- 'FRAME': The data is always a tuple containing two items: The (integer)
value of the UART data, and a boolean which reflects the validity of the
UART frame.
+ - 'IDLE': The data is always 0.
The <rxtx> field is 0 for RX packets, 1 for TX packets.
'''
# 'none' is _not_ allowed as value for 'parity_type'.
def parity_ok(parity_type, parity_bit, data, num_data_bits):
+ if parity_type == 'ignore':
+ return True
+
# Handle easy cases first (parity bit is always 1 or 0).
if parity_type == 'zero':
return parity_bit == 0
{'id': 'num_data_bits', 'desc': 'Data bits', 'default': 8,
'values': (5, 6, 7, 8, 9)},
{'id': 'parity_type', 'desc': 'Parity type', 'default': 'none',
- 'values': ('none', 'odd', 'even', 'zero', 'one')},
- {'id': 'parity_check', 'desc': 'Check parity?', 'default': 'yes',
- 'values': ('yes', 'no')},
+ 'values': ('none', 'odd', 'even', 'zero', 'one', 'ignore')},
{'id': 'num_stop_bits', 'desc': 'Stop bits', 'default': 1.0,
'values': (0.0, 0.5, 1.0, 1.5)},
{'id': 'bit_order', 'desc': 'Bit order', 'default': 'lsb-first',
('tx-packet', 'TX packet'),
)
annotation_rows = (
- ('rx-data', 'RX', (0, 2, 4, 6, 8)),
('rx-data-bits', 'RX bits', (12,)),
+ ('rx-data', 'RX', (0, 2, 4, 6, 8)),
('rx-warnings', 'RX warnings', (10,)),
('rx-break', 'RX break', (14,)),
('rx-packets', 'RX packets', (16,)),
- ('tx-data', 'TX', (1, 3, 5, 7, 9)),
('tx-data-bits', 'TX bits', (13,)),
+ ('tx-data', 'TX', (1, 3, 5, 7, 9)),
('tx-warnings', 'TX warnings', (11,)),
('tx-break', 'TX break', (15,)),
('tx-packets', 'TX packets', (17,)),
self.break_start = [None, None]
self.packet_cache = [[], []]
self.ss_packet, self.es_packet = [None, None], [None, None]
+ self.idle_start = [None, None]
def start(self):
self.out_python = self.register(srd.OUTPUT_PYTHON)
(self.datavalue[rxtx], self.frame_valid[rxtx])])
self.state[rxtx] = 'WAIT FOR START BIT'
+ self.idle_start[rxtx] = self.frame_start[rxtx] + self.frame_len_sample_count
def handle_break(self, rxtx):
self.putpse(self.frame_start[rxtx], self.samplenum,
want_num = ceil(self.get_sample_point(rxtx, bitnum))
return {'skip': want_num - self.samplenum}
+ def get_idle_cond(self, rxtx, inv):
+ # Return a condition that corresponds to the (expected) end of
+ # the next frame, assuming that it will be an "idle frame"
+ # (constant high input level for the frame's length).
+ if self.idle_start[rxtx] is None:
+ return None
+ end_of_frame = self.idle_start[rxtx] + self.frame_len_sample_count
+ if end_of_frame < self.samplenum:
+ return None
+ return {'skip': end_of_frame - self.samplenum}
+
def inspect_sample(self, rxtx, signal, inv):
# Inspect a sample returned by .wait() for the specified UART line.
if inv:
self.handle_break(rxtx)
self.break_start[rxtx] = None
+ def inspect_idle(self, rxtx, signal, inv):
+ # Check each edge and each period of stable input (either level).
+ # Can derive the "idle frame period has passed" condition.
+ if inv:
+ signal = not signal
+ if not signal:
+ # Low input, cease inspection.
+ self.idle_start[rxtx] = None
+ return
+ # High input, either just reached, or still stable.
+ if self.idle_start[rxtx] is None:
+ self.idle_start[rxtx] = self.samplenum
+ diff = self.samplenum - self.idle_start[rxtx]
+ if diff < self.frame_len_sample_count:
+ return
+ ss, es = self.idle_start[rxtx], self.samplenum
+ self.putpse(ss, es, ['IDLE', rxtx, 0])
+ self.idle_start[rxtx] = self.samplenum
+
def decode(self):
if not self.samplerate:
raise SamplerateError('Cannot decode without samplerate.')
has_pin = [self.has_channel(ch) for ch in (RX, TX)]
- if has_pin == [False, False]:
- raise ChannelError('Either TX or RX (or both) pins required.')
+ if not True in has_pin:
+ raise ChannelError('Need at least one of TX or RX pins.')
opt = self.options
inv = [opt['invert_rx'] == 'yes', opt['invert_tx'] == 'yes']
frame_samples += 0 if self.options['parity_type'] == 'none' else 1
frame_samples += self.options['num_stop_bits']
frame_samples *= self.bit_width
- self.break_min_sample_count = ceil(frame_samples)
+ self.frame_len_sample_count = ceil(frame_samples)
+ self.break_min_sample_count = self.frame_len_sample_count
cond_edge_idx = [None] * len(has_pin)
+ cond_idle_idx = [None] * len(has_pin)
while True:
conds = []
conds.append(self.get_wait_cond(RX, inv[RX]))
cond_edge_idx[RX] = len(conds)
conds.append({RX: 'e'})
+ cond_idle_idx[RX] = None
+ idle_cond = self.get_idle_cond(RX, inv[RX])
+ if idle_cond:
+ cond_idle_idx[RX] = len(conds)
+ conds.append(idle_cond)
if has_pin[TX]:
cond_data_idx[TX] = len(conds)
conds.append(self.get_wait_cond(TX, inv[TX]))
cond_edge_idx[TX] = len(conds)
conds.append({TX: 'e'})
+ cond_idle_idx[TX] = None
+ idle_cond = self.get_idle_cond(TX, inv[TX])
+ if idle_cond:
+ cond_idle_idx[TX] = len(conds)
+ conds.append(idle_cond)
(rx, tx) = self.wait(conds)
if cond_data_idx[RX] is not None and self.matched[cond_data_idx[RX]]:
self.inspect_sample(RX, rx, inv[RX])
if cond_edge_idx[RX] is not None and self.matched[cond_edge_idx[RX]]:
self.inspect_edge(RX, rx, inv[RX])
+ self.inspect_idle(RX, rx, inv[RX])
+ if cond_idle_idx[RX] is not None and self.matched[cond_idle_idx[RX]]:
+ self.inspect_idle(RX, rx, inv[RX])
if cond_data_idx[TX] is not None and self.matched[cond_data_idx[TX]]:
self.inspect_sample(TX, tx, inv[TX])
if cond_edge_idx[TX] is not None and self.matched[cond_edge_idx[TX]]:
self.inspect_edge(TX, tx, inv[TX])
+ self.inspect_idle(TX, tx, inv[TX])
+ if cond_idle_idx[TX] is not None and self.matched[cond_idle_idx[TX]]:
+ self.inspect_idle(TX, tx, inv[TX])