desc = 'Field bus protocol for distributed realtime control.'
license = 'gplv2+'
inputs = ['logic']
- outputs = []
+ outputs = ['can']
tags = ['Automotive']
channels = (
{'id': 'can_rx', 'name': 'CAN RX', 'desc': 'CAN bus line'},
def start(self):
self.out_ann = self.register(srd.OUTPUT_ANN)
+ self.out_python = self.register(srd.OUTPUT_PYTHON)
def set_bit_rate(self, bitrate):
self.bit_width = float(self.samplerate) / float(bitrate)
def putb(self, data):
self.putg(self.ss_block, self.samplenum, data)
+ def putpp(self, data):
+ self.put(self.ss_packet, self.es_packet, self.out_python, data)
+
def reset_variables(self):
self.state = 'IDLE'
self.sof = self.frame_type = self.dlc = None
self.ss_bit12 = None
self.ss_bit32 = None
self.ss_databytebits = []
+ self.bytes = []
+ self.rtr_type = None
self.fd = False
self.rtr = None
self.putb([2, ['End of frame', 'EOF', 'E']])
if self.rawbits[-7:] != [1, 1, 1, 1, 1, 1, 1]:
self.putb([16, ['End of frame (EOF) must be 7 recessive bits']])
+ self.es_packet = self.samplenum
+ self.putpp((self.frame_type, self.fullid, self.rtr_type, self.dlc, self.bytes))
self.reset_variables()
return True
# Bit 12: Remote transmission request (RTR) bit
# Data frame: dominant, remote frame: recessive
# Remote frames do not contain a data field.
- rtr = 'remote' if self.bits[12] == 1 else 'data'
- self.put12([8, ['Remote transmission request: %s frame' % rtr,
- 'RTR: %s frame' % rtr, 'RTR']])
+ self.rtr_type = 'remote' if self.bits[12] == 1 else 'data'
+ self.put12([8, ['Remote transmission request: %s frame' % self.rtr_type,
+ 'RTR: %s frame' % self.rtr_type, 'RTR']])
self.dlc_start = 15
if bitnum == 15 and self.fd:
for i in range(dlc2len(self.dlc)):
x = self.dlc_start + 4 + (8 * i)
b = int(''.join(str(d) for d in self.bits[x:x + 8]), 2)
+ self.bytes[i] = b
ss = self.ss_databytebits[i * 8]
es = self.ss_databytebits[((i + 1) * 8) - 1]
self.putg(ss, es, [0, ['Data byte %d: 0x%02x' % (i, b),
self.rtr = can_rx
if not self.fd:
- rtr = 'remote' if can_rx == 1 else 'data'
- self.putx([8, ['Remote transmission request: %s frame' % rtr,
- 'RTR: %s frame' % rtr, 'RTR']])
+ self.rtr_type = 'remote' if can_rx == 1 else 'data'
+ self.putx([8, ['Remote transmission request: %s frame' % self.rtr_type,
+ 'RTR: %s frame' % self.rtr_type, 'RTR']])
# Bit 33: RB1 (reserved bit)
elif bitnum == 33:
for i in range(dlc2len(self.dlc)):
x = self.dlc_start + 4 + (8 * i)
b = int(''.join(str(d) for d in self.bits[x:x + 8]), 2)
+ self.bytes.append(b)
ss = self.ss_databytebits[i * 8]
es = self.ss_databytebits[((i + 1) * 8) - 1]
self.putg(ss, es, [0, ['Data byte %d: 0x%02x' % (i, b),
# Bit 0: Start of frame (SOF) bit
if bitnum == 0:
+ self.ss_packet = self.samplenum
self.putx([1, ['Start of frame', 'SOF', 'S']])
if can_rx != 0:
self.putx([16, ['Start of frame (SOF) must be a dominant bit']])
# The bits ID[10..4] must NOT be all recessive.
elif bitnum == 11:
self.id = int(''.join(str(d) for d in self.bits[1:]), 2)
+ self.fullid = self.id
s = '%d (0x%x)' % (self.id, self.id),
self.putb([3, ['Identifier: %s' % s, 'ID: %s' % s, 'ID']])
if (self.id & 0x7f0) == 0x7f0: