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Bug #11606 » baofeng_uv17Pro.py

Dan Smith, 10/13/2024 01:03 PM

 
# Copyright 2023:
# * Sander van der Wel, <svdwel@icloud.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 logging

from chirp.drivers import baofeng_common as bfc
from chirp import chirp_common, directory, memmap
from chirp import bitwise
from chirp.settings import RadioSetting, \
RadioSettingValueBoolean, RadioSettingValueList, \
RadioSettingValueString, \
RadioSettings, RadioSettingGroup
import struct
from chirp import errors, util

LOG = logging.getLogger(__name__)

# Baofeng UV-17L magic string
MSTRING_UV17L = b"PROGRAMBFNORMALU"
MSTRING_UV17PROGPS = b"PROGRAMCOLORPROU"
# Baofeng GM-5RH magic string
MSTRING_GM5RH = b"PROGRAMBFGMRS05U"
# BTECH BF-F8HP Pro magic string
MSTRING_BFF8HPPRO = b"PROGRAMBF5RTECHU"

DTMF_CHARS = "0123456789 *#ABCD"
STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 20.0, 25.0, 50.0]
LIST_STEPS = ["2.5", "5.0", "6.25", "10.0", "12.5", "20.0", "25.0", "50.0"]

LIST_AB = ["A", "B"]
LIST_BANDWIDTH = ["Wide", "Narrow"]
LIST_DTMFSPEED = ["%s ms" % x for x in [50, 100, 200, 300, 500]]
LIST_HANGUPTIME = ["%s s" % x for x in [3, 4, 5, 6, 7, 8, 9, 10]]
LIST_SIDE_TONE = ["Off", "Side Key", "ID", "Side + ID"]
LIST_PTTID = ["Off", "BOT", "EOT", "Both"]
LIST_TIMEOUT_ALARM = ["Off"] + ["%s sec" % x for x in range(1, 11)]
LIST_PILOT_TONE = ["1000 Hz", "1450 Hz", "1750 Hz", "2100 Hz"]
LIST_VOICE = ["Off", "English", "Chinese"]
LIST_WORKMODE = ["Frequency", "Channel"]
LIST_SCANMODE = ["Time", "Carrier", "Search"]
LIST_ALARMMODE = ["Local", "Send Tone", "Send Code"]
LIST_QT_SAVEMODE = ["Both", "RX", "TX"]
LIST_RPT_TAIL_CLEAR = ["%s ms" % x for x in range(0, 1100, 100)]
LIST_VOX_DELAY_TIME = ["%s ms" % x for x in range(500, 2100, 100)]
LIST_VOX_LEVEL = ["Off"] + ["%s" % x for x in range(1, 10, 1)]
LIST_VOX_LEVEL_ALT = ["%s" % x for x in range(1, 10, 1)]
LIST_GPS_MODE = ["GPS", "Beidou", "GPS + Beidou"]
LIST_GPS_TIMEZONE = ["%s" % x for x in range(-12, 13, 1)]
LIST_SHIFTS = ["Off", "+", "-"]
CHARSET_GB2312 = chirp_common.CHARSET_ASCII
for x in range(0xB0, 0xD7):
for y in range(0xA1, 0xFF):
CHARSET_GB2312 += bytes([x, y]).decode('gb2312')


def model_match(cls, data):
"""Match the opened image to the correct version"""
return data[cls.MEM_TOTAL:] == bytes(cls.MODEL, 'utf-8')


def _crypt(symbol_index, buffer):
# Some weird encryption is used. From the table below, we only use "CO 7".
tblEncrySymbol = [b"BHT ", b"CO 7", b"A ES", b" EIY", b"M PQ",
b"XN Y", b"RVB ", b" HQP", b"W RC", b"MS N",
b" SAT", b"K DH", b"ZO R", b"C SL", b"6RB ",
b" JCG", b"PN V", b"J PK", b"EK L", b"I LZ"]
tbl_encrypt_symbols = tblEncrySymbol[symbol_index]
dec_buffer = b""
index1 = 0
for index2 in range(len(buffer)):
bool_encrypt_char = ((tbl_encrypt_symbols[index1] != 32) and
(buffer[index2] != 0) and
(buffer[index2] != 255) and
(buffer[index2] != tbl_encrypt_symbols[index1])
and (buffer[index2] !=
(tbl_encrypt_symbols[index1] ^ 255)))
if (bool_encrypt_char):
dec_byte = buffer[index2] ^ tbl_encrypt_symbols[index1]
dec_buffer += struct.pack('>B', dec_byte)
else:
dec_buffer += struct.pack('>B', buffer[index2])
index1 = (index1 + 1) % 4
return dec_buffer


def _sendmagic(radio, magic, response_len):
bfc._rawsend(radio, magic)
return bfc._rawrecv(radio, response_len)


def _do_ident(radio):
# Flush input buffer
bfc._clean_buffer(radio)

# Ident radio
ack = _sendmagic(radio, radio._magic, len(radio._fingerprint))

if not ack.startswith(radio._fingerprint):
if ack:
LOG.debug(repr(ack))
raise errors.RadioError("Radio did not respond as expected (A)")

for magic, resplen in radio._magics:
_sendmagic(radio, magic, resplen)

return True


def _download(radio):
"""Get the memory map"""

# Put radio in program mode and identify it
_do_ident(radio)
data = b""

# UI progress
status = chirp_common.Status()
status.cur = 0
status.max = radio.MEM_TOTAL // radio.BLOCK_SIZE
status.msg = "Cloning from radio..."
radio.status_fn(status)

for i in range(len(radio.MEM_SIZES)):
MEM_SIZE = radio.MEM_SIZES[i]
MEM_START = radio.MEM_STARTS[i]
for addr in range(MEM_START, MEM_START + MEM_SIZE,
radio.BLOCK_SIZE):
frame = radio._make_read_frame(addr, radio.BLOCK_SIZE)
# DEBUG
LOG.debug("Frame=" + util.hexprint(frame))

# Sending the read request
bfc._rawsend(radio, frame)

# Now we read data
d = bfc._rawrecv(radio, radio.BLOCK_SIZE + 4)

LOG.debug("Response Data= " + util.hexprint(d))
d = _crypt(radio._encrsym, d[4:])

# Aggregate the data
data += d

# UI Update
status.cur = len(data) // radio.BLOCK_SIZE
status.msg = "Cloning from radio..."
radio.status_fn(status)
return data


def _upload(radio):
# Put radio in program mode and identify it
_do_ident(radio)
data = b""

