pigpio/EXAMPLES/Python/VIRTUAL_WIRE/vw.py

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2014-11-25 18:10:05 +01:00
#!/usr/bin/env python
"""
This module provides a 313MHz/434MHz radio interface compatible
with the Virtual Wire library used on Arduinos.
It has been tested between a Pi, TI Launchpad, and Arduino Pro Mini.
"""
# 2014-08-14
# vw.py
import time
import pigpio
MAX_MESSAGE_BYTES=77
MIN_BPS=50
MAX_BPS=10000
_HEADER=[0x2a, 0x2a, 0x2a, 0x2a, 0x2a, 0x2a, 0x38, 0x2c]
_CTL=3
_SYMBOL=[
0x0d, 0x0e, 0x13, 0x15, 0x16, 0x19, 0x1a, 0x1c,
0x23, 0x25, 0x26, 0x29, 0x2a, 0x2c, 0x32, 0x34]
def _sym2nibble(symbol):
for nibble in range(16):
if symbol == _SYMBOL[nibble]:
return nibble
return 0
def _crc_ccitt_update(crc, data):
data = data ^ (crc & 0xFF);
data = (data ^ (data << 4)) & 0xFF;
return (
(((data << 8) & 0xFFFF) | (crc >> 8)) ^
((data >> 4) & 0x00FF) ^ ((data << 3) & 0xFFFF)
)
class tx():
def __init__(self, pi, txgpio, bps=2000):
"""
Instantiate a transmitter with the Pi, the transmit gpio,
and the bits per second (bps). The bps defaults to 2000.
The bps is constrained to be within MIN_BPS to MAX_BPS.
"""
self.pi = pi
self.txbit = (1<<txgpio)
if bps < MIN_BPS:
bps = MIN_BPS
elif bps > MAX_BPS:
bps = MAX_BPS
self.mics = int(1000000 / bps)
self.wave_id = None
pi.wave_add_new()
pi.set_mode(txgpio, pigpio.OUTPUT)
def _nibble(self, nibble):
for i in range(6):
if nibble & (1<<i):
self.wf.append(pigpio.pulse(self.txbit, 0, self.mics))
else:
self.wf.append(pigpio.pulse(0, self.txbit, self.mics))
def _byte(self, crc, byte):
self._nibble(_SYMBOL[byte>>4])
self._nibble(_SYMBOL[byte&0x0F])
return _crc_ccitt_update(crc, byte)
def put(self, data):
"""
Transmit a message. If the message is more than
MAX_MESSAGE_BYTES in size it is discarded. If a message
is currently being transmitted it is aborted and replaced
with the new message. True is returned if message
transmission has successfully started. False indicates
an error.
"""
if len(data) > MAX_MESSAGE_BYTES:
return False
self.wf = []
self.cancel()
for i in _HEADER:
self._nibble(i)
crc = self._byte(0xFFFF, len(data)+_CTL)
for i in data:
if type(i) == type(""):
v = ord(i)
else:
v = i
crc = self._byte(crc, v)
crc = ~crc
self._byte(0, crc&0xFF)
self._byte(0, crc>>8)
self.pi.wave_add_generic(self.wf)
self.wave_id = self.pi.wave_create()
if self.wave_id >= 0:
self.pi.wave_send_once(self.wave_id)
return True
else:
return False
def ready(self):
"""
Returns True if a new message may be transmitted.
"""
return not self.pi.wave_tx_busy()
def cancel(self):
"""
Cancels the wireless transmitter, aborting any message
in progress.
"""
if self.wave_id is not None:
self.pi.wave_tx_stop()
self.pi.wave_delete(self.wave_id)
self.pi.wave_add_new()
self.wave_id = None
class rx():
def __init__(self, pi, rxgpio, bps=2000):
"""
Instantiate a receiver with the Pi, the receive gpio, and
the bits per second (bps). The bps defaults to 2000.
The bps is constrained to be within MIN_BPS to MAX_BPS.
