X-Git-Url: https://sigrok.org/gitweb/?a=blobdiff_plain;f=decoders%2Fuart%2Fpd.py;h=a8bf090b48346d59f30ba90784a72a39f9637a19;hb=e9a3c933ea8d77a46b881e525c2cfaf71b23041d;hp=f01cacece3e86b18274432a0ba1e4d87a7b0e4f2;hpb=84c1c0b52820af2418186ac3ecf93a5c6373a22e;p=libsigrokdecode.git diff --git a/decoders/uart/pd.py b/decoders/uart/pd.py index f01cace..a8bf090 100644 --- a/decoders/uart/pd.py +++ b/decoders/uart/pd.py @@ -19,18 +19,20 @@ ## import sigrokdecode as srd +from math import floor, ceil ''' OUTPUT_PYTHON format: -UART packet: -[, , ] +Packet: +[, , ] -This is the list of s and their respective : +This is the list of s and their respective values: - 'STARTBIT': The data is the (integer) value of the start bit (0/1). - - 'DATA': The data is the (integer) value of the UART data. Valid values - range from 0 to 512 (as the data can be up to 9 bits in size). - - 'DATABITS': List of data bits and their ss/es numbers. + - 'DATA': This is always a tuple containing two items: + - 1st item: the (integer) value of the UART data. Valid values + range from 0 to 512 (as the data can be up to 9 bits in size). + - 2nd item: the list of individual data bits and their ss/es numbers. - 'PARITYBIT': The data is the (integer) value of the parity bit (0/1). - 'STOPBIT': The data is the (integer) value of the stop bit (0 or 1). - 'INVALID STARTBIT': The data is the (integer) value of the start bit (0/1). @@ -66,11 +68,15 @@ def parity_ok(parity_type, parity_bit, data, num_data_bits): return (ones % 2) == 1 elif parity_type == 'even': return (ones % 2) == 0 - else: - raise Exception('Invalid parity type: %d' % parity_type) + +class SamplerateError(Exception): + pass + +class ChannelError(Exception): + pass class Decoder(srd.Decoder): - api_version = 1 + api_version = 2 id = 'uart' name = 'UART' longname = 'Universal Asynchronous Receiver/Transmitter' @@ -78,13 +84,12 @@ class Decoder(srd.Decoder): license = 'gplv2+' inputs = ['logic'] outputs = ['uart'] - probes = [] - optional_probes = [ + optional_channels = ( # Allow specifying only one of the signals, e.g. if only one data # direction exists (or is relevant). {'id': 'rx', 'name': 'RX', 'desc': 'UART receive line'}, {'id': 'tx', 'name': 'TX', 'desc': 'UART transmit line'}, - ] + ) options = ( {'id': 'baudrate', 'desc': 'Baud rate', 'default': 115200}, {'id': 'num_data_bits', 'desc': 'Data bits', 'default': 8, @@ -99,24 +104,27 @@ class Decoder(srd.Decoder): 'values': ('lsb-first', 'msb-first')}, {'id': 'format', 'desc': 'Data format', 'default': 'ascii', 'values': ('ascii', 'dec', 'hex', 'oct', 'bin')}, - # TODO: Options to invert the signal(s). + {'id': 'invert_rx', 'desc': 'Invert RX?', 'default': 'no', + 'values': ('yes', 'no')}, + {'id': 'invert_tx', 'desc': 'Invert TX?', 'default': 'no', + 'values': ('yes', 'no')}, + ) + annotations = ( + ('rx-data', 'RX data'), + ('tx-data', 'TX data'), + ('rx-start', 'RX start bits'), + ('tx-start', 'TX start bits'), + ('rx-parity-ok', 'RX parity OK bits'), + ('tx-parity-ok', 'TX parity OK bits'), + ('rx-parity-err', 'RX parity error bits'), + ('tx-parity-err', 'TX parity error bits'), + ('rx-stop', 'RX stop bits'), + ('tx-stop', 'TX stop bits'), + ('rx-warnings', 'RX warnings'), + ('tx-warnings', 'TX warnings'), + ('rx-data-bits', 'RX data bits'), + ('tx-data-bits', 'TX data bits'), ) - annotations = [ - ['rx-data', 'RX data'], - ['tx-data', 'TX data'], - ['rx-start', 'RX start bits'], - ['tx-start', 'TX start bits'], - ['rx-parity-ok', 'RX parity OK bits'], - ['tx-parity-ok', 'TX parity OK bits'], - ['rx-parity-err', 'RX parity error bits'], - ['tx-parity-err', 'TX parity error bits'], - ['rx-stop', 'RX stop bits'], - ['tx-stop', 'TX stop bits'], - ['rx-warnings', 'RX warnings'], - ['tx-warnings', 'TX