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702fa251 | 1 | ## |
50bd5d25 | 2 | ## This file is part of the libsigrokdecode project. |
702fa251 | 3 | ## |
e20f455c | 4 | ## Copyright (C) 2012-2013 Uwe Hermann <uwe@hermann-uwe.de> |
702fa251 UH |
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 | |
4539e9ca | 17 | ## along with this program; if not, see <http://www.gnu.org/licenses/>. |
702fa251 | 18 | ## |
702fa251 UH |
19 | |
20 | import sigrokdecode as srd | |
21 | ||
21cda951 UH |
22 | class SamplerateError(Exception): |
23 | pass | |
24 | ||
702fa251 | 25 | class Decoder(srd.Decoder): |
64d87119 | 26 | api_version = 3 |
702fa251 UH |
27 | id = 'can' |
28 | name = 'CAN' | |
9e1437a0 | 29 | longname = 'Controller Area Network' |
702fa251 UH |
30 | desc = 'Field bus protocol for distributed realtime control.' |
31 | license = 'gplv2+' | |
32 | inputs = ['logic'] | |
33 | outputs = ['can'] | |
6a15597a | 34 | channels = ( |
702fa251 | 35 | {'id': 'can_rx', 'name': 'CAN RX', 'desc': 'CAN bus line'}, |
da9bcbd9 | 36 | ) |
84c1c0b5 | 37 | options = ( |
b0918d40 UH |
38 | {'id': 'bitrate', 'desc': 'Bitrate (bits/s)', 'default': 1000000}, |
39 | {'id': 'sample_point', 'desc': 'Sample point (%)', 'default': 70.0}, | |
84c1c0b5 | 40 | ) |
da9bcbd9 BV |
41 | annotations = ( |
42 | ('data', 'CAN payload data'), | |
43 | ('sof', 'Start of frame'), | |
44 | ('eof', 'End of frame'), | |
45 | ('id', 'Identifier'), | |
46 | ('ext-id', 'Extended identifier'), | |
47 | ('full-id', 'Full identifier'), | |
48 | ('ide', 'Identifier extension bit'), | |
49 | ('reserved-bit', 'Reserved bit 0 and 1'), | |
50 | ('rtr', 'Remote transmission request'), | |
51 | ('srr', 'Substitute remote request'), | |
52 | ('dlc', 'Data length count'), | |
53 | ('crc-sequence', 'CRC sequence'), | |
54 | ('crc-delimiter', 'CRC delimiter'), | |
55 | ('ack-slot', 'ACK slot'), | |
56 | ('ack-delimiter', 'ACK delimiter'), | |
57 | ('stuff-bit', 'Stuff bit'), | |
58 | ('warnings', 'Human-readable warnings'), | |
544038d9 | 59 | ('bit', 'Bit'), |
d4a28d0f UH |
60 | ) |
61 | annotation_rows = ( | |
544038d9 | 62 | ('bits', 'Bits', (15, 17)), |
2fac4493 UH |
63 | ('fields', 'Fields', tuple(range(15))), |
64 | ('warnings', 'Warnings', (16,)), | |
da9bcbd9 | 65 | ) |
702fa251 | 66 | |
92b7b49f | 67 | def __init__(self): |
f372d597 | 68 | self.samplerate = None |
702fa251 UH |
69 | self.reset_variables() |
70 | ||
f372d597 | 71 | def start(self): |
be465111 | 72 | self.out_ann = self.register(srd.OUTPUT_ANN) |
702fa251 | 73 | |
f372d597 BV |
74 | def metadata(self, key, value): |
75 | if key == srd.SRD_CONF_SAMPLERATE: | |
76 | self.samplerate = value | |
77 | self.bit_width = float(self.samplerate) / float(self.options['bitrate']) | |
78 | self.bitpos = (self.bit_width / 100.0) * self.options['sample_point'] | |
702fa251 | 79 | |
4b1813b4 UH |
80 | # Generic helper for CAN bit annotations. |
81 | def putg(self, ss, es, data): | |
82 | left, right = int(self.bitpos), int(self.bit_width - self.bitpos) | |
83 | self.put(ss - left, es + right, self.out_ann, data) | |
84 | ||
85 | # Single-CAN-bit annotation using the current samplenum. | |
e20f455c | 86 | def putx(self, data): |
4b1813b4 UH |
87 | self.putg(self.samplenum, self.samplenum, data) |
88 | ||
89 | # Single-CAN-bit annotation using the samplenum of CAN bit 12. | |
90 | def put12(self, data): | |
91 | self.putg(self.ss_bit12, self.ss_bit12, data) | |
