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secplus_v2_tx_secplus.py
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secplus_v2_tx_secplus.py
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#
# Copyright 2016,2020-2023 Clayton Smith ([email protected])
#
# This file is part of secplus.
#
# secplus is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# secplus is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with secplus. If not, see <http://www.gnu.org/licenses/>.
#
"""This module encodes and decodes Security+ and Security+ 2.0 rolling and fixed
codes, provides utility functions to prepare on-off keying sequences for
transmission, and pretty-prints the codes. It can be used to build stand-alone
applications.
"""
def encode(rolling, fixed):
"""Encode a Security+ payload into 40 payload symbols
Arguments:
rolling -- the rolling code
fixed -- the fixed code
Raises a ValueError if the rolling or fixed code is too large.
"""
if rolling >= 2**32:
raise ValueError("Rolling code must be less than 2^32")
if fixed >= 3**20:
raise ValueError("Fixed code must be less than 3^20")
rolling = int(f"{rolling & 0xfffffffe:032b}"[::-1], 2)
rolling_base3 = [0] * 20
fixed_base3 = [0] * 20
for i in range(19, -1, -1):
rolling_base3[i] = rolling % 3
rolling //= 3
fixed_base3[i] = fixed % 3
fixed //= 3
code = []
for i in range(20):
if i in [0, 10]:
acc = 0
acc += rolling_base3[i]
code.append(rolling_base3[i])
acc += fixed_base3[i]
code.append(acc % 3)
return code
def decode(code):
"""Decode a Security+ transmission and return the rolling and fixed codes.
Arguments:
code -- a list containing the 40 payload symbols from a pair of packets
"""
rolling = 0
fixed = 0
for i in range(0, 40, 2):
if i in [0, 20]:
acc = 0
digit = code[i]
rolling = (rolling * 3) + digit
acc += digit
digit = (code[i+1] - acc) % 3
fixed = (fixed * 3) + digit
acc += digit
rolling = int(f"{rolling:032b}"[::-1], 2)
return rolling, fixed
def _v2_calc_parity(fixed, data):
data &= 0xffff0fff
parity = (fixed >> 32) & 0xf
for offset in range(0, 32, 4):
parity ^= ((data >> offset) & 0xf)
data |= (parity << 12)
return data
def _v2_check_parity(fixed, data):
parity = (fixed >> 32) & 0xf
for offset in range(0, 32, 4):
parity ^= ((data >> offset) & 0xf)
if parity != 0:
raise ValueError("Parity bits are incorrect")
def _encode_v2_rolling(rolling):
rolling = int(f"{rolling:028b}"[::-1], 2)
rolling_base3 = [0] * 18
for i in range(17, -1, -1):
rolling_base3[i] = rolling % 3
rolling //= 3
rolling1 = rolling_base3[14:18] + rolling_base3[6:10] + rolling_base3[1:2]
rolling2 = rolling_base3[10:14] + rolling_base3[2:6] + rolling_base3[0:1]
return rolling1, rolling2
def _decode_v2_rolling(rolling1, rolling2):
rolling_digits = rolling2[8:] + rolling1[8:]
rolling_digits += rolling2[4:8] + rolling1[4:8]
rolling_digits += rolling2[:4] + rolling1[:4]
rolling = 0
for digit in rolling_digits:
rolling = (rolling * 3) + digit
if rolling >= 2**28:
raise ValueError("Rolling code was not in expected range")
return int(f"{rolling:028b}"[::-1], 2)
def _v2_combine_halves(rolling1, rolling2, fixed1, fixed2, data1, data2):
rolling = _decode_v2_rolling(rolling1, rolling2)
fixed = int("".join(str(bit) for bit in fixed1 + fixed2), 2)
if data1 is None:
data = None
else:
data = int("".join(str(bit) for bit in data1 + data2), 2)
_v2_check_parity(fixed, data)
return rolling, fixed, data
_ORDER = {
0b0000: (0, 2, 1),
0b0001: (2, 0, 1),
0b0010: (0, 1, 2),
0b0100: (1, 2, 0),
0b0101: (1, 0, 2),
0b0110: (2, 1, 0),
0b1000: (1, 2, 0),
0b1001: (2, 1, 0),
0b1010: (0, 1, 2),
}
_INVERT = {
0b0000: (True, True, False),
0b0001: (False, True, False),
0b0010: (False, False, True),
0b0100: (True, True, True),
0b0101: (True, False, True),
0b0110: (False, True, True),
0b1000: (True, False, False),
0b1001: (False, False, False),
0b1010: (True, False, True),
}
def _v2_scramble(indicator, parts):
order = _ORDER[(indicator[0] << 3) | (indicator[1] << 2) | (indicator[2] << 1) | indicator[3]]
