## ## This file is part of the libsigrokdecode project. ## ## Copyright (C) 2012-2013 Uwe Hermann ## ## 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 ## import sigrokdecode as srd # ... RX = 0 TX = 1 class Decoder(srd.Decoder): api_version = 1 id = 'pan1321' name = 'PAN1321' longname = 'Panasonic PAN1321' desc = 'Bluetooth RF module with Serial Port Profile (SPP).' license = 'gplv2+' inputs = ['uart'] outputs = ['pan1321'] probes = [] optional_probes = [] options = {} annotations = [ ['text-verbose', 'Human-readable text (verbose)'], ['text', 'Human-readable text'], ['warnings', 'Human-readable warnings'], ] def __init__(self, **kwargs): self.cmd = ['', ''] self.ss_block = None def start(self): # self.out_python = self.register(srd.OUTPUT_PYTHON) self.out_ann = self.register(srd.OUTPUT_ANN) def putx(self, data): self.put(self.ss_block, self.es_block, self.out_ann, data) def handle_host_command(self, rxtx, s): if s.startswith('AT+JAAC'): # AT+JAAC= (0 or 1) p = s[s.find('=') + 1:] if p not in ('0', '1'): self.putx([2, ['Warning: Invalid JAAC parameter "%s"' % p]]) return x = 'Auto' if (p == '1') else 'Don\'t auto' self.putx([0, ['%s-accept new connections' % x]]) self.putx([1, ['%s-accept connections' % x]]) elif s.startswith('AT+JPRO'): # AT+JPRO= (0 or 1) p = s[s.find('=') + 1:] if p not in ('0', '1'): self.putx([2, ['Warning: Invalid JPRO parameter "%s"' % p]]) return onoff = 'off' if (p == '0') else 'on' x = 'Leaving' if (p == '0') else 'Entering' self.putx([0, ['%s production mode' % x]]) self.putx([1, ['Production mode = %s' % onoff]]) elif s.startswith('AT+JRES'): # AT+JRES if s != 'AT+JRES': # JRES has no params. self.putx([2, ['Warning: Invalid JRES usage.']]) return self.putx([0, ['Triggering a software reset']]) self.putx([1, ['Reset']]) elif s.startswith('AT+JSDA'): # AT+JSDA=, (l: length in bytes, d: data) # l is (max?) 3 decimal digits and ranges from 1 to MTU size. # Data can be ASCII or binary values (l bytes total). l, d = s[s.find('=') + 1:].split(',') if not l.isnumeric(): self.putx([2, ['Warning: Invalid data length "%s".' % l]]) if int(l) != len(d): self.putx([2, ['Warning: Data length mismatch (%d != %d).' % \ (int(l), len(d))]]) # TODO: Warn if length > MTU size (which is firmware-dependent # and is negotiated by both Bluetooth devices upon connection). b = ''.join(['%02x ' % ord(c) for c in d])[:-1] self.putx([0, ['Sending %d data bytes: %s' % (int(l), b)]]) self.putx([1, ['Send %d = %s' % (int(l), b)]]) elif s.startswith('AT+JSEC'): # AT+JSEC=,,,, # secmode: Security mode 1 or 3 (default). # linkkey_info: Must be 1 or 2. Has no function according to docs. # pintype: 1: variable pin (default), 2: fixed pin. # pinlen: PIN length (2 decimal digits). Max. PIN length is 16. # pin: The Bluetooth PIN ('pinlen' chars). Used if pintype=2. # Note: AT+JSEC (if used) must be the first command after reset. # TODO: Parse all the other parameters. pin = s[-4:] self.putx([0, ['Host set the Bluetooth PIN to "' + pin + '"']]) self.putx([1, ['PIN = ' + pin]]) elif s.startswith('AT+JSLN'): # AT+JSLN=, # namelen: Friendly name length (2 decimal digits). Max. len is 18. # name: The Bluetooth "friendly name" ('namelen' ASCII characters). name = s[s.find(',') + 1:] self.putx([0, ['Host set the Bluetooth name to "' + name + '"']]) self.putx([1, ['BT name = ' + name]]) else: self.putx([0, ['Host sent unsupported command: %s' % s]]) self.putx([1, ['Unsupported command: %s' % s]]) def handle_device_reply(self, rxtx, s): if s == 'ROK': self.putx([0, ['Device initialized correctly']]) self.putx([1, ['Init']]) elif s == 'OK': self.putx([0, ['Device acknowledged last command']]) self.putx([1, ['ACK']]) elif s.startswith('ERR'): error = s[s.find('=') + 1:] self.putx([0, ['Device sent error code ' + error]]) self.putx([1, ['ERR = ' + error]]) else: self.putx([0, ['Device sent an unknown reply: %s' % s]]) self.putx([1, ['Unknown reply: %s' % s]]) def decode(self, ss, es, data): ptype, rxtx, pdata = data # For now, ignore all UART packets except the actual data packets. if ptype != 'DATA': return # If this is the start of a command/reply, remember the start sample. if self.cmd[rxtx] == '': self.ss_block = ss # Append a new (ASCII) byte to the currently built/parsed command. self.cmd[rxtx] += chr(pdata) # Get packets/bytes until an \r\n sequence is found (end of command). if self.cmd[rxtx][-2:] != '\r\n': return # Handle host commands and device replies. # We remove trailing \r\n from the strings before handling them. self.es_block = es if rxtx == RX: self.handle_device_reply(rxtx, self.cmd[rxtx][:-2]) elif rxtx == TX: self.handle_host_command(rxtx, self.cmd[rxtx][:-2]) else: raise Exception('Invalid rxtx value: %d' % rxtx) self.cmd[rxtx] = ''