# UI progress
status = chirp_common.Status()
status.cur = 0
status.max = radio.MEM_TOTAL // radio.BLOCK_SIZE
status.msg = "Cloning from radio..."
radio.status_fn(status)

data_addr = 0x00
radio_mem = radio.get_mmap()
for i in range(len(radio.MEM_SIZES)):
MEM_SIZE = radio.MEM_SIZES[i]
MEM_START = radio.MEM_STARTS[i]
for addr in range(MEM_START, MEM_START + MEM_SIZE,
radio.BLOCK_SIZE):
data = radio_mem[data_addr:data_addr + radio.BLOCK_SIZE]
data = _crypt(radio._encrsym, data)
data_addr += radio.BLOCK_SIZE

frame = radio._make_frame(b"W", addr, radio.BLOCK_SIZE, data)
# DEBUG
LOG.debug("Frame=" + util.hexprint(frame))

# Sending the read request
bfc._rawsend(radio, frame)

# receiving the response
ack = bfc._rawrecv(radio, 1)
if ack != b"\x06":
msg = "Bad ack writing block 0x%04x" % addr
raise errors.RadioError(msg)

# UI Update
status.cur = data_addr // radio.BLOCK_SIZE
status.msg = "Cloning to radio..."
radio.status_fn(status)
return data


@directory.register
class UV17Pro(bfc.BaofengCommonHT):
"""Baofeng UV-17Pro"""
VENDOR = "Baofeng"
MODEL = "UV-17Pro"

MEM_STARTS = [0x0000, 0x9000, 0xA000, 0xD000]
MEM_SIZES = [0x8040, 0x0040, 0x02C0, 0x0040]

MEM_TOTAL = 0x8380
BLOCK_SIZE = 0x40
BAUD_RATE = 115200

download_function = _download
upload_function = _upload

_gmrs = False
_bw_shift = False
_has_support_for_banknames = False
_has_workmode_support = True
_has_savemode = True

_tri_band = True
_fileid = []
_magic = MSTRING_UV17L
_fingerprint = b"\x06"
_magics = [(b"\x46", 16),
(b"\x4d", 15),
(b"\x53\x45\x4E\x44\x21\x05\x0D\x01\x01\x01\x04\x11\x08\x05" +
b"\x0D\x0D\x01\x11\x0F\x09\x12\x09\x10\x04\x00", 1)]
_fw_ver_start = 0x1EF0
_recv_block_size = 0x40
_mem_size = MEM_TOTAL
_ack_block = True
_has_when_to_send_aniid = True
_vfoscan = False
_has_gps = False
_has_voxsw = False
_has_pilot_tone = False
_has_send_id_delay = False
_has_skey2_short = False
_scode_offset = 0
_encrsym = 1
_has_voice = True
_mem_positions = (0x8080, 0x80A0, 0x8280)

MODES = ["NFM", "FM"]
VALID_CHARS = chirp_common.CHARSET_ALPHANUMERIC + \
"!@#$%^&*()+-=[]:\";'<>?,./"
LENGTH_NAME = 12
SKIP_VALUES = ["", "S"]
DTCS_CODES = tuple(sorted(chirp_common.DTCS_CODES + (645,)))
RXTX_CODES = ('Off', )
LIST_PW_SAVEMODE = ["Off", "On"]
for code in chirp_common.TONES:
RXTX_CODES = (RXTX_CODES + (str(code), ))
for code in DTCS_CODES:
RXTX_CODES = (RXTX_CODES + ('D' + str(code) + 'N', ))
for code in DTCS_CODES:
RXTX_CODES = (RXTX_CODES + ('D' + str(code) + 'I', ))
POWER_LEVELS = [chirp_common.PowerLevel("High", watts=5.00),
chirp_common.PowerLevel("Low", watts=1.00)]
_airband = (108000000, 135999999)
_vhf_range = (136000000, 174000000)
_vhf2_range = (200000000, 260000000)
_uhf_range = (400000000, 520000000)
_uhf2_range = (350000000, 390000000)

VALID_BANDS = [_vhf_range, _vhf2_range,
_uhf_range]
PTTID_LIST = LIST_PTTID
SCODE_LIST = ["%s" % x for x in range(1, 21)]
SQUELCH_LIST = ["Off"] + list("12345")
LIST_POWERON_DISPLAY_TYPE = ["LOGO", "BATT voltage"]
LIST_TIMEOUT = ["Off"] + ["%s sec" % x for x in range(15, 195, 15)]
LIST_VOICE = ["English", "Chinese"]
LIST_BACKLIGHT_TIMER = ["Always On"] + ["%s sec"
% x for x in range(5, 25, 5)]
LIST_MODE = ["Name", "Frequency", "Channel Number"]
LIST_BEEP = ["Off", "Beep", "Voice", "Both"]
LIST_MENU_QUIT_TIME = ["%s sec" % x for x in range(5, 55, 5)] + ["60 sec"]
LIST_ID_DELAY = ["%s ms" % x for x in range(100, 3100, 100)]
LIST_SEPARATE_CODE = ["A", "B", "C", "D", "*", "#"]
LIST_GROUP_CALL_CODE = ["Off"] + LIST_SEPARATE_CODE
LIST_SKEY2_SHORT = ["FM", "Scan", "Search", "Vox"]

CHANNELS = 1000

MEM_FORMAT = """
struct {
lbcd rxfreq[4];
lbcd txfreq[4];
ul16 rxtone;
ul16 txtone;
u8 scode;
u8 pttid;
u8 lowpower;
u8 unknown1:1,
wide:1,
sqmode:2,
bcl:1,
scan:1,
unknown2:1,
fhss:1;
u8 unknown3;
u8 unknown4;
u8 unknown5;
u8 unknown6;
char name[12];
} memory[1000];

struct vfo_entry {
u8 freq[8];
ul16 rxtone;
ul16 txtone;
u8 unknown0;
u8 bcl;
u8 sftd:3,
scode:5;
u8 unknown1;
u8 lowpower;
u8 unknown2:1,
wide:1,
unknown3:5,
fhss:1;
u8 unknown4;
u8 step;
u8 offset[6];
u8 unknown5[2];
u8 sqmode;
u8 unknown6[3];
};

