X-Git-Url: https://sigrok.org/gitweb/?p=libsigrokdecode.git;a=blobdiff_plain;f=decoders%2Fonewire%2Fonewire.py;h=ad0b0a694d870c6eb5759956141175431e1fe004;hp=22ad7ee566fa80abd597751e386901bb4218524a;hb=af5ec813b0bc118e28c04d6b61e110a2117002a8;hpb=4a583ba42431fa2031a6bf39b249e4902973833d diff --git a/decoders/onewire/onewire.py b/decoders/onewire/onewire.py index 22ad7ee..ad0b0a6 100644 --- a/decoders/onewire/onewire.py +++ b/decoders/onewire/onewire.py @@ -23,11 +23,9 @@ import sigrokdecode as srd # Annotation feed formats -ANN_ASCII = 0 -ANN_DEC = 1 -ANN_HEX = 2 -ANN_OCT = 3 -ANN_BITS = 4 +ANN_LINK = 0 +ANN_NETWORK = 1 +ANN_TRANSFER = 2 class Decoder(srd.Decoder): api_version = 1 @@ -48,38 +46,30 @@ class Decoder(srd.Decoder): 'overdrive': ['Overdrive', 0], } annotations = [ - ['ASCII', 'Data bytes as ASCII characters'], - ['Decimal', 'Databytes as decimal, integer values'], - ['Hex', 'Data bytes in hex format'], - ['Octal', 'Data bytes as octal numbers'], - ['Bits', 'Data bytes in bit notation (sequence of 0/1 digits)'], + ['Link', 'Link layer events (reset, presence, bit slots)'], + ['Network', 'Network layer events (device addressing)'], + ['Transfer', 'Transfer layer events'], ] - def putx(self, data): - self.put(self.startsample, self.samplenum - 1, self.out_ann, data) - def __init__(self, **kwargs): # Common variables self.samplenum = 0 # Link layer variables - self.lnk_state = 'WAIT FOR NEGEDGE' - self.lnk_event = 'NONE' - self.lnk_start = -1 - self.lnk_bit = -1 - self.lnk_cnt = 0 - self.lnk_byte = -1 + self.lnk_state = 'WAIT FOR FALLING EDGE' + self.lnk_event = 'NONE' + self.lnk_fall = 0 + self.lnk_present = 0 + self.lnk_bit = 0 # Network layer variables - self.net_state = 'WAIT FOR EVENT' - self.net_event = 'NONE' - self.net_command = -1 + self.net_state = 'IDLE' + self.net_cnt = 0 + self.net_search = "P" + self.net_data_p = 0x0 + self.net_data_n = 0x0 + self.net_data = 0x0 + self.net_rom = 0x0000000000000000 # Transport layer variables - self.trn_state = 'WAIT FOR EVENT' - self.trn_event = 'NONE' - - self.data_sample = -1 - self.cur_data_bit = 0 - self.databyte = 0 - self.startsample = -1 + self.trn_state = 'IDLE' def start(self, metadata): self.samplerate = metadata['samplerate'] @@ -88,18 +78,20 @@ class Decoder(srd.Decoder): # The width of the 1-Wire time base (30us) in number of samples. # TODO: optimize this value - self.time_base = float(self.samplerate) / float(0.000030) + self.time_base = float(self.samplerate) * float(0.000030) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_LINK, ['time_base = %d' % self.time_base]]) def report(self): pass def decode(self, ss, es, data): for (self.samplenum, (owr, pwr)) in data: +# print ("DEBUG: sample = %d, owr = %d, pwr = %d, lnk_fall = %d, lnk_state = %s" % (self.samplenum, owr, pwr, self.lnk_fall, self.lnk_state)) # Data link layer # Clear events. - self.lnk_event = "RESET" + self.lnk_event = "NONE" # State machine. if self.lnk_state == 'WAIT FOR FALLING EDGE': # The start of a cycle is a falling edge. @@ -110,78 +102,181 @@ class Decoder(srd.Decoder): self.lnk_state = 'WAIT FOR DATA SAMPLE' elif self.lnk_state == 'WAIT FOR DATA SAMPLE': # Data should be sample one 'time unit' after a falling edge - if (self.samplenum - self.lnk_fall == 1*self.time_base): + if (self.samplenum - self.lnk_fall == 0.5*self.time_base): self.lnk_bit = owr & 0x1 self.lnk_event = "DATA BIT" if (self.lnk_bit) : self.lnk_state = 'WAIT FOR FALLING EDGE' else : self.lnk_state = 'WAIT FOR RISING