92 | ||
93 | # Multi-CAN-bit annotation from self.ss_block to current samplenum. | |
94 | def putb(self, data): | |
95 | self.putg(self.ss_block, self.samplenum, data) | |
e20f455c | 96 | |
702fa251 UH |
97 | def reset_variables(self): |
98 | self.state = 'IDLE' | |
99 | self.sof = self.frame_type = self.dlc = None | |
100 | self.rawbits = [] # All bits, including stuff bits | |
101 | self.bits = [] # Only actual CAN frame bits (no stuff bits) | |
102 | self.curbit = 0 # Current bit of CAN frame (bit 0 == SOF) | |
103 | self.last_databit = 999 # Positive value that bitnum+x will never match | |
4b1813b4 UH |
104 | self.ss_block = None |
105 | self.ss_bit12 = None | |
106 | self.ss_databytebits = [] | |
702fa251 | 107 | |
64d87119 GS |
108 | # Determine the position of the next desired bit's sample point. |
109 | def get_sample_point(self, bitnum): | |
702fa251 | 110 | bitpos = int(self.sof + (self.bit_width * bitnum) + self.bitpos) |
64d87119 | 111 | return bitpos |
702fa251 UH |
112 | |
113 | def is_stuff_bit(self): | |
114 | # CAN uses NRZ encoding and bit stuffing. | |
115 | # After 5 identical bits, a stuff bit of opposite value is added. | |
116 | last_6_bits = self.rawbits[-6:] | |
117 | if last_6_bits not in ([0, 0, 0, 0, 0, 1], [1, 1, 1, 1, 1, 0]): | |
118 | return False | |
119 | ||
120 | # Stuff bit. Keep it in self.rawbits, but drop it from self.bits. | |
702fa251 UH |
121 | self.bits.pop() # Drop last bit. |
122 | return True | |
123 | ||
124 | def is_valid_crc(self, crc_bits): | |
125 | return True # TODO | |
126 | ||
127 | def decode_error_frame(self, bits): | |
128 | pass # TODO | |
129 | ||
130 | def decode_overload_frame(self, bits): | |
131 | pass # TODO | |
132 | ||
133 | # Both standard and extended frames end with CRC, CRC delimiter, ACK, | |
134 | # ACK delimiter, and EOF fields. Handle them in a common function. | |
135 | # Returns True if the frame ended (EOF), False otherwise. | |
136 | def decode_frame_end(self, can_rx, bitnum): | |
137 | ||
4b1813b4 UH |
138 | # Remember start of CRC sequence (see below). |
139 | if bitnum == (self.last_databit + 1): | |
140 | self.ss_block = self.samplenum | |
141 | ||
702fa251 | 142 | # CRC sequence (15 bits) |
4b1813b4 | 143 | elif bitnum == (self.last_databit + 15): |
702fa251 UH |
144 | x = self.last_databit + 1 |
145 | crc_bits = self.bits[x:x + 15 + 1] | |
146 | self.crc = int(''.join(str(d) for d in crc_bits), 2) | |
74c9bb3c UH |
147 | self.putb([11, ['CRC sequence: 0x%04x' % self.crc, |
148 | 'CRC: 0x%04x' % self.crc, 'CRC']]) | |
702fa251 | 149 | if not self.is_valid_crc(crc_bits): |
74c9bb3c | 150 | self.putb([16, ['CRC is invalid']]) |
702fa251 UH |
151 | |
152 | # CRC delimiter bit (recessive) | |
153 | elif bitnum == (self.last_databit + 16): | |
74c9bb3c UH |
154 | self.putx([12, ['CRC delimiter: %d' % can_rx, |
155 | 'CRC d: %d' % can_rx, 'CRC d']]) | |
2fac4493 UH |
156 | if can_rx != 1: |
157 | self.putx([16, ['CRC delimiter must be a recessive bit']]) | |
702fa251 UH |
158 | |
159 | # ACK slot bit (dominant: ACK, recessive: NACK) | |
160 | elif bitnum == (self.last_databit + 17): | |
161 | ack = 'ACK' if can_rx == 0 else 'NACK' | |
74c9bb3c | 162 | self.putx([13, ['ACK slot: %s' % ack, 'ACK s: %s' % ack, 'ACK s']]) |
702fa251 UH |
163 | |
164 | # ACK delimiter bit (recessive) | |
165 | elif bitnum == (self.last_databit + 18): | |
74c9bb3c UH |
