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

##
## This file is part of the libsigrokdecode project.
##
## Copyright (C) 2020 Soeren Apel <soeren@apelpie.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 binascii import crc_hqx

# See tc27xD_um_v2.2.pdf, Table 20-2
# (name, addr byte count, data byte count)
command_codes = {
    0b00000: ('Read byte', 4, 0),
    0b00001: ('Read 2 byte', 4, 0),
    0b00010: ('Read 4 byte', 4, 0),
    # Reserved
    0b00100: ('Write byte with ACK', 4, 4),
    0b00101: ('Write 2 byte with ACK', 4, 4),
    0b00110: ('Write 4 byte with ACK', 4, 4),
    # Reserved
    0b01000: ('ACK', 0, 0),
    0b01001: ('NACK (Target Error)', 0, 0),
    0b01010: ('Read Answer with ACK', 4, 4),
    # Reserved
    0b01100: ('Trigger with ACK', 0, 0),
    # Reserved
    # Reserved
    # Reserved
    # Reserved
    # Reserved
    0b10010: ('Read 4-byte JTAG ID', 0, 0),
    # Reserved
    # Reserved
    # Reserved
    # Reserved
    0b10111: ('Stream 32 byte with ACK', 0, 32)
    # Rest is reserved
}


ann_header_tag, ann_header_cmd, ann_header_ch, ann_address, ann_data, \
    ann_crc, ann_warning = range(7)

class Decoder(srd.Decoder):
    api_version = 3
    id = 'sipi'
    name = 'SIPI (Zipwire)'
    longname = 'NXP SIPI interface'
    desc = 'Serial Inter-Processor Interface (SIPI) aka Zipwire, aka HSSL'
    license = 'gplv2+'
    inputs = ['lfast']
    outputs = []
    tags = ['Embedded/industrial']
    annotations = (
        ('header_tag', 'Transaction Tag'),
        ('header_cmd', 'Command Code'),
        ('header_ch', 'Channel'),
        ('address', 'Address'),
        ('data', 'Data'),
        ('crc', 'CRC'),
        ('warning', 'Warning'),
    )
    annotation_rows = (
        ('fields', 'Fields', (ann_header_tag, ann_header_cmd,
            ann_header_ch, ann_address, ann_data, ann_crc,)),
        ('warnings', 'Warnings', (ann_warning,)),
    )

    def __init__(self):
        self.reset()

    def reset(self):
        self.byte_len = 0
        self.frame_len = 0

    def start(self):
        self.out_ann = self.register(srd.OUTPUT_ANN)
        self.out_binary = self.register(srd.OUTPUT_BINARY)

    def put_ann(self, ss, es, ann_class, value):
        self.put(int(ss), int(es), self.out_ann, [ann_class, value])

    def put_header(self, ss_header, es_header, value):
        ss = ss_header
        es = ss + 3 * self.bit_len
        tag = (value & 0xE000) >> 13
        self.put_ann(ss, es, ann_header_tag, ['{:02X}'.format(tag)])

        ss = es
        es = ss + 5 * self.bit_len
        cmd_id = (value & 0x1F00) >> 8
        cmd_name, self.addr_len, self.data_len = \
            command_codes.get(cmd_id, ('Reserved ({:02X})'.format(cmd_id), 0, 0))
        self.frame_len = 2 + 2 + self.addr_len + self.data_len  # +Header +CRC
        self.put_ann(ss, es, ann_header_cmd, [cmd_name])

        # Bits 4..7 are reserved and should be 0, warn if they're not
        ss = es
        es = ss + 4 * self.bit_len
        reserved_bits = (value & 0x00F0) >> 4
        if reserved_bits > 0:
            self.put_ann(ss, es, ann_warning, ['Reserved bits #4..7 should be 0'])

        ss = es
        es = ss + 3 * self.bit_len
        ch = (value & 0x000E) >> 1  # See tc27xD_um_v2.2.pdf, Table 20-1
        self.put_ann(ss, es, ann_header_ch, [str(ch)])

        # Bit 0 is reserved and should be 0, warn if it's not
        if (value & 0x0001) == 0x0001:
            ss = es
            es = ss + self.bit_len
            self.put_ann(ss, es, ann_warning, ['Reserved bit #0 should be 0'])

    def put_payload(self, data):
        byte_idx = 0
        if self.addr_len > 0:
            for value_tuple in data[:self.addr_len]:
                ss, es, value = value_tuple
                self.put_ann(ss, es, ann_address, ['{:02X}'.format(value)])
            byte_idx = self.addr_len

        if self.data_len > 0:
            for value_tuple in data[byte_idx:]:
                ss, es, value = value_tuple
                self.put_ann(ss, es, ann_data, ['{:02X}'.format(value)])

    def put_crc(self, ss, es, crc_value, crc_payload_data):
        crc_payload = []
        for value_tuple in crc_payload_data:
            crc_payload.append(value_tuple[2])

        calculated_crc = crc_hqx(bytes(crc_payload), 0xFFFF)

        if calculated_crc == crc_value:
            self.put_ann(ss, es, ann_crc, ['CRC OK'])
        else:
            self.put_ann(ss, es, ann_crc, ['Have {:02X} but calculated {:02X}'.format(crc_value, calculated_crc)])
            self.put_ann(ss, es, ann_warning, ['CRC mismatch'])

    def decode(self, ss, es, data):
        if len(data) == 1:
            self.put_ann(ss, es, ann_warning, ['Header too short'])
            return

