## ## This file is part of the sigrok project. ## ## Copyright (C) 2011 Gareth McMullin ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 2 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with this program; if not, write to the Free Software ## Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA ## # # USB Full-speed protocol decoder # # Full-speed USB signalling consists of two signal lines, both driven at 3.3V # logic levels. The signals are DP (D+) and DM (D-), and normally operate in # differential mode. # The state where DP=1,DM=0 is J, the state DP=0,DM=1 is K. # A state SE0 is defined where DP=DM=0. This common mode signal is used to # signal a reset or end of packet. # # Data transmitted on the USB is encoded with NRZI. A transition from J to K # or vice-versa indicates a logic 0, while no transition indicates a logic 1. # If 6 ones are transmitted consecutively, a zero is inserted to force a # transition. This is known as bit stuffing. Data is transferred at a rate # of 12Mbit/s. The SE0 transmitted to signal an end-of-packet is two bit # intervals long. # # Details: # https://en.wikipedia.org/wiki/USB # http://www.usb.org/developers/docs/ # import sigrokdecode as srd # States SE0, J, K, SE1 = 0, 1, 2, 3 # ... syms = { (0, 0): SE0, (1, 0): J, (0, 1): K, (1, 1): SE1, } # ... pids = { '10000111': 'OUT', # Tokens '10010110': 'IN', '10100101': 'SOF', '10110100': 'SETUP', '11000011': 'DATA0', # Data '11010010': 'DATA1', '01001011': 'ACK', # Handshake '01011010': 'NAK', '01111000': 'STALL', '01101001': 'NYET', } def bitstr_to_num(bitstr): if not bitstr: return 0 l = list(bitstr) l.reverse() return int(''.join(l), 2) def packet_decode(packet): sync = packet[:8] pid = packet[8:16] pid = pids.get(pid, pid) # Remove CRC. if pid in ('OUT', 'IN', 'SOF', 'SETUP'): data = packet[16:-5] if pid == 'SOF': data = str(bitstr_to_num(data)) else: dev = bitstr_to_num(data[:7]) ep = bitstr_to_num(data[7:]) data = 'DEV %d EP %d' % (dev, ep) elif pid in ('DATA0', 'DATA1'): data = packet[16:-16] tmp = '' while data: tmp += '%02x ' % bitstr_to_num(data[:8]) data = data[8:] data = tmp else: data = packet[16:] if sync != '00000001': return 'SYNC INVALID!' return pid + ' ' + data class Decoder(srd.Decoder): api_version = 1 id = 'usb' name = 'USB' longname = 'Universal Serial Bus' desc = 'Universal Serial Bus' longdesc = '...longdesc...' license = 'gplv2+' inputs = ['logic'] outputs = ['usb'] probes = [ {'id': 'dp', 'name': 'D+', 'desc': 'USB D+ signal'}, {'id': 'dm', 'name': 'D-', 'desc': 'USB D- signal'}, ] optional_probes = [] options = {} annotations = [ ['TODO', 'TODO'] ] def __init__(self): pass def start(self, metadata): self.rate = metadata['samplerate'] # self.out_proto = self.add(srd.OUTPUT_PROTO, 'usb') self.out_ann = self.add(srd.OUTPUT_ANN, 'usb') if self.rate < 48000000: raise Exception('Sample rate (%d) not sufficient for USB ' 'decoding, need at least 48MHz' % self.rate) # Initialise decoder state. self.sym = J self.scount = 0 self.packet = '' def report(self): pass def decode(self, ss, es, data): for (samplenum, (dm, dp)) in data: self.scount += 1 sym = syms[dp, dm] # ... if sym == self.sym: continue if self.scount == 1: # We ignore single sample width pulses. # I sometimes get these with the OLS. self.sym = sym self.scount = 0 continue # How many bits since the last transition? if self.packet != '' or self.sym != J: bitcount = int((self.scount - 1) * 12000000 / self.rate) else: bitcount = 0 if self.sym == SE0: if bitcount == 1: # End-Of-Packet (EOP) self.put(0, 0, self.out_ann, [0, [packet_decode(self.packet), self.packet]]) else: # Longer than EOP, assume reset. self.put(0, 0, self.out_ann, [0, ['RESET']]) self.scount = 0 self.sym = sym self.packet = '' continue # Add bits to the packet string. self.packet += '1' * bitcount # Handle bit stuffing. if bitcount < 6 and sym != SE0: self.packet += '0' elif bitcount > 6: self.put(0, 0, self.out_ann, [0, ['BIT STUFF ERROR']]) self.scount = 0 self.sym = sym