# TODO: Options to invert the signal(s).
}
annotations = [
- ['Data', 'UART data'],
+ ['RX data', 'UART RX data'],
+ ['TX data', 'UART TX data'],
['Start bits', 'UART start bits'],
['Parity bits', 'UART parity bits'],
['Stop bits', 'UART stop bits'],
self.state[rxtx] = 'GET DATA BITS'
self.putp(['STARTBIT', rxtx, self.startbit[rxtx]])
- self.putg([1, ['Start bit', 'Start', 'S']])
+ self.putg([2, ['Start bit', 'Start', 'S']])
def get_data_bits(self, rxtx, signal):
# Skip samples until we're in the middle of the desired data bit.
self.putp(['DATA', rxtx, self.databyte[rxtx]])
- s = 'RX: ' if (rxtx == RX) else 'TX: '
b, f = self.databyte[rxtx], self.options['format']
if f == 'ascii':
- self.putx(rxtx, [0, [s + chr(b)]])
+ self.putx(rxtx, [rxtx, [chr(b)]])
elif f == 'dec':
- self.putx(rxtx, [0, [s + str(b)]])
+ self.putx(rxtx, [rxtx, [str(b)]])
elif f == 'hex':
- self.putx(rxtx, [0, [s + hex(b)[2:].zfill(2).upper()]])
+ self.putx(rxtx, [rxtx, [hex(b)[2:].zfill(2).upper()]])
elif f == 'oct':
- self.putx(rxtx, [0, [s + oct(b)[2:].zfill(3)]])
+ self.putx(rxtx, [rxtx, [oct(b)[2:].zfill(3)]])
elif f == 'bin':
- self.putx(rxtx, [0, [s + bin(b)[2:].zfill(8)]])
+ self.putx(rxtx, [rxtx, [bin(b)[2:].zfill(8)]])
else:
raise Exception('Invalid data format option: %s' % f)
if parity_ok(self.options['parity_type'], self.paritybit[rxtx],
self.databyte[rxtx], self.options['num_data_bits']):
self.putp(['PARITYBIT', rxtx, self.paritybit[rxtx]])
- self.putg([2, ['Parity bit', 'Parity', 'P']])
+ self.putg([3, ['Parity bit', 'Parity', 'P']])
else:
# TODO: Return expected/actual parity values.
self.putp(['PARITY ERROR', rxtx, (0, 1)]) # FIXME: Dummy tuple...
- self.putg([4, ['Parity error', 'Parity err', 'PE']])
+ self.putg([5, ['Parity error', 'Parity err', 'PE']])
# TODO: Currently only supports 1 stop bit.
def get_stop_bits(self, rxtx, signal):
# Stop bits must be 1. If not, we report an error.
if self.stopbit1[rxtx] != 1:
self.putp(['INVALID STOPBIT', rxtx, self.stopbit1[rxtx]])
- self.putg([4, ['Frame error', 'Frame err', 'FE']])
+ self.putg([5, ['Frame error', 'Frame err', 'FE']])
# TODO: Abort? Ignore the frame? Other?
self.state[rxtx] = 'WAIT FOR START BIT'
self.putp(['STOPBIT', rxtx, self.stopbit1[rxtx]])
- self.putg([3, ['Stop bit', 'Stop', 'T']])
+ self.putg([4, ['Stop bit', 'Stop', 'T']])
def decode(self, ss, es, data):
# TODO: Either RX or TX could be omitted (optional probe).