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# Version 1.0 for TYT-TH8600
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# Initial radio protocol decode, channels and memory layout, basic settings
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# by Andy Knitt <andyknitt@gmail.com>, Summer 2023
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program.
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import struct
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import logging
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import math
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from chirp import chirp_common, directory, memmap
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from chirp import bitwise, errors, util
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from chirp.settings import RadioSettingGroup, RadioSetting, \
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RadioSettingValueBoolean, RadioSettingValueList, \
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RadioSettingValueString, RadioSettings
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LOG = logging.getLogger(__name__)
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MEM_FORMAT = """
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struct chns {
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ul32 rxfreq;
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ul32 txfreq;
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ul16 rxtone;
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ul16 txtone;
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u8 power:2 // High=00,Mid=01,Low=10
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mode:2 // WFM=00, FM=01, NFM=10
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b_lock:2 // off=00, sub=01, carrier=10
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REV:1
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TxInh:1;
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u8 sqlmode:3 // SQ=000, CT=001, Tone=010,
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//CT or Tone=011, CTC and Tone=100
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signal:2 // off=00, dtmf=01, 2-tone=10, 5-tone=11
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display: 1
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talkoff: 1
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TBD: 1;
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u8 fivetonepttid: 2 //off=00, begin=01,end=10,both=11
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dtmfpttid: 2 //off=00, begin=01,end=10,both=11
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tuning_step: 4; //
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u8 name[6];
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};
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struct chname {
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u8 extra_name[10];
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};
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#seekto 0x0000;
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struct chns chan_mem[200];
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struct chns scanlimits[4];
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struct chns vfos[6];
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#seekto 0x1960;
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struct chname chan_name[200];
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#seekto 0x1160;
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struct {
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u8 introScreen1[12]; // 0x1160 *Intro Screen Line 1(truncated to 12 alpha
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// text characters)
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u8 unk_bit9 : 1, // 0x116C
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subDisplay : 2, // 0b00 = OFF; 0b01 = frequency; 0b10 = voltage
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unk_bit8 : 1, //
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sqlLevel : 4; // *OFF, 1-9
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u8 beep : 1, // 0x116D *OFF, On
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burstFreq : 2, // 1750,2100,1000,1450 Hz tone burst frequency
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unkstr4: 4, //
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txChSelect : 1; // *Last CH, Main CH
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u8 unk_bit7 : 1, // 0x116E
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autoPowOff : 2, // OFF, 30Min, 1HR, 2HR
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tot : 5; // OFF, time in minutes (1 to 30)
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u8 pttRelease: 2, // 0x116F OFF, Begin, After, Both
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unk_bit6: 2, //
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sqlTailElim: 2, // OFF, Frequency, No Frequency
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disableReset:1, // NO, YES
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menuOperation:1; // NO, YES
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u8 scanResumeTime : 2, // 0x1170 2S, 5S, 10S, 15S
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disMode : 2, // Frequency, Channel, Name
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scanType: 2, // Time operated, Carrier operated, Se
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ledMode: 2; // On, 5 second, 10 second
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u8 unky; // 0x1171
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u8 usePowerOnPw : 1, // 0x1172 NO, YES
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elimTailNoTone: 1, // NO, YES
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unk6 : 6; //
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u8 unk; // 0x1173
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u8 unk_bit5 : 1, // 0x1174
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mzKeyFunc : 3, // A/B, Low, Monitor, Scan, Tone, M/V, MHz, Mute
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unk_bit4 : 1, //
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lowKeyFunc : 3; // A/B, Low, Monitor, Scan, Tone, M/V, MHz, Mute
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u8 unk_bit3 : 1, // 0x1175
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vmKeyFunc : 3, // A/B, Low, Monitor, Scan, Tone, M/V, MHz, Mute
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unk_bit2 : 1, //
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ctKeyFunc : 3; // A/B, Low, Monitor,
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// Scan, Tone, M/V, MHz, Mute
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u8 abKeyFunc : 3, // 0x1176 A/B, Low, Monitor,
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// Scan, Tone, M/V, MHz, Mute
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unk_bit1 : 1, //
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volume : 4; // 0 to 15
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u8 unk3 : 3, // 0x1177
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introScreen : 2, // OFF, Picture, Character String
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unk_bits : 3; //
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u8 unk4; // 0x1178
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u8 unk5; // 0x1179
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u8 powerOnPw[6]; // 0x117A 6 ASCII characters
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} basicsettings;
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#seekto 0x1180;
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struct {
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u8 bitmap[26]; // one bit for each channel marked in use
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} chan_avail;
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#seekto 0x11A0;
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struct {
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u8 bitmap[26]; // one bit for each channel; 0 = skip; 1 = dont skip
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} chan_skip;
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#seekto 0x1680;
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ul32 rx_freq_limit_low_vhf;
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ul32 rx