unit}"
def parse(data: bytes, items: Collection[DataItem], offset: int = 0) -> dict:
pos = offset
res = {}
for i in items:
res[i.name] = i.transform(struct.unpack_from(i.st_format, data, offset=pos)[0])
pos += i.st_size
return res
# GET_BATTERY_STATE
def parse_battery_state(data: bytes) -> dict:
return parse(data, DATA_BATTERY_STATE)
def parse_historical_entry(data: bytes) -> dict:
res = parse(data, HISTORICAL_DATA[:10])
res_datalen = sum([x.st_size for x in HISTORICAL_DATA[:10]])
if len(data) > res_datalen:
res.update(parse(data, HISTORICAL_DATA[10:], offset=res_datalen))
return res
def write(fh, data):
bdata = bytes(data)
crc = modbus(bdata)
bcrc = bytes([crc & 0xFF, (crc & 0xFF00) >> 8])
fh.write(data + bcrc)
def construct_request(address, words=1, action=ACTION_READ, marker=0xFF):
assert marker in POSSIBLE_MARKER, f"marker should be one of {POSSIBLE_MARKER}"
return struct.pack("!BBHH", marker, action, address, words)
def log(*message: object, **kwargs):
print(datetime.datetime.utcnow().isoformat(" "), *message, **kwargs)
sys.stdout.flush()
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
def discardUntil(fh: RawIOBase, byte: int, timeout=10) -> Optional[int]:
assert byte >= 0 and byte < 256, f"byte: Expected 8bit unsigned int, got {byte}"
def expand(b: Optional[bytes]):
if b is None:
return b
return b[0]
start = time.time()
discarded = 0
read_byte = expand(fh.read(1))
while read_byte != byte:
if read_byte is not None:
if not discarded:
log("Discarding", end="")
discarded += 1
print(f" {read_byte:02X}", end="")
sys.stdout.flush()
if time.time() - start > timeout:
read_byte = None
break
read_byte = expand(fh.read(1))
if discarded:
print()
sys.stdout.flush()
return read_byte
def readMemory(fh: RawIOBase, address: int, words: int = 1) -> Optional[bytes]:
# log(f"Reading {words} words from 0x{address:04X}")
request = construct_request(address, words=words)
# log("Request:", request)
write(fh, request)
tag = discardUntil(fh, 0xFF)
if tag is None:
return None
header = fh.read(2)
if header and len(header) == 2:
operation, size = header
data = fh.read(size)
_crc = fh.read(2)
if data and _crc:
try:
crc = struct.unpack_from("<H", _crc)[0]
except struct.error:
log(f"readMemory: CRC error; read {len(_crc)} bytes (2 expected)")
return None
calculated_crc = modbus(bytes([tag, operation, size, *data]))
if crc == calculated_crc:
return data
else:
log(f"readMemory: CRC error; {crc:04X} != {calculated_crc:04X}")
log("data or crc is falsely", header, data, _crc)
return None
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:
skipped, overshoot = divmod(now - self.prev, self.interval)
skipped -= 1
if skipped:
log("Skipped:", skipped, overshoot, now - self.prev, self.interval)
self.prev = now - overshoot
return True
return False
def try_read_parse(
dev: BTLEUart,
address: int,
words: int = 1,
parser: Callable = None,
attempts=5,
) -> Optional[dict]:
while attempts:
attempts -= 1
res = readMemory(dev, address, words)
if res:
try:
if parser:
return parser(res)
except struct.error as e:
log(e)
log("0x0100 Unpack error:", len(res), res)
log("Flushed from read buffer; ", dev.read(timeout=0.5))
else:
log(f"No data read, expected {words*2} bytes (attempts left: {attempts})")
return None
if __name__ == "__main__":
conf = get_config()
consumers = get_consumers(conf)
per_voltages = Periodical(interval=15)
per_current_hist = Periodical(interval=60)
try:
while True:
try:
log("Connecting...")
with BTLEUart(MAC, timeout=5) as dev:
log("Connected.")
# 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 = try_read_parse(dev, 0x010B, 21, parse_historical_entry)
if res:
log(res)
for consumer in consumers:
consumer.write(res)
days = cast(int, res.get("run_days", 7))
for i in range(days):
res = try_read_parse(
dev, 0xF000 + i, 10, parse_historical_entry
)
if res:
log({i: res})
for consumer in consumers:
consumer.write({str(i): res})
while True:
now = time.time()
if per_voltages(now):
data = try_read_parse(dev, 0x0100, 11, parse_battery_state)
if data:
data[DataName.CALCULATED_BATTERY_POWER] = float(
Decimal(str(data.get(DataName.BATTERY_VOLTAGE, 0)))
* Decimal(
str(data.get(DataName.BATTERY_CURRENT, 0))
)
)
data[DataName.CALCULATED_PANEL_POWER] = float(
Decimal(str(data.get(DataName.PANEL_VOLTAGE, 0)))
* Decimal(str(data.get(DataName.PANEL_CURRENT, 0)))
)
data[DataName.CALCULATED_LOAD_POWER] = float(
Decimal(str(data.get(DataName.LOAD_VOLTAGE, 0)))
* Decimal(str(data.get(DataName.LOAD_CURRENT, 0)))
)
log(data)
for consumer in consumers:
consumer.write(data)
if per_current_hist(now):
data = try_read_parse(
dev, 0x010B, 21, parse_historical_entry
)
if data:
log(data)
for consumer in consumers:
consumer.write(data)
# print(".")
for consumer in consumers:
consumer.poll()
time.sleep(max(0, 1 - time.time() - now))
# 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, SystemExit, Exception) as e:
for consumer in consumers:
consumer.exit()
if type(e) is not KeyboardInterrupt:
raise

