[libsigrokdecode.git] / decoders / spi / pd.py

##
## This file is part of the libsigrokdecode project.
##
## Copyright (C) 2011 Gareth McMullin <gareth@blacksphere.co.nz>
## Copyright (C) 2012-2014 Uwe Hermann <uwe@hermann-uwe.de>
##
## 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

Data = namedtuple('Data', ['ss', 'es', 'val'])

'''
OUTPUT_PYTHON format:

Packet:
[<ptype>, <data1>, <data2>]

<ptype>:
 - 'DATA': <data1> contains the MOSI data, <data2> contains the MISO data.
   The data is _usually_ 8 bits (but can also be fewer or more bits).
   Both data items are Python numbers (not strings), or None if the respective
   channel was not supplied.
 - 'BITS': <data1>/<data2> contain a list of bit values in this MOSI/MISO data
   item, and for each of those also their respective start-/endsample numbers.
 - 'CS-CHANGE': <data1> is the old CS# pin value, <data2> is the new value.
   Both data items are Python numbers (0/1), not strings. At the beginning of
   the decoding a packet is generated with <data1> = None and <data2> being the
   initial state of the CS# pin or None if the chip select pin is not supplied.
 - 'TRANSFER': <data1>/<data2> contain a list of Data() namedtuples for each
   byte transferred during this block of CS# asserted time. Each Data() has
   fields ss, es, and val.

Examples:
 ['CS-CHANGE', None, 1]
 ['CS-CHANGE', 1, 0]
 ['DATA', 0xff, 0x3a]
 ['BITS', [[1, 80, 82], [1, 83, 84], [1, 85, 86], [1, 87, 88],
           [1, 89, 90], [1, 91, 92], [1, 93, 94], [1, 95, 96]],
          [[0, 80, 82], [1, 83, 84], [0, 85, 86], [1, 87, 88],
           [1, 89, 90], [1, 91, 92], [0, 93, 94], [0, 95, 96]]]
 ['DATA', 0x65, 0x00]
 ['DATA', 0xa8, None]
 ['DATA', None, 0x55]
 ['CS-CHANGE', 0, 1]
 ['TRANSFER', [Data(ss=80, es=96, val=0xff), ...],
              [Data(ss=80, es=96, val=0x3a), ...]]
'''

# Key: (CPOL, CPHA). Value: SPI mode.
# Clock polarity (CPOL) = 0/1: Clock is low/high when inactive.
# Clock phase (CPHA) = 0/1: Data is valid on the leading/trailing clock edge.
spi_mode = {
    (0, 0): 0, # Mode 0
    (0, 1): 1, # Mode 1
    (1, 0): 2, # Mode 2
    (1, 1): 3, # Mode 3
}

class ChannelError(Exception):
    pass

class Decoder(srd.Decoder):
    api_version = 3
    id = 'spi'
    name = 'SPI'
    longname = 'Serial Peripheral Interface'
    desc = 'Full-duplex, synchronous, serial bus.'
    license = 'gplv2+'
    inputs = ['logic']
    outputs = ['spi']
    channels = (
        {'id': 'clk', 'name': 'CLK', 'desc': 'Clock'},
    )
    optional_channels = (
        {'id': 'miso', 'name': 'MISO', 'desc': 'Master in, slave out'},
        {'id': 'mosi', 'name': 'MOSI', 'desc': 'Master out, slave in'},
        {'id': 'cs', 'name': 'CS#', 'desc': 'Chip-select'},
    )
    options = (
        {'id': 'cs_polarity', 'desc': 'CS# polarity', 'default': 'active-low',
            'values': ('active-low', 'active-high')},
        {'id': 'cpol', 'desc': 'Clock polarity', 'default': 0,
            'values': (0, 1)},
        {'id': 'cpha', 'desc': 'Clock phase', 'default': 0,
            'values': (0, 1)},
        {'id': 'bitorder', 'desc': 'Bit order',
            'default': 'msb-first', 'values': ('msb-first', 'lsb-first')},
        {'id': 'wordsize', 'desc': 'Word size', 'default': 8},
    )
    annotations = (
        ('miso-data', 'MISO data'),
        ('mosi-data', 'MOSI data'),
        ('miso-bits', 'MISO bits'),
        ('mosi-bits', 'MOSI bits'),
        ('warnings', 'Human-readable warnings'),
    )
    annotation_rows = (
        ('miso-data', 'MISO data', (0,)),
        ('miso-bits', 'MISO bits', (2,)),
        ('mosi-data', 'MOSI data', (1,)),
        ('mosi-bits', 'MOSI bits', (3,)),
        ('other', 'Other', (4,)),
    )
    binary = (
        ('miso', 'MISO'),
        ('mosi', 'MOSI'),
    )