"""
self.pi = pi
self.rxgpio = rxgpio
self.messages = []
self.bad_CRC = 0
if bps < MIN_BPS:
bps = MIN_BPS
elif bps > MAX_BPS:
bps = MAX_BPS
slack = 0.20
self.mics = int(1000000 / bps)
slack_mics = int(slack * self.mics)
self.min_mics = self.mics - slack_mics # Shortest legal edge.
self.max_mics = (self.mics + slack_mics) * 4 # Longest legal edge.
self.timeout = 8 * self.mics / 1000 # 8 bits time in ms.
if self.timeout < 8:
self.timeout = 8
self.last_tick = None
self.good = 0
self.bits = 0
self.token = 0
self.in_message = False
self.message = [0]*(MAX_MESSAGE_BYTES+_CTL)
self.message_len = 0
self.byte = 0
pi.set_mode(rxgpio, pigpio.INPUT)
self.cb = pi.callback(rxgpio, pigpio.EITHER_EDGE, self._cb)
def _calc_crc(self):
crc = 0xFFFF
for i in range(self.message_length):
crc = _crc_ccitt_update(crc, self.message[i])
return crc
def _insert(self, bits, level):
for i in range(bits):
self.token >>= 1
if level == 0:
self.token |= 0x800
if self.in_message:
self.bits += 1
if self.bits >= 12: # Complete token.
byte = (
_sym2nibble(self.token & 0x3f) << 4 |
_sym2nibble(self.token >> 6))
if self.byte == 0:
self.message_length = byte
if byte > (MAX_MESSAGE_BYTES+_CTL):
self.in_message = False # Abort message.
return
self.message[self.byte] = byte
self.byte += 1
self.bits = 0
if self.byte >= self.message_length:
self.in_message = False
self.pi.set_watchdog(self.rxgpio, 0)
crc = self._calc_crc()
if crc == 0xF0B8: # Valid CRC.
self.messages.append(
self.message[1:self.message_length-2])
else:
self.bad_CRC += 1
else:
if self.token == 0xB38: # Start message token.
self.in_message = True
self.pi.set_watchdog(self.rxgpio, self.timeout)
self.bits = 0
self.byte = 0
def _cb(self, gpio, level, tick):
if self.last_tick is not None:
if level == pigpio.TIMEOUT:
self.pi.set_watchdog(self.rxgpio, 0) # Switch watchdog off.
if self.in_message:
self._insert(4, not self.last_level)
self.good = 0
self.in_message = False
else:
edge = pigpio.tickDiff(self.last_tick, tick)
if edge < self.min_mics:
self.good = 0
self.in_message = False
elif edge > self.max_mics:
if self.in_message:
self._insert(4, level)
self.good = 0
self.in_message = False
else:
self.good += 1
if self.good > 8:
bitlen = (100 * edge) / self.mics
if bitlen < 140:
bits = 1
elif bitlen < 240:
bits = 2
elif bitlen < 340:
bits = 3
else:
bits = 4
self._insert(bits, level)
self.last_tick = tick
self.last_level = level
def get(self):
"""
Returns the next unread message, or None if none is avaiable.
"""
if len(self.messages):
return self.messages.pop(0)
else:
return None
def ready(self):
"""
Returns True if there is a message available to be read.
"""
return len(self.messages)
def cancel(self):
"""
Cancels the wireless receiver.
"""
if self.cb is not None:
self.cb.cancel()
self.pi.set_watchdog(self.rxgpio, 0)
self.cb = None
if __name__ == "__main__":
import time
import pigpio
import vw
RX=11
TX=25
BPS=2000
pi = pigpio.pi() # Connect to local Pi.
rx = vw.rx(pi, RX, BPS) # Specify Pi, rx gpio, and baud.
tx = vw.tx(pi, TX, BPS) # Specify Pi, tx gpio, and baud.
msg = 0
start = time.time()
while (time.time()-start) < 300:
msg += 1
while not tx.ready():
time.sleep(0.1)
time.sleep(0.2)
tx.put([48, 49, 65, ((msg>>6)&0x3F)+32, (msg&0x3F)+32])
while not tx.ready():
time.sleep(0.1)
time.sleep(0.2)
tx.put("Hello World #{}!".format(msg))
while rx.ready():
print("".join(chr (c) for c in rx.get()))
rx.cancel()
tx.cancel()
pi.stop()