EDGE' + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_LINK, ['BIT: %01x' % self.lnk_bit]]) elif self.lnk_state == 'WAIT FOR RISING EDGE': # The end of a cycle is a rising edge. if (owr == 1): - # A reset cycle is longer than 8T + # A reset cycle is longer than 8T. if (self.samplenum - self.lnk_fall > 8*self.time_base): # Save the sample number for the falling edge. self.lnk_rise = self.samplenum - # Send a reset event to the next protocol layer + # Send a reset event to the next protocol layer. self.lnk_event = "RESET" self.lnk_state = "WAIT FOR PRESENCE DETECT" + self.put(self.lnk_fall, self.samplenum, self.out_proto, ['RESET']) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_LINK , ['RESET']]) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['RESET']]) + # Reset the timer. + self.lnk_fall = self.samplenum + # Otherwise this is assumed to be a data bit. + else : + self.lnk_state = "WAIT FOR FALLING EDGE" elif self.lnk_state == 'WAIT FOR PRESENCE DETECT': # Data should be sample one 'time unit' after a falling edge if (self.samplenum - self.lnk_rise == 2.5*self.time_base): - self.lnk_bit = owr & 0x1 - self.lnk_event = "PRESENCE DETECT" - if (self.lnk_bit) : self.lnk_state = 'WAIT FOR FALLING EDGE' - else : self.lnk_state = 'WAIT FOR RISING EDGE' + self.lnk_present = owr & 0x1 + # Save the sample number for the falling edge. + if not (self.lnk_present) : self.lnk_fall = self.samplenum + # create presence detect event + #self.lnk_event = "PRESENCE DETECT" + if (self.lnk_present) : self.lnk_state = 'WAIT FOR FALLING EDGE' + else : self.lnk_state = 'WAIT FOR RISING EDGE' + present_str = "False" if self.lnk_present else "True" + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_LINK , ['PRESENCE: ' + present_str]]) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['PRESENCE: ' + present_str]]) else: raise Exception('Invalid lnk_state: %d' % self.lnk_state) # Network layer - # Clear events. - self.net_event = "RESET" # State machine. if (self.lnk_event == "RESET"): - self.net_state = "WAIT FOR COMMAND" - self.net_cnt = 0 - self.net_cmd = 0 - elif (self.lnk_event == "DATA BIT"): - if (self.net_state == "WAIT FOR COMMAND"): - self.net_cnt = self.net_cnt + 1 - self.net_cmd = (self.net_cmd << 1) & self.lnk_bit - if (self.lnk_cnt == 8): - self.put(self.startsample, self.samplenum, self.out_proto, ['LNK: BYTE', self.lnk_byte]) - self.put(self.startsample, self.samplenum, self.out_ann , ['LNK: BYTE', self.lnk_byte]) - if (self.net_cmd == 0x33): - # READ ROM - break - elif (self.net_cmd == 0x0f): - # READ ROM - break - elif (self.net_cmd == 0xcc): - # SKIP ROM - break - elif (self.net_cmd == 0x55): - # MATCH ROM - break - elif (self.net_cmd == 0xf0): - # SEARCH ROM - break - elif (self.net_cmd == 0x3c): - # OVERDRIVE SKIP ROM - break - elif (self.net_cmd == 0x69): - # OVERDRIVE MATCH ROM - break - self.lnk_cnt = 0 - if (self.net_state == "WAIT FOR ROM"): - # - break - else: - raise Exception('Invalid net_state: %d' % self.net_state) - elif not (self.lnk_event == "NONE"): - raise Exception('Invalid net_event: %d' % self.net_event) + self.net_state = "COMMAND" + self.net_search = "P" + self.net_cnt = 0 + elif (self.net_state == "IDLE"): + pass + elif (self.net_state == "COMMAND"): + if (self.collect_data(8)): +# self.put(self.lnk_fall, self.samplenum, +# self.out_proto, ['ROM COMMAND', self.net_data]) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: 0x%02x' % self.net_data]]) + if (self.net_data == 0x33): + # READ ROM + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'READ ROM\'']]) + self.net_state = "GET ROM" + elif (self.net_data == 0x0f): + # READ ROM TODO + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'READ ROM ???