ahoy/tools/rpi/ahoy.py

"""
First attempt at providing basic 'master' ('DTU') functionality
for Hoymiles micro inverters.
Based in particular on demostrated first contact by 'of22'.
"""
import sys
import argparse
import time
import struct
import crcmod
from datetime import datetime
from RF24 import RF24, RF24_PA_LOW, RF24_PA_MAX, RF24_250KBPS

radio = RF24(22, 0, 1000000)

# Master Address ('DTU')
dtu_ser = 99978563412  # identical to fc22's

# inverter serial numbers
#inv_ser = 444473104619  # identical to fc22's #99972220200
inv_ser = 114174608145  # my inverter

# all inverters
#...

f_crc_m = crcmod.predefined.mkPredefinedCrcFun('modbus')
f_crc8 = crcmod.mkCrcFun(0x101, initCrc=0, xorOut=0)


def ser_to_hm_addr(s):
    """
    Calculate the 4 bytes that the HM devices use in their internal messages to 
    address each other.
    """
    bcd = int(str(s)[-8:], base=16)
    return struct.pack('>L', bcd)


def ser_to_esb_addr(s):
    """
    Convert a Hoymiles inverter/DTU serial number into its
    corresponding NRF24 'enhanced shockburst' address byte sequence (5 bytes).

    The NRF library expects these in LSB to MSB order, even though the transceiver
    itself will then output them in MSB-to-LSB order over the air.
    
    The inverters use a BCD representation of the last 8
    digits of their serial number, in reverse byte order, 
    followed by \x01.
    """
    air_order = ser_to_hm_addr(s)[::-1] + b'\x01'
    return air_order[::-1]


def compose_0x80_msg(dst_ser_no=72220200, src_ser_no=72220200, ts=None):
    """
    Create a valid 0x80 request with the given parameters, and containing the 
    current system time.
    """

    if not ts:
        ts = 0x623C8ECF  # identical to fc22's for testing  # doc: 1644758171

    # "framing"
    p = b''
    p = p + b'\x15'
    p = p + ser_to_hm_addr(dst_ser_no)
    p = p + ser_to_hm_addr(src_ser_no)
    p = p + b'\x80'

    # encapsulated payload
    pp = b'\x0b\x00'
    pp = pp + struct.pack('>L', ts)  # big-endian: msb at low address
    #pp = pp + b'\x00' * 8    # of22 adds a \x05 at position 19

    pp = pp + b'\x00\x00\x00\x05\x00\x00\x00\x00'

    # CRC_M
    crc_m = f_crc_m(pp)

    p = p + pp
    p = p + struct.pack('>H', crc_m)

    crc8 = f_crc8(p)
    p = p + struct.pack('B', crc8)   
    return p


def print_addr(a):
    print(f"ser# {a} ", end='')
    print(f" -> HM  {' '.join([f'{x:02x}' for x in ser_to_hm_addr(a)])}", end='')
    print(f" -> ESB {' '.join([f'{x:02x}' for x in ser_to_esb_addr(a)])}")


def on_receive(p):
    """
    Callback: get's invoked whenever a packet has been received.
    :param p: Payload of the received packet.
    """

    d = {}

    ts = datetime.utcnow()
    ts_unixtime = ts.timestamp()
    print(ts.isoformat(), end='Z ')

    # interpret content
    if p[0] == 0x95:
        src, dst, cmd = struct.unpack('>LLB', p[1:10])
        src_s = f'{src:08x}'
        dst_s = f'{dst:08x}'
        print(f'MSG src={src_s}, dst={dst_s}, cmd={cmd},  ', end=' ')
        if cmd==1:
            unknown1, u1, i1, p1, u2, i2, p2, unknown2 = struct.unpack(
                '>HHHHHHHH', p[10:26])
            print(f'u1={u1/10}V, i1={i1/100}A, p1={p1/10}W,  ', end='')
            print(f'u2={u2/10}V, i2={i2/100}A, p2={p2/10}W,  ', end='')
            print(f'unknown1={unknown1}, unknown2={unknown2}')
        elif cmd==2:
            uk1, uk2, uk3, uk4, uk5, u, f, p = struct.unpack(
                '>HHHHHHHH', p[10:26])
            print(f'u={u/10:.1f}V, f={f/100:.2f}Hz, p={p/10:.1f}W,  ', end='')
            print(f'uk1={uk1}, ', end='')
            print(f'uk2={uk2}, ', end='')
            print(f'uk3={uk3}, ', end='')
            print(f'uk4={uk4}, ', end='')
            print(f'uk5={uk5}')
        else:
            print(f'unknown cmd {cmd}')
    else:
        print(f'unknown frame id {p[0]}')