invert = _INVERT[(indicator[4] << 3) | (indicator[5] << 2) | (indicator[6] << 1) | indicator[7]]
parts_permuted = [parts[order[i]] for i in range(3)]
for i in range(3):
if invert[i]:
parts_permuted[i] = [bit ^ 1 for bit in parts_permuted[i]]
payload = []
for i in range(len(parts_permuted[0])):
payload += [parts_permuted[0][i], parts_permuted[1][i], parts_permuted[2][i]]
return payload
def _v2_unscramble(indicator, payload):
try:
order = _ORDER[(indicator[0] << 3) | (indicator[1] << 2) | (indicator[2] << 1) | indicator[3]]
invert = _INVERT[(indicator[4] << 3) | (indicator[5] << 2) | (indicator[6] << 1) | indicator[7]]
except KeyError:
raise ValueError("Illegal value for ternary bit")
parts_permuted = [payload[0::3], payload[1::3], payload[2::3]]
for i in range(3):
if invert[i]:
parts_permuted[i] = [bit ^ 1 for bit in parts_permuted[i]]
parts = [[], [], []]
for i in range(3):
parts[order[i]] = parts_permuted[i]
return parts
def _encode_v2_half_parts(rolling, fixed, data):
indicator = []
for digit in rolling[:4]:
indicator.append(digit >> 1)
indicator.append(digit & 1)
parts = [fixed[:10], fixed[10:], []]
for digit in rolling[4:]:
parts[2].append(digit >> 1)
parts[2].append(digit & 1)
if data is None:
packet_type = 0
if data is not None:
packet_type = 1
parts[0] += data[:8]
parts[1] += data[8:]
for digit in rolling[:4]:
parts[2].append(digit >> 1)
parts[2].append(digit & 1)
payload = _v2_scramble(indicator, parts)
return packet_type, indicator, payload
def _decode_v2_half_parts(packet_type, indicator, payload):
if packet_type == 0:
payload_length = 30
elif packet_type == 1:
payload_length = 54
elif packet_type == 2:
raise ValueError("Unsupported packet type")
else:
raise ValueError("Invalid packet type")
if len(payload) != payload_length:
raise ValueError("Incorrect payload length")
parts = _v2_unscramble(indicator, payload)
rolling = []
for i in range(0, len(indicator), 2):
rolling.append((indicator[i] << 1) | indicator[i+1])
for i in range(0, len(parts[2]), 2):
rolling.append((parts[2][i] << 1) | parts[2][i+1])
if 3 in rolling:
raise ValueError("Illegal value for ternary bit")
fixed = parts[0][:10] + parts[1][:10]
if packet_type == 0:
data = None
elif packet_type == 1:
if rolling[:4] != rolling[-4:]:
raise ValueError("Last four ternary bits do not repeat first four")
rolling = rolling[:-4]
data = parts[0][10:] + parts[1][10:]
return rolling, fixed, data
def _v2_check_limits(rolling, fixed, data):
if rolling >= 2**28:
raise ValueError("Rolling code must be less than 2^28")
if fixed >= 2**40:
raise ValueError("Fixed code must be less than 2^40")
if data is not None:
if data >= 2**32:
raise ValueError("Data must be less than 2^32")
def _encode_v2_half(rolling, fixed, data):
packet_type, indicator, payload = _encode_v2_half_parts(rolling, fixed, data)
packet_type_bits = [packet_type >> 1, packet_type & 1]
return packet_type_bits + indicator + payload
def encode_v2(rolling, fixed, data=None):
"""Encode a Security+ 2.0 payload into 80 or 128 bits
Arguments:
rolling -- the rolling code (28 bits)
fixed -- the fixed code (40 bits)
data -- the data (32 bits, optional)
Raises a ValueError if the rolling or fixed code is too large.
"""
_v2_check_limits(rolling, fixed, data)
rolling1, rolling2 = _encode_v2_rolling(rolling)
fixed_bits = [int(bit) for bit in f"{fixed:040b}"]
fixed1 = fixed_bits[:20]
fixed2 = fixed_bits[20:]
if data is None:
data1 = None
data2 = None
else:
data = _v2_calc_parity(fixed, data)
data_bits = [int(bit) for bit in f"{data:032b}"]
data1 = data_bits[:16]
data2 = data_bits[16:]
return _encode_v2_half(rolling1, fixed1, data1) + _encode_v2_half(rolling2, fixed2, data2)
def _decode_v2_half(code):
packet_type = (code[0] << 1) | code[1]
indicator = code[2:10]
payload = code[10:]
return _decode_v2_half_parts(packet_type, indicator, payload)
def decode_v2(code):
"""Decode a Security+ 2.0 transmission and return the rolling code, fixed
code, and data.
Arguments:
code -- a list containing the 80 or 128 payload bits from a pair of packets
Raises a ValueError if the payload bits are invalid for any reason.
"""
half_len = len(code) // 2
rolling1, fixed1, data1 = _decode_v2_half(code[:half_len])
rolling2, fixed2, data2 = _decode_v2_half(code[half_len:])
return _v2_combine_halves(rolling1, rolling2, fixed1, fixed2, data1, data2)
def _encode_wireline_half(rolling, fixed, data):
_, indicator, payload = _encode_v2_half_parts(rolling, fixed, data)
return indicator + [0, 0] + payload
def encode_wireline(rolling, fixed, data):
"""Encode a Security+ 2.0 wireline payload into 19 bytes
Arguments:
rolling -- the rolling code (28 bits)
fixed -- the fixed code (40 bits)
data -- the data (32 bits)
Raises a ValueError if the rolling code, fixed code, or data is too large.
"""
_v2_check_limits(rolling, fixed, data)
rolling1, rolling2 = _encode_v2_rolling(rolling)
fixed_bits = [int(bit) for bit in f"{fixed:040b}"]
fixed1 = fixed_bits[:20]
fixed2 = fixed_bits[20:]
data = _v2_calc_parity(fixed, data)
data_bits = [int(bit) for bit in f"{data:032b}"]
data1 = data_bits[:16]
data2 = data_bits[16:]
payload_bits = _encode_wireline_half(rolling1, fixed1, data1) + _encode_wireline_half(rolling2, fixed2, data2)
packet = [0x55, 0x01, 0x00]
for n in range(len(payload_bits) // 8):
byte = 0
for bit in range(8):
byte |= payload_bits[n * 8 + bit] << (7 - bit)
packet.append(byte)
return bytes(packet)
def _decode_wireline_half(code):
if code[8:10] != [0, 0]:
raise ValueError("Unexpected values for bits 8 and 9")
indicator = code[:8]
payload = code[10:]
return _decode_v2_half_parts(1, indicator, payload)
def decode_wireline(code):
"""Decode a Security+ 2.0 wireline transmission and return the rolling code,
fixed code, and data.
Arguments:
code -- a bytes object with the 19 bytes of a serial packet
Raises a ValueError if the payload bytes are invalid for any reason.
"""
if not isinstance(code, bytes):
raise ValueError("Input must be bytes")
if len(code) != 19:
raise ValueError("Input must be 19 bytes long")
if code[:3] != bytes([0x55, 0x01, 0x00]):
raise ValueError("First three bytes must be 0x55, 0x01, 0x00")
code_bits = []
for b in code[3:]:
for bit in range(7, -1, -1):
code_bits.append((b >> bit) & 1)
half_len = len(code_bits) // 2
rolling1, fixed1, data1 = _decode_wireline_half(code_bits[:half_len])
rolling2, fixed2, data2 = _decode_wireline_half(code_bits[half_len:])
return _v2_combine_halves(rolling1, rolling2, fixed1, fixed2, data1, data2)
_OOK = {
-1: [0, 0, 0, 0],
0: [0, 0, 0, 1],
1: [0, 0, 1, 1],
2: [0, 1, 1, 1]
}
def encode_ook(rolling, fixed, fast=True):
"""Encode a Security+ payload and produce an OOK stream for transmission
The resulting pulses should be transmitted at a baud rate of 2000. That is,
each 0 (off) or 1 (on) should be 0.5 ms long.
Arguments:
rolling -- the rolling code
fixed -- the fixed code
fast -- when True, shortens the time between packets
"""
code = encode(rolling, fixed)
blank = [-1] * (10 if fast else 29)
code = [0] + code[0:20] + blank + [2] + code[20:40] + blank
ook_bits = []
for symbol in code:
ook_bits += _OOK[symbol]
return ook_bits
def _manchester(code):
output = []
for bit in code:
if bit == 0:
output += [1, 0]
else:
output += [0, 1]
return output
def encode_v2_manchester(rolling, fixed, data=None, fast=True):
"""Encode a Security+ 2.0 payload and produce a Manchester stream for transmission
The resulting pulses should be transmitted at a baud rate of 4000. That is,
each 0 (off) or 1 (on) should be 0.25 ms long.
Arguments:
rolling -- the rolling code (28 bits)
fixed -- the fixed code (40 bits)
data -- the data (32 bits, optional)
fast -- when True, shortens the time between packets
"""
preamble = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1]
code = encode_v2(rolling, fixed, data)
half_len = len(code) // 2
packet1 = preamble + [0, 0] + code[:half_len]
packet2 = preamble + [0, 1] + code[half_len:]
blank = [0] * (33 if fast else 400 - 2 * len(packet1))
return _manchester(packet1) + blank + _manchester(packet2) + blank
def pretty(rolling, fixed):
"""Pretty-print a Security+ rolling and fixed code"""
return f"Security+: rolling={rolling} fixed={fixed} ({_fixed_pretty(fixed)})"
def _fixed_pretty(fixed):
switch_id = fixed % 3
id0 = (fixed // 3) % 3
id1 = (fixed // 3**2) % 3
result = f"id1={id1} id0={id0} switch={switch_id}"
if id1 == 0:
pad_id = (fixed // 3**3) % (3**7)
result += f" pad_id={pad_id}"
pin = (fixed // 3**10) % (3**9)
if 0 <= pin <= 9999:
result += f" pin={pin:04}"
elif 10000 <= pin <= 11029:
result += " pin=enter"
pin_suffix = (fixed // 3**19) % 3
if pin_suffix == 1:
result += "#"
elif pin_suffix == 2:
result += "*"
else:
remote_id = (fixed // 3**3)
result += f" remote_id={remote_id}"
if switch_id == 0:
button = "middle"
elif switch_id == 1:
button = "left"
else:
button = "right"
result += f" button={button}"
return result
def pretty_v2(rolling, fixed, data=None):
"""Pretty-print a Security+ 2.0 rolling code, fixed code, and data"""
pretty = f"Security+ 2.0: rolling=0x{rolling:07x} fixed=0x{fixed:010x} ({_fixed_pretty_v2(fixed)})"
if data is not None:
pretty += f" data=0x{data:08x} ({_data_pretty_v2(fixed, data)})"
return pretty
def _fixed_pretty_v2(fixed):
button = (fixed >> 32) & 0xf
remote_id = fixed & 0xf0ffffffff
return f"button={button} remote_id=0x{remote_id:010x}"
def _data_pretty_v2(fixed, data):
button = (fixed >> 32) & 0xf
byte1 = data >> 24
byte2 = (data >> 16) & 0xff
pin = (byte2 << 8) | byte1
tail = data & 0xfff
if button == 3:
return f"pin=enter tail=0x{tail:03x}"
else:
if button == 1:
suffix = "*"
elif button == 2:
suffix = "#"
else:
suffix = ""
return f"pin={pin:04}{suffix} tail=0x{tail:03x}"
_WIRELINE_COMMANDS = {
# sent by opener
0x081: "status",
0x084: "unknown_1",
0x085: "unknown_2",
0x0a1: "pair_3_resp",
0x284: "motor_on",
0x393: "learn_3_resp",
0x401: "pair_2_resp",
0x48c: "openings",
# sent by switch
0x080: "get_status",
0x0a0: "pair_3",
0x181: "learn_2",
0x18c: "lock",
0x280: "open",
0x281: "light",
0x285: "motion",
0x391: "learn_1",
0x392: "learn_3",
0x400: "pair_2",
0x48b: "get_openings",
}
_DOOR_STATUS = {
1: "open",
2: "closed",
3: "stopped",
4: "opening",
5: "closing",
}
def pretty_wireline(rolling, fixed, data):
cmd = ((fixed >> 24) & 0xf00) | (data & 0xff)
command_name = _WIRELINE_COMMANDS.get(cmd, "<unknown>")
nibble = (data >> 8) & 0xf
byte1 = (data >> 16) & 0xff
byte2 = (data >> 24) & 0xff
msg = ""
if cmd == 0x080:
msg = f"byte2={byte2}"
elif cmd == 0x081:
door = _DOOR_STATUS.get(nibble, "<unknown>")
learn = (byte2 >> 5) & 1
unk1 = (byte2 >> 4) & 1
unk2 = (byte2 >> 2) & 1
light = (byte2 >> 1) & 1
lock = byte2 & 1
blocked = (byte1 >> 6) & 1
unk3 = (byte1 >> 5) & 1
msg = f"door={door} learn={learn} light={light} lock={lock} blocked={blocked^1} unk1={unk1} unk2={unk2} unk3={unk3}"
elif cmd == 0x0a1:
msg = f"byte1={byte1}"
elif cmd == 0x181:
msg = f"nibble={nibble}"
elif cmd == 0x280:
msg = "pressed" if byte1 == 1 else "released"
elif cmd == 0x391:
msg = f"nibble={nibble}"
elif cmd == 0x393:
msg = f"nibble={nibble}"
elif cmd == 0x48c:
openings = (byte1 << 8) | byte2
msg = f"number={openings}"
return f"rolling=0x{rolling:07x} fixed=0x{fixed:010x} data=0x{data:08x} cmd=0x{cmd:03x} {command_name} {msg}".strip()