166 | self.putx([14, ['ACK delimiter: %d' % can_rx, |
167 | 'ACK d: %d' % can_rx, 'ACK d']]) | |
2fac4493 UH |
168 | if can_rx != 1: |
169 | self.putx([16, ['ACK delimiter must be a recessive bit']]) | |
702fa251 | 170 | |
4b1813b4 UH |
171 | # Remember start of EOF (see below). |
172 | elif bitnum == (self.last_databit + 19): | |
173 | self.ss_block = self.samplenum | |
174 | ||
702fa251 UH |
175 | # End of frame (EOF), 7 recessive bits |
176 | elif bitnum == (self.last_databit + 25): | |
74c9bb3c | 177 | self.putb([2, ['End of frame', 'EOF', 'E']]) |
2fac4493 UH |
178 | if self.rawbits[-7:] != [1, 1, 1, 1, 1, 1, 1]: |
179 | self.putb([16, ['End of frame (EOF) must be 7 recessive bits']]) | |
702fa251 UH |
180 | self.reset_variables() |
181 | return True | |
182 | ||
183 | return False | |
184 | ||
185 | # Returns True if the frame ended (EOF), False otherwise. | |
186 | def decode_standard_frame(self, can_rx, bitnum): | |
187 | ||
188 | # Bit 14: RB0 (reserved bit) | |
189 | # Has to be sent dominant, but receivers should accept recessive too. | |
190 | if bitnum == 14: | |
74c9bb3c | 191 | self.putx([7, ['Reserved bit 0: %d' % can_rx, |
534ae912 | 192 | 'RB0: %d' % can_rx, 'RB0']]) |
702fa251 UH |
193 | |
194 | # Bit 12: Remote transmission request (RTR) bit | |
195 | # Data frame: dominant, remote frame: recessive | |
196 | # Remote frames do not contain a data field. | |
197 | rtr = 'remote' if self.bits[12] == 1 else 'data' | |
74c9bb3c | 198 | self.put12([8, ['Remote transmission request: %s frame' % rtr, |
534ae912 | 199 | 'RTR: %s frame' % rtr, 'RTR']]) |
4b1813b4 UH |
200 | |
201 | # Remember start of DLC (see below). | |
202 | elif bitnum == 15: | |
203 | self.ss_block = self.samplenum | |
702fa251 UH |
204 | |
205 | # Bits 15-18: Data length code (DLC), in number of bytes (0-8). | |
206 | elif bitnum == 18: | |
207 | self.dlc = int(''.join(str(d) for d in self.bits[15:18 + 1]), 2) | |
74c9bb3c UH |
208 | self.putb([10, ['Data length code: %d' % self.dlc, |
209 | 'DLC: %d' % self.dlc, 'DLC']]) | |
702fa251 | 210 | self.last_databit = 18 + (self.dlc * 8) |
2fac4493 UH |
211 | if self.dlc > 8: |
212 | self.putb([16, ['Data length code (DLC) > 8 is not allowed']]) | |
702fa251 | 213 | |
4b1813b4 UH |
214 | # Remember all databyte bits, except the very last one. |
215 | elif bitnum in range(19, self.last_databit): | |
216 | self.ss_databytebits.append(self.samplenum) | |
217 | ||
702fa251 UH |
218 | # Bits 19-X: Data field (0-8 bytes, depending on DLC) |
219 | # The bits within a data byte are transferred MSB-first. | |
220 | elif bitnum == self.last_databit: | |
4b1813b4 | 221 | self.ss_databytebits.append(self.samplenum) # Last databyte bit. |
702fa251 UH |
222 | for i in range(self.dlc): |
223 | x = 18 + (8 * i) + 1 | |
224 | b = int(''.join(str(d) for d in self.bits[x:x + 8]), 2) | |
4b1813b4 UH |
225 | ss = self.ss_databytebits[i * 8] |
226 | es = self.ss_databytebits[((i + 1) * 8) - 1] | |
534ae912 UH |
227 | self.putg(ss, es, [0, ['Data byte %d: 0x%02x' % (i, b), |
228 | 'DB %d: 0x%02x' % (i, b), 'DB']]) | |
4b1813b4 | 229 | self.ss_databytebits = [] |
702fa251 UH |
230 | |
231 | elif bitnum > self.last_databit: | |
232 | return self.decode_frame_end(can_rx, bitnum) | |
233 | ||
234 | return False | |
235 | ||
236 | # Returns True if the frame ended (EOF), False otherwise. | |
237 | def decode_extended_frame(self, can_rx, bitnum): | |
238 | ||
