diff options
Diffstat (limited to 'decoders/onewire_link/onewire_link.py')
| -rw-r--r-- | decoders/onewire_link/onewire_link.py | 269 |
1 files changed, 0 insertions, 269 deletions
diff --git a/decoders/onewire_link/onewire_link.py b/decoders/onewire_link/onewire_link.py deleted file mode 100644 index c8bda56..0000000 --- a/decoders/onewire_link/onewire_link.py +++ /dev/null @@ -1,269 +0,0 @@ -## -## This file is part of the sigrok project. -## -## Copyright (C) 2012 Iztok Jeras <iztok.jeras@gmail.com> -## -## 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, write to the Free Software -## Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA -## - -# 1-Wire protocol decoder (link layer) - -import sigrokdecode as srd - -class Decoder(srd.Decoder): - api_version = 1 - id = 'onewire_link' - name = '1-Wire link layer' - longname = '1-Wire serial communication bus (link layer)' - desc = 'Bidirectional, half-duplex, asynchronous serial bus.' - license = 'gplv2+' - inputs = ['logic'] - outputs = ['onewire_link'] - probes = [ - {'id': 'owr', 'name': 'OWR', 'desc': '1-Wire signal line'}, - ] - optional_probes = [ - {'id': 'pwr', 'name': 'PWR', 'desc': '1-Wire power supply pin'}, - ] - options = { - 'overdrive': ['Overdrive', 1], - # Time options (specified in number of samplerate periods): - 'cnt_normal_bit': ['Normal mode sample bit time', 0], - 'cnt_normal_slot': ['Normal mode data slot time', 0], - 'cnt_normal_presence': ['Normal mode sample presence time', 0], - 'cnt_normal_reset': ['Normal mode reset time', 0], - 'cnt_overdrive_bit': ['Overdrive mode sample bit time', 0], - 'cnt_overdrive_slot': ['Overdrive mode data slot time', 0], - 'cnt_overdrive_presence': ['Overdrive mode sample presence time', 0], - 'cnt_overdrive_reset': ['Overdrive mode reset time', 0], - } - annotations = [ - ['Text', 'Human-readable text'], - ['Warnings', 'Human-readable warnings'], - ] - - def __init__(self, **kwargs): - self.samplenum = 0 - self.state = 'WAIT FOR FALLING EDGE' - self.present = 0 - self.bit = 0 - self.bit_cnt = 0 - self.command = 0 - self.overdrive = 0 - self.fall = 0 - self.rise = 0 - - def start(self, metadata): - self.out_proto = self.add(srd.OUTPUT_PROTO, 'onewire_link') - self.out_ann = self.add(srd.OUTPUT_ANN, 'onewire_link') - - self.samplerate = metadata['samplerate'] - - # Check if samplerate is appropriate. - if self.options['overdrive']: - if self.samplerate < 2000000: - self.put(0, 0, self.out_ann, [1, - ['ERROR: Sampling rate is too low. Must be above 2MHz ' + - 'for proper overdrive mode decoding.']]) - elif self.samplerate < 5000000: - self.put(0, 0, self.out_ann, [1, - ['WARNING: Sampling rate is suggested to be above 5MHz ' + - 'for proper overdrive mode decoding.']]) - else: - if self.samplerate < 400000: - self.put(0, 0, self.out_ann, [1, - ['ERROR: Sampling rate is too low. Must be above ' + - '400kHz for proper normal mode decoding.']]) - elif (self.samplerate < 1000000): - self.put(0, 0, self.out_ann, [1, - ['WARNING: Sampling rate is suggested to be above ' + - '1MHz for proper normal mode decoding.']]) - - # The default 1-Wire time base is 30us. This is used to calculate - # sampling times. - samplerate = float(self.samplerate) - if self.options['cnt_normal_bit']: - self.cnt_normal_bit = self.options['cnt_normal_bit'] - else: - self.cnt_normal_bit = int(samplerate * 0.000015) - 1 # 15ns - if self.options['cnt_normal_slot']: - self.cnt_normal_slot = self.options['cnt_normal_slot'] - else: - self.cnt_normal_slot = int(samplerate * 0.000060) - 1 # 60ns - if self.options['cnt_normal_presence']: - self.cnt_normal_presence = self.options['cnt_normal_presence'] - else: - self.cnt_normal_presence = int(samplerate * 0.000075) - 1 # 75ns - if self.options['cnt_normal_reset']: - self.cnt_normal_reset = self.options['cnt_normal_reset'] - else: - self.cnt_normal_reset = int(samplerate * 0.000480) - 1 # 480ns - if self.options['cnt_overdrive_bit']: - self.cnt_overdrive_bit = self.options['cnt_overdrive_bit'] - else: - self.cnt_overdrive_bit = int(samplerate * 0.000002) - 1 # 2ns - if self.options['cnt_overdrive_slot']: - self.cnt_overdrive_slot = self.options['cnt_overdrive_slot'] - else: - self.cnt_overdrive_slot = int(samplerate * 0.0000073) - 1 # 6ns+1.3ns - if self.options['cnt_overdrive_presence']: - self.cnt_overdrive_presence = self.options['cnt_overdrive_presence'] - else: - self.cnt_overdrive_presence = int(samplerate * 0.000010) - 1 # 10ns - if self.options['cnt_overdrive_reset']: - self.cnt_overdrive_reset = self.options['cnt_overdrive_reset'] - else: - self.cnt_overdrive_reset = int(samplerate * 0.000048) - 1 # 48ns - - # Organize values into lists. - self.cnt_bit = [self.cnt_normal_bit, self.cnt_overdrive_bit] - self.cnt_presence = [self.cnt_normal_presence, self.cnt_overdrive_presence] - self.cnt_reset = [self.cnt_normal_reset, self.cnt_overdrive_reset] - self.cnt_slot = [self.cnt_normal_slot, self.cnt_overdrive_slot] - - # Check if sample times are in the allowed range. - - time_min = float(self.cnt_normal_bit) / self.samplerate - time_max = float(self.cnt_normal_bit + 1) / self.samplerate - if (time_min < 0.000005) or (time_max > 0.000015): - self.put(0, 0, self.out_ann, [1, - ['WARNING: The normal mode data sample time interval ' + - '(%2.1fus-%2.1fus) should be inside (5.0us, 15.0us).' - % (time_min * 1000000, time_max * 1000000)]]) - - time_min = float(self.cnt_normal_presence) / self.samplerate - time_max = float(self.cnt_normal_presence + 1) / self.samplerate - if (time_min < 0.0000681) or (time_max > 0.000075): - self.put(0, 0, self.out_ann, [1, - ['WARNING: The normal mode presence sample time interval ' + - '(%2.1fus-%2.1fus) should be inside (68.1us, 75.0us).' - % (time_min * 1000000, time_max * 1000000)]]) - - time_min = float(self.cnt_overdrive_bit) / self.samplerate - time_max = float(self.cnt_overdrive_bit + 1) / self.samplerate - if (time_min < 0.000001) or (time_max > 0.000002): - self.put(0, 0, self.out_ann, [1, - ['WARNING: The overdrive mode data sample time interval ' + - '(%2.1fus-%2.1fus) should be inside (1.0us, 2.0us).' - % (time_min * 1000000, time_max * 1000000)]]) - - time_min = float(self.cnt_overdrive_presence) / self.samplerate - time_max = float(self.cnt_overdrive_presence + 1) / self.samplerate - if (time_min < 0.0000073) or (time_max > 0.000010): - self.put(0, 0, self.out_ann, [1, - ['WARNING: The overdrive mode presence sample time interval ' + - '(%2.1fus-%2.1fus) should be inside (7.3us, 10.0us).' - % (time_min*1000000, time_max*1000000)]]) - - def report(self): - pass - - def decode(self, ss, es, data): - for (self.samplenum, (owr, pwr)) in data: - # State machine. - if self.state == 'WAIT FOR FALLING EDGE': - # The start of a cycle is a falling edge. - if owr != 0: - continue - # Save the sample number for the falling edge. - self.fall = self.samplenum - # Go to waiting for sample time. - self.state = 'WAIT FOR DATA SAMPLE' - elif self.state == 'WAIT FOR DATA SAMPLE': - # Sample data bit. - t = self.samplenum - self.fall - if t == self.cnt_bit[self.overdrive]: - self.bit = owr - self.state = 'WAIT FOR DATA SLOT END' - elif self.state == 'WAIT FOR DATA SLOT END': - # A data slot ends in a recovery period, otherwise, this is - # probably a reset. - t = self.samplenum - self.fall - if t != self.cnt_slot[self.overdrive]: - continue - - if owr == 0: - # This seems to be a reset slot, wait for its end. - self.state = 'WAIT FOR RISING EDGE' - continue - - self.put(self.fall, self.samplenum, self.out_ann, - [0, ['Bit: %d' % self.bit]]) - self.put(self.fall, self.samplenum, self.out_proto, - ['BIT', self.bit]) - - # Checking the first command to see if overdrive mode - # should be entered. - if self.bit_cnt <= 8: - self.command |= (self.bit << self.bit_cnt) - elif self.bit_cnt == 8 and self.command in [0x3c, 0x69]: - self.put(self.fall, self.cnt_bit[self.overdrive], - self.out_ann, [0, ['Entering overdrive mode']]) - # Increment the bit counter. - self.bit_cnt += 1 - # Wait for next slot. - self.state = 'WAIT FOR FALLING EDGE' - elif self.state == 'WAIT FOR RISING EDGE': - # The end of a cycle is a rising edge. - if owr != 1: - continue - - # Check if this was a reset cycle. - t = self.samplenum - self.fall - if t > self.cnt_normal_reset: - # Save the sample number for the falling edge. - self.rise = self.samplenum - self.state = 'WAIT FOR PRESENCE DETECT' - # Exit overdrive mode. - if self.overdrive: - self.put(self.fall, self.cnt_bit[self.overdrive], - self.out_ann, [0, ['Exiting overdrive mode']]) - self.overdrive = 0 - # Clear command bit counter and data register. - self.bit_cnt = 0 - self.command = 0 - elif (t > self.cnt_overdrive_reset) and self.overdrive: - # Save the sample number for the falling edge. - self.rise = self.samplenum - self.state = "WAIT FOR PRESENCE DETECT" - # Otherwise this is assumed to be a data bit. - else: - self.state = "WAIT FOR FALLING EDGE" - elif self.state == 'WAIT FOR PRESENCE DETECT': - # Sample presence status. - t = self.samplenum - self.rise - if t == self.cnt_presence[self.overdrive]: - self.present = owr - self.state = 'WAIT FOR RESET SLOT END' - elif self.state == 'WAIT FOR RESET SLOT END': - # A reset slot ends in a long recovery period. - t = self.samplenum - self.rise - if t != self.cnt_reset[self.overdrive]: - continue - - if owr == 0: - # This seems to be a reset slot, wait for its end. - self.state = 'WAIT FOR RISING EDGE' - continue - - self.put(self.fall, self.samplenum, self.out_ann, - [0, ['Reset/presence: %s' - % ('false' if self.present else 'true')]]) - self.put(self.fall, self.samplenum, self.out_proto, - ['RESET/PRESENCE', not self.present]) - # Wait for next slot. - self.state = 'WAIT FOR FALLING EDGE' - else: - raise Exception('Invalid state: %s' % self.state) |