api_version = 2
id = 'eeprom93cxx'
name = '93Cxx EEPROM'
- longname = '93Cxx EEPROM'
+ longname = '93Cxx Microwire EEPROM'
desc = '93Cxx series Microwire EEPROM protocol.'
license = 'gplv2+'
inputs = ['microwire']
a = 0
for b in range(len(data)):
a += (data[b].si << (len(data) - b - 1))
- self.put(data[0].ss, data[-1].se, self.out_ann,
+ self.put(data[0].ss, data[-1].es, self.out_ann,
[0, ['Address: 0x%x' % a, 'Addr: 0x%x' % a, '0x%x' % a]])
def put_word(self, si, data):
d = data[b].si if si else data[b].so
word += (d << (len(data) - b - 1))
idx = 0 if si else 1
- self.put(data[0].ss, data[-1].se,
+ self.put(data[0].ss, data[-1].es,
self.out_ann, [idx, ['Data: 0x%x' % word, '0x%x' % word]])
def decode(self, ss, es, data):
if opcode == 2:
# READ instruction.
- self.put(data[0].ss, data[1].se,
+ self.put(data[0].ss, data[1].es,
self.out_ann, [0, ['Read word', 'READ']])
self.put_address(data[2:2 + self.addresssize])
while len(data) - word_start > 0:
# Check if there are enough bits for a word.
if len(data) - word_start < self.wordsize:
- self.put(data[word_start].ss, data[len(data) - 1].se,
+ self.put(data[word_start].ss, data[len(data) - 1].es,
self.out_ann, [2, ['Not enough word bits']])
break
self.put_word(False, data[word_start:word_start + self.wordsize])
word_start += self.wordsize
elif opcode == 1:
# WRITE instruction.
- self.put(data[0].ss, data[1].se,
+ self.put(data[0].ss, data[1].es,
self.out_ann, [0, ['Write word', 'WRITE']])
self.put_address(data[2:2 + self.addresssize])
# Get word.
self.put_word(True, data[2 + self.addresssize:2 + self.addresssize + self.wordsize])
elif opcode == 3:
# ERASE instruction.
- self.put(data[0].ss, data[1].se,
+ self.put(data[0].ss, data[1].es,
self.out_ann, [0, ['Erase word', 'ERASE']])
self.put_address(data[2:2 + self.addresssize])
elif opcode == 0:
if data[2].si == 1 and data[3].si == 1:
# WEN instruction.
- self.put(data[0].ss, data[2 + self.addresssize - 1].se,
+ self.put(data[0].ss, data[2 + self.addresssize - 1].es,
self.out_ann, [0, ['Write enable', 'WEN']])
elif data[2].si == 0 and data[3].si == 0:
# WDS instruction.
- self.put(data[0].ss, data[2 + self.addresssize - 1].se,
+ self.put(data[0].ss, data[2 + self.addresssize - 1].es,
self.out_ann, [0, ['Write disable', 'WDS']])
elif data[2].si == 1 and data[3].si == 0:
# ERAL instruction.
- self.put(data[0].ss, data[2 + self.addresssize - 1].se,
+ self.put(data[0].ss, data[2 + self.addresssize - 1].es,
self.out_ann, [0, ['Erase all memory',
'Erase all', 'ERAL']])
elif data[2].si == 0 and data[3].si == 1:
# WRAL instruction.
- self.put(data[0].ss, data[2 + self.addresssize - 1].se,
+ self.put(data[0].ss, data[2 + self.addresssize - 1].es,
self.out_ann, [0, ['Write all memory',
'Write all', 'WRAL']])
# Get word.
projects / libsigrokdecode.git / blobdiff