def main_loop():
    """
    Keep receiving on channel 3. Every once in a while, transmit a request
    to one of our inverters on channel 40.
    """

    print_addr(inv_ser)
    print_addr(dtu_ser)

    ctr = 1
    while True:
        radio.setChannel(3)
        radio.enableDynamicPayloads()
        radio.setAutoAck(False)
        radio.setPALevel(RF24_PA_MAX)
        radio.setDataRate(RF24_250KBPS)
        radio.openWritingPipe(ser_to_esb_addr(inv_ser))
        radio.flush_rx()
        radio.flush_tx()
        radio.openReadingPipe(1,ser_to_esb_addr(dtu_ser))
        #radio.openReadingPipe(1,ser_to_esb_addr(inv_ser))
        radio.startListening()

        if ctr<3:
            pass
            # radio.printPrettyDetails()

        t_end = time.monotonic_ns()+1e9
        while time.monotonic_ns() < t_end:
            has_payload, pipe_number = radio.available_pipe()
            if has_payload:
                size = radio.getDynamicPayloadSize()
                payload = radio.read(size)
                print(f"Received {size} bytes on pipe {pipe_number}: " +
                      " ".join([f"{b:02x}" for b in payload]))
                on_receive(payload)

        radio.stopListening()  # put radio in TX mode
        radio.setChannel(40)
        radio.openWritingPipe(ser_to_esb_addr(inv_ser))

        if ctr<3:
            pass
            # radio.printPrettyDetails()

        ts = int(time.time())
        payload = compose_0x80_msg(src_ser_no=dtu_ser, dst_ser_no=inv_ser, ts=ts)
        print(f"{ctr:5d}: len={len(payload)} | " + " ".join([f"{b:02x}" for b in payload]), 
            flush=True)
        radio.write(payload)  # will always yield 'True' because auto-ack is disabled
        ctr = ctr + 1


if __name__ == "__main__":

    if not radio.begin():
        raise RuntimeError("radio hardware is not responding")

    radio.setPALevel(RF24_PA_LOW)  # RF24_PA_MAX is default

    # radio.printDetails();  # (smaller) function that prints raw register values
    # radio.printPrettyDetails();  # (larger) function that prints human readable data

    try:
        main_loop()

    except KeyboardInterrupt:
        print(" Keyboard Interrupt detected. Exiting...")
        radio.powerDown()
        sys.exit()
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`"""`
			`First attempt at providing basic 'master' ('DTU') functionality`
			`for Hoymiles micro inverters.`
			`Based in particular on demostrated first contact by 'of22'.`
			`"""`
			`import sys`
			`import argparse`
			`import time`
			`import struct`
			`import crcmod`
Can now interpret contents of cmds 1 and 2 3 years ago			`from datetime import datetime`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`from RF24 import RF24, RF24_PA_LOW, RF24_PA_MAX, RF24_250KBPS`

			`radio = RF24(22, 0, 1000000)`

			`# Master Address ('DTU')`
Serial numbers similar to of22's for initial testing. 3 years ago			`dtu_ser = 99978563412 # identical to fc22's`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`# inverter serial numbers`
fixed dynamic payload retrieval 3 years ago			`#inv_ser = 444473104619 # identical to fc22's #99972220200`
			`inv_ser = 114174608145 # my inverter`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`# all inverters`
			`#...`

			`f_crc_m = crcmod.predefined.mkPredefinedCrcFun('modbus')`
			`f_crc8 = crcmod.mkCrcFun(0x101, initCrc=0, xorOut=0)`

Can now interpret contents of cmds 1 and 2 3 years ago
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`def ser_to_hm_addr(s):`
			`"""`
			`Calculate the 4 bytes that the HM devices use in their internal messages to`
			`address each other.`
			`"""`
			`bcd = int(str(s)[-8:], base=16)`
			`return struct.pack('>L', bcd)`

Can now interpret contents of cmds 1 and 2 3 years ago
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`def ser_to_esb_addr(s):`
			`"""`
			`Convert a Hoymiles inverter/DTU serial number into its`
			`corresponding NRF24 'enhanced shockburst' address byte sequence (5 bytes).`
Success! This version manages to elicit the occasional response from my inverter! 3 years ago
			`The NRF library expects these in LSB to MSB order, even though the transceiver`
			`itself will then output them in MSB-to-LSB order over the air.`

First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`The inverters use a BCD representation of the last 8`
			`digits of their serial number, in reverse byte order,`
			`followed by \x01.`
			`"""`
Success! This version manages to elicit the occasional response from my inverter! 3 years ago			`air_order = ser_to_hm_addr(s)[::-1] + b'\x01'`
			`return air_order[::-1]`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
Can now interpret contents of cmds 1 and 2 3 years ago
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`def compose_0x80_msg(dst_ser_no=72220200, src_ser_no=72220200, ts=None):`
			`"""`
Can now interpret contents of cmds 1 and 2 3 years ago			`Create a valid 0x80 request with the given parameters, and containing the`
			`current system time.`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`"""`

			`if not ts:`
Serial numbers similar to of22's for initial testing. 3 years ago			`ts = 0x623C8ECF # identical to fc22's for testing # doc: 1644758171`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`# "framing"`
			`p = b''`
			`p = p + b'\x15'`
			`p = p + ser_to_hm_addr(dst_ser_no)`
			`p = p + ser_to_hm_addr(src_ser_no)`
			`p = p + b'\x80'`

			`# encapsulated payload`
			`pp = b'\x0b\x00'`
			`pp = pp + struct.pack('>L', ts) # big-endian: msb at low address`
Serial numbers similar to of22's for initial testing. 3 years ago			`#pp = pp + b'\x00' * 8 # of22 adds a \x05 at position 19`

			`pp = pp + b'\x00\x00\x00\x05\x00\x00\x00\x00'`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`# CRC_M`
			`crc_m = f_crc_m(pp)`

			`p = p + pp`
			`p = p + struct.pack('>H', crc_m)`

			`crc8 = f_crc8(p)`
			`p = p + struct.pack('B', crc8)`
			`return p`

Can now interpret contents of cmds 1 and 2 3 years ago
Success! This version manages to elicit the occasional response from my inverter! 3 years ago			`def print_addr(a):`
			`print(f"ser# {a} ", end='')`
			`print(f" -> HM {' '.join([f'{x:02x}' for x in ser_to_hm_addr(a)])}", end='')`
			`print(f" -> ESB {' '.join([f'{x:02x}' for x in ser_to_esb_addr(a)])}")`


Can now interpret contents of cmds 1 and 2 3 years ago			`def on_receive(p):`
			`"""`
			`Callback: get's invoked whenever a packet has been received.`
			`:param p: Payload of the received packet.`
			`"""`

			`d = {}`

			`ts = datetime.utcnow()`
			`ts_unixtime = ts.timestamp()`
minor formatting improvements 3 years ago			`print(ts.isoformat(), end='Z ')`
Can now interpret contents of cmds 1 and 2 3 years ago
			`# interpret content`
			`if p[0] == 0x95:`
			`src, dst, cmd = struct.unpack('>LLB', p[1:10])`
			`src_s = f'{src:08x}'`
			`dst_s = f'{dst:08x}'`
			`print(f'MSG src={src_s}, dst={dst_s}, cmd={cmd}, ', end=' ')`
			`if cmd==1:`
			`unknown1, u1, i1, p1, u2, i2, p2, unknown2 = struct.unpack(`
			`'>HHHHHHHH', p[10:26])`
			`print(f'u1={u1/10}V, i1={i1/100}A, p1={p1/10}W, ', end='')`
			`print(f'u2={u2/10}V, i2={i2/100}A, p2={p2/10}W, ', end='')`
			`print(f'unknown1={unknown1}, unknown2={unknown2}')`
			`elif cmd==2:`
			`uk1, uk2, uk3, uk4, uk5, u, f, p = struct.unpack(`
			`'>HHHHHHHH', p[10:26])`
minor formatting improvements 3 years ago			`print(f'u={u/10:.1f}V, f={f/100:.2f}Hz, p={p/10:.1f}W, ', end='')`
Can now interpret contents of cmds 1 and 2 3 years ago			`print(f'uk1={uk1}, ', end='')`
			`print(f'uk2={uk2}, ', end='')`
			`print(f'uk3={uk3}, ', end='')`
			`print(f'uk4={uk4}, ', end='')`
			`print(f'uk5={uk5}')`
			`else:`
			`print(f'unknown cmd {cmd}')`
			`else:`
			`print(f'unknown frame id {p[0]}')`
Success! This version manages to elicit the occasional response from my inverter! 3 years ago
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`def main_loop():`
			`"""`
			`Keep receiving on channel 3. Every once in a while, transmit a request`
			`to one of our inverters on channel 40.`
			`"""`
Success! This version manages to elicit the occasional response from my inverter! 3 years ago
			`print_addr(inv_ser)`
			`print_addr(dtu_ser)`

