[chirp_devel] [PATCH] [UV-6R] Add Support for Baofeng UV-6R
Jim Unroe
Tue Aug 16 16:41:54 PDT 2016
Here is a "factory" image to go along with this driver.
Jim KC9HI
On Tue, Aug 16, 2016 at 7:37 PM, Jim Unroe <rock.unroe at gmail.com> wrote:
> # HG changeset patch
> # User Jim Unroe <rock.unroe at gmail.com>
> # Date 1471390530 14400
> # Node ID 25e6a65fd82c55bb7dd98126a278d4854bc59731
> # Parent 03d700ed2aec42bbf17de6f138360dc2aac2ce20
> [UV-6R] Add Support for Baofeng UV-6R
>
> This driver adds support for the Baofeng UV-6R handheld radio.
>
> related to #2761
>
> diff -r 03d700ed2aec -r 25e6a65fd82c chirp/drivers/uv6r.py
> --- /dev/null Thu Jan 01 00:00:00 1970 +0000
> +++ b/chirp/drivers/uv6r.py Tue Aug 16 19:35:30 2016 -0400
> @@ -0,0 +1,871 @@
> +# Copyright 2016:
> +# * Jim Unroe KC9HI, <rock.unroe at gmail.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 time
> +import struct
> +import logging
> +import re
> +
> +LOG = logging.getLogger(__name__)
> +
> +from chirp.drivers import baofeng_common
> +from chirp import chirp_common, directory, memmap
> +from chirp import bitwise, errors, util
> +from chirp.settings import RadioSettingGroup, RadioSetting, \
> + RadioSettingValueBoolean, RadioSettingValueList, \
> + RadioSettingValueString, RadioSettingValueInteger, \
> + RadioSettingValueFloat, RadioSettings, \
> + InvalidValueError
> +from textwrap import dedent
> +
> +##### MAGICS #########################################################
> +
> +# Baofeng UV-6R magic string
> +MSTRING_UV6R = "\x50\xBB\xFF\x20\x14\x11\x22"
> +
> +##### ID strings #####################################################
> +
> +# Baofeng UV-6R
> +UV6R_fp1 = " BF230#1"
> +
> +DTMF_CHARS = "0123456789 *#ABCD"
> +STEPS = [2.5, 5.0, 6.25, 10.0, 12.5, 20.0, 25.0, 50.0]
> +
> +LIST_AB = ["A", "B"]
> +LIST_ALMOD = ["Site", "Tone", "Code"]
> +LIST_BANDWIDTH = ["Wide", "Narrow"]
> +LIST_COLOR = ["Off", "Blue", "Orange", "Purple"]
> +LIST_DTMFSPEED = ["%s ms" % x for x in range(50, 2010, 10)]
> +LIST_DTMFST = ["Off", "DT-ST", "ANI-ST", "DT+ANI"]
> +LIST_MODE = ["Channel", "Name", "Frequency"]
> +LIST_OFF1TO9 = ["Off"] + list("123456789")
> +LIST_OFF1TO10 = LIST_OFF1TO9 + ["10"]
> +LIST_OFFAB = ["Off"] + LIST_AB
> +LIST_RESUME = ["TO", "CO", "SE"]
> +LIST_PONMSG = ["Full", "Message"]
> +LIST_PTTID = ["Off", "BOT", "EOT", "Both"]
> +LIST_SCODE = ["%s" % x for x in range(1, 16)]
> +LIST_RPSTE = ["Off"] + ["%s" % x for x in range(1, 11)]
> +LIST_SAVE = ["Off", "1:1", "1:2", "1:3", "1:4"]
> +LIST_SHIFTD = ["Off", "+", "-"]
> +LIST_STEDELAY = ["Off"] + ["%s ms" % x for x in range(100, 1100, 100)]
> +LIST_STEP = [str(x) for x in STEPS]
> +LIST_TCALL = ["Off", "1000 Hz", "1450 Hz", "1750 Hz", "2100 Hz"]
> +LIST_TIMEOUT = ["%s sec" % x for x in range(15, 615, 15)]
> +LIST_TXPOWER = ["High", "Low"]
> +LIST_VOICE = ["Off", "English", "Chinese"]
> +LIST_WORKMODE = ["Frequency", "Channel"]
> +
> +def model_match(cls, data):
> + """Match the opened/downloaded image to the correct version"""
> + match_rid1 = False
> + match_rid2 = False
> +
> + rid1 = data[0x1FF8:0x2000]
> +
> + if rid1 in cls._fileid:
> + match_rid1 = True
> +
> + rid2 = data[0x1FD0:0x1FD5]
> +
> + if rid2 == cls.MODEL:
> + match_rid2 = True
> +
