self.addr = 0
self.cur_nibble = 0
self.cycle_type = -1
+ self.databyte = 0
+ self.tarcount = 0
+ self.synccount = 0
self.oldpins = (-1, -1, -1, -1, -1, -1, -1)
def start(self, metadata):
- self.out_proto = self.add(srd.OUTPUT_PROTO, 'lpc')
+ # self.out_proto = self.add(srd.OUTPUT_PROTO, 'lpc')
self.out_ann = self.add(srd.OUTPUT_ANN, 'lpc')
def report(self):
pass
- def handle_get_start(self, lad, lframe):
+ def handle_get_start(self, lad, lad_bits, lframe):
# LAD[3:0]: START field (1 clock cycle).
# The last value of LAD[3:0] before LFRAME# gets de-asserted is what
else:
addr_nibbles = 0 # TODO: How to handle later on?
- # Data is driven MSN-first.
+ # Addresses are driven MSN-first.
offset = ((addr_nibbles - 1) - self.cur_nibble) * 4
self.addr |= (lad << offset)
# Continue if we haven't seen all ADDR cycles, yet.
- # TODO: Off-by-one?
if (self.cur_nibble < addr_nibbles - 1):
self.cur_nibble += 1
return
- self.put(0, 0, self.out_ann, [0, ['Address: %s' % hex(self.addr)]])
+ s = 'Address: 0x%%0%dx' % addr_nibbles
+ self.put(0, 0, self.out_ann, [0, [s % self.addr]])
self.state = 'GET TAR'
self.tar_count = 0
[0, ['Warning: TAR, cycle %d: %s (expected 1111)'
% (self.tarcount, lad_bits)]])
- if (self.tarcount != 2):
+ if (self.tarcount != 1):
self.tarcount += 1
return
+ self.tarcount = 0
self.state = 'GET SYNC'
def handle_get_sync(self, lad, lad_bits):
# TODO
- self.state = 'GET DATA'
self.cycle_count = 0
+ self.state = 'GET DATA'
def handle_get_data(self, lad, lad_bits):
# LAD[3:0]: DATA field (2 clock cycles).
+ # Data is driven LSN-first.
if (self.cycle_count == 0):
self.databyte = lad
elif (self.cycle_count == 1):
self.databyte |= (lad << 4)
else:
- pass # TODO: Error?
+ raise Exception('Invalid cycle_count: %d' % self.cycle_count)
- if (self.cycle_count != 2):
+ if (self.cycle_count != 1):
self.cycle_count += 1
return
- self.put(0, 0, self.out_ann, [0, ['DATA: %s' % hex(self.databyte)]])
-
+ self.put(0, 0, self.out_ann, [0, ['DATA: 0x%02x' % self.databyte]])
+
+ self.cycle_count = 0
self.state = 'GET TAR2'
def handle_get_tar2(self, lad, lad_bits):
[0, ['Warning: TAR, cycle %d: %s (expected 1111)'
% (self.tarcount, lad_bits)]])
- if (self.tarcount != 2):
+ if (self.tarcount != 1):
self.tarcount += 1
return
- self.state = 'GET SYNC'
+ self.tarcount = 0
+ self.state = 'IDLE'
# TODO: At which edge of the clock is data latched? Falling?
def decode(self, ss, es, data):
# Only look at the signals upon falling LCLK edges.
# TODO: Rising?
- ## if not (self.oldlclk == 1 and lclk == 0)
+ ## if not (self.oldlclk == 1 and lclk == 0):
## self.oldlclk = lclk
## continue
# Most (but not all) states need this.
if self.state != 'IDLE':
lad = (lad3 << 3) | (lad2 << 2) | (lad1 << 1) | lad0
- lad_bits = bin(lad)[2:]
+ lad_bits = bin(lad)[2:].zfill(4)
+ # self.put(0, 0, self.out_ann, [0, ['LAD: %s' % lad_bits]])
+
+ # TODO: Only memory read/write is currently supported/tested.
# State machine
if self.state == 'IDLE':
# A valid LPC cycle starts with LFRAME# being asserted (low).
- # TODO?
if lframe != 0:
continue
self.state = 'GET START'
self.lad = -1
# self.clocknum = 0
elif self.state == 'GET START':
- handle_get_start(lad, lad_bits, lframe)
+ self.handle_get_start(lad, lad_bits, lframe)
elif self.state == 'GET CT/DR':
- handle_get_ct_dr(lad, lad_bits)
+ self.handle_get_ct_dr(lad, lad_bits)
elif self.state == 'GET ADDR':
- handle_get_addr(lad, lad_bits)
+ self.handle_get_addr(lad, lad_bits)
elif self.state == 'GET TAR':
- handle_get_tar(lad, lad_bits)
+ self.handle_get_tar(lad, lad_bits)
elif self.state == 'GET SYNC':
- handle_get_sync(lad, lad_bits)
+ self.handle_get_sync(lad, lad_bits)
elif self.state == 'GET DATA':
- handle_get_data(lad, lad_bits)
+ self.handle_get_data(lad, lad_bits)
elif self.state == 'GET TAR2':
- handle_get_tar2(lad, lad_bits)
+ self.handle_get_tar2(lad, lad_bits)
else:
raise Exception('Invalid state: %s' % self.state)
projects / libsigrokdecode.git / commitdiff