First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`ctr = 1`
			`while True:`
			`radio.setChannel(3)`
			`radio.enableDynamicPayloads()`
			`radio.setAutoAck(False)`
			`radio.setPALevel(RF24_PA_MAX)`
			`radio.setDataRate(RF24_250KBPS)`
			`radio.openWritingPipe(ser_to_esb_addr(inv_ser))`
			`radio.flush_rx()`
			`radio.flush_tx()`
fixed dynamic payload retrieval 3 years ago			`radio.openReadingPipe(1,ser_to_esb_addr(dtu_ser))`
			`#radio.openReadingPipe(1,ser_to_esb_addr(inv_ser))`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`radio.startListening()`

fixed dynamic payload retrieval 3 years ago			`if ctr<3:`
Can now interpret contents of cmds 1 and 2 3 years ago			`pass`
			`# radio.printPrettyDetails()`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`t_end = time.monotonic_ns()+1e9`
			`while time.monotonic_ns() < t_end:`
			`has_payload, pipe_number = radio.available_pipe()`
			`if has_payload:`
fixed dynamic payload retrieval 3 years ago			`size = radio.getDynamicPayloadSize()`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`payload = radio.read(size)`
fixed dynamic payload retrieval 3 years ago			`print(f"Received {size} bytes on pipe {pipe_number}: " +`
			`" ".join([f"{b:02x}" for b in payload]))`
Can now interpret contents of cmds 1 and 2 3 years ago			`on_receive(payload)`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`radio.stopListening() # put radio in TX mode`
fixed dynamic payload retrieval 3 years ago			`radio.setChannel(40)`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`radio.openWritingPipe(ser_to_esb_addr(inv_ser))`
fixed dynamic payload retrieval 3 years ago
			`if ctr<3:`
Can now interpret contents of cmds 1 and 2 3 years ago			`pass`
			`# radio.printPrettyDetails()`
fixed dynamic payload retrieval 3 years ago
Serial numbers similar to of22's for initial testing. 3 years ago			`ts = int(time.time())`
			`payload = compose_0x80_msg(src_ser_no=dtu_ser, dst_ser_no=inv_ser, ts=ts)`
Can now interpret contents of cmds 1 and 2 3 years ago			`print(f"{ctr:5d}: len={len(payload)} \| " + " ".join([f"{b:02x}" for b in payload]),`
			`flush=True)`
fixed dynamic payload retrieval 3 years ago			`radio.write(payload) # will always yield 'True' because auto-ack is disabled`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago			`ctr = ctr + 1`




			`if __name__ == "__main__":`

			`if not radio.begin():`
			`raise RuntimeError("radio hardware is not responding")`

			`radio.setPALevel(RF24_PA_LOW) # RF24_PA_MAX is default`

			`# radio.printDetails(); # (smaller) function that prints raw register values`
Can now interpret contents of cmds 1 and 2 3 years ago			`# radio.printPrettyDetails(); # (larger) function that prints human readable data`
First attempt at querying an inverter using Python. Not yet functional. 3 years ago
			`try:`
			`main_loop()`

			`except KeyboardInterrupt:`
			`print(" Keyboard Interrupt detected. Exiting...")`
			`radio.powerDown()`
			`sys.exit()`