--- /dev/null
+##
+## This file is part of the libsigrokdecode project.
+##
+## Copyright (C) 2018 Steve R <steversig@virginmedia.com>
+##
+## 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, see <http://www.gnu.org/licenses/>.
+##
+
+# Most of the info here comes from "434MHz RF Protocol Descriptions for
+# Wireless Weather Sensors - October 2015" Known Sensor ID Codes - p25.
+
+# Format is 4 hex digit ID code followed by a LIST of models that use that
+# ID and the type of sensor.
+# SensorID is used as the hash in a Python hash table, so it must be upper case.
+# The type of sensor is used to decode and display readings in the L2 decode,
+# it's case-sensitive.
+# Be very careful with the formatting ' [] and commas.
+
+sensor = {
+# 'SensorID': [['model1', 'model2'], 'type'],
+ '1984': [['WGR800'], 'Wind'], # The newer anemometer with no temperature/RH sensor.
+ '1994': [['WGR800'], 'Wind'], # The original anemometer which included a temperature/RH sensor.
+ '1A2D': [['THGR228N'], 'Temp_Hum1'],
+ '1A3D': [['THGR918'], ''],
+ '1D20': [['THGN123N', 'THGR122NX', 'THGN123N', 'THGR228N'], 'Temp_Hum'],
+ '1D30': [['THGN500', 'THGN132N'], ''],
+ '2914': [['PCR800'], 'Rain'],
+ '2A19': [['PCR800'], 'Rain1'],
+ '2A1D': [['RGR918'], 'Rain'],
+ '2D10': [['RGR968', 'PGR968 '], 'Rain1'],
+ '3A0D': [['STR918', 'WGR918'], 'Wind'],
+ '5A5D': [['BTHR918'], ''],
+ '5A6D': [['BTHR918N'], 'Temp_Hum_Baro'],
+ '5D53': [['BTHGN129'], 'Baro'],
+ '5D60': [['BTHR968'], 'Temp_Hum_Baro'],
+ 'C844': [['THWR800'], 'Temp'],
+ 'CC13': [['RTGR328N'], 'Temp_Hum'],
+ 'CC23': [['THGR328N'], 'Temp_Hum'],
+ 'CD39': [['RTHR328N'], 'Temp'],
+ 'D874': [['UVN800'], 'UV1'],
+ 'EA4C': [['THWR288A'], 'Temp'],
+ 'EC40': [['THN132N', 'THR238NF'], 'Temp'],
+ 'EC70': [['UVR128'], 'UV'],
+ 'F824': [['THGN800', 'THGN801', 'THGR810'], 'Temp_Hum'],
+ 'F8B4': [['THGR810'], 'Temp_Hum'],
+# '': ['PSR01'], '', ''],
+# '': ['RTGR328NA'], '', ''],
+# '': ['THC268'], '', ''],
+# '': ['THWR288A-JD'], '', ''],
+# '': ['THGR268'], '', ''],
+# '': ['THR268'], '', ''],
+}
+
+# The sensor checksum exceptions are used to calculate the right checksum for
+# sensors that don't follow the v1, v2.1 and v3 methods. For instance a v2.1
+# sensor that has a v3 checksum.
+sensor_checksum = {
+# 'SensorID': ['checksum_method', 'comment'],
+ '1D20': ['v3', 'THGR228N'],
+ '5D60': ['v3', 'BTHR918N'],
+ 'EC40': ['v3', 'THN132N'],
+}
+
+dir_table = ['N', 'NNE', 'NE', 'ENE', 'E', 'ESE', 'SE', 'SSE', 'S', 'SSW', 'SW', 'WSW', 'W', 'WNW', 'NW', 'NNW', 'N']
--- /dev/null
+##
+## This file is part of the libsigrokdecode project.
+##
+## Copyright (C) 2018 Steve R <steversig@virginmedia.com>
+##
+## 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, see <http://www.gnu.org/licenses/>.
+##
+
+import sigrokdecode as srd
+import math
+from .lists import *
+
+class Decoder(srd.Decoder):
+ api_version = 3
+ id = 'ook_oregon'
+ name = 'Oregon'
+ longname = 'Oregon Scientific'
+ desc = 'Oregon Scientific weather sensor protocol.'
+ license = 'gplv2+'
+ inputs = ['ook']
+ outputs = []
+ annotations = (
+ ('bit', 'Bit'),
+ ('field', 'Field'),
+ ('l2', 'Level 2'),
+ ('pre', 'Preamble'),
+ ('syn', 'Sync'),
+ ('id', 'SensorID'),
+ ('ch', 'Channel'),
+ ('roll', 'Rolling code'),
+ ('f1', 'Flags1'),
+ )
+ annotation_rows = (
+ ('bits', 'Bits', (0,)),
+ ('fields', 'Fields', (1, 3, 4)),
+ ('l2', 'Level 2', (2,)),
+ )
+ binary = (
+ ('data-hex', 'Hex data'),
+ )
+ options = (
+ {'id': 'unknown', 'desc': 'Unknown type is', 'default': 'Unknown',
+ 'values': ('Unknown', 'Temp', 'Temp_Hum', 'Temp_Hum1', 'Temp_Hum_Baro',
+ 'Temp_Hum_Baro1', 'UV', 'UV1', 'Wind', 'Rain', 'Rain1')},
+ )
+
+ def __init__(self):
+ self.reset()
+
+ def reset(self):
+ self.decoded = [] # Local cache of decoded OOK.
+ self.skip = None
+
+ def start(self):
+ self.out_ann = self.register(srd.OUTPUT_ANN)
+ self.out_binary = self.register(srd.OUTPUT_BINARY)
+ self.unknown = self.options['unknown']
+
+ def putx(self, data):
+ self.put(self.ss, self.es, self.out_ann, data)
+
+ def dump_oregon_hex(self, start, finish):
+ nib = self.decoded_nibbles
+ hexstring = ''
+ for x in nib:
+ if x[3] != '':
+ hexstring += str(x[3])
+ else:
+ hexstring += ' '
+ mystring = 'Oregon ' + self.ver + ' \"' + hexstring.upper() + '\"\n'
+ self.put(start, finish, self.out_binary,
+ [0, bytes([ord(c) for c in mystring])])
+
+ def oregon_put_pre_and_sync(self, len_pream, len_sync, ver):
+ ook = self.decoded
+ self.decode_pos = len_pream
+ self.ss = ook[0][0]
+ self.es = ook[self.decode_pos][0]
+ self.putx([1, ['Oregon ' + ver + ' Preamble', ver + ' Preamble',
+ ver + ' Pre', ver]])
+ self.decode_pos += len_sync
+ self.ss = ook[len_pream][0]
+ self.es = ook[self.decode_pos][0]
+ self.putx([1, ['Sync', 'Syn', 'S']])
+
+ # Strip off preamble and sync bits.
+ self.decoded = self.decoded[self.decode_pos:]
+ self.ookstring = self.ookstring[self.decode_pos:]
+ self.ver = ver
+
+ def oregon(self):
+ self.ookstring = ''
+ self.decode_pos = 0
+ ook = self.decoded
+ for i in range(len(ook)):
+ self.ookstring += ook[i][2]
+ if '10011001' in self.ookstring[:40]:
+ (preamble, data) = self.ookstring.split('10011001', 1)
+ if len(data) > 0 and len(preamble) > 16:
+ self.oregon_put_pre_and_sync(len(preamble), 8, 'v2.1')
+ self.oregon_v2()
+ elif 'E1100' in self.ookstring[:17]:
+ (preamble, data) = self.ookstring.split('E1100', 1)
+ if len(data) > 0 and len(preamble) <= 12:
+ self.oregon_put_pre_and_sync(len(preamble), 5, 'v1')
+ self.oregon_v1()
+ elif '0101' in self.ookstring[:28]:
+ (preamble, data) = self.ookstring.split('0101', 1)
+ if len(data) > 0 and len(preamble) > 12:
+ self.oregon_put_pre_and_sync(len(preamble), 4, 'v3')
+ self.oregon_v3()
+ elif len(self.ookstring) > 16: # Ignore short packets.
+ error_message = 'Not Oregon or wrong preamble'
+ self.ss = ook[0][0]
+ self.es = ook[len(ook)-1][1]
+ self.putx([1,[error_message]])
+
+ def oregon_v1(self):
+ ook = self.decoded
+ self.decode_pos = 0
+ self.decoded_nibbles = []
+ if len(self.decoded) >= 32: # Check there are at least 8 nibbles.
+ self.oregon_put_nib('RollingCode', ook[self.decode_pos][0],
+ ook[self.decode_pos + 3][1], 4)
+ self.oregon_put_nib('Ch', ook[self.decode_pos][0],
+ ook[self.decode_pos + 3][1], 4)
+ self.oregon_put_nib('Temp', ook[self.decode_pos][0],
+ ook[self.decode_pos + 15][1], 16)
+ self.oregon_put_nib('Checksum', ook[self.decode_pos][0],
+ ook[self.decode_pos + 7][1], 8)
+
+ self.dump_oregon_hex(ook[0][0], ook[len(ook) - 1][1])
+
+ # L2 decode.
+ self.oregon_temp(2)
+ self.oregon_channel(1)
+ self.oregon_battery(2)
+ self.oregon_checksum_v1()
+
+ def oregon_v2(self): # Convert to v3 format - discard odd bits.
+ self.decode_pos = 0
+ self.ookstring = self.ookstring[1::2]
+ for i in range(len(self.decoded)):
+ if i % 2 == 1:
+ self.decoded[i][0] = self.decoded[i - 1][0] # Re-align start pos.
+ self.decoded = self.decoded[1::2] # Discard left hand bits.
+ self.oregon_v3() # Decode with v3 decoder.
+
+ def oregon_nibbles(self, ookstring):
+ num_nibbles = int(len(ookstring) / 4)
+ nibbles = []
+ for i in range(num_nibbles):
+ nibble = ookstring[4 * i : 4 * i + 4]
+ nibble = nibble[::-1] # Reversed from right.
+ nibbles.append(nibble)
+ return nibbles
+
+ def oregon_put_nib(self, label, start, finish, numbits):
+ param = self.ookstring[self.decode_pos:self.decode_pos + numbits]
+ param = self.oregon_nibbles(param)
+ if 'E' in ''.join(param): # Blank out fields with errors.
+ result = ''
+ else:
+ result = hex(int(''.join(param), 2))[2:]
+ if len(result) < numbits / 4: # Reinstate leading zeros.
+ result = '0' * (int(numbits / 4) - len(result)) + result
+ if label != '':
+ label += ': '
+ self.put(start, finish, self.out_ann, [1, [label + result, result]])
+ if label == '': # No label - use nibble position.
+ label = int(self.decode_pos / 4)
+ for i in range(len(param)):
+ ss = self.decoded[self.decode_pos + (4 * i)][0]
+ es = self.decoded[self.decode_pos + (4 * i) + 3][1]
+ if 'E' in param[i]: # Blank out nibbles with errors.
+ result = ''
+ else:
+ result = hex(int(param[i], 2))[2:]
+ # Save nibbles for L2 decoder.
+ self.decoded_nibbles.append([ss, es, label, result])
+ self.decode_pos += numbits
+
+ def oregon_v3(self):
+ self.decode_pos = 0
+ self.decoded_nibbles = []
+ ook = self.decoded
+
+ if len(self.decoded) >= 32: # Check there are at least 8 nibbles.
+ self.oregon_put_nib('SensorID', ook[self.decode_pos][0],
+ ook[self.decode_pos + 16][0], 16)
+ self.oregon_put_nib('Ch', ook[self.decode_pos][0],
+ ook[self.decode_pos + 3][1], 4)
+ self.oregon_put_nib('RollingCode', ook[self.decode_pos][0],
+ ook[self.decode_pos + 7][1], 8)
+ self.oregon_put_nib('Flags1', ook[self.decode_pos][0],
+ ook[self.decode_pos + 3][1], 4)
+
+ rem_nibbles = len(self.ookstring[self.decode_pos:]) // 4
+ for i in range(rem_nibbles): # Display and save rest of nibbles.
+ self.oregon_put_nib('', ook[self.decode_pos][0],
+ ook[self.decode_pos + 3][1], 4)
+ self.dump_oregon_hex(ook[0][0], ook[len(ook) - 1][1])
+ self.oregon_level2() # Level 2 decode.
+ else:
+ error_message = 'Too short to decode'
+ self.put(ook[0][0], ook[-1][1], self.out_ann, [1, [error_message]])
+
+ def oregon_put_l2_param(self, offset, digits, dec_point, pre_label, label):
+ nib = self.decoded_nibbles
+ result = 0
+ out_string = ''.join(str(x[3]) for x in nib[offset:offset + digits])
+ if len(out_string) == digits:
+ for i in range(dec_point, 0, -1):
+ result += int(nib[offset + dec_point - i][3], 16) / pow(10, i)
+ for i in range(dec_point, digits):
+ result += int(nib[offset + i][3], 16) * pow(10, i - dec_point)
+ result = '%g' % (result)
+ else:
+ result = ''
+ es = nib[offset + digits - 1][1]
+ if label == '\u2103':
+ es = nib[offset + digits][1] # Align temp to include +/- nibble.
+ self.put(nib[offset][0], es, self.out_ann,
+ [2, [pre_label + result + label, result]])
+
+ def oregon_temp(self, offset):
+ nib = self.decoded_nibbles
+ if nib[offset + 3][3] != '':
+ temp_sign = str(int(nib[offset + 3][3], 16))
+ if temp_sign != '0':
+ temp_sign = '-'
+ else:
+ temp_sign = '+'
+ else:
+ temp_sign = '?'
+ self.oregon_put_l2_param(offset, 3, 1, temp_sign, '\u2103')
+
+ def oregon_baro(self, offset):
+ nib = self.decoded_nibbles
+ baro = ''
+ if not (nib[offset + 2][3] == '' or nib[offset + 1][3] == ''
+ or nib[offset][3] == ''):
+ baro = str(int(nib[offset + 1][3] + nib[offset][3], 16) + 856)
+ self.put(nib[offset][0], nib[offset + 3][1],
+ self.out_ann, [2, [baro + ' mb', baro]])
+
+ def oregon_wind_dir(self, offset):
+ nib = self.decoded_nibbles
+ if nib[offset][3] != '':
+ w_dir = int(int(nib[offset][3], 16) * 22.5)
+ w_compass = dir_table[math.floor((w_dir + 11.25) / 22.5)]
+ self.put(nib[offset][0], nib[offset][1], self.out_ann,
+ [2, [w_compass + ' (' + str(w_dir) + '\u00b0)', w_compass]])
+
+ def oregon_channel(self, offset):
+ nib = self.decoded_nibbles
+ channel = ''
+ if nib[offset][3] != '':
+ ch = int(nib[offset][3], 16)
+ if self.ver != 'v3': # May not be true for all v2.1 sensors.
+ if ch != 0:
+ bit_pos = 0
+ while ((ch & 1) == 0):
+ bit_pos += 1
+ ch = ch >> 1
+ if self.ver == 'v2.1':
+ bit_pos += 1
+ channel = str(bit_pos)
+ elif self.ver == 'v3': # Not sure if this applies to all v3's.
+ channel = str(ch)
+ if channel != '':
+ self.put(nib[offset][0], nib[offset][1],
+ self.out_ann, [2, ['Ch ' + channel, channel]])
+
+ def oregon_battery(self, offset):
+ nib = self.decoded_nibbles
+ batt = 'OK'
+ if nib[offset][3] != '':
+ if (int(nib[offset][3], 16) >> 2) & 0x1 == 1:
+ batt = 'Low'
+ self.put(nib[offset][0], nib[offset][1],
+ self.out_ann, [2, ['Batt ' + batt, batt]])
+
+ def oregon_level2(self): # v2 and v3 level 2 decoder.
+ nib = self.decoded_nibbles
+ self.sensor_id = (nib[0][3] + nib[1][3] + nib[2][3] + nib[3][3]).upper()
+ nl, sensor_type = sensor.get(self.sensor_id, [['Unknown'], 'Unknown'])
+ names = ','.join(nl)
+ # Allow user to try decoding an unknown sensor.