0
srnemqtt/__init__.py Normal file
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112
srnemqtt/__main__.py Executable file
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@ -0,0 +1,112 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
import time
from decimal import Decimal
from typing import cast
from bluepy import btle
from .config import get_config, get_consumers
from .constants import MAC
from .lib.feasycom_ble import BTLEUart
from .protocol import parse_battery_state, parse_historical_entry, try_read_parse
from .solar_types import DataName
from .util import Periodical, log
def main():
conf = get_config()
consumers = get_consumers(conf)
per_voltages = Periodical(interval=15)
per_current_hist = Periodical(interval=60)
try:
while True:
try:
log("Connecting...")
with BTLEUart(MAC, timeout=5) as dev:
log("Connected.")
# 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 = try_read_parse(dev, 0x010B, 21, parse_historical_entry)
if res:
log(res)
for consumer in consumers:
consumer.write(res)
days = cast(int, res.get("run_days", 7))
for i in range(days):
res = try_read_parse(
dev, 0xF000 + i, 10, parse_historical_entry
)
if res:
log({i: res})
for consumer in consumers:
consumer.write({str(i): res})
while True:
now = time.time()
if per_voltages(now):
data = try_read_parse(dev, 0x0100, 11, parse_battery_state)
if data:
data[DataName.CALCULATED_BATTERY_POWER] = float(
Decimal(str(data.get(DataName.BATTERY_VOLTAGE, 0)))
* Decimal(
str(data.get(DataName.BATTERY_CURRENT, 0))
)
)
data[DataName.CALCULATED_PANEL_POWER] = float(
Decimal(str(data.get(DataName.PANEL_VOLTAGE, 0)))
* Decimal(str(data.get(DataName.PANEL_CURRENT, 0)))
)
data[DataName.CALCULATED_LOAD_POWER] = float(
Decimal(str(data.get(DataName.LOAD_VOLTAGE, 0)))
* Decimal(str(data.get(DataName.LOAD_CURRENT, 0)))
)
log(data)
for consumer in consumers:
consumer.write(data)
if per_current_hist(now):
data = try_read_parse(
dev, 0x010B, 21, parse_historical_entry
)
if data:
log(data)
for consumer in consumers:
consumer.write(data)
# print(".")
for consumer in consumers:
consumer.poll()
time.sleep(max(0, 1 - time.time() - now))
# 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, SystemExit, Exception) as e:
for consumer in consumers:
consumer.exit()
if type(e) is not KeyboardInterrupt:
raise
if __name__ == "__main__":
main()