4b1813b4 UH |
239 | # Remember start of EID (see below). |
240 | if bitnum == 14: | |
241 | self.ss_block = self.samplenum | |
242 | ||
702fa251 | 243 | # Bits 14-31: Extended identifier (EID[17..0]) |
4b1813b4 | 244 | elif bitnum == 31: |
702fa251 | 245 | self.eid = int(''.join(str(d) for d in self.bits[14:]), 2) |
534ae912 | 246 | s = '%d (0x%x)' % (self.eid, self.eid) |
74c9bb3c | 247 | self.putb([4, ['Extended Identifier: %s' % s, |
534ae912 | 248 | 'Extended ID: %s' % s, 'Extended ID', 'EID']]) |
702fa251 UH |
249 | |
250 | self.fullid = self.id << 18 | self.eid | |
534ae912 | 251 | s = '%d (0x%x)' % (self.fullid, self.fullid) |
74c9bb3c | 252 | self.putb([5, ['Full Identifier: %s' % s, 'Full ID: %s' % s, |
534ae912 | 253 | 'Full ID', 'FID']]) |
702fa251 UH |
254 | |
255 | # Bit 12: Substitute remote request (SRR) bit | |
74c9bb3c | 256 | self.put12([9, ['Substitute remote request: %d' % self.bits[12], |
534ae912 | 257 | 'SRR: %d' % self.bits[12], 'SRR']]) |
702fa251 UH |
258 | |
259 | # Bit 32: Remote transmission request (RTR) bit | |
260 | # Data frame: dominant, remote frame: recessive | |
261 | # Remote frames do not contain a data field. | |
262 | if bitnum == 32: | |
263 | rtr = 'remote' if can_rx == 1 else 'data' | |
74c9bb3c | 264 | self.putx([8, ['Remote transmission request: %s frame' % rtr, |
534ae912 | 265 | 'RTR: %s frame' % rtr, 'RTR']]) |
702fa251 UH |
266 | |
267 | # Bit 33: RB1 (reserved bit) | |
268 | elif bitnum == 33: | |
74c9bb3c | 269 | self.putx([7, ['Reserved bit 1: %d' % can_rx, |
534ae912 | 270 | 'RB1: %d' % can_rx, 'RB1']]) |
702fa251 UH |
271 | |
272 | # Bit 34: RB0 (reserved bit) | |
273 | elif bitnum == 34: | |
74c9bb3c | 274 | self.putx([7, ['Reserved bit 0: %d' % can_rx, |
534ae912 | 275 | 'RB0: %d' % can_rx, 'RB0']]) |
702fa251 | 276 | |
4b1813b4 UH |
277 | # Remember start of DLC (see below). |
278 | elif bitnum == 35: | |
279 | self.ss_block = self.samplenum | |
280 | ||
702fa251 UH |
281 | # Bits 35-38: Data length code (DLC), in number of bytes (0-8). |
282 | elif bitnum == 38: | |
283 | self.dlc = int(''.join(str(d) for d in self.bits[35:38 + 1]), 2) | |
74c9bb3c UH |
284 | self.putb([10, ['Data length code: %d' % self.dlc, |
285 | 'DLC: %d' % self.dlc, 'DLC']]) | |
702fa251 UH |
286 | self.last_databit = 38 + (self.dlc * 8) |
287 | ||
4b1813b4 UH |
288 | # Remember all databyte bits, except the very last one. |
289 | elif bitnum in range(39, self.last_databit): | |
290 | self.ss_databytebits.append(self.samplenum) | |
291 | ||
702fa251 UH |
292 | # Bits 39-X: Data field (0-8 bytes, depending on DLC) |
293 | # The bits within a data byte are transferred MSB-first. | |
294 | elif bitnum == self.last_databit: | |
4b1813b4 | 295 | self.ss_databytebits.append(self.samplenum) # Last databyte bit. |
702fa251 UH |
296 | for i in range(self.dlc): |
297 | x = 38 + (8 * i) + 1 | |
298 | b = int(''.join(str(d) for d in self.bits[x:x + 8]), 2) | |
4b1813b4 UH |
299 | ss = self.ss_databytebits[i * 8] |
300 | es = self.ss_databytebits[((i + 1) * 8) - 1] | |
534ae912 UH |
301 | self.putg(ss, es, [0, ['Data byte %d: 0x%02x' % (i, b), |
302 | 'DB %d: 0x%02x' % (i, b), 'DB']]) | |
4b1813b4 | 303 | self.ss_databytebits = [] |
702fa251 UH |
304 | |
305 | elif bitnum > self.last_databit: | |
306 | return self.decode_frame_end(can_rx, bitnum) | |
307 | ||
308 | return False | |
309 | ||
310 | def handle_bit(self, can_rx): | |