        # ss and es are now unused, we use them as local variables instead

        self.bit_len = (data[0][1] - data[0][0]) / 8.0

        byte_idx = 0

        ss = data[byte_idx][0]
        es = data[byte_idx + 1][1]
        self.put_header(ss, es, (data[byte_idx][2] << 8) + data[byte_idx + 1][2])
        byte_idx += 2

        payload_len = self.frame_len - 2 - 2  # -Header -CRC
        if payload_len > 0:
            self.put_payload(data[byte_idx:-2])
            byte_idx += payload_len

        ss = data[byte_idx][0]
        es = data[byte_idx + 1][1]
        if byte_idx == len(data) - 2:
            # CRC is calculated over header + payload bytes
            self.put_crc(ss, es, (data[byte_idx][2] << 8) + data[byte_idx + 1][2], data[0:-2])
        else:
            self.put_ann(ss, es, ann_warning, ['CRC incomplete or missing'])
Commit	Line	Data
a9b8f864 SA	1	##
	2	## This file is part of the libsigrokdecode project.
	3	##
	4	## Copyright (C) 2020 Soeren Apel <soeren@apelpie.net>
	5	##
	6	## This program is free software; you can redistribute it and/or modify
	7	## it under the terms of the GNU General Public License as published by
	8	## the Free Software Foundation; either version 2 of the License, or
	9	## (at your option) any later version.
	10	##
	11	## This program is distributed in the hope that it will be useful,
	12	## but WITHOUT ANY WARRANTY; without even the implied warranty of
	13	## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	14	## GNU General Public License for more details.
	15	##
	16	## You should have received a copy of the GNU General Public License
	17	## along with this program; if not, see <http://www.gnu.org/licenses/>.
	18	##
	19
	20	import sigrokdecode as srd
	21	from binascii import crc_hqx
	22
	23	# See tc27xD_um_v2.2.pdf, Table 20-2
	24	# (name, addr byte count, data byte count)
	25	command_codes = {
	26	0b00000: ('Read byte', 4, 0),
	27	0b00001: ('Read 2 byte', 4, 0),
	28	0b00010: ('Read 4 byte', 4, 0),
	29	# Reserved
	30	0b00100: ('Write byte with ACK', 4, 4),
	31	0b00101: ('Write 2 byte with ACK', 4, 4),
	32	0b00110: ('Write 4 byte with ACK', 4, 4),
	33	# Reserved
	34	0b01000: ('ACK', 0, 0),
	35	0b01001: ('NACK (Target Error)', 0, 0),
	36	0b01010: ('Read Answer with ACK', 4, 4),
	37	# Reserved
	38	0b01100: ('Trigger with ACK', 0, 0),
	39	# Reserved
	40	# Reserved
	41	# Reserved
	42	# Reserved
	43	# Reserved
	44	0b10010: ('Read 4-byte JTAG ID', 0, 0),
	45	# Reserved
	46	# Reserved
	47	# Reserved
	48	# Reserved
	49	0b10111: ('Stream 32 byte with ACK', 0, 32)
	50	# Rest is reserved
	51	}
	52
	53
a9b8f864 SA	54	ann_header_tag, ann_header_cmd, ann_header_ch, ann_address, ann_data, \
	55	ann_crc, ann_warning = range(7)
	56
	57	class Decoder(srd.Decoder):
	58	api_version = 3
	59	id = 'sipi'
b3a0347a	60	name = 'SIPI (Zipwire)'
a9b8f864	61	longname = 'NXP SIPI interface'
b3a0347a	62	desc = 'Serial Inter-Processor Interface (SIPI) aka Zipwire, aka HSSL'
a9b8f864 SA	63	license = 'gplv2+'
	64	inputs = ['lfast']
	65	outputs = []
	66	tags = ['Embedded/industrial']
	67	annotations = (
	68	('header_tag', 'Transaction Tag'),
	69	('header_cmd', 'Command Code'),
	70	('header_ch', 'Channel'),
	71	('address', 'Address'),
	72	('data', 'Data'),
	73	('crc', 'CRC'),
	74	('warning', 'Warning'),
	75	)
	76	annotation_rows = (
	77	('fields', 'Fields', (ann_header_tag, ann_header_cmd,
	78	ann_header_ch, ann_address, ann_data, ann_crc,)),