4
test_config.py → srnemqtt/config.py
View File

@ -6,13 +6,13 @@ from typing import Any, Dict, List, Optional, Type
import yaml
from consumers import BaseConsumer
from .consumers import BaseConsumer
def get_consumer(name: str) -> Optional[Type[BaseConsumer]]:
mod_name, cls_name = name.rsplit(".", 1)
mod = importlib.import_module(f"consumers.{mod_name}")
mod = importlib.import_module(f".consumers.{mod_name}", package=__package__)
# print(mod)
# print(dir(mod))

145
srnemqtt/constants.py Normal file
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@ -0,0 +1,145 @@
# -*- coding: utf-8 -*-
MAC = "DC:0D:30:9C:61:BA"
# write_service = "0000ffd0-0000-1000-8000-00805f9b34fb"
# read_service = "0000fff0-0000-1000-8000-00805f9b34fb"
ACTION_READ = 0x03
ACTION_WRITE = 0x03
POSSIBLE_MARKER = (0x01, 0xFD, 0xFE, 0xFF)
# get(255, 12, 2)
# "ff 03 00 0c 00 02"
CMD_GET_1 = b"\xff\x03\x00\x0c\x00\x02"
# > ff 03 04 20 20 20 20
# get(255, 12, 8)
# ff 03 00 0c 00 08
CMD_GET_MODEL = b"\xff\x03\x00\x0c\x00\x08"
# > 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
CMD_GET_VERSION = b"\xff\x03\x00\x14\x00\x04"
# > 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
CMD_GET_SERIAL = b"\xff\x03\x00\x18\x00\x03"
# > 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
CMD_GET_BATTERY_STATE = b"\xff\x03\x01\x00\x00\x07"
# > 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
# 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
CMD_GET_PANEL_STATUS = b"\xff\x03\x01\x07\x00\x04"
# > 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
CMD_GET_2 = b"\xff\x03\x01\x20\x00\x03"
# > 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
CMD_GET_BATTERY_PARAMETERS = b"\xff\x03\xe0\x01\x00\x21"
# > 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
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"
# ,- 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
CMD_ = b"\xff\x78\x00\x00\x00\x01"
# CMD_GET_BATTERY_STATE = b'\xff\x03\x01\x00\x00\x07'
# > 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
# 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'
# > 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

0
consumers/__init__.py → srnemqtt/consumers/__init__.py
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3
consumers/mqtt.py → srnemqtt/consumers/mqtt.py
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@ -6,8 +6,7 @@ from uuid import uuid4
import paho.mqtt.client as mqtt
from solar_types import DataName
from ..solar_types import DataName
from . import BaseConsumer
MAP_VALUES: Dict[DataName, Dict[str, Any]] = {

16
srnemqtt/consumers/stdio.py Normal file
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@ -0,0 +1,16 @@
# -*- coding: utf-8 -*-
import json
from typing import Any, Dict
from . import BaseConsumer
class StdoutConsumer(BaseConsumer):
def __init__(self, settings: Dict[str, Any]) -> None:
super().__init__(settings)
def poll(self):
return super().poll()
def write(self, data: Dict[str, Any]):
print(json.dumps(data))