311 | self.rawbits.append(can_rx) | |
312 | self.bits.append(can_rx) | |
313 | ||
314 | # Get the index of the current CAN frame bit (without stuff bits). | |
315 | bitnum = len(self.bits) - 1 | |
316 | ||
702fa251 UH |
317 | # If this is a stuff bit, remove it from self.bits and ignore it. |
318 | if self.is_stuff_bit(): | |
544038d9 | 319 | self.putx([15, [str(can_rx)]]) |
702fa251 UH |
320 | self.curbit += 1 # Increase self.curbit (bitnum is not affected). |
321 | return | |
544038d9 UH |
322 | else: |
323 | self.putx([17, [str(can_rx)]]) | |
702fa251 UH |
324 | |
325 | # Bit 0: Start of frame (SOF) bit | |
326 | if bitnum == 0: | |
2fac4493 UH |
327 | self.putx([1, ['Start of frame', 'SOF', 'S']]) |
328 | if can_rx != 0: | |
74c9bb3c | 329 | self.putx([16, ['Start of frame (SOF) must be a dominant bit']]) |
702fa251 | 330 | |
4b1813b4 UH |
331 | # Remember start of ID (see below). |
332 | elif bitnum == 1: | |
333 | self.ss_block = self.samplenum | |
334 | ||
702fa251 UH |
335 | # Bits 1-11: Identifier (ID[10..0]) |
336 | # The bits ID[10..4] must NOT be all recessive. | |
337 | elif bitnum == 11: | |
338 | self.id = int(''.join(str(d) for d in self.bits[1:]), 2) | |
534ae912 | 339 | s = '%d (0x%x)' % (self.id, self.id), |
74c9bb3c | 340 | self.putb([3, ['Identifier: %s' % s, 'ID: %s' % s, 'ID']]) |
2fac4493 UH |
341 | if (self.id & 0x7f0) == 0x7f0: |
342 | self.putb([16, ['Identifier bits 10..4 must not be all recessive']]) | |
702fa251 UH |
343 | |
344 | # RTR or SRR bit, depending on frame type (gets handled later). | |
345 | elif bitnum == 12: | |
4b1813b4 UH |
346 | # self.putx([0, ['RTR/SRR: %d' % can_rx]]) # Debug only. |
347 | self.ss_bit12 = self.samplenum | |
702fa251 UH |
348 | |
349 | # Bit 13: Identifier extension (IDE) bit | |
350 | # Standard frame: dominant, extended frame: recessive | |
351 | elif bitnum == 13: | |
352 | ide = self.frame_type = 'standard' if can_rx == 0 else 'extended' | |
74c9bb3c | 353 | self.putx([6, ['Identifier extension bit: %s frame' % ide, |
534ae912 | 354 | 'IDE: %s frame' % ide, 'IDE']]) |
702fa251 UH |
355 | |
356 | # Bits 14-X: Frame-type dependent, passed to the resp. handlers. | |
357 | elif bitnum >= 14: | |
358 | if self.frame_type == 'standard': | |
359 | done = self.decode_standard_frame(can_rx, bitnum) | |
360 | else: | |
361 | done = self.decode_extended_frame(can_rx, bitnum) | |
362 | ||
363 | # The handlers return True if a frame ended (EOF). | |
364 | if done: | |
365 | return | |
366 | ||
367 | # After a frame there are 3 intermission bits (recessive). | |
368 | # After these bits, the bus is considered free. | |
369 | ||
370 | self.curbit += 1 | |
371 | ||
64d87119 | 372 | def decode(self): |
21cda951 UH |
373 | if not self.samplerate: |
374 | raise SamplerateError('Cannot decode without samplerate.') | |
702fa251 | 375 | |
64d87119 | 376 | while True: |
702fa251 UH |
377 | # State machine. |
378 | if self.state == 'IDLE': | |
379 | # Wait for a dominant state (logic 0) on the bus. | |
64d87119 | 380 | (can_rx,) = self.wait({0: 'l'}) |
702fa251 | 381 | self.sof = self.samplenum |
702fa251 UH |
382 | self.state = 'GET BITS' |
383 | elif self.state == 'GET BITS': | |
384 | # Wait until we're in the correct bit/sampling position. | |
64d87119 GS |
385 | pos = self.get_sample_point(self.curbit) |
386 | (can_rx,) = self.wait({'skip': pos - self.samplenum}) | |
702fa251 | 387 | self.handle_bit(can_rx) |