#seekto 0x8000;
struct {
struct vfo_entry a;
struct vfo_entry b;
} vfo;

struct {
u8 squelch;
u8 savemode;
u8 vox;
u8 backlight;
u8 dualstandby;
u8 tot;
u8 beep;
u8 voicesw;
u8 voice;
u8 sidetone;
u8 scanmode;
u8 pttid;
u8 pttdly;
u8 chadistype;
u8 chbdistype;
u8 bcl;
u8 autolock;
u8 alarmmode;
u8 alarmtone;
u8 unknown1;
u8 tailclear;
u8 rpttailclear;
u8 rpttaildet;
u8 roger;
u8 a_or_b_selected; // a=0, b=1
u8 fmenable;
u8 chbworkmode:4,
chaworkmode:4;
u8 keylock;
u8 powerondistype;
u8 tone;
u8 unknown4[2];
u8 voxdlytime;
u8 menuquittime;
u8 unknown5[2];
u8 dispani;
u8 unknown11[3];
u8 totalarm;
u8 unknown6[2];
u8 ctsdcsscantype;
ul16 vfoscanmin;
ul16 vfoscanmax;
u8 gpsw;
u8 gpsmode;
u8 unknown7[2];
u8 key2short;
u8 unknown8[2];
u8 rstmenu;
u8 singlewatch;
u8 hangup;
u8 voxsw;
u8 gpstimezone;
u8 unknown10;
u8 inputdtmf;
u8 gpsunits;
u8 pontime;
char stationid[8];
} settings;

#seekto 0x%04X;
struct {
u8 code[5];
u8 unknown[1];
u8 unused1:6,
aniid:2;
u8 dtmfon;
u8 dtmfoff;
u8 separatecode;
u8 groupcallcode;
} ani;

#seekto 0x%04X;
struct {
u8 code[5];
char name[10];
u8 unused;
} pttid[20];

struct {
u8 unknown32[32];
u8 code[16];
} upcode;

struct {
u8 code[16];
} downcode;

#seekto 0x%04X;
struct {
char name[16];
} bank_name[10];
"""

def _make_read_frame(self, addr, length):
"""Pack the info in the header format"""
frame = self._make_frame(b"\x52", addr, length)
# Return the data
return frame

def _make_frame(self, cmd, addr, length, data=""):
"""Pack the info in the header format"""
frame = cmd + struct.pack(">i", addr)[2:] + struct.pack("b", length)
# add the data if set
if len(data) != 0:
frame += data
# return the data
return frame

@classmethod
def get_prompts(cls):
rp = chirp_common.RadioPrompts()
rp.experimental = \
('This driver is a beta version.\n'
'\n'
'Please save an unedited copy of your first successful\n'
'download to a CHIRP Radio Images(*.img) file.'
)
rp.pre_download = _(
"Follow these instructions to download your info:\n"
"1 - Turn off your radio\n"
"2 - Connect your interface cable\n"
"3 - Turn on your radio\n"
"4 - Do the download of your radio data\n")
rp.pre_upload = _(
"Follow this instructions to upload your info:\n"
"1 - Turn off your radio\n"
"2 - Connect your interface cable\n"
"3 - Turn on your radio\n"
"4 - Do the upload of your radio data\n")
return rp

def process_mmap(self):
"""Process the mem map into the mem object"""
# make lines shorter for style check.
fmt = self.MEM_FORMAT % self._mem_positions
self._memobj = bitwise.parse(fmt, self._mmap)

# DTMF settings
def apply_code(self, setting, obj, length):
code = []
for j in range(0, length):
try:
code.append(DTMF_CHARS.index(str(setting.value)[j]))
except IndexError:
code.append(0xFF)
obj.code = code

def _filterCodeName(self, name):
fname = b""
for char in name:
if ord(str(char)) in [0, 255]:
break
fname += int(char).to_bytes(1, 'big')
return fname.decode('gb2312').strip()

def apply_codename(self, setting, obj):
codename = (str(setting.value).encode('gb2312')[:10].ljust(10,
b"\xFF"))
obj.name = codename

def get_settings_common_dtmf(self, dtmfe, _mem):
for i in range(0, len(self.SCODE_LIST)):
# Signal Code
_codeobj = self._memobj.pttid[i].code
_code = "".join([
DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 5, _code, False)
val.set_charset(DTMF_CHARS)
pttid = RadioSetting("pttid/%i.code" % i,
"Signal Code %i" % (i + 1), val)
if self.MODEL == "BF-F8HP-PRO":
pttid.set_doc("3 characters maximum")
pttid.set_apply_callback(self.apply_code, self._memobj.pttid[i], 5)
dtmfe.append(pttid)

# Signal Code Name
_nameobj = self._memobj.pttid[i]
try:
rs = RadioSetting(
"pttid/%i.name" % i,
"Signal Code %i Name" % (i + 1),
RadioSettingValueString(
0, 10, self._filterCodeName(_nameobj.name),
False, CHARSET_GB2312))
rs.set_apply_callback(self.apply_codename, _nameobj)
dtmfe.append(rs)
except AttributeError:
# UV17, et al do not have pttid.name
pass

_codeobj = self._memobj.ani.code
_code = "".join([DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 5, _code, False)
val.set_charset(DTMF_CHARS)
rs = RadioSetting("ani.code", "ANI Code", val)
if self.MODEL == "BF-F8HP-PRO":
rs.set_doc("3 characters maximum")
rs.set_apply_callback(self.apply_code, self._memobj.ani, 5)
dtmfe.append(rs)

def get_settings_pro_dtmf(self, dtmfe, _mem):
if _mem.ani.dtmfon > 0xC3:
val = 0x03
else:
val = _mem.ani.dtmfon
rs = RadioSetting("ani.dtmfon", "DTMF Speed (on)",
RadioSettingValueList(LIST_DTMFSPEED,
current_index=val))
dtmfe.append(rs)

if _mem.ani.dtmfoff > 0xC3:
val = 0x03
else:
val = _mem.ani.dtmfoff
rs = RadioSetting("ani.dtmfoff", "DTMF Speed (off)",
RadioSettingValueList(LIST_DTMFSPEED,
current_index=val))
dtmfe.append(rs)

if self._has_when_to_send_aniid:
rs = RadioSetting(
"ani.aniid", "When to send ANI ID",
RadioSettingValueList(
LIST_PTTID, current_index=_mem.ani.aniid))
dtmfe.append(rs)

if _mem.settings.hangup >= len(LIST_HANGUPTIME):
val = 0
else:
val = _mem.settings.hangup
rs = RadioSetting("settings.hangup", "Hang-up time",
RadioSettingValueList(LIST_HANGUPTIME,
current_index=val))
dtmfe.append(rs)

def get_settings_common_basic(self, basic, _mem):
if _mem.settings.squelch >= len(self.SQUELCH_LIST):
val = 0x00
else:
val = _mem.settings.squelch
rs = RadioSetting("settings.squelch", "Squelch",
RadioSettingValueList(
self.SQUELCH_LIST, current_index=val))
basic.append(rs)

if _mem.settings.tot >= len(self.LIST_TIMEOUT):
val = 0x03
else:
val = _mem.settings.tot
rs = RadioSetting("settings.tot", "Timeout Timer",
RadioSettingValueList(
self.LIST_TIMEOUT, current_index=val))
basic.append(rs)