> + if match_rid1 and match_rid2:
> + return True
> + else:
> + return False
> +
> +
> + at directory.register
> +class UV6R(baofeng_common.BaofengCommonHT):
> + """Baofeng UV-6R"""
> + VENDOR = "Baofeng"
> + MODEL = "UV-6R"
> +
> + _fileid = [UV6R_fp1, ]
> +
> + _magic = [MSTRING_UV6R, ]
> + _magic_response_length = 8
> + _fw_ver_start = 0x1FF0
> + _recv_block_size = 0x40
> + _mem_size = 0x2000
> + _ack_block = False
> +
> + _ranges = [(0x0000, 0x1800),
> + (0x1F40, 0x1F50),
> + (0x1FC0, 0x1FD0),
> + (0x1FE0, 0x1FF0)]
> + _send_block_size = 0x10
> +
> + MODES = ["FM", "NFM"]
> + VALID_CHARS = chirp_common.CHARSET_ALPHANUMERIC + \
> + "!@#$%^&*()+-=[]:\";'<>?,./"
> + LENGTH_NAME = 7
> + SKIP_VALUES = ["", "S"]
> + DTCS_CODES = sorted(chirp_common.DTCS_CODES + [645])
> + POWER_LEVELS = [chirp_common.PowerLevel("Low", watts=1.00),
> + chirp_common.PowerLevel("High", watts=5.00)]
> + VALID_BANDS = [(136000000, 174000000),
> + (400000000, 520000000)]
> + PTTID_LIST = LIST_PTTID
> + SCODE_LIST = LIST_SCODE
> +
> +
> + MEM_FORMAT = """
> + #seekto 0x0000;
> + struct {
> + lbcd rxfreq[4];
> + lbcd txfreq[4];
> + ul16 rxtone;
> + ul16 txtone;
> + u8 unknown0:4,
> + scode:4;
> + u8 unknown1;
> + u8 unknown2:7,
> + lowpower:1;
> + u8 unknown3:1,
> + wide:1,
> + unknown4:2,
> + bcl:1,
> + scan:1,
> + pttid:2;
> + } memory[128];
> +
> + #seekto 0x0B00;
> + struct {
> + u8 code[5];
> + u8 unused[11];
> + } pttid[15];
> +
> + #seekto 0x0CAA;
> + struct {
> + u8 code[5];
> + u8 unused:6,
> + aniid:2;
> + u8 unknown[2];
> + u8 dtmfon;
> + u8 dtmfoff;
> + } ani;
> +
> + #seekto 0x0E20;
> + struct {
> + u8 unused00:4,
> + squelch:4;
> + u8 unused01:5,
> + step:3;
> + u8 unknown00;
> + u8 unused02:5,
> + save:3;
> + u8 unused03:4,
> + vox:4;
> + u8 unknown01;
> + u8 unused04:4,
> + abr:4;
> + u8 unused05:7,
> + tdr:1;
> + u8 unused06:7,
> + beep:1;
> + u8 unused07:2,
> + timeout:6;
> + u8 unused08:6,
> + tcall:2;
> + u8 unknown02[3];
> + u8 unused09:6,
> + voice:2;
> + u8 unknown03;
> + u8 unused10:6,
> + dtmfst:2;
> + u8 unknown04;
> + u8 unused11:6,
> + screv:2;
> + u8 unused12:6,
> + pttid:2;
> + u8 unused13:2,
> + pttlt:6;
> + u8 unused14:6,
> + mdfa:2;
> + u8 unused15:6,
> + mdfb:2;
> + u8 unknown05;
> + u8 unused16:7,
> + autolk:1;
> + u8 unknown06[4];
> + u8 unused17:6,
> + wtled:2;
> + u8 unused18:6,
> + rxled:2;
> + u8 unused19:6,
> + txled:2;
> + u8 unused20:6,
> + almod:2;
> + u8 unknown07[2];
> + u8 unused22:7,
> + ste:1;
> + u8 unused23:4,
> + rpste:4;
> + u8 unused24:4,
> + rptrl:4;
> + u8 unused25:7,
> + ponmsg:1;
> + u8 unused26:7,
> + roger:1;
> + u8 unused27:7,
> + reset:1;
> + u8 unknown08;
> + u8 displayab:1,
> + unknown09:2,
> + fmradio:1,
> + alarm:1,
> + unknown10:1,
> + reset:1,
> + menu:1;
> + u8 unknown11;
> + u8 unused29:7,
> + workmode:1;
> + u8 unused30:7,
> + keylock:1;
> + u8 cht;
> + } settings;
> +
> + #seekto 0x0E76;
> + struct {
> + u8 unused0:1,
> + mrcha:7;
> + u8 unused1:1,
> + mrchb:7;
> + } wmchannel;
> +
> + struct vfo {
> + u8 unknown0[8];
> + u8 freq[8];
> + u8 offset[6];
> + ul16 rxtone;
> + ul16 txtone;
> + u8 unused0:7,
> + band:1;
> + u8 unknown3;
> + u8 unknown4:2,
> + sftd:2,
> + scode:4;
> + u8 unknown5;
> + u8 unknown6:1,
> + step:3,
> + unknown7:4;
> + u8 txpower:1,
> + widenarr:1,
> + unknown8:6;
> + };
> +
> + #seekto 0x0F00;
> + struct {
> + struct vfo a;
> + struct vfo b;
> + } vfo;
> +
> + #seekto 0x0F4E;
> + u16 fm_presets;
> +
> + #seekto 0x1000;
> + struct {
> + char name[7];
> + u8 unknown[9];
> + } names[128];
> +
> + #seekto 0x1F40;
> + struct {
> + u8 sql0;
> + u8 sql1;
> + u8 sql2;
> + u8 sql3;
> + u8 sql4;
> + u8 sql5;
> + u8 sql6;
> + u8 sql7;
> + u8 sql8;
> + u8 sql9;
> + } squelch;
> +
> + struct limit {
> + u8 enable;
> + bbcd lower[2];
> + bbcd upper[2];
> + };
> +
> + #seekto 0x1FC0;
> + struct {
> + struct limit vhf;
> + struct limit uhf;
> + } limits;
> +
> + #seekto 0x1FD0;
> + struct {
> + char line1[8];
> + char line2[8];
> + } sixpoweron_msg;
> +
> + #seekto 0x1FE0;
> + struct {
> + char line1[7];
> + char line2[7];
> + } poweron_msg;
> +
> + #seekto 0x1FF0;
> + struct {
> + char line1[8];
> + char line2[8];
> + } firmware_msg;
> +
> + """
> +
> + @classmethod
> + def get_prompts(cls):
> + rp = chirp_common.RadioPrompts()
> + rp.experimental = \
> + ('The BTech UV-6R 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 = _(dedent("""\
> + Follow these instructions to download your info:
> +
> + 1 - Turn off your radio
> + 2 - Connect your interface cable
> + 3 - Turn on your radio
> + 4 - Do the download of your radio data
> + """))
> + rp.pre_upload = _(dedent("""\
> + Follow this instructions to upload your info:
> +
> + 1 - Turn off your radio
> + 2 - Connect your interface cable
> + 3 - Turn on your radio
> + 4 - Do the upload of your radio data
> + """))
> + return rp
> +
> + def process_mmap(self):
> + """Process the mem map into the mem object"""
> + self._memobj = bitwise.parse(self.MEM_FORMAT, self._mmap)
> +
> + def get_settings(self):
> + """Translate the bit in the mem_struct into settings in the UI"""
> + _mem = self._memobj
> + basic = RadioSettingGroup("basic", "Basic Settings")
> + advanced = RadioSettingGroup("advanced", "Advanced Settings")
> + other = RadioSettingGroup("other", "Other Settings")
> + work = RadioSettingGroup("work", "Work Mode Settings")
> + fm_preset = RadioSettingGroup("fm_preset", "FM Preset")
> + dtmfe = RadioSettingGroup("dtmfe", "DTMF Encode Settings")
> + service = RadioSettingGroup("service", "Service Settings")
> + top = RadioSettings(basic, advanced, other, work, fm_preset, dtmfe,
> + service)
> +
> + # Basic settings
> + if _mem.settings.squelch > 0x09:
> + val = 0x00
> + else:
> + val = _mem.settings.squelch
> + rs = RadioSetting("settings.squelch", "Squelch",
> + RadioSettingValueList(
> + LIST_OFF1TO9, LIST_OFF1TO9[val]))
> + basic.append(rs)
> +
> + if _mem.settings.save > 0x04:
> + val = 0x00
> + else:
> + val = _mem.settings.save
> + rs = RadioSetting("settings.save", "Battery Saver",
> + RadioSettingValueList(
> + LIST_SAVE, LIST_SAVE[val]))
> + basic.append(rs)
> +
> + if _mem.settings.vox > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.vox
> + rs = RadioSetting("settings.vox", "Vox",
> + RadioSettingValueList(
> + LIST_OFF1TO10, LIST_OFF1TO10[val]))
> + basic.append(rs)
> +
> + if _mem.settings.abr > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.abr
> + rs = RadioSetting("settings.abr", "Backlight Timeout",
> + RadioSettingValueList(
> + LIST_OFF1TO10, LIST_OFF1TO10[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.tdr", "Dual Watch",
> + RadioSettingValueBoolean(_mem.settings.tdr))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.beep", "Beep",
> + RadioSettingValueBoolean(_mem.settings.beep))
> + basic.append(rs)
> +
> + if _mem.settings.timeout > 0x27:
> + val = 0x03
> + else:
> + val = _mem.settings.timeout
> + rs = RadioSetting("settings.timeout", "Timeout Timer",
> + RadioSettingValueList(
> + LIST_TIMEOUT, LIST_TIMEOUT[val]))
> + basic.append(rs)
> +
> + if _mem.settings.voice > 0x02:
> + val = 0x01
> + else:
> + val = _mem.settings.voice
> + rs = RadioSetting("settings.voice", "Voice Prompt",
> + RadioSettingValueList(
> + LIST_VOICE, LIST_VOICE[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.dtmfst", "DTMF Sidetone",
> + RadioSettingValueList(LIST_DTMFST, LIST_DTMFST[
> + _mem.settings.dtmfst]))
> + basic.append(rs)
> +
> + if _mem.settings.screv > 0x02:
> + val = 0x01
> + else:
> + val = _mem.settings.screv
> + rs = RadioSetting("settings.screv", "Scan Resume",
> + RadioSettingValueList(
> + LIST_RESUME, LIST_RESUME[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.pttid", "When to send PTT ID",
> + RadioSettingValueList(LIST_PTTID, LIST_PTTID[
> + _mem.settings.pttid]))
> + basic.append(rs)
> +
> + if _mem.settings.pttlt > 0x1E:
> + val = 0x05
> + else:
> + val = _mem.settings.pttlt
> + rs = RadioSetting("pttlt", "PTT ID Delay",
> + RadioSettingValueInteger(0, 50, val))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.mdfa", "Display Mode (A)",
> + RadioSettingValueList(LIST_MODE, LIST_MODE[
> + _mem.settings.mdfa]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.mdfb", "Display Mode (B)",
> + RadioSettingValueList(LIST_MODE, LIST_MODE[
> + _mem.settings.mdfb]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.autolk", "Auto Lock Keypad",
> + RadioSettingValueBoolean(_mem.settings.autolk))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.wtled", "Standby LED Color",
> + RadioSettingValueList(
> + LIST_COLOR, LIST_COLOR[_mem.settings.wtled]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.rxled", "RX LED Color",
> + RadioSettingValueList(
> + LIST_COLOR, LIST_COLOR[_mem.settings.rxled]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.txled", "TX LED Color",
> + RadioSettingValueList(
> + LIST_COLOR, LIST_COLOR[_mem.settings.txled]))
> + basic.append(rs)
> +
> + if _mem.settings.almod > 0x02:
> + val = 0x00
> + else:
> + val = _mem.settings.almod
> + rs = RadioSetting("settings.almod", "Alarm Mode",
> + RadioSettingValueList(
> + LIST_ALMOD, LIST_ALMOD[val]))
> + basic.append(rs)
> +
> + if _mem.settings.tcall > 0x05:
> + val = 0x00
> + else:
> + val = _mem.settings.tcall
> + rs = RadioSetting("settings.tcall", "Tone Burst Frequency",
> + RadioSettingValueList(
> + LIST_TCALL, LIST_TCALL[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.ste", "Squelch Tail Eliminate (HT to HT)",
> + RadioSettingValueBoolean(_mem.settings.ste))
> + basic.append(rs)
> +
> + if _mem.settings.rpste > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.rpste
> + rs = RadioSetting("settings.rpste",
> + "Squelch Tail Eliminate (repeater)",
> + RadioSettingValueList(
> + LIST_RPSTE, LIST_RPSTE[val]))
> + basic.append(rs)
> +
> + if _mem.settings.rptrl > 0x0A:
> + val = 0x00
> + else:
> + val = _mem.settings.rptrl
> + rs = RadioSetting("settings.rptrl", "STE Repeater Delay",
> + RadioSettingValueList(
> + LIST_STEDELAY, LIST_STEDELAY[val]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.ponmsg", "Power-On Message",
> + RadioSettingValueList(LIST_PONMSG, LIST_PONMSG[
> + _mem.settings.ponmsg]))
> + basic.append(rs)
> +
> + rs = RadioSetting("settings.roger", "Roger Beep",
> + RadioSettingValueBoolean(_mem.settings.roger))
> + basic.append(rs)
> +
> + # Advanced settings
> + rs = RadioSetting("settings.reset", "RESET Menu",
> + RadioSettingValueBoolean(_mem.settings.reset))
> + advanced.append(rs)
> +
> + rs = RadioSetting("settings.menu", "All Menus",
> + RadioSettingValueBoolean(_mem.settings.menu))
> + advanced.append(rs)
> +
> + rs = RadioSetting("settings.fmradio", "Broadcast FM Radio",
> + RadioSettingValueBoolean(_mem.settings.fmradio))
> + advanced.append(rs)
> +
> + rs = RadioSetting("settings.alarm", "Alarm Sound",
> + RadioSettingValueBoolean(_mem.settings.alarm))
> + advanced.append(rs)
> +
> + # Other settings
> + def _filter(name):
> + filtered = ""
> + for char in str(name):
> + if char in chirp_common.CHARSET_ASCII:
> + filtered += char
> + else:
> + filtered += " "
> + return filtered
> +
> + _msg = _mem.firmware_msg
> + val = RadioSettingValueString(0, 8, _filter(_msg.line1))
> + val.set_mutable(False)
> + rs = RadioSetting("firmware_msg.line1", "Firmware Message 1", val)
> + other.append(rs)
> +
> + val = RadioSettingValueString(0, 8, _filter(_msg.line2))
> + val.set_mutable(False)
> + rs = RadioSetting("firmware_msg.line2", "Firmware Message 2", val)
> + other.append(rs)
> +
> + _msg = _mem.sixpoweron_msg
> + val = RadioSettingValueString(0, 8, _filter(_msg.line1))
> + val.set_mutable(False)
> + rs = RadioSetting("sixpoweron_msg.line1", "6+Power-On Message 1", val)
> + other.append(rs)
> + val = RadioSettingValueString(0, 8, _filter(_msg.line2))
> + val.set_mutable(False)
> + rs = RadioSetting("sixpoweron_msg.line2", "6+Power-On Message 2", val)
> + other.append(rs)
> +
> + _msg = _mem.poweron_msg
> + rs = RadioSetting("poweron_msg.line1", "Power-On Message 1",
> + RadioSettingValueString(
> + 0, 7, _filter(_msg.line1)))
> + other.append(rs)
> + rs = RadioSetting("poweron_msg.line2", "Power-On Message 2",
> + RadioSettingValueString(
> + 0, 7, _filter(_msg.line2)))
> + other.append(rs)
> +
> + lower = 136
> + upper = 174
> + rs = RadioSetting("limits.vhf.lower", "VHF Lower Limit (MHz)",
> + RadioSettingValueInteger(
> + lower, upper, _mem.limits.vhf.lower))
> + other.append(rs)
> +
> + rs = RadioSetting("limits.vhf.upper", "VHF Upper Limit (MHz)",
> + RadioSettingValueInteger(
> + lower, upper, _mem.limits.vhf.upper))
> + other.append(rs)
> +
> + lower = 400
> + upper = 520
> + rs = RadioSetting("limits.uhf.lower", "UHF Lower Limit (MHz)",
> + RadioSettingValueInteger(
> + lower, upper, _mem.limits.uhf.lower))
> + other.append(rs)
> +
> + rs = RadioSetting("limits.uhf.upper", "UHF Upper Limit (MHz)",
> + RadioSettingValueInteger(
> + lower, upper, _mem.limits.uhf.upper))
> + other.append(rs)
> +
> + # Work mode settings
> + rs = RadioSetting("settings.displayab", "Display",
> + RadioSettingValueList(
> + LIST_AB, LIST_AB[_mem.settings.displayab]))
> + work.append(rs)
> +
> + rs = RadioSetting("settings.workmode", "VFO/MR Mode",
> + RadioSettingValueList(
> + LIST_WORKMODE,
> + LIST_WORKMODE[_mem.settings.workmode]))
> + work.append(rs)
> +
> + rs = RadioSetting("settings.keylock", "Keypad Lock",
> + RadioSettingValueBoolean(_mem.settings.keylock))
> + work.append(rs)
> +
> + rs = RadioSetting("wmchannel.mrcha", "MR A Channel",
> + RadioSettingValueInteger(0, 127,
> + _mem.wmchannel.mrcha))
> + work.append(rs)
> +
> + rs = RadioSetting("wmchannel.mrchb", "MR B Channel",
> + RadioSettingValueInteger(0, 127,
> + _mem.wmchannel.mrchb))
> + work.append(rs)
> +
> + def convert_bytes_to_freq(bytes):
> + real_freq = 0
> + for byte in bytes:
> + real_freq = (real_freq * 10) + byte
> + return chirp_common.format_freq(real_freq * 10)
> +
> + def my_validate(value):
> + _vhf_lower = int(_mem.limits.vhf.lower)
> + _vhf_upper = int(_mem.limits.vhf.upper)
> + _uhf_lower = int(_mem.limits.uhf.lower)
> + _uhf_upper = int(_mem.limits.uhf.upper)
> + value = chirp_common.parse_freq(value)
> + msg = ("Can't be less than %i.0000")
> + if value > 99000000 and value < _vhf_lower * 1000000:
> + raise InvalidValueError(msg % _vhf_lower)
> + msg = ("Can't be between %i.9975-%i.0000")
> + if _vhf_upper * 1000000 <= value and value < _uhf_lower * 1000000:
> + raise InvalidValueError(msg % (_vhf_upper - 1, _uhf_lower))
> + msg = ("Can't be greater than %i.9975")
> + if value > 99000000 and value >= _uhf_upper * 1000000:
> + raise InvalidValueError(msg % (_uhf_upper - 1))
> + return chirp_common.format_freq(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
> +
> + val1a = RadioSettingValueString(0, 10,
> + convert_bytes_to_freq(_mem.vfo.a.freq))
> + val1a.set_validate_callback(my_validate)
> + rs = RadioSetting("vfo.a.freq", "VFO A Frequency", val1a)
> + rs.set_apply_callback(apply_freq, _mem.vfo.a)
> + work.append(rs)
> +
> + val1b = RadioSettingValueString(0, 10,
> + convert_bytes_to_freq(_mem.vfo.b.freq))
> + val1b.set_validate_callback(my_validate)
> + rs = RadioSetting("vfo.b.freq", "VFO B Frequency", val1b)
> + rs.set_apply_callback(apply_freq, _mem.vfo.b)
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.a.sftd", "VFO A Shift",
> + RadioSettingValueList(
> + LIST_SHIFTD, LIST_SHIFTD[_mem.vfo.a.sftd]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.b.sftd", "VFO B Shift",
> + RadioSettingValueList(
> + LIST_SHIFTD, LIST_SHIFTD[_mem.vfo.b.sftd]))
> + work.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
> +
> + val1a = RadioSettingValueString(
> + 0, 10, convert_bytes_to_offset(_mem.vfo.a.offset))
> + rs = RadioSetting("vfo.a.offset",
> + "VFO A Offset", val1a)
> + rs.set_apply_callback(apply_offset, _mem.vfo.a)
> + work.append(rs)
> +
> + val1b = RadioSettingValueString(
> + 0, 10, convert_bytes_to_offset(_mem.vfo.b.offset))
> + rs = RadioSetting("vfo.b.offset",
> + "VFO B Offset", val1b)
> + rs.set_apply_callback(apply_offset, _mem.vfo.b)
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.a.txpower", "VFO A Power",
> + RadioSettingValueList(
> + LIST_TXPOWER,