warnings'], - ['rx-data-bits', 'RX data bits'], - ['tx-data-bits', 'TX data bits'], - ] annotation_rows = ( ('rx-data', 'RX', (0, 2, 4, 6, 8)), ('rx-data-bits', 'RX bits', (12,)), @@ -130,50 +138,51 @@ class Decoder(srd.Decoder): ('tx', 'TX dump'), ('rxtx', 'RX/TX dump'), ) + idle_state = ['WAIT FOR START BIT', 'WAIT FOR START BIT'] def putx(self, rxtx, data): - s, halfbit = self.startsample[rxtx], int(self.bit_width / 2) - self.put(s - halfbit, self.samplenum + halfbit, self.out_ann, data) + s, halfbit = self.startsample[rxtx], self.bit_width / 2.0 + self.put(s - floor(halfbit), self.samplenum + ceil(halfbit), self.out_ann, data) def putpx(self, rxtx, data): - s, halfbit = self.startsample[rxtx], int(self.bit_width / 2) - self.put(s - halfbit, self.samplenum + halfbit, self.out_python, data) + s, halfbit = self.startsample[rxtx], self.bit_width / 2.0 + self.put(s - floor(halfbit), self.samplenum + ceil(halfbit), self.out_python, data) def putg(self, data): - s, halfbit = self.samplenum, int(self.bit_width / 2) - self.put(s - halfbit, s + halfbit, self.out_ann, data) + s, halfbit = self.samplenum, self.bit_width / 2.0 + self.put(s - floor(halfbit), s + ceil(halfbit), self.out_ann, data) def putp(self, data): - s, halfbit = self.samplenum, int(self.bit_width / 2) - self.put(s - halfbit, s + halfbit, self.out_python, data) + s, halfbit = self.samplenum, self.bit_width / 2.0 + self.put(s - floor(halfbit), s + ceil(halfbit), self.out_python, data) def putbin(self, rxtx, data): - s, halfbit = self.startsample[rxtx], int(self.bit_width / 2) - self.put(s - halfbit, self.samplenum + halfbit, self.out_bin, data) + s, halfbit = self.startsample[rxtx], self.bit_width / 2.0 + self.put(s - floor(halfbit), self.samplenum + ceil(halfbit), self.out_binary, data) - def __init__(self, **kwargs): + def __init__(self): self.samplerate = None self.samplenum = 0 self.frame_start = [-1, -1] self.startbit = [-1, -1] self.cur_data_bit = [0, 0] - self.databyte = [0, 0] + self.datavalue = [0, 0] self.paritybit = [-1, -1] self.stopbit1 = [-1, -1] self.startsample = [-1, -1] self.state = ['WAIT FOR START BIT', 'WAIT FOR START BIT'] self.oldbit = [1, 1] - self.oldpins = [1, 1] + self.oldpins = [-1, -1] self.databits = [[], []] def start(self): self.out_python = self.register(srd.OUTPUT_PYTHON) - self.out_bin = self.register(srd.OUTPUT_BINARY) + self.out_binary = self.register(srd.OUTPUT_BINARY) self.out_ann = self.register(srd.OUTPUT_ANN) def metadata(self, key, value): if key == srd.SRD_CONF_SAMPLERATE: - self.samplerate = value; + self.samplerate = value # The width of one UART bit in number of samples. self.bit_width = float(self.samplerate) / float(self.options['baudrate']) @@ -182,7 +191,9 @@ class Decoder(srd.Decoder): # bitpos is the samplenumber which is in the middle of the # specified UART bit (0 = start bit, 1..x = data, x+1 = parity bit # (if used) or the first stop bit, and so on). - bitpos = self.frame_start[rxtx] + (self.bit_width / 2.0) + # The samples within bit are 0, 1, ..., (bit_width - 1), therefore + # index of the middle sample within bit window is (bit_width - 1) / 2. + bitpos = self.frame_start[rxtx] + (self.bit_width - 1) / 2.0 bitpos += bitnum * self.bit_width if self.samplenum >= bitpos: return True @@ -215,10 +226,11 @@ class Decoder(srd.Decoder): # The startbit must be 0. If not, we report an error. if self.startbit[rxtx] != 0: self.putp(['INVALID STARTBIT', rxtx, self.startbit[rxtx]]) + self.putg([rxtx + 10, ['Frame error', 'Frame err', 'FE']]) # TODO: Abort? Ignore rest of the frame? self.cur_data_bit[rxtx] = 0 - self.databyte[rxtx] = 0 + self.datavalue[rxtx] = 0 self.startsample[rxtx] = -1 self.state[rxtx] = 'GET DATA BITS' @@ -237,15 +249,12 @@ class Decoder(srd.Decoder): # Get the next data bit