rs = RadioSetting("settings.dualstandby", "Dual Watch",
RadioSettingValueBoolean(_mem.settings.dualstandby))
basic.append(rs)

if _mem.settings.powerondistype >= len(self.LIST_POWERON_DISPLAY_TYPE):
val = 0x00
else:
rs = RadioSetting("settings.powerondistype",
"Power On Display Type",
RadioSettingValueList(
self.LIST_POWERON_DISPLAY_TYPE,
current_index=_mem.settings.powerondistype))
basic.append(rs)

if self._has_voice:
if _mem.settings.voice >= len(self.LIST_VOICE):
val = 0x01
else:
val = _mem.settings.voice
rs = RadioSetting("settings.voice", "Voice Prompt",
RadioSettingValueList(
self.LIST_VOICE, current_index=val))
basic.append(rs)

rs = RadioSetting("settings.voicesw", "Enable Voice",
RadioSettingValueBoolean(_mem.settings.voicesw))
basic.append(rs)

if _mem.settings.backlight >= len(self.LIST_BACKLIGHT_TIMER):
val = 0x00
else:
val = _mem.settings.backlight
rs = RadioSetting("settings.backlight", "Backlight Timer",
RadioSettingValueList(
self.LIST_BACKLIGHT_TIMER,
current_index=val))
basic.append(rs)

rs = RadioSetting("settings.autolock", "Key Auto Lock",
RadioSettingValueBoolean(_mem.settings.autolock))
basic.append(rs)

rs = RadioSetting("settings.beep", "Beep",
RadioSettingValueList(
self.LIST_BEEP,
current_index=_mem.settings.beep))
basic.append(rs)

rs = RadioSetting("settings.roger", "Roger",
RadioSettingValueBoolean(_mem.settings.roger))
basic.append(rs)

rs = RadioSetting("settings.chadistype", "Channel A display type",
RadioSettingValueList(
self.LIST_MODE,
current_index=_mem.settings.chadistype))
basic.append(rs)

rs = RadioSetting("settings.chbdistype", "Channel B display type",
RadioSettingValueList(
self.LIST_MODE,
current_index=_mem.settings.chbdistype))
basic.append(rs)

def get_settings_pro_basic(self, basic, _mem):

if _mem.settings.savemode > len(self.LIST_PW_SAVEMODE):
val = 0x01 # assume values out of range are some form of "On"
else:
val = _mem.settings.savemode
rs = RadioSetting("settings.savemode", "Save Mode",
RadioSettingValueList(self.LIST_PW_SAVEMODE,
current_index=val))
basic.append(rs)

rs = RadioSetting("settings.totalarm", "Timeout Timer Alarm",
RadioSettingValueList(
LIST_TIMEOUT_ALARM,
current_index=_mem.settings.totalarm))
basic.append(rs)

if self._has_pilot_tone:
rs = RadioSetting("settings.tone", "Pilot Tone",
RadioSettingValueList(
LIST_PILOT_TONE,
current_index=_mem.settings.tone))
basic.append(rs)

rs = RadioSetting("settings.sidetone", "Side Tone",
RadioSettingValueList(
LIST_SIDE_TONE,
current_index=_mem.settings.sidetone))
basic.append(rs)

rs = RadioSetting("settings.tailclear", "Tail Clear",
RadioSettingValueBoolean(_mem.settings.tailclear))
basic.append(rs)

rs = RadioSetting("settings.scanmode", "Scan Mode",
RadioSettingValueList(
LIST_SCANMODE,
current_index=_mem.settings.scanmode))
basic.append(rs)

rs = RadioSetting("settings.alarmmode", "Alarm Mode",
RadioSettingValueList(
LIST_ALARMMODE,
current_index=_mem.settings.alarmmode))
basic.append(rs)

rs = RadioSetting("settings.alarmtone", "Sound Alarm",
RadioSettingValueBoolean(_mem.settings.alarmtone))
basic.append(rs)

rs = RadioSetting("settings.keylock", "Key Lock",
RadioSettingValueBoolean(_mem.settings.keylock))
basic.append(rs)

rs = RadioSetting("settings.menuquittime", "Menu Quit Timer",
RadioSettingValueList(
self.LIST_MENU_QUIT_TIME,
current_index=_mem.settings.menuquittime))
basic.append(rs)

if self._has_send_id_delay:
rs = RadioSetting("settings.pttdly", "Send ID Delay",
RadioSettingValueList(
self.LIST_ID_DELAY,
current_index=_mem.settings.pttdly))
basic.append(rs)

rs = RadioSetting("settings.ctsdcsscantype", "QT Save Mode",
RadioSettingValueList(
LIST_QT_SAVEMODE,
current_index=_mem.settings.ctsdcsscantype))
basic.append(rs)

def getKey2shortIndex(value):
key_to_index = {0x07: 0,
0x1C: 1,
0x1D: 2,
0x2D: 3,
0x0A: 4}
return key_to_index.get(int(value), 0)

def apply_Key2short(setting, obj):
val = str(setting.value)
key_to_index = {'FM': 0x07,
'Scan': 0x1C,
'Search': 0x1D,
'Vox': 0x2D,
'TX Power': 0x0A}
obj.key2short = key_to_index.get(val, 0x07)

if self._has_skey2_short:
rs = RadioSetting("settings.key2short", "Skey2 Short",
RadioSettingValueList(
self.LIST_SKEY2_SHORT,
current_index=getKey2shortIndex(
_mem.settings.key2short)))
rs.set_apply_callback(apply_Key2short, _mem.settings)
basic.append(rs)

rs = RadioSetting("settings.chaworkmode", "Channel A work mode",
RadioSettingValueList(
LIST_WORKMODE,
current_index=_mem.settings.chaworkmode))
basic.append(rs)

rs = RadioSetting("settings.chbworkmode", "Channel B work mode",
RadioSettingValueList(
LIST_WORKMODE,
current_index=_mem.settings.chbworkmode))
basic.append(rs)

rs = RadioSetting("settings.rpttailclear", "Rpt Tail Clear",
RadioSettingValueList(
LIST_RPT_TAIL_CLEAR,
current_index=_mem.settings.rpttailclear))
basic.append(rs)

rs = RadioSetting("settings.rpttaildet", "Rpt Tail Delay",
RadioSettingValueList(
LIST_RPT_TAIL_CLEAR,
current_index=_mem.settings.rpttaildet))
basic.append(rs)

rs = RadioSetting("settings.rstmenu", "Enable Menu Rst",
RadioSettingValueBoolean(_mem.settings.rstmenu))
basic.append(rs)

if self._has_voxsw:
rs = RadioSetting("settings.voxsw", "Vox Switch",
RadioSettingValueBoolean(_mem.settings.voxsw))
basic.append(rs)

rs = RadioSetting("settings.vox", "Vox Level",
RadioSettingValueList(
LIST_VOX_LEVEL_ALT,
current_index=_mem.settings.vox))
basic.append(rs)
else:
rs = RadioSetting("settings.vox", "Vox Level",
RadioSettingValueList(
LIST_VOX_LEVEL,
current_index=_mem.settings.vox))
basic.append(rs)

rs = RadioSetting("settings.voxdlytime", "Vox Delay Time",
RadioSettingValueList(
LIST_VOX_DELAY_TIME,
current_index=_mem.settings.voxdlytime))
basic.append(rs)

if self._has_gps:
rs = RadioSetting("settings.gpsw", "GPS On",
RadioSettingValueBoolean(_mem.settings.gpsw))
basic.append(rs)

rs = RadioSetting("settings.gpsmode", "GPS Mode",
RadioSettingValueList(
LIST_GPS_MODE,
current_index=_mem.settings.gpsmode))
basic.append(rs)

rs = RadioSetting("settings.gpstimezone", "GPS Timezone",
RadioSettingValueList(
LIST_GPS_TIMEZONE,
current_index=_mem.settings.gpstimezone))
basic.append(rs)

rs = RadioSetting("settings.fmenable", "Disable FM radio",
RadioSettingValueBoolean(_mem.settings.fmenable))
basic.append(rs)

def get_settings_common_workmode(self, workmode, _mem):

vfoA = RadioSettingGroup("vfoA", "VFO A")
vfoB = RadioSettingGroup("vfoB", "VFO B")

def my_validate(value):
value = chirp_common.parse_freq(value)
for band in self.VALID_BANDS:
if value >= band[0] and value < band[1]:
return chirp_common.format_freq(value)
msg = ("{0} is not in a valid band.".format(value))
LOG.debug(msg)
return chirp_common.format_freq(band[0]) # Default to valid value

def apply_freq(setting, obj):
value = chirp_common.parse_freq(str(setting.value)) / 10
for i in range(7, -1, -1):
obj.freq[i] = value % 10
value /= 10

freqA = RadioSettingValueString(0, 10,
bfc.bcd_decode_freq(_mem.vfo.a.freq))
freqA.set_validate_callback(my_validate)
rs = RadioSetting("vfo.a.freq", "Frequency", freqA)
rs.set_apply_callback(apply_freq, _mem.vfo.a)
vfoA.append(rs)

freqB = RadioSettingValueString(0, 10,
bfc.bcd_decode_freq(_mem.vfo.b.freq))
freqB.set_validate_callback(my_validate)
rs = RadioSetting("vfo.b.freq", "Frequency", freqB)
rs.set_apply_callback(apply_freq, _mem.vfo.b)
vfoB.append(rs)

if _mem.vfo.a.sftd >= len(LIST_SHIFTS):
val = 0
else:
val = _mem.vfo.a.sftd
rs = RadioSetting("vfo.a.sftd", "Shift",
RadioSettingValueList(
LIST_SHIFTS, current_index=val))
vfoA.append(rs)

if _mem.vfo.b.sftd >= len(LIST_SHIFTS):
val = 0
else:
val = _mem.vfo.b.sftd
rs = RadioSetting("vfo.b.sftd", "Shift",
RadioSettingValueList(
LIST_SHIFTS, current_index=val))
vfoB.append(rs)

def convert_bytes_to_offset(bytes):
real_offset = 0
for byte in bytes:
real_offset = (real_offset * 10) + byte
return chirp_common.format_freq(real_offset * 1000)

def apply_offset(setting, obj):
value = chirp_common.parse_freq(str(setting.value)) / 1000
for i in range(5, -1, -1):
obj.offset[i] = value % 10
value /= 10

offA = RadioSettingValueString(
0, 10, convert_bytes_to_offset(_mem.vfo.a.offset))
rs = RadioSetting("vfo.a.offset",
"Offset (0.0-999.999)", offA)
rs.set_apply_callback(apply_offset, _mem.vfo.a)
vfoA.append(rs)

offB = RadioSettingValueString(
0, 10, convert_bytes_to_offset(_mem.vfo.b.offset))
rs = RadioSetting("vfo.b.offset",
"Offset (0.0-999.999)", offB)
rs.set_apply_callback(apply_offset, _mem.vfo.b)
vfoB.append(rs)

POWER_LEVELS = [str(x) for x in self.POWER_LEVELS]
if _mem.vfo.a.lowpower >= len(POWER_LEVELS):
val = 0
else:
val = _mem.vfo.a.lowpower
rs = RadioSetting("vfo.a.lowpower", "Power",
RadioSettingValueList(POWER_LEVELS,
current_index=val))
vfoA.append(rs)

if _mem.vfo.b.lowpower >= len(POWER_LEVELS):
val = 0
else:
val = _mem.vfo.b.lowpower
rs = RadioSetting("vfo.b.lowpower", "Power",
RadioSettingValueList(POWER_LEVELS,
current_index=val))
vfoB.append(rs)

if _mem.vfo.a.wide >= len(LIST_BANDWIDTH):
val = 0
else:
val = _mem.vfo.a.wide
rs = RadioSetting("vfo.a.wide", "Bandwidth",
RadioSettingValueList(LIST_BANDWIDTH,
current_index=val))
vfoA.append(rs)

if _mem.vfo.b.wide >= len(LIST_BANDWIDTH):
val = 0
else:
val = _mem.vfo.b.wide
rs = RadioSetting("vfo.b.wide", "Bandwidth",
RadioSettingValueList(LIST_BANDWIDTH,
current_index=val))
vfoB.append(rs)

if _mem.vfo.a.scode >= len(self.SCODE_LIST):
val = 0
else:
val = _mem.vfo.a.scode
rs = RadioSetting("vfo.a.scode", "Signal Code",
RadioSettingValueList(self.SCODE_LIST,
current_index=val))
vfoA.append(rs)

if _mem.vfo.b.scode >= len(self.SCODE_LIST):
val = 0
else:
val = _mem.vfo.b.scode
rs = RadioSetting("vfo.b.scode", "Signal Code",
RadioSettingValueList(self.SCODE_LIST,
current_index=val))
vfoB.append(rs)

if _mem.vfo.a.step >= len(STEPS):
val = 0
else:
val = _mem.vfo.a.step
rs = RadioSetting("vfo.a.step", "Tuning Step",
RadioSettingValueList(LIST_STEPS, current_index=val))
vfoA.append(rs)