+ if sensor_type == 'Unknown' and self.unknown != 'Unknown':
+ sensor_type = self.unknown
+ self.put(nib[0][0], nib[3][1], self.out_ann,
+ [2, [names + ' - ' + sensor_type, names, nl[0]]])
+ self.oregon_channel(4)
+ self.oregon_battery(7)
+ if sensor_type == 'Rain':
+ self.oregon_put_l2_param(8, 4, 2, '', ' in/hr') # Rain rate
+ self.oregon_put_l2_param(12, 6, 3, 'Total ', ' in') # Rain total
+ self.oregon_checksum(18)
+ if sensor_type == 'Rain1':
+ self.oregon_put_l2_param(8, 3, 1, '', ' mm/hr') # Rain rate
+ self.oregon_put_l2_param(11, 5, 1, 'Total ', ' mm') # Rain total
+ self.oregon_checksum(18)
+ if sensor_type == 'Temp':
+ self.oregon_temp(8)
+ self.oregon_checksum(12)
+ if sensor_type == 'Temp_Hum_Baro':
+ self.oregon_temp(8)
+ self.oregon_put_l2_param(12, 2, 0, 'Hum ', '%') # Hum
+ self.oregon_baro(15) # Baro
+ self.oregon_checksum(19)
+ if sensor_type == 'Temp_Hum_Baro1':
+ self.oregon_temp(8)
+ self.oregon_put_l2_param(12, 2, 0, 'Hum ', '%') # Hum
+ self.oregon_baro(14) # Baro
+ if sensor_type == 'Temp_Hum':
+ self.oregon_temp(8)
+ self.oregon_put_l2_param(12, 2, 0, 'Hum ', '%') # Hum
+ self.oregon_checksum(15)
+ if sensor_type == 'Temp_Hum1':
+ self.oregon_temp(8)
+ self.oregon_put_l2_param(12, 2, 0, 'Hum ', '%') # Hum
+ self.oregon_checksum(14)
+ if sensor_type == 'UV':
+ self.oregon_put_l2_param(8, 2, 0, '', '') # UV
+ if sensor_type == 'UV1':
+ self.oregon_put_l2_param(11, 2, 0,'' ,'') # UV
+ if sensor_type == 'Wind':
+ self.oregon_wind_dir(8)
+ self.oregon_put_l2_param(11, 3, 1, 'Gust ', ' m/s') # Wind gust
+ self.oregon_put_l2_param(14, 3, 1, 'Speed ', ' m/s') # Wind speed
+ self.oregon_checksum(17)
+
+ def oregon_put_checksum(self, nibbles, checksum):
+ nib = self.decoded_nibbles
+ result = 'BAD'
+ if (nibbles + 1) < len(nib):
+ if (nib[nibbles + 1][3] != '' and nib[nibbles][3] != ''
+ and checksum != -1):
+ if self.ver != 'v1':
+ if checksum == (int(nib[nibbles + 1][3], 16) * 16 +
+ int(nib[nibbles][3], 16)):
+ result = 'OK'
+ else:
+ if checksum == (int(nib[nibbles][3], 16) * 16 +
+ int(nib[nibbles+1][3], 16)):
+ result = 'OK'
+ rx_check = (nib[nibbles + 1][3] + nib[nibbles][3]).upper()
+ details = '%s Calc %s Rx %s ' % (result, hex(checksum)[2:].upper(),
+ rx_check)
+ self.put(nib[nibbles][0], nib[nibbles + 1][1],
+ self.out_ann, [2, ['Checksum ' + details, result]])
+
+ def oregon_checksum(self, nibbles):
+ checksum = 0
+ for i in range(nibbles): # Add reversed nibbles.
+ nibble = self.ookstring[i * 4 : i * 4 + 4]
+ nibble = nibble[::-1] # Reversed from right.
+ if 'E' in nibble: # Abort checksum if there are errors.
+ checksum = -1
+ break
+ checksum += int(nibble, 2)
+ if checksum > 255:
+ checksum -= 255 # Make it roll over at 255.
+ chk_ver, comment = sensor_checksum.get(self.sensor_id,
+ ['Unknown', 'Unknown'])
+ if chk_ver != 'Unknown':
+ self.ver = chk_ver
+ if self.ver == 'v2.1':
+ checksum -= 10 # Subtract 10 from v2 checksums.
+ self.oregon_put_checksum(nibbles, checksum)
+
+ def oregon_checksum_v1(self):
+ nib = self.decoded_nibbles
+ checksum = 0
+ for i in range(3): # Add the first three bytes.
+ if nib[2 * i][3] == '' or nib[2 * i + 1][3] == '': # Abort if blank.
+ checksum = -1
+ break
+ checksum += ((int(nib[2 * i][3], 16) & 0xF) << 4 |
+ (int(nib[2 * i + 1][3], 16) & 0xF))
+ if checksum > 255:
+ checksum -= 255 # Make it roll over at 255.
+ self.oregon_put_checksum(6, checksum)
+
+ def decode(self, ss, es, data):
+ self.decoded = data
+ self.oregon()