\'']]) + self.net_state = "GET ROM" + elif (self.net_data == 0xcc): + # SKIP ROM + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'SKIP ROM\'']]) + self.net_state = "IDLE" + self.trn_state = "COMMAND" + elif (self.net_data == 0x55): + # MATCH ROM + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'MATCH ROM\'']]) + self.net_state = "GET ROM" + elif (self.net_data == 0xf0): + # SEARCH ROM + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'SEARCH ROM\'']]) + self.net_state = "SEARCH ROM" + elif (self.net_data == 0x3c): + # OVERDRIVE SKIP ROM + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'OVERDRIVE SKIP ROM\'']]) + self.net_state = "IDLE" + self.trn_state = "COMMAND" + elif (self.net_data == 0x69): + # OVERDRIVE MATCH ROM + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM COMMAND: \'OVERDRIVE MATCH ROM\'']]) + self.net_state = "GET ROM" + elif (self.net_state == "GET ROM"): + # family code (1B) + serial number (6B) + CRC (1B) + if (self.collect_data((1+6+1)*8)): + self.net_rom = self.net_data & 0xffffffffffffffff + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM: 0x%016x' % self.net_rom]]) + self.net_state = "IDLE" + self.trn_state = "COMMAND" + elif (self.net_state == "SEARCH ROM"): + # family code (1B) + serial number (6B) + CRC (1B) + if (self.collect_search((1+6+1)*8)): + self.net_rom = self.net_data & 0xffffffffffffffff + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK, ['ROM: 0x%016x' % self.net_rom]]) + self.net_state = "IDLE" + self.trn_state = "COMMAND" + else: + raise Exception('Invalid net_state: %s' % self.net_state) + # Transport layer + + # State machine. + if (self.lnk_event == "RESET"): + self.trn_state = "IDLE" + elif (self.trn_state == "IDLE"): + pass + elif (self.trn_state == "COMMAND"): + if (self.collect_data(8)): +# self.put(self.lnk_fall, self.samplenum, self.out_proto, ['FUNCTION COMMAND', self.net_data]) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK , ['FUNCTION COMMAND: 0x%02x' % self.net_data]]) + self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_TRANSFER, ['FUNCTION COMMAND: 0x%02x' % self.net_data]]) + if (self.net_data == 0x48): + # COPY SCRATCHPAD + self.trn_state = "TODO" + elif (self.net_data == 0x4e): + # WRITE SCRATCHPAD + self.trn_state = "TODO" + elif (self.net_data == 0xbe): + # READ SCRATCHPAD + self.trn_state = "TODO" + elif (self.net_data == 0xb8): + # RECALL E2 + self.trn_state = "TODO" + elif (self.net_data == 0xb4): + # READ POWER SUPPLY + self.trn_state = "TODO" + else: + # unsupported commands + self.trn_state = "TODO" + elif (self.trn_state == "TODO"): +# self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_NETWORK , ['TODO unsupported transfer state: %s' % self.trn_state]]) +# self.put(self.lnk_fall, self.samplenum, self.out_ann, [ANN_TRANSFER, ['TODO unsupported transfer state: %s' % self.trn_state]]) + pass + else: + raise Exception('Invalid trn_state: %s' % self.trn_state) + # Link/Network layer data collector + def collect_data (self, length): + if (self.lnk_event == "DATA BIT"): + #print ("DEBUG: BIT=%d t0=%d t+=%d" % (self.lnk_bit, self.lnk_fall, self.samplenum)) + self.net_data = self.net_data & ~(1 << self.net_cnt) | (self.lnk_bit << self.net_cnt) + self.net_cnt = self.net_cnt + 1 + if (self.net_cnt == length): + self.net_data = self.net_data & ((1<