if _mem.vfo.b.step >= len(STEPS):
val = 0
else:
val = _mem.vfo.b.step
rs = RadioSetting("vfo.b.step", "Tuning Step",
RadioSettingValueList(LIST_STEPS, current_index=val))
vfoB.append(rs)

workmode.append(vfoA)
workmode.append(vfoB)

def get_settings_common_bank(self, bank, _mem):

def _filterName(name):
fname = b""
for char in name:
if ord(str(char)) == 255:
break
fname += int(char).to_bytes(1, 'big')
return fname.decode('gb2312').strip()

def apply_bankname(setting, obj):
name = str(setting.value).encode('gb2312')[:16].ljust(16, b"\xff")
obj.name = name

if self._has_support_for_banknames:
for i in range(0, 10):
_nameobj = self._memobj.bank_name[i]
rs = RadioSetting("bank_name/%i.name" % i,
"Bank name %i" % (i + 1),
RadioSettingValueString(
0, 16, _filterName(_nameobj.name), False,
CHARSET_GB2312))
if self.MODEL == "BF-F8HP-PRO":
rs.set_doc("12 characters maximum (only the first 6 show "
"up on the main display)")
rs.set_apply_callback(apply_bankname, _nameobj)
bank.append(rs)

def get_settings(self):
"""Translate the bit in the mem_struct into settings in the UI"""
_mem = self._memobj
supported = []

basic = RadioSettingGroup("basic", "Basic Settings")
self.get_settings_common_basic(basic, _mem)
self.get_settings_pro_basic(basic, _mem)
supported.append(basic) # add basic menu

if self._has_workmode_support:
workmode = RadioSettingGroup("workmode", "Work Mode Settings")
self.get_settings_common_workmode(workmode, _mem)
supported.append(workmode) # add workmode menu if supported

dtmfe = RadioSettingGroup("dtmfe", "DTMF Encode Settings")
self.get_settings_common_dtmf(dtmfe, _mem)
self.get_settings_pro_dtmf(dtmfe, _mem)
supported.append(dtmfe) # add dtmfe menu

if self._has_support_for_banknames:
bank = RadioSettingGroup("bank", "Bank names")
self.get_settings_common_bank(bank, _mem)
supported.append(bank) # add bank menu if supported

top = RadioSettings(*tuple(supported))
return top

def set_settings(self, settings):
_settings = self._memobj.settings
for element in settings:
if not isinstance(element, RadioSetting):
self.set_settings(element)
continue
else:
try:
name = element.get_name()
if "." in name:
bits = name.split(".")
obj = self._memobj
for bit in bits[:-1]:
if "/" in bit:
bit, index = bit.split("/", 1)
index = int(index)
obj = getattr(obj, bit)[index]
else:
obj = getattr(obj, bit)
setting = bits[-1]
else:
obj = _settings
setting = element.get_name()

if element.has_apply_callback():
LOG.debug("Using apply callback")
element.run_apply_callback()
elif element.value.get_mutable():
LOG.debug("Setting %s = %s" % (setting, element.value))
setattr(obj, setting, element.value)
except Exception:
LOG.debug(element.get_name())
raise

def sync_in(self):
"""Download from radio"""
try:
data = self.download_function()
except errors.RadioError:
# Pass through any real errors we raise
raise
except Exception:
# If anything unexpected happens, make sure we raise
# a RadioError and log the problem
LOG.exception('Unexpected error during download')
raise errors.RadioError('Unexpected error communicating '
'with the radio')
self._mmap = memmap.MemoryMapBytes(data)

self.process_mmap()

def sync_out(self):
"""Upload to radio"""
try:
self.upload_function()
except errors.RadioError:
raise
except Exception:
# If anything unexpected happens, make sure we raise
# a RadioError and log the problem
LOG.exception('Unexpected error during upload')
raise errors.RadioError('Unexpected error communicating '
'with the radio')

def get_features(self):
"""Get the radio's features"""

rf = chirp_common.RadioFeatures()
rf.has_settings = True
rf.has_bank = False
rf.has_tuning_step = False
rf.can_odd_split = True
rf.has_name = True
rf.has_offset = True
rf.has_mode = True
rf.has_dtcs = True
rf.has_rx_dtcs = True
rf.has_dtcs_polarity = True
rf.has_ctone = True
rf.has_cross = True
rf.valid_modes = self.MODES
rf.valid_characters = self.VALID_CHARS
rf.valid_name_length = self.LENGTH_NAME
if self._gmrs:
rf.valid_duplexes = ["", "+", "off"]
else:
rf.valid_duplexes = ["", "-", "+", "split", "off"]
rf.valid_tmodes = ['', 'Tone', 'TSQL', 'DTCS', 'Cross']
rf.valid_cross_modes = [
"Tone->Tone",
"DTCS->",
"->DTCS",
"Tone->DTCS",
"DTCS->Tone",
"->Tone",
"DTCS->DTCS"]
rf.valid_skips = self.SKIP_VALUES
rf.valid_dtcs_codes = self.DTCS_CODES
rf.memory_bounds = (1, self.CHANNELS)
rf.valid_power_levels = self.POWER_LEVELS
rf.valid_bands = self.VALID_BANDS
rf.valid_tuning_steps = STEPS

return rf

def validate_memory(self, mem):
msgs = []
if 'AM' in self.MODES:
if chirp_common.in_range(mem.freq,
[self._airband]) and mem.mode != 'AM':
msgs.append(chirp_common.ValidationWarning(
_('Frequency in this range requires AM mode')))
if not chirp_common.in_range(mem.freq,
[self._airband]) and mem.mode == 'AM':
msgs.append(chirp_common.ValidationWarning(
_('Frequency in this range must not be AM mode')))

return msgs + super().validate_memory(mem)

def decode_tone(self, val):
mode = ""
pol = "N"
if val in [0, 0xFFFF]:
xval = 0
elif val >= 0x0258:
mode = "Tone"
xval = int(val) / 10.0
elif val <= 0x0258:
mode = "DTCS"
if val > 0x69:
index = val - 0x6A
pol = "R"
else:
index = val - 1
xval = self.DTCS_CODES[index]
else:
LOG.warn("Bug: tone is %04x" % val)
return mode, xval, pol

def encode_tone(self, memtone, mode, tone, pol):
if mode == "Tone":
memtone.set_value(int(tone * 10))
elif mode == "TSQL":
memtone.set_value(int(tone * 10))
elif mode == "DTCS":
if pol == 'R':
memtone.set_value(self.DTCS_CODES.index(tone) + 1 + 0x69)
else:
memtone.set_value(self.DTCS_CODES.index(tone) + 1)
else:
memtone.set_value(0)