    def __init__(self):
        self.reset()

    def reset(self):
        self.samplerate = None
        self.bitcount = 0
        self.misodata = self.mosidata = 0
        self.misobits = []
        self.mosibits = []
        self.misobytes = []
        self.mosibytes = []
        self.ss_block = -1
        self.samplenum = -1
        self.ss_transfer = -1
        self.cs_was_deasserted = False
        self.have_cs = self.have_miso = self.have_mosi = None

    def start(self):
        self.out_python = self.register(srd.OUTPUT_PYTHON)
        self.out_ann = self.register(srd.OUTPUT_ANN)
        self.out_binary = self.register(srd.OUTPUT_BINARY)
        self.out_bitrate = self.register(srd.OUTPUT_META,
                meta=(int, 'Bitrate', 'Bitrate during transfers'))
        self.bw = (self.options['wordsize'] + 7) // 8

    def metadata(self, key, value):
       if key == srd.SRD_CONF_SAMPLERATE:
            self.samplerate = value

    def putw(self, data):
        self.put(self.ss_block, self.samplenum, self.out_ann, data)

    def putdata(self):
        # Pass MISO and MOSI bits and then data to the next PD up the stack.
        so = self.misodata if self.have_miso else None
        si = self.mosidata if self.have_mosi else None
        so_bits = self.misobits if self.have_miso else None
        si_bits = self.mosibits if self.have_mosi else None

        if self.have_miso:
            ss, es = self.misobits[-1][1], self.misobits[0][2]
            bdata = so.to_bytes(self.bw, byteorder='big')
            self.put(ss, es, self.out_binary, [0, bdata])
        if self.have_mosi:
            ss, es = self.mosibits[-1][1], self.mosibits[0][2]
            bdata = si.to_bytes(self.bw, byteorder='big')
            self.put(ss, es, self.out_binary, [1, bdata])

        self.put(ss, es, self.out_python, ['BITS', si_bits, so_bits])
        self.put(ss, es, self.out_python, ['DATA', si, so])

        if self.have_miso:
            self.misobytes.append(Data(ss=ss, es=es, val=so))
        if self.have_mosi:
            self.mosibytes.append(Data(ss=ss, es=es, val=si))

        # Bit annotations.
        if self.have_miso:
            for bit in self.misobits:
                self.put(bit[1], bit[2], self.out_ann, [2, ['%d' % bit[0]]])
        if self.have_mosi:
            for bit in self.mosibits:
                self.put(bit[1], bit[2], self.out_ann, [3, ['%d' % bit[0]]])

        # Dataword annotations.
        if self.have_miso:
            self.put(ss, es, self.out_ann, [0, ['%02X' % self.misodata]])
        if self.have_mosi:
            self.put(ss, es, self.out_ann, [1, ['%02X' % self.mosidata]])

    def reset_decoder_state(self):
        self.misodata = 0 if self.have_miso else None
        self.mosidata = 0 if self.have_mosi else None
        self.misobits = [] if self.have_miso else None
        self.mosibits = [] if self.have_mosi else None
        self.bitcount = 0

    def cs_asserted(self, cs):
        active_low = (self.options['cs_polarity'] == 'active-low')
        return (cs == 0) if active_low else (cs == 1)

    def handle_bit(self, miso, mosi, clk, cs):
        # If this is the first bit of a dataword, save its sample number.
        if self.bitcount == 0:
            self.ss_block = self.samplenum
            self.cs_was_deasserted = \
                not self.cs_asserted(cs) if self.have_cs else False

        ws = self.options['wordsize']
        bo = self.options['bitorder']

        # Receive MISO bit into our shift register.
        if self.have_miso:
            if bo == 'msb-first':
                self.misodata |= miso << (ws - 1 - self.bitcount)
            else:
                self.misodata |= miso << self.bitcount

        # Receive MOSI bit into our shift register.
        if self.have_mosi:
            if bo == 'msb-first':
                self.mosidata |= mosi << (ws - 1 - self.bitcount)
            else:
                self.mosidata |= mosi << self.bitcount

        # Guesstimate the endsample for this bit (can be overridden below).
        es = self.samplenum
        if self.bitcount > 0:
            if self.have_miso:
                es += self.samplenum - self.misobits[0][1]
            elif self.have_mosi:
                es += self.samplenum - self.mosibits[0][1]

        if self.have_miso:
            self.misobits.insert(0, [miso, self.samplenum, es])
        if self.have_mosi:
            self.mosibits.insert(0, [mosi, self.samplenum, es])

        if self.bitcount > 0 and self.have_miso:
            self.misobits[1][2] = self.samplenum
        if self.bitcount > 0 and self.have_mosi:
            self.mosibits[1][2] = self.samplenum

        self.bitcount += 1

        # Continue to receive if not enough bits were received, yet.
        if self.bitcount != ws:
            return

        self.putdata()

        # Meta bitrate.
        if self.samplerate:
            elapsed = 1 / float(self.samplerate)
            elapsed *= (self.samplenum - self.ss_block + 1)
            bitrate = int(1 / elapsed * ws)
            self.put(self.ss_block, self.samplenum, self.out_bitrate, bitrate)

        if self.have_cs and self.cs_was_deasserted:
            self.putw([4, ['CS# was deasserted during this data word!']])

        self.reset_decoder_state()

    def find_clk_edge(self, miso, mosi, clk, cs, first):
        if self.have_cs and (first or self.matched[self.have_cs]):
            # Send all CS# pin value changes.
            oldcs = None if first else 1 - cs
            self.put(self.samplenum, self.samplenum, self.out_python,
                     ['CS-CHANGE', oldcs, cs])

            if self.cs_asserted(cs):
                self.ss_transfer = self.samplenum
                self.misobytes = []
                self.mosibytes = []
            else:
                self.put(self.ss_transfer, self.samplenum, self.out_python,
                    ['TRANSFER', self.mosibytes, self.misobytes])

            # Reset decoder state when CS# changes (and the CS# pin is used).
            self.reset_decoder_state()

        # We only care about samples if CS# is asserted.
        if self.have_cs and not self.cs_asserted(cs):
            return

        # Ignore sample if the clock pin hasn't changed.
        if first or not self.matched[0]:
            return

        # Sample data on rising/falling clock edge (depends on mode).
        mode = spi_mode[self.options['cpol'], self.options['cpha']]
        if mode == 0 and clk == 0:   # Sample on rising clock edge
            return
        elif mode == 1 and clk == 1: # Sample on falling clock edge
            return
        elif mode == 2 and clk == 1: # Sample on falling clock edge
            return
        elif mode == 3 and clk == 0: # Sample on rising clock edge
            return

        # Found the correct clock edge, now get the SPI bit(s).
        self.handle_bit(miso, mosi, clk, cs)

    def decode(self):
        # The CLK input is mandatory. Other signals are (individually)
        # optional. Yet either MISO or MOSI (or both) must be provided.
        # Tell stacked decoders when we don't have a CS# signal.
        if not self.has_channel(0):
            raise ChannelError('Either MISO or MOSI (or both) pins required.')
        self.have_miso = self.has_channel(1)
        self.have_mosi = self.has_channel(2)
        if not self.have_miso and not self.have_mosi:
            raise ChannelError('Either MISO or MOSI (or both) pins required.')
        self.have_cs = self.has_channel(3)
        if not self.have_cs:
            self.put(0, 0, self.out_python, ['CS-CHANGE', None, None])

