# radio2.py 15/04/2015 D.J.Whale
#
# New version of the radio driver, with most of the fast stuff pushed into C.
#
# NOTE 1: This is only used for OOK transmit & FSK transmit at the moment.
# FSK receive is currently being re-implemented in radio.c
# NOTE 2: Also there is an idea to do a python wrapper, build the C code
# for an Arduino and wrap it with a simple serial message handler.
# This would then make it possible to use the Energenie Radio on a Mac/PC/Linux
# machine but by still using the same higher level Python code.
# All you would need is a different radio.py that marshalled data to and from
# the Arduino via pyserial.
#TODO: Should really add parameter validation here, so that C code doesn't have to.
#although it will be faster in C (C could be made optional, like an assert?)
LIBNAME = "drv/radio_rpi.so"
##LIBNAME = "drv/radio_mac.so" # testing
import time
import ctypes
from os import path
mydir = path.dirname(path.abspath(__file__))
libradio = ctypes.cdll.LoadLibrary(mydir + "/" + LIBNAME)
radio_init_fn = libradio["radio_init"]
radio_reset_fn = libradio["radio_reset"]
radio_get_ver_fn = libradio["radio_get_ver"]
radio_modulation_fn = libradio["radio_modulation"]
radio_transmitter_fn = libradio["radio_transmitter"]
radio_transmit_fn = libradio["radio_transmit"]
radio_send_payload_fn = libradio["radio_send_payload"]
radio_receiver_fn = libradio["radio_receiver"]
radio_is_receive_waiting_fn = libradio["radio_is_receive_waiting"]
radio_get_payload_len_fn = libradio["radio_get_payload_len"]
radio_get_payload_cbp_fn = libradio["radio_get_payload_cbp"]
radio_standby_fn = libradio["radio_standby"]
radio_finished_fn = libradio["radio_finished"]
RADIO_MODULATION_OOK = 0
RADIO_MODULATION_FSK = 1
# A temporary limit, the receiver will only receive 1 FIFO worth of data maximul
# This includes the length byte at the start of an OpenThings message
MAX_RX_SIZE = 66
#TODO RADIO_RESULT_XX
def trace(msg):
print(str(msg))
def tohex(l):
line = ""
for item in l:
line += hex(item) + " "
return line
def unimplemented(m):
print("warning: method is not implemented:%s" % m)
return m
def deprecated(m):
"""Load-time warning about deprecated method"""
print("warning: method is deprecated:%s" % m)
return m
def untested(m):
"""Load-time warning about untested function"""
print("warning: method is untested:%s" % m)
return m
def disabled(m):
"""Load-time waring about disabled function"""
print("warning: method is disabled:%s" % m)
def nothing(*args, **kwargs):pass
return nothing
def init():
"""Initialise the module ready for use"""
#extern void radio_init(void);
radio_init_fn()
def reset():
"""Reset the radio device"""
#extern void radio_reset(void);
radio_reset_fn()
def get_ver():
"""Read out the version number of the radio"""
return radio_get_ver_fn()
def modulation(fsk=None, ook=None):
"""Switch modulation, if needed"""
#extern void radio_modulation(RADIO_MODULATION mod);
if ook:
m = ctypes.c_int(RADIO_MODULATION_OOK)
elif fsk:
m = ctypes.c_int(RADIO_MODULATION_FSK)
else:
raise RuntimeError("Must choose fsk or ook mode")
radio_modulation_fn(m)
def transmitter(fsk=None, ook=None):
"""Change into transmitter mode"""
#extern void radio_transmitter(RADIO_MODULATION mod);
if ook:
m = ctypes.c_int(RADIO_MODULATION_OOK)
elif fsk:
m = ctypes.c_int(RADIO_MODULATION_FSK)
else: # defaults to FSK
m = ctypes.c_int(RADIO_MODULATION_FSK)
radio_transmitter_fn(m)
def transmit(payload, outer_times=1, inner_times=8, outer_delay=0):
"""Transmit a single payload using the present modulation scheme"""
#Note, this optionally does a mode change before and after
#extern void radio_transmit(uint8_t* payload, uint8_t len, uint8_t repeats);
framelen = len(payload)
if framelen < 1 or framelen > 255:
raise ValueError("frame len must be 1..255")
if outer_times < 1:
raise ValueError("outer_times must be >0")
if inner_times < 1 or inner_times > 255:
raise ValueError("tx times must be 0..255")
framelen = len(payload)
Frame = ctypes.c_ubyte * framelen
txframe = Frame(*payload)
inner_times = ctypes.c_ubyte(inner_times)
for i in range(outer_times):
#TODO: transmit() will mode change if required
#this means that outer_times will keep popping and pushing the mode
#that might be ok, as it will force all the flags to clear?