0
srnemqtt/lib/__init__.py Normal file
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0
feasycom_ble.py → srnemqtt/lib/feasycom_ble.py
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158
srnemqtt/protocol.py Normal file
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@ -0,0 +1,158 @@
# -*- coding: utf-8 -*-
import struct
import sys
import time
from io import RawIOBase
from typing import Callable, Collection, Optional
from libscrc import modbus
from .constants import ACTION_READ, POSSIBLE_MARKER
from .lib.feasycom_ble import BTLEUart
from .solar_types import DATA_BATTERY_STATE, HISTORICAL_DATA, DataItem
from .util import log
def write(fh, data):
bdata = bytes(data)
crc = modbus(bdata)
bcrc = bytes([crc & 0xFF, (crc & 0xFF00) >> 8])
fh.write(data + bcrc)
def construct_request(address, words=1, action=ACTION_READ, marker=0xFF):
assert marker in POSSIBLE_MARKER, f"marker should be one of {POSSIBLE_MARKER}"
return struct.pack("!BBHH", marker, action, address, words)
def parse(data: bytes, items: Collection[DataItem], offset: int = 0) -> dict:
pos = offset
res = {}
for i in items:
res[i.name] = i.transform(struct.unpack_from(i.st_format, data, offset=pos)[0])
pos += i.st_size
return res
# GET_BATTERY_STATE
def parse_battery_state(data: bytes) -> dict:
return parse(data, DATA_BATTERY_STATE)
def parse_historical_entry(data: bytes) -> dict:
res = parse(data, HISTORICAL_DATA[:10])
res_datalen = sum([x.st_size for x in HISTORICAL_DATA[:10]])
if len(data) > res_datalen:
res.update(parse(data, HISTORICAL_DATA[10:], offset=res_datalen))
return res
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
def discardUntil(fh: RawIOBase, byte: int, timeout=10) -> Optional[int]:
assert byte >= 0 and byte < 256, f"byte: Expected 8bit unsigned int, got {byte}"
def expand(b: Optional[bytes]):
if b is None:
return b
return b[0]
start = time.time()
discarded = 0
read_byte = expand(fh.read(1))
while read_byte != byte:
if read_byte is not None:
if not discarded:
log("Discarding", end="")
discarded += 1
print(f" {read_byte:02X}", end="")
sys.stdout.flush()
if time.time() - start > timeout:
read_byte = None
break
read_byte = expand(fh.read(1))
if discarded:
print()
sys.stdout.flush()
return read_byte
def readMemory(fh: RawIOBase, address: int, words: int = 1) -> Optional[bytes]:
# log(f"Reading {words} words from 0x{address:04X}")
request = construct_request(address, words=words)
# log("Request:", request)
write(fh, request)
tag = discardUntil(fh, 0xFF)
if tag is None:
return None
header = fh.read(2)
if header and len(header) == 2:
operation, size = header
data = fh.read(size)
_crc = fh.read(2)
if data and _crc:
try:
crc = struct.unpack_from("<H", _crc)[0]
except struct.error:
log(f"readMemory: CRC error; read {len(_crc)} bytes (2 expected)")
return None
calculated_crc = modbus(bytes([tag, operation, size, *data]))
if crc == calculated_crc:
return data
else:
log(f"readMemory: CRC error; {crc:04X} != {calculated_crc:04X}")
log("data or crc is falsely", header, data, _crc)
return None
def try_read_parse(
dev: BTLEUart,
address: int,
words: int = 1,
parser: Optional[Callable] = None,
attempts=5,
) -> Optional[dict]:
while attempts:
attempts -= 1
res = readMemory(dev, address, words)
if res:
try:
if parser:
return parser(res)
except struct.error as e:
log(e)
log("0x0100 Unpack error:", len(res), res)
log("Flushed from read buffer; ", dev.read(timeout=0.5))
else:
log(f"No data read, expected {words*2} bytes (attempts left: {attempts})")
return None

0
solar_types.py → srnemqtt/solar_types.py
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63
srnemqtt/util.py Normal file
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@ -0,0 +1,63 @@
# -*- coding: utf-8 -*-
import datetime
import sys
import time
from typing import Optional
# Only factor of 1000
SI_PREFIXES_LARGE = "kMGTPEZY"
SI_PREFIXES_SMALL = "mµnpfazy"
def humanize_number(data, unit: str = ""):
counter = 0
while data >= 1000:
data /= 1000
counter += 1
if counter >= len(SI_PREFIXES_LARGE):
break
while data < 1:
data *= 1000
counter -= 1
if abs(counter) >= len(SI_PREFIXES_SMALL):
break
if not counter:
prefix = ""
elif counter > 0:
prefix = SI_PREFIXES_LARGE[counter - 1]
elif counter < 0:
prefix = SI_PREFIXES_SMALL[abs(counter) - 1]
return f"{data:.3g} {prefix}{unit}"
def log(*message: object, **kwargs):
print(datetime.datetime.utcnow().isoformat(" "), *message, **kwargs)
sys.stdout.flush()
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:
skipped, overshoot = divmod(now - self.prev, self.interval)
skipped -= 1
if skipped:
log("Skipped:", skipped, overshoot, now - self.prev, self.interval)
self.prev = now - overshoot
return True
return False

3
tox.ini
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@ -1,6 +1,3 @@
[flake8]
max-line-length = 88
extend-ignore = E203, I201, I101
[tool.isort]
profile = "black"