        # We want all CLK changes. We want all CS changes if CS is used.
        # Map 'have_cs' from boolean to an integer index. This simplifies
        # evaluation in other locations.
        wait_cond = [{0: 'e'}]
        if self.have_cs:
            self.have_cs = len(wait_cond)
            wait_cond.append({3: 'e'})

        # "Pixel compatibility" with the v2 implementation. Grab and
        # process the very first sample before checking for edges. The
        # previous implementation did this by seeding old values with
        # None, which led to an immediate "change" in comparison.
        (clk, miso, mosi, cs) = self.wait({})
        self.find_clk_edge(miso, mosi, clk, cs, True)

        while True:
            (clk, miso, mosi, cs) = self.wait(wait_cond)
            self.find_clk_edge(miso, mosi, clk, cs, False)
Commit	Line	Data
	1	##
	2	## This file is part of the libsigrokdecode project.
	3	##
	4	## Copyright (C) 2011 Gareth McMullin <gareth@blacksphere.co.nz>
	5	## Copyright (C) 2012-2014 Uwe Hermann <uwe@hermann-uwe.de>
	6	##
	7	## This program is free software; you can redistribute it and/or modify
	8	## it under the terms of the GNU General Public License as published by
	9	## the Free Software Foundation; either version 2 of the License, or
	10	## (at your option) any later version.
	11	##
	12	## This program is distributed in the hope that it will be useful,
	13	## but WITHOUT ANY WARRANTY; without even the implied warranty of
	14	## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	15	## GNU General Public License for more details.
	16	##
	17	## You should have received a copy of the GNU General Public License
	18	## along with this program; if not, see <http://www.gnu.org/licenses/>.
	19	##
	20
	21	import sigrokdecode as srd
	22	from collections import namedtuple
	23
	24	Data = namedtuple('Data', ['ss', 'es', 'val'])
	25
	26	'''
	27	OUTPUT_PYTHON format:
	28
	29	Packet:
	30	[<ptype>, <data1>, <data2>]
	31
	32	<ptype>:
	33	- 'DATA': <data1> contains the MOSI data, <data2> contains the MISO data.
	34	The data is _usually_ 8 bits (but can also be fewer or more bits).
	35	Both data items are Python numbers (not strings), or None if the respective
	36	channel was not supplied.
	37	- 'BITS': <data1>/<data2> contain a list of bit values in this MOSI/MISO data
	38	item, and for each of those also their respective start-/endsample numbers.
	39	- 'CS-CHANGE': <data1> is the old CS# pin value, <data2> is the new value.
	40	Both data items are Python numbers (0/1), not strings. At the beginning of
	41	the decoding a packet is generated with <data1> = None and <data2> being the
	42	initial state of the CS# pin or None if the chip select pin is not supplied.
	43	- 'TRANSFER': <data1>/<data2> contain a list of Data() namedtuples for each
	44	byte transferred during this block of CS# asserted time. Each Data() has
	45	fields ss, es, and val.
	46
	47	Examples:
	48	['CS-CHANGE', None, 1]
	49	['CS-CHANGE', 1, 0]
	50	['DATA', 0xff, 0x3a]
	51	['BITS', [[1, 80, 82], [1, 83, 84], [1, 85, 86], [1, 87, 88],
	52	[1, 89, 90], [1, 91, 92], [1, 93, 94], [1, 95, 96]],
	53	[[0, 80, 82], [1, 83, 84], [0, 85, 86], [1, 87, 88],
	54	[1, 89, 90], [1, 91, 92], [0, 93, 94], [0, 95, 96]]]
	55	['DATA', 0x65, 0x00]