> + LIST_TXPOWER[_mem.vfo.a.txpower]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.b.txpower", "VFO B Power",
> + RadioSettingValueList(
> + LIST_TXPOWER,
> + LIST_TXPOWER[_mem.vfo.b.txpower]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.a.widenarr", "VFO A Bandwidth",
> + RadioSettingValueList(
> + LIST_BANDWIDTH,
> + LIST_BANDWIDTH[_mem.vfo.a.widenarr]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.b.widenarr", "VFO B Bandwidth",
> + RadioSettingValueList(
> + LIST_BANDWIDTH,
> + LIST_BANDWIDTH[_mem.vfo.b.widenarr]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.a.scode", "VFO A S-CODE",
> + RadioSettingValueList(
> + LIST_SCODE,
> + LIST_SCODE[_mem.vfo.a.scode]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.b.scode", "VFO B S-CODE",
> + RadioSettingValueList(
> + LIST_SCODE,
> + LIST_SCODE[_mem.vfo.b.scode]))
> + work.append(rs)
> +
> + rs = RadioSetting("vfo.a.step", "VFO A Tuning Step",
> + RadioSettingValueList(
> + LIST_STEP, LIST_STEP[_mem.vfo.a.step]))
> + work.append(rs)
> + rs = RadioSetting("vfo.b.step", "VFO B Tuning Step",
> + RadioSettingValueList(
> + LIST_STEP, LIST_STEP[_mem.vfo.b.step]))
> + work.append(rs)
> +
> + # broadcast FM settings
> + _fm_presets = self._memobj.fm_presets
> + if _fm_presets <= 108.0 * 10 - 650:
> + preset = _fm_presets / 10.0 + 65
> + elif _fm_presets >= 65.0 * 10 and _fm_presets <= 108.0 * 10:
> + preset = _fm_presets / 10.0
> + else:
> + preset = 76.0
> + rs = RadioSetting("fm_presets", "FM Preset(MHz)",
> + RadioSettingValueFloat(65, 108.0, preset, 0.1, 1))
> + fm_preset.append(rs)
> +
> + # DTMF settings
> + def apply_code(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
> +
> + for i in range(0, 15):
> + _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)
> + pttid.set_apply_callback(apply_code, self._memobj.pttid[i], 5)
> + dtmfe.append(pttid)
> +
> + if _mem.ani.dtmfon > 0xC3:
> + val = 0x03
> + else:
> + val = _mem.ani.dtmfon
> + rs = RadioSetting("ani.dtmfon", "DTMF Speed (on)",
> + RadioSettingValueList(LIST_DTMFSPEED,
> + LIST_DTMFSPEED[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,
> + LIST_DTMFSPEED[val]))
> + dtmfe.append(rs)
> +
> + _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)
> + rs.set_apply_callback(apply_code, self._memobj.ani, 5)
> + dtmfe.append(rs)
> +
> + rs = RadioSetting("ani.aniid", "When to send ANI ID",
> + RadioSettingValueList(LIST_PTTID,
> + LIST_PTTID[_mem.ani.aniid]))
> + dtmfe.append(rs)
> +
> + # Service settings
> + for index in range(0, 10):
> + key = "squelch.sql%i" % (index)
> + _obj = self._memobj.squelch
> + val = RadioSettingValueInteger(0, 123,
> + getattr(_obj, "sql%i" % (index)))
> + if index == 0:
> + val.set_mutable(False)
> + name = "Squelch %i" % (index)
> + rs = RadioSetting(key, name, val)
> + service.append(rs)
> +
> + return top
> +
> + @classmethod
> + def match_model(cls, filedata, filename):
> + match_size = False
> + match_model = False
> +
> + # testing the file data size
> + if len(filedata) == 0x2008:
> + match_size = True
> +
> + # testing the firmware model fingerprint
> + match_model = model_match(cls, filedata)
> +
> + if match_size and match_model:
> + return True
> + else:
> + return False
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