radio_transmit_fn(txframe, framelen, inner_times)
if outer_delay != 0:
time.sleep(outer_delay)
def send_payload(payload, outer_times=1, inner_times=8, outer_delay=0):
"""Transmit a payload in present modulation scheme, repeated"""
#Note, this does not do a mode change before or after,
#and assumes the mode is already transmit
#extern void radio_send_payload(uint8_t* payload, uint8_t len, uint8_t times);
framelen = len(payload)
if framelen < 1 or framelen > 255:
raise ValueError("frame len must be 1..255")
if outer_times < 1:
raise ValueError("outer_times must be >0")
if inner_times < 1 or inner_times > 255:
raise ValueError("tx times must be 0..255")
Frame = ctypes.c_ubyte * framelen
txframe = Frame(*payload)
inner_times = ctypes.c_ubyte(inner_times)
for i in range(outer_times):
radio_send_payload_fn(txframe, framelen, inner_times)
if outer_delay != 0:
time.sleep(outer_delay)
def receiver(fsk=None, ook=None):
"""Change into receiver mode"""
#extern void radio_receiver(RADIO_MODULATION mod);
if ook:
m = ctypes.c_int(RADIO_MODULATION_OOK)
elif fsk:
m = ctypes.c_int(RADIO_MODULATION_FSK)
else: # defaults to FSK
m = ctypes.c_int(RADIO_MODULATION_FSK)
radio_receiver_fn(m)
def is_receive_waiting():
"""Check to see if a payload is waiting in the receive buffer"""
#extern RADIO_RESULT radio_is_receive_waiting(void);
res = radio_is_receive_waiting_fn()
# this is RADIO_RESULT_OK_TRUE or RADIO_RESULT_OK_FALSE
# so it is safe to evaluate it as a boolean number.
return (res != 0)
def receive(size=None):
"""Receive a single payload"""
if size == None:
return receive_cbp()
else:
return receive_len(size)
def receive_cbp():
"""Receive a count byte preceded payload"""
##trace("receive_cbp")
##bufsize = MAX_RX_SIZE
bufsize = 255 # testing
Buffer = ctypes.c_ubyte * bufsize
rxbuf = Buffer()
buflen = ctypes.c_ubyte(bufsize)
#RADIO_RESULT radio_get_payload_cbp(uint8_t* buf, uint8_t buflen)
result = radio_get_payload_cbp_fn(rxbuf, buflen)
if result != 0: # RADIO_RESULT_OK
raise RuntimeError("Receive failed, radio.c error code %s" % hex(result))
size = 1+rxbuf[0] # The count byte in the payload
# turn buffer into a list of bytes, using 'size' as the counter
rxlist = []
for i in range(size):
rxlist.append(rxbuf[i])
##trace("receive_cbp returhs %s" % tohex(rxlist))
return rxlist # Python len(rxlist) tells us how many bytes including length byte if present
@untested
def receive_len(size):
"""Receive a fixed payload size"""
bufsize = size
Buffer = ctypes.c_ubyte * bufsize
rxbuf = Buffer()
buflen = ctypes.c_ubyte(bufsize)
#RADIO_RESULT radio_get_payload_len(uint8_t* buf, uint8_t buflen)
result = radio_get_payload_len_fn(rxbuf, buflen)
if result != 0: # RADIO_RESULT_OK
raise RuntimeError("Receive failed, error code %s" % hex(result))
# turn buffer into a list of bytes, using 'size' as the counter
rxlist = []
for i in range(size):
rxlist.append(rxbuf[i])
return rxlist # Python len(rxlist) tells us how many bytes including length byte if present
def standby():
"""Put radio into standby mode"""
#extern void radio_standby(void);
radio_standby_fn()
def finished():
"""Close the library down cleanly when finished"""
#extern void radio_finished(void);
radio_finished_fn()
# END
David Whale