def split_txfreq(self, _mem, freq):
if self._is_txinh(_mem):
# TX freq not set
duplex = "off"
offset = 0
else:
offset = (int(_mem.txfreq) * 10) - freq
if offset != 0:
if bfc._split(self.get_features(), freq, int(
_mem.txfreq) * 10):
duplex = "split"
offset = int(_mem.txfreq) * 10
elif offset < 0:
offset = abs(offset)
duplex = "-"
elif offset > 0:
duplex = "+"
else:
duplex = ""
offset = 0
return offset, duplex

def get_memory_common(self, _mem, name, mem):
if _mem.get_raw()[0] == 255:
mem.empty = True
return mem

mem.freq = int(_mem.rxfreq) * 10

# TX freq set
mem.offset, mem.duplex = self.split_txfreq(_mem, mem.freq)

txtone = self.decode_tone(_mem.txtone)
rxtone = self.decode_tone(_mem.rxtone)
chirp_common.split_tone_decode(mem, txtone, rxtone)

if not _mem.scan:
mem.skip = "S"

levels = self.POWER_LEVELS
try:
mem.power = levels[_mem.lowpower]
except IndexError:
mem.power = levels[0]

mem.mode = _mem.wide and self.MODES[0] or self.MODES[1]
if chirp_common.in_range(mem.freq, [self._airband]):
print('freq %i means am' % mem.freq)
mem.mode = "AM"

mem.extra = RadioSettingGroup("Extra", "extra")

rs = RadioSetting("bcl", "BCL",
RadioSettingValueBoolean(_mem.bcl))
mem.extra.append(rs)

rs = RadioSetting("pttid", "PTT ID",
RadioSettingValueList(self.PTTID_LIST,
current_index=_mem.pttid))
mem.extra.append(rs)

scode = (_mem.scode - self._scode_offset) % len(self.SCODE_LIST)
rs = RadioSetting("scode", "S-CODE",
RadioSettingValueList(self.SCODE_LIST,
current_index=scode))
mem.extra.append(rs)

if self.MODEL == "BF-F8HP-PRO":
rs = RadioSetting("sqmode", "RX DTMF",
RadioSettingValueBoolean(_mem.sqmode))
mem.extra.append(rs)

rs = RadioSetting("fhss", "FHSS",
RadioSettingValueBoolean(_mem.fhss))
mem.extra.append(rs)

mem.name = str(name).replace('\xFF', ' ').replace('\x00', ' ').rstrip()

def _get_raw_memory(self, number):
return self._memobj.memory[number - 1]

def get_raw_memory(self, number):
return repr(self._get_raw_memory(number))

def get_memory(self, number):
_mem = self._get_raw_memory(number)

mem = chirp_common.Memory()
mem.number = number

self.get_memory_common(_mem, _mem.name, mem)

return mem

def unsplit_txfreq(self, mem):
_mem = self._get_raw_memory(mem.number)
if mem.duplex == "off":
for i in range(0, 4):
_mem.txfreq[i].set_raw(b"\xFF")
elif mem.duplex == "split":
_mem.txfreq = mem.offset / 10
elif mem.duplex == "+":
_mem.txfreq = (mem.freq + mem.offset) / 10
elif mem.duplex == "-":
_mem.txfreq = (mem.freq - mem.offset) / 10
else:
_mem.txfreq = mem.freq / 10

def set_memory_common(self, mem, _mem):
_mem.rxfreq = mem.freq / 10
self.unsplit_txfreq(mem)

((txmode, txtone, txpol), (rxmode, rxtone, rxpol)) = \
chirp_common.split_tone_encode(mem)
self.encode_tone(_mem.txtone, txmode, txtone, txpol)
self.encode_tone(_mem.rxtone, rxmode, rxtone, rxpol)

_mem.scan = mem.skip != "S"
_mem.wide = mem.mode == self.MODES[0]

if mem.power:
_mem.lowpower = self.POWER_LEVELS.index(mem.power)
else:
_mem.lowpower = 0

# extra settings
if len(mem.extra) > 0:
# there are setting, parse
for setting in mem.extra:
if setting.get_name() == "scode":
setattr(_mem, setting.get_name(), str(int(setting.value) +
self._scode_offset))
else:
setattr(_mem, setting.get_name(), setting.value)
else:
# there are no extra settings, load defaults
_mem.bcl = 0
_mem.pttid = 0
_mem.scode = self._scode_offset

def set_memory(self, mem):
_mem = self._get_raw_memory(mem.number)

_mem.set_raw(b"\x00"*16 + b"\xff" * 16)

if mem.empty:
_mem.set_raw(b"\xff" * 32)
return

_namelength = self.get_features().valid_name_length
_mem.name = mem.name.ljust(_namelength, '\xFF')

self.set_memory_common(mem, _mem)


@directory.register
class UV25(UV17Pro):
VENDOR = "Baofeng"
MODEL = "UV-25"


@directory.register
class UV17ProGPS(UV17Pro):
VENDOR = "Baofeng"
MODEL = "UV-17ProGPS"

_has_support_for_banknames = True
_has_workmode_support = True
_magic = MSTRING_UV17PROGPS
_magics = [(b"\x46", 16),
(b"\x4d", 7),
(b"\x53\x45\x4E\x44\x21\x05\x0D\x01\x01" +
b"\x01\x04\x11\x08\x05\x0D\x0D\x01\x11\x0F\x09\x12\x09" +
b"\x10\x04\x00", 1)]
_has_when_to_send_aniid = False
_vfoscan = True
_has_gps = True
_has_voxsw = True
_has_pilot_tone = True
_has_send_id_delay = True
_has_skey2_short = True
VALID_BANDS = [UV17Pro._airband, UV17Pro._vhf_range, UV17Pro._vhf2_range,
UV17Pro._uhf_range, UV17Pro._uhf2_range]
MODES = UV17Pro.MODES + ['AM']


@directory.register
class BF5RM(UV17Pro):
VENDOR = "Baofeng"
MODEL = "5RM"

VALID_BANDS = [UV17Pro._airband, UV17Pro._vhf_range, UV17Pro._vhf2_range,
UV17Pro._uhf_range, UV17Pro._uhf2_range]
POWER_LEVELS = [chirp_common.PowerLevel("High", watts=8.00),
chirp_common.PowerLevel("Low", watts=1.00),
chirp_common.PowerLevel("Medium", watts=5.00)]
SCODE_LIST = ["%s" % x for x in range(1, 16)]
LIST_PW_SAVEMODE = ["Off", "1:1", "1:2", "1:4"]
_has_workmode_support = True
MODES = UV17Pro.MODES + ['AM']


@directory.register
class BFK5Plus(BF5RM):
VENDOR = "Baofeng"
MODEL = "K5-Plus"