in LSB-first or MSB-first fashion. if self.options['bit_order'] == 'lsb-first': - self.databyte[rxtx] >>= 1 - self.databyte[rxtx] |= \ + self.datavalue[rxtx] >>= 1 + self.datavalue[rxtx] |= \ (signal << (self.options['num_data_bits'] - 1)) - elif self.options['bit_order'] == 'msb-first': - self.databyte[rxtx] <<= 1 - self.databyte[rxtx] |= (signal << 0) else: - raise Exception('Invalid bit order value: %s', - self.options['bit_order']) + self.datavalue[rxtx] <<= 1 + self.datavalue[rxtx] |= (signal << 0) self.putg([rxtx + 12, ['%d' % signal]]) @@ -260,10 +269,10 @@ class Decoder(srd.Decoder): self.state[rxtx] = 'GET PARITY BIT' - self.putpx(rxtx, ['DATABITS', rxtx, self.databits[rxtx]]) - self.putpx(rxtx, ['DATA', rxtx, self.databyte[rxtx]]) + self.putpx(rxtx, ['DATA', rxtx, + (self.datavalue[rxtx], self.databits[rxtx])]) - b, f = self.databyte[rxtx], self.options['format'] + b, f = self.datavalue[rxtx], self.options['format'] if f == 'ascii': c = chr(b) if b in range(30, 126 + 1) else '[%02X]' % b self.putx(rxtx, [rxtx, [c]]) @@ -275,13 +284,11 @@ class Decoder(srd.Decoder): self.putx(rxtx, [rxtx, [oct(b)[2:].zfill(3)]]) elif f == 'bin': self.putx(rxtx, [rxtx, [bin(b)[2:].zfill(8)]]) - else: - raise Exception('Invalid data format option: %s' % f) - self.putbin(rxtx, (rxtx, bytes([b]))) - self.putbin(rxtx, (2, bytes([b]))) + self.putbin(rxtx, [rxtx, bytes([b])]) + self.putbin(rxtx, [2, bytes([b])]) - self.databits = [[], []] + self.databits[rxtx] = [] def get_parity_bit(self, rxtx, signal): # If no parity is used/configured, skip to the next state immediately. @@ -298,7 +305,7 @@ class Decoder(srd.Decoder): self.state[rxtx] = 'GET STOP BITS' if parity_ok(self.options['parity_type'], self.paritybit[rxtx], - self.databyte[rxtx], self.options['num_data_bits']): + self.datavalue[rxtx], self.options['num_data_bits']): self.putp(['PARITYBIT', rxtx, self.paritybit[rxtx]]) self.putg([rxtx + 4, ['Parity bit', 'Parity', 'P']]) else: @@ -319,7 +326,7 @@ class Decoder(srd.Decoder): # 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([rxtx + 8, ['Frame error', 'Frame err', 'FE']]) + self.putg([rxtx + 10, ['Frame error', 'Frame err', 'FE']]) # TODO: Abort? Ignore the frame? Other? self.state[rxtx] = 'WAIT FOR START BIT' @@ -328,20 +335,27 @@ class Decoder(srd.Decoder): self.putg([rxtx + 4, ['Stop bit', 'Stop', 'T']]) def decode(self, ss, es, data): - if self.samplerate is None: - raise Exception("Cannot decode without samplerate.") + if not self.samplerate: + raise SamplerateError('Cannot decode without samplerate.') for (self.samplenum, pins) in data: - # Note: Ignoring identical samples here for performance reasons - # is not possible for this PD, at least not in the current state. - # if self.oldpins == pins: - # continue + # We want to skip identical samples for performance reasons but, + # for now, we can only do that when we are in the idle state + # (meaning both channels are waiting for the start bit). + if self.state == self.idle_state and self.oldpins == pins: + continue + self.oldpins, (rx, tx) = pins, pins + if self.options['invert_rx'] == 'yes': + rx = not rx + if self.options['invert_tx'] == 'yes': + tx = not tx + # Either RX or TX (but not both) can be omitted. has_pin = [rx in (0, 1), tx in (0, 1)] if has_pin == [False, False]: - raise Exception('Either TX or RX (or both) pins required.') + raise ChannelError('Either TX or RX (or both) pins required.') # State machine. for rxtx in (RX, TX): @@ -361,9 +375,6 @@ class Decoder(srd.Decoder): self.get_parity_bit(rxtx, signal) elif self.state[rxtx] == 'GET STOP BITS': self.get_stop_bits(rxtx, signal) - else: - raise Exception('Invalid state: %s' % self.state[rxtx]) # Save current RX/TX values for the next round. self.oldbit[rxtx] = signal -