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# |-------+-------+-------+-------+-------+-------+--------|
# | P1-17 | P1-18 | P1-21 | P1-19 | P1-23 | P1-24 | P1-25 |
# -________________________________________________________-
# Raspberry Pi
import spidev
import time
import copy
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# |-------+-------+-------+-------+-------+-------+--------|
# | P1-17 | P1-18 | P1-21 | P1-19 | P1-23 | P1-24 | P1-25 |
# -________________________________________________________-
# Raspberry Pi
import spidev
import time
class radio:
__register_map = [
{'name': "Unknown"}, # 0
{'name': "Unknown"}, # 1
{'name': "Unknown"}, # 2
{ # 3
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if len(self.__register_map) != 53:
raise ValueError('Inconsistent register map!')
return None
def __debug(self, message):
print(message)
return None
def __reset_device(self):
if self.__config is not None:
if self.__config['reset_command'] is not None:
return self.__config['reset_command']()
return None
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if len(self.__register_map) != 53:
raise ValueError('Inconsistent register map!')
return None
def __debug(self, message):
print("DEBUG: " + message)
return None
def __reset_device(self):
if self.__config is not None:
if self.__config['reset_command'] is not None:
return self.__config['reset_command']()
return None
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value2 = self.get_register(1);
if value1 == 0x6fe0 and value2 == 0x5681:
return True
return False
def __set_defaults(self):
self.put_register
return True
def __put_register_high_low(self, reg, high, low, delay = 7):
reg = self.__register_number(reg)
result = self.__spi.xfer([reg, high, low], self.__spi.max_speed_hz, delay)
if reg & 0x80 == 0x80:
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value2 = self.get_register(1);
if value1 == 0x6fe0 and value2 == 0x5681:
return True
return False
def __set_defaults(self):
self.put_register_bits('radio_state', {'tx_enabled': 0, 'rx_enabled': 0, 'channel': 76})
self.put_register_bits('power', {'current': 4, 'gain': 0})
self.put_register_bits('rssi_power', {'mode': 0})
self.put_register_bits('crystal', {'trim_adjust': 0})
self.put_register_bits('packet_config', {
'preamble_len': 2,
'syncword_len': 1,
'trailer_len': 0,
'packet_type': 0,
'fec_type': 0,
'br_clock_sel': 0
})
self.put_register_bits('chip_power', {
'power_down': 0,
'sleep_mode': 0,
'br_clock_on_sleep': 0,
'rexmit_times': 3,
'miso_tri_opt': 0,
'scramble_value': 0
})
self.put_register_bits('thresholds', {
'fifo_empty_threshold': 8,
'fifo_full_threshold': 16,
'syncword_error_bits': 2
})
self.put_register_bits('format_config', {
'crc_enabled': 1,
'scramble_enabled': 0,
'packet_length_encoded': 1,
'auto_term_tx': 1,
'auto_ack': 0,
'pkt_fifo_polarity': 0,
'crc_initial_data': 0
})
self.put_register_bits('scan_rssi', {'channel': 63, 'ack_time': 176})
self.put_register_bits('gain_block', {'enabled': 1})
self.put_register_bits('vco_calibrate', {'enabled': 1})
self.put_register_bits('scan_rssi_state', {'enabled': 0, 'channel_offset': 0, 'wait_time': 15})
return True
def __put_register_high_low(self, reg, high, low, delay = 7):
reg = self.__register_number(reg)
result = self.__spi.xfer([reg, high, low], self.__spi.max_speed_hz, delay)
if reg & 0x80 == 0x80:
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self.put_register_bits('radio_state', state)
return state
def set_syncword(self, syncword):
packet_config = self.get_register_bits('packet_config')
packet_config['syncword_len'] = len(syncword) - 1
print("packet_config = {}".format(packet_config))
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self.put_register_bits('radio_state', state)
return state
def set_syncword(self, syncword):
packet_config = self.get_register_bits('packet_config')
packet_config['syncword_len'] = len(syncword) - 1
self.put_register_bits('packet_config', packet_config)
if len(syncword) == 1:
self.put_register("syncword_0", syncword[0])
elif len(syncword) == 2:
self.put_register("syncword_0", syncword[1])
self.put_register("syncword_3", syncword[0])
elif len(syncword) == 3:
self.put_register("syncword_0", syncword[2])
self.put_register("syncword_2", syncword[1])
self.put_register("syncword_3", syncword[0])
elif len(syncword) == 4:
self.put_register("syncword_0", syncword[3])
self.put_register("syncword_1", syncword[2])
self.put_register("syncword_2", syncword[1])
self.put_register("syncword_3", syncword[0])
elif len(syncword) > 4:
raise ValueError("SyncWord length must be less than 5")
return None
def transmit(self, message, channel = None):
if channel is None:
state = self.get_register_bits('radio_state')
channel = state['channel']
# Initialize the transmitter
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'clear_read': 1,
'clear_write': 1
})
# Format message to send to fifo
## XXX: TODO: Length encoding is optional, should check register
message = [self.__register_number('fifo'), len(message)] + message
# Transfer the message
result = self.__spi.xfer(copy.copy(message), self.__spi.max_speed_hz, 10)
self.__debug("Writing: {} = {}".format(message, result))
# Tell the radio to transmit the FIFO buffer to the specified channel
self.put_register_bits('radio_state', {
'tx_enabled': 1,
'rx_enabled': 0,
'channel': channel
})
# Wait for buffer to empty
while True:
radio_state = self.get_register_bits('radio_state')
print(radio_state)
if radio_state['tx_enabled'] == 0:
break
time.sleep(0.1)
return False
def multi_transmit(self, message, channels, retries = 3):
for i in range(retries):
for channel in channels:
self.transmit(message, channel)
time.sleep(0.01)
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'clear_read': 1,
'clear_write': 1
})
# Format message to send to fifo
## XXX: TODO: Length encoding is optional, should check register
message = [self.__register_number('fifo'), len(message)] + message
log_message = [] + message
# Transfer the message
result = self.__spi.xfer(message, self.__spi.max_speed_hz, 10)
self.__debug("Writing: {} = {}".format(log_message, result))
# Tell the radio to transmit the FIFO buffer to the specified channel
self.put_register_bits('radio_state', {
'tx_enabled': 1,
'rx_enabled': 0,
'channel': channel
})
# Wait for buffer to empty
# XXX: Untested
while True:
radio_status = self.get_register_bits('status')
self.__debug("radio_status={}".format(radio_status))
if radio_status['fifo_flag'] == 0:
break
time.sleep(0.1)
return True
def multi_transmit(self, message, channels, retries = 3):
for i in range(retries):
for channel in channels:
if not self.transmit(message, channel):
return False
time.sleep(0.1 / retries)
return True
def start_listening(self, channel):
# Initialize the receiver
self.put_register_bits('radio_state', {
'tx_enabled': 0,
'rx_enabled': 0,
'channel': 0
})
self.put_register_bits('fifo_state', {
'clear_read': 1,
'clear_write': 1
})
# Go into listening mode
self.put_register_bits('radio_state', {
'tx_enabled': 0,
'rx_enabled': 1,
'channel': channel
})
return True
def receive(self, channel = None, wait = False, length = None):
if wait:
if channel is None:
state = self.get_register_bits('radio_state')
channel = state['channel']
self.__start_listening(channel)
message = []
while True:
radio_status = self.get_register_bits('status')
if radio_status['packet_flag'] == 0:
if wait:
time.sleep(0.1)
continue
else:
return None
if radio_status['crc_error'] == 1:
# Handle invalid packet ?
# XXX:TODO: Is this sufficient ?
self.__start_listening(channel)
continue
# Data is available, read it from the FIFO register
# The first result will include the length
# XXX *IF* length encoding is enabled ?
fifo_data = self.get_register('fifo')
message_length = fifo_data >> 8
# Keep track of the total message length to truncate it
final_message_length = message_length
message += [fifo_data & 0xff]
message_length -= 1
# Read subsequent bytes from the FIFO register until
# there are no more bytes to read
while message_length > 0:
fifo_data = self.get_register('fifo')
message += [fifo_data >> 8, fifo_data & 0xff]
message_length -= 2
# Truncate the message to its final size, since we have
# to read in 16-bit words, we may have an extra byte
message = message[0:final_message_length]
break
return message
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