/usr/share/libsigrokdecode/decoders/ps2/pd.py is in libsigrokdecode4 0.5.0-4.
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## This file is part of the libsigrokdecode project.
##
## Copyright (C) 2016 Daniel Schulte <trilader@schroedingers-bit.net>
##
## This program is free software; you can redistribute it and/or modify
## it under the terms of the GNU General Public License as published by
## the Free Software Foundation; either version 2 of the License, or
## (at your option) any later version.
##
## This program is distributed in the hope that it will be useful,
## but WITHOUT ANY WARRANTY; without even the implied warranty of
## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
## GNU General Public License for more details.
##
## You should have received a copy of the GNU General Public License
## along with this program; if not, see <http://www.gnu.org/licenses/>.
##
import sigrokdecode as srd
from collections import namedtuple
class Ann:
BIT, START, STOP, PARITY_OK, PARITY_ERR, DATA, WORD = range(7)
Bit = namedtuple('Bit', 'val ss es')
class Decoder(srd.Decoder):
api_version = 3
id = 'ps2'
name = 'PS/2'
longname = 'PS/2'
desc = 'PS/2 keyboard/mouse interface.'
license = 'gplv2+'
inputs = ['logic']
outputs = ['ps2']
channels = (
{'id': 'clk', 'name': 'Clock', 'desc': 'Clock line'},
{'id': 'data', 'name': 'Data', 'desc': 'Data line'},
)
annotations = (
('bit', 'Bit'),
('start-bit', 'Start bit'),
('stop-bit', 'Stop bit'),
('parity-ok', 'Parity OK bit'),
('parity-err', 'Parity error bit'),
('data-bit', 'Data bit'),
('word', 'Word'),
)
annotation_rows = (
('bits', 'Bits', (0,)),
('fields', 'Fields', (1, 2, 3, 4, 5, 6)),
)
def __init__(self):
self.bits = []
self.samplenum = 0
self.bitcount = 0
def start(self):
self.out_ann = self.register(srd.OUTPUT_ANN)
def putb(self, bit, ann_idx):
b = self.bits[bit]
self.put(b.ss, b.es, self.out_ann, [ann_idx, [str(b.val)]])
def putx(self, bit, ann):
self.put(self.bits[bit].ss, self.bits[bit].es, self.out_ann, ann)
def handle_bits(self, datapin):
# Ignore non start condition bits (useful during keyboard init).
if self.bitcount == 0 and datapin == 1:
return
# Store individual bits and their start/end samplenumbers.
self.bits.append(Bit(datapin, self.samplenum, self.samplenum))
# Fix up end sample numbers of the bits.
if self.bitcount > 0:
b = self.bits[self.bitcount - 1]
self.bits[self.bitcount - 1] = Bit(b.val, b.ss, self.samplenum)
if self.bitcount == 11:
self.bitwidth = self.bits[1].es - self.bits[2].es
b = self.bits[-1]
self.bits[-1] = Bit(b.val, b.ss, b.es + self.bitwidth)
# Find all 11 bits. Start + 8 data + odd parity + stop.
if self.bitcount < 11:
self.bitcount += 1
return
# Extract data word.
word = 0
for i in range(8):
word |= (self.bits[i + 1].val << i)
# Calculate parity.
parity_ok = (bin(word).count('1') + self.bits[9].val) % 2 == 1
# Emit annotations.
for i in range(11):
self.putb(i, Ann.BIT)
self.putx(0, [Ann.START, ['Start bit', 'Start', 'S']])
self.put(self.bits[1].ss, self.bits[8].es, self.out_ann, [Ann.WORD,
['Data: %02x' % word, 'D: %02x' % word, '%02x' % word]])
if parity_ok:
self.putx(9, [Ann.PARITY_OK, ['Parity OK', 'Par OK', 'P']])
else:
self.putx(9, [Ann.PARITY_ERR, ['Parity error', 'Par err', 'PE']])
self.putx(10, [Ann.STOP, ['Stop bit', 'Stop', 'St', 'T']])
self.bits, self.bitcount = [], 0
def decode(self):
while True:
# Sample data bits on falling clock edge.
clock_pin, data_pin = self.wait({0: 'f'})
self.handle_bits(data_pin)
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