@directory.register
class GM5RH(UV17Pro):
VENDOR = "Baofeng"
MODEL = "GM-5RH"

VALID_BANDS = [UV17Pro._vhf_range, UV17Pro._vhf2_range, UV17Pro._uhf_range]
POWER_LEVELS = [chirp_common.PowerLevel("High", watts=5.00),
chirp_common.PowerLevel("Low", watts=0.50),
chirp_common.PowerLevel("Medium", watts=3.00)]
SCODE_LIST = ["%s" % x for x in range(1, 16)]
LIST_PW_SAVEMODE = ["Off", "1:1", "2:1", "3:1", "4:1"]
_has_workmode_support = True

_magic = MSTRING_GM5RH


@directory.register
class UV5GPlus(GM5RH):
VENDOR = "Radioddity"
MODEL = "UV-5G Plus"


@directory.register
class UV17RPlus(UV17Pro):
VENDOR = "Baofeng"
MODEL = "UV-17R-Plus"
VALID_BANDS = [UV17Pro._airband, UV17Pro._vhf_range, UV17Pro._vhf2_range,
UV17Pro._uhf_range, UV17Pro._uhf2_range]
MODES = UV17Pro.MODES + ['AM']


@directory.register
class F8HPPro(UV17Pro):
VENDOR = "Baofeng"
MODEL = "BF-F8HP-PRO"

_magic = MSTRING_BFF8HPPRO
_magics = [(b"\x46", 16),
(b"\x4d", 6),
(b"\x53\x45\x4E\x44\x12\x0D\x0A\x0A\x10\x03\x0D\x02\x11\x0C" +
b"\x12\x0A\x11\x06\x04\x0E\x02\x09\x0D\x00\x00", 1)]
_encrsym = 3
VALID_BANDS = [UV17Pro._airband, UV17Pro._vhf_range, UV17Pro._vhf2_range,
UV17Pro._uhf_range, UV17Pro._uhf2_range]
POWER_LEVELS = [chirp_common.PowerLevel("High", watts=8.00),
chirp_common.PowerLevel('Mid', watts=3.00),
chirp_common.PowerLevel("Low", watts=1.00)]
LIST_POWER_ON_TIME = ['3 Seconds', '5 Seconds', '10 Seconds']
LIST_GPS_UNITS = ['km/h', 'MPH', 'kn']
LIST_POWERON_DISPLAY_TYPE = ["LOGO", "BATT voltage", "Station ID"]
LIST_BEEP = ["Off", "On"]
LIST_MENU_QUIT_TIME = ["10 sec", "20 sec", "30 sec", "60 sec", "Off"]
LIST_BACKLIGHT_TIMER = ["Always On", "5 sec", "10 sec", "15 sec",
"20 sec", "30 sec", "60 sec"]
LIST_ID_DELAY = ["%s ms" % x for x in range(0, 1600, 100)]
LIST_SKEY2_SHORT = ["FM", "Scan", "Search", "Vox", "TX Power"]
MODES = UV17Pro.MODES + ['AM']

_has_support_for_banknames = True
_vfoscan = True
_has_gps = True
_has_voxsw = True
_has_pilot_tone = True
_has_send_id_delay = True
_has_skey2_short = True
_has_voice = False
_has_when_to_send_aniid = False

MEM_STARTS = [0x0000, 0x9000, 0xA000, 0xD000]
MEM_SIZES = [0x8040, 0x0080, 0x02C0, 0x00C0]

MEM_TOTAL = 0x8440
_mem_positions = (0x80C0, 0x80E0, 0x8380)

def get_settings_pro_dtmf(self, dtmfe, _mem):
super().get_settings_pro_dtmf(dtmfe, _mem)

rs = RadioSetting("ani.separatecode", "Separate Code",
RadioSettingValueList(
self.LIST_SEPARATE_CODE,
self.LIST_SEPARATE_CODE[_mem.ani.separatecode]))
dtmfe.append(rs)

rs = RadioSetting("ani.groupcallcode", "Group Call Code",
RadioSettingValueList(
self.LIST_GROUP_CALL_CODE,
self.LIST_GROUP_CALL_CODE[_mem.ani.groupcallcode]))
dtmfe.append(rs)

_codeobj = self._memobj.upcode.code
_code = "".join([DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 16, _code, False)
val.set_charset(DTMF_CHARS)
rs = RadioSetting("upcode.code", "Up Code", val)
rs.set_apply_callback(self.apply_code, self._memobj.upcode, 16)
dtmfe.append(rs)

_codeobj = self._memobj.downcode.code
_code = "".join([DTMF_CHARS[x] for x in _codeobj if int(x) < 0x1F])
val = RadioSettingValueString(0, 16, _code, False)
val.set_charset(DTMF_CHARS)
rs = RadioSetting("downcode.code", "Down Code", val)
rs.set_apply_callback(self.apply_code, self._memobj.downcode, 16)
dtmfe.append(rs)

def get_settings_pro_basic(self, basic, _mem):
super().get_settings_pro_basic(basic, _mem)

rs = RadioSetting("settings.dispani", "Display ANI",
RadioSettingValueBoolean(_mem.settings.dispani))
basic.append(rs)

rs = RadioSetting("settings.pontime", "Power on Time",
RadioSettingValueList(
self.LIST_POWER_ON_TIME,
self.LIST_POWER_ON_TIME[_mem.settings.pontime]))
basic.append(rs)

rs = RadioSetting("settings.gpsunits", "GPS Speed Units",
RadioSettingValueList(
self.LIST_GPS_UNITS,
self.LIST_GPS_UNITS[_mem.settings.gpsunits]))
basic.append(rs)

rs = RadioSetting("settings.inputdtmf", "Input DTMF",
RadioSettingValueBoolean(_mem.settings.inputdtmf))
basic.append(rs)

rs = RadioSetting("settings.singlewatch", "Single Watch",
RadioSettingValueBoolean(_mem.settings.singlewatch))
basic.append(rs)

def _filterStationID(name):
fname = b""
for char in name:
if ord(str(char)) in [0, 255]:
break
fname += int(char).to_bytes(1, 'big')
return fname.decode('gb2312').strip()

def apply_stationid(setting, obj):
stationid = (str(setting.value).encode('gb2312')[:8].ljust(8,
b"\xFF"))
obj.stationid = stationid

_nameobj = self._memobj.settings
rs = RadioSetting("settings.stationid",
"StationID",
RadioSettingValueString(
0, 8, _filterStationID(_nameobj.stationid),
False, CHARSET_GB2312))
rs.set_apply_callback(apply_stationid, _nameobj)
basic.append(rs)
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