	79	('warnings', 'Warnings', (ann_warning,)),
	80	)
	81
	82	def __init__(self):
	83	self.reset()
	84
	85	def reset(self):
	86	self.byte_len = 0
	87	self.frame_len = 0
	88
	89	def start(self):
	90	self.out_ann = self.register(srd.OUTPUT_ANN)
	91	self.out_binary = self.register(srd.OUTPUT_BINARY)
	92
	93	def put_ann(self, ss, es, ann_class, value):
	94	self.put(int(ss), int(es), self.out_ann, [ann_class, value])
	95
	96	def put_header(self, ss_header, es_header, value):
	97	ss = ss_header
	98	es = ss + 3 * self.bit_len
	99	tag = (value & 0xE000) >> 13
	100	self.put_ann(ss, es, ann_header_tag, ['{:02X}'.format(tag)])
	101
	102	ss = es
	103	es = ss + 5 * self.bit_len
	104	cmd_id = (value & 0x1F00) >> 8
	105	cmd_name, self.addr_len, self.data_len = \
	106	command_codes.get(cmd_id, ('Reserved ({:02X})'.format(cmd_id), 0, 0))
	107	self.frame_len = 2 + 2 + self.addr_len + self.data_len # +Header +CRC
	108	self.put_ann(ss, es, ann_header_cmd, [cmd_name])
	109
	110	# Bits 4..7 are reserved and should be 0, warn if they're not
	111	ss = es
	112	es = ss + 4 * self.bit_len
	113	reserved_bits = (value & 0x00F0) >> 4
	114	if reserved_bits > 0:
	115	self.put_ann(ss, es, ann_warning, ['Reserved bits #4..7 should be 0'])
	116
	117	ss = es
	118	es = ss + 3 * self.bit_len
	119	ch = (value & 0x000E) >> 1 # See tc27xD_um_v2.2.pdf, Table 20-1
	120	self.put_ann(ss, es, ann_header_ch, [str(ch)])
	121
	122	# Bit 0 is reserved and should be 0, warn if it's not
	123	if (value & 0x0001) == 0x0001:
	124	ss = es
	125	es = ss + self.bit_len
	126	self.put_ann(ss, es, ann_warning, ['Reserved bit #0 should be 0'])
127
128	def put_payload(self, data):
129	byte_idx = 0
130	if self.addr_len > 0:
131	for value_tuple in data[:self.addr_len]:
132	ss, es, value = value_tuple
133	self.put_ann(ss, es, ann_address, ['{:02X}'.format(value)])
134	byte_idx = self.addr_len
135
136	if self.data_len > 0:
137	for value_tuple in data[byte_idx:]:
138	ss, es, value = value_tuple
139	self.put_ann(ss, es, ann_data, ['{:02X}'.format(value)])
140
141	def put_crc(self, ss, es, crc_value, crc_payload_data):
142	crc_payload = []
143	for value_tuple in crc_payload_data:
144	crc_payload.append(value_tuple[2])
145
146	calculated_crc = crc_hqx(bytes(crc_payload), 0xFFFF)
147
148	if calculated_crc == crc_value:
149	self.put_ann(ss, es, ann_crc, ['CRC OK'])
150	else:
151	self.put_ann(ss, es, ann_crc, ['Have {:02X} but calculated {:02X}'.format(crc_value, calculated_crc)])
152	self.put_ann(ss, es, ann_warning, ['CRC mismatch'])
153
154	def decode(self, ss, es, data):
155	if len(data) == 1:
156	self.put_ann(ss, es, ann_warning, ['Header too short'])
157	return
158
159	# ss and es are now unused, we use them as local variables instead
160
161	self.bit_len = (data[0][1] - data[0][0]) / 8.0
162
163	byte_idx = 0
164
165	ss = data[byte_idx][0]
166	es = data[byte_idx + 1][1]
167	self.put_header(ss, es, (data[byte_idx][2] << 8) + data[byte_idx + 1][2])
168	byte_idx += 2
169
170	payload_len = self.frame_len - 2 - 2 # -Header -CRC
171	if payload_len > 0:
172	self.put_payload(data[byte_idx:-2])
173	byte_idx += payload_len
174
175	ss = data[byte_idx][0]
176	es = data[byte_idx + 1][1]
177	if byte_idx == len(data) - 2:
178	# CRC is calculated over header + payload bytes
179	self.put_crc(ss, es, (data[byte_idx][2] << 8) + data[byte_idx + 1][2], data[0:-2])
180	else:
181	self.put_ann(ss, es, ann_warning, ['CRC incomplete or missing'])