	56	['DATA', 0xa8, None]
	57	['DATA', None, 0x55]
	58	['CS-CHANGE', 0, 1]
	59	['TRANSFER', [Data(ss=80, es=96, val=0xff), ...],
	60	[Data(ss=80, es=96, val=0x3a), ...]]
	61	'''
	62
	63	# Key: (CPOL, CPHA). Value: SPI mode.
	64	# Clock polarity (CPOL) = 0/1: Clock is low/high when inactive.
	65	# Clock phase (CPHA) = 0/1: Data is valid on the leading/trailing clock edge.
	66	spi_mode = {
	67	(0, 0): 0, # Mode 0
	68	(0, 1): 1, # Mode 1
	69	(1, 0): 2, # Mode 2
	70	(1, 1): 3, # Mode 3
	71	}
	72
	73	class ChannelError(Exception):
	74	pass
	75
	76	class Decoder(srd.Decoder):
	77	api_version = 3
	78	id = 'spi'
	79	name = 'SPI'
	80	longname = 'Serial Peripheral Interface'
	81	desc = 'Full-duplex, synchronous, serial bus.'
	82	license = 'gplv2+'
	83	inputs = ['logic']
	84	outputs = ['spi']
	85	channels = (
	86	{'id': 'clk', 'name': 'CLK', 'desc': 'Clock'},
	87	)
	88	optional_channels = (
	89	{'id': 'miso', 'name': 'MISO', 'desc': 'Master in, slave out'},
	90	{'id': 'mosi', 'name': 'MOSI', 'desc': 'Master out, slave in'},
	91	{'id': 'cs', 'name': 'CS#', 'desc': 'Chip-select'},
	92	)
	93	options = (
	94	{'id': 'cs_polarity', 'desc': 'CS# polarity', 'default': 'active-low',
	95	'values': ('active-low', 'active-high')},
	96	{'id': 'cpol', 'desc': 'Clock polarity', 'default': 0,
	97	'values': (0, 1)},
	98	{'id': 'cpha', 'desc': 'Clock phase', 'default': 0,
	99	'values': (0, 1)},
	100	{'id': 'bitorder', 'desc': 'Bit order',
	101	'default': 'msb-first', 'values': ('msb-first', 'lsb-first')},
	102	{'id': 'wordsize', 'desc': 'Word size', 'default': 8},
	103	)
	104	annotations = (
	105	('miso-data', 'MISO data'),
	106	('mosi-data', 'MOSI data'),
	107	('miso-bits', 'MISO bits'),
	108	('mosi-bits', 'MOSI bits'),
	109	('warnings', 'Human-readable warnings'),
	110	)
	111	annotation_rows = (
	112	('miso-data', 'MISO data', (0,)),
	113	('miso-bits', 'MISO bits', (2,)),
	114	('mosi-data', 'MOSI data', (1,)),
	115	('mosi-bits', 'MOSI bits', (3,)),
	116	('other', 'Other', (4,)),
	117	)
	118	binary = (
	119	('miso', 'MISO'),
	120	('mosi', 'MOSI'),
	121	)
	122
	123	def __init__(self):
	124	self.reset()
	125
	126	def reset(self):
	127	self.samplerate = None
	128	self.bitcount = 0
	129	self.misodata = self.mosidata = 0
	130	self.misobits = []
	131	self.mosibits = []
	132	self.misobytes = []
	133	self.mosibytes = []
	134	self.ss_block = -1
	135	self.samplenum = -1
	136	self.ss_transfer = -1
	137	self.cs_was_deasserted = False
	138	self.have_cs = self.have_miso = self.have_mosi = None
	139
	140	def start(self):
	141	self.out_python = self.register(srd.OUTPUT_PYTHON)
	142	self.out_ann = self.register(srd.OUTPUT_ANN)
	143	self.out_binary = self.register(srd.OUTPUT_BINARY)
	144	self.out_bitrate = self.register(srd.OUTPUT_META,
	145	meta=(int, 'Bitrate', 'Bitrate during transfers'))
	146	self.bw = (self.options['wordsize'] + 7) // 8
	147
	148	def metadata(self, key, value):
	149	if key == srd.SRD_CONF_SAMPLERATE:
	150	self.samplerate = value
	151
	152	def putw(self, data):
	153	self.put(self.ss_block, self.samplenum, self.out_ann, data)
	154
	155	def putdata(self):
	156	# Pass MISO and MOSI bits and then data to the next PD up the stack.
	157	so = self.misodata if self.have_miso else None
	158	si = self.mosidata if self.have_mosi else None
	159	so_bits = self.misobits if self.have_miso else None
	160	si_bits = self.mosibits if self.have_mosi else None
	161
	162	if self.have_miso:
	163	ss, es = self.misobits[-1][1], self.misobits[0][2]
	164	bdata = so.to_bytes(self.bw, byteorder='big')
	165	self.put(ss, es, self.out_binary, [0, bdata])
	166	if self.have_mosi:
	167	ss, es = self.mosibits[-1][1], self.mosibits[0][2]
	168	bdata = si.to_bytes(self.bw, byteorder='big')
	169	self.put(ss, es, self.out_binary, [1, bdata])
	170
	171	self.put(ss, es, self.out_python, ['BITS', si_bits, so_bits])
	172	self.put(ss, es, self.out_python, ['DATA', si, so])
	173
	174	if self.have_miso:
	175	self.misobytes.append(Data(ss=ss, es=es, val=so))
	176	if self.have_mosi:
	177	self.mosibytes.append(Data(ss=ss, es=es, val=si))
	178
	179	# Bit annotations.
	180	if self.have_miso:
	181	for bit in self.misobits:
	182	self.put(bit[1], bit[2], self.out_ann, [2, ['%d' % bit[0]]])
	183	if self.have_mosi:
	184	for bit in self.mosibits:
	185	self.put(bit[1], bit[2], self.out_ann, [3, ['%d' % bit[0]]])
	186
	187	# Dataword annotations.
	188	if self.have_miso:
	189	self.put(ss, es, self.out_ann, [0, ['%02X' % self.misodata]])
	190	if self.have_mosi:
	191	self.put(ss, es, self.out_ann, [1, ['%02X' % self.mosidata]])
	192
	193	def reset_decoder_state(self):
	194	self.misodata = 0 if self.have_miso else None
	195	self.mosidata = 0 if self.have_mosi else None
	196	self.misobits = [] if self.have_miso else None
	197	self.mosibits = [] if self.have_mosi else None
	198	self.bitcount = 0
	199
	200	def cs_asserted(self, cs):
	201	active_low = (self.options['cs_polarity'] == 'active-low')
	202	return (cs == 0) if active_low else (cs == 1)
	203
	204	def handle_bit(self, miso, mosi, clk, cs):
	205	# If this is the first bit of a dataword, save its sample number.
	206	if self.bitcount == 0:
	207	self.ss_block = self.samplenum
	208	self.cs_was_deasserted = \
	209	not self.cs_asserted(cs) if self.have_cs else False
	210
	211	ws = self.options['wordsize']
	212	bo = self.options['bitorder']
	213
	214	# Receive MISO bit into our shift register.
	215	if self.have_miso:
	216	if bo == 'msb-first':
	217	self.misodata \|= miso << (ws - 1 - self.bitcount)
	218	else:
	219	self.misodata \|= miso << self.bitcount
	220
	221	# Receive MOSI bit into our shift register.
	222	if self.have_mosi:
	223	if bo == 'msb-first':
	224	self.mosidata \|= mosi << (ws - 1 - self.bitcount)
	225	else:
	226	self.mosidata \|= mosi << self.bitcount
	227
	228	# Guesstimate the endsample for this bit (can be overridden below).
	229	es = self.samplenum
	230	if self.bitcount > 0:
	231	if self.have_miso:
	232	es += self.samplenum - self.misobits[0][1]
	233	elif self.have_mosi:
	234	es += self.samplenum - self.mosibits[0][1]
	235
	236	if self.have_miso:
	237	self.misobits.insert(0, [miso, self.samplenum, es])
	238	if self.have_mosi:
	239	self.mosibits.insert(0, [mosi, self.samplenum, es])
	240
	241	if self.bitcount > 0 and self.have_miso:
	242	self.misobits[1][2] = self.samplenum
	243	if self.bitcount > 0 and self.have_mosi:
	244	self.mosibits[1][2] = self.samplenum
	245
	246	self.bitcount += 1
	247
	248	# Continue to receive if not enough bits were received, yet.
	249	if self.bitcount != ws:
	250	return
	251
	252	self.putdata()
	253
	254	# Meta bitrate.
	255	if self.samplerate:
	256	elapsed = 1 / float(self.samplerate)
	257	elapsed *= (self.samplenum - self.ss_block + 1)
	258	bitrate = int(1 / elapsed * ws)
	259	self.put(self.ss_block, self.samplenum, self.out_bitrate, bitrate)
	260
	261	if self.have_cs and self.cs_was_deasserted:
	262	self.putw([4, ['CS# was deasserted during this data word!']])
	263
	264	self.reset_decoder_state()
	265
	266	def find_clk_edge(self, miso, mosi, clk, cs, first):
	267	if self.have_cs and (first or self.matched[self.have_cs]):
	268	# Send all CS# pin value changes.
	269	oldcs = None if first else 1 - cs
	270	self.put(self.samplenum, self.samplenum, self.out_python,
	271	['CS-CHANGE', oldcs, cs])
	272
	273	if self.cs_asserted(cs):
	274	self.ss_transfer = self.samplenum
	275	self.misobytes = []
	276	self.mosibytes = []
	277	else:
	278	self.put(self.ss_transfer, self.samplenum, self.out_python,
	279	['TRANSFER', self.mosibytes, self.misobytes])
	280
	281	# Reset decoder state when CS# changes (and the CS# pin is used).
	282	self.reset_decoder_state()
	283
	284	# We only care about samples if CS# is asserted.
	285	if self.have_cs and not self.cs_asserted(cs):
	286	return
	287
	288	# Ignore sample if the clock pin hasn't changed.
	289	if first or not self.matched[0]:
	290	return
	291
	292	# Sample data on rising/falling clock edge (depends on mode).
	293	mode = spi_mode[self.options['cpol'], self.options['cpha']]
	294	if mode == 0 and clk == 0: # Sample on rising clock edge
	295	return
	296	elif mode == 1 and clk == 1: # Sample on falling clock edge
	297	return
	298	elif mode == 2 and clk == 1: # Sample on falling clock edge
	299	return
	300	elif mode == 3 and clk == 0: # Sample on rising clock edge
	301	return
	302
	303	# Found the correct clock edge, now get the SPI bit(s).
	304	self.handle_bit(miso, mosi, clk, cs)
	305
	306	def decode(self):
	307	# The CLK input is mandatory. Other signals are (individually)
	308	# optional. Yet either MISO or MOSI (or both) must be provided.
	309	# Tell stacked decoders when we don't have a CS# signal.
	310	if not self.has_channel(0):
	311	raise ChannelError('Either MISO or MOSI (or both) pins required.')
	312	self.have_miso = self.has_channel(1)
	313	self.have_mosi = self.has_channel(2)
	314	if not self.have_miso and not self.have_mosi:
	315	raise ChannelError('Either MISO or MOSI (or both) pins required.')
	316	self.have_cs = self.has_channel(3)
	317	if not self.have_cs:
	318	self.put(0, 0, self.out_python, ['CS-CHANGE', None, None])
	319
	320	# We want all CLK changes. We want all CS changes if CS is used.
	321	# Map 'have_cs' from boolean to an integer index. This simplifies
	322	# evaluation in other locations.
	323	wait_cond = [{0: 'e'}]
	324	if self.have_cs:
	325	self.have_cs = len(wait_cond)
	326	wait_cond.append({3: 'e'})
	327
	328	# "Pixel compatibility" with the v2 implementation. Grab and
	329	# process the very first sample before checking for edges. The
	330	# previous implementation did this by seeding old values with
	331	# None, which led to an immediate "change" in comparison.
	332	(clk, miso, mosi, cs) = self.wait({})
	333	self.find_clk_edge(miso, mosi, clk, cs, True)
	334
	335	while True:
	336	(clk, miso, mosi, cs) = self.wait(wait_cond)
	337	self.find_clk_edge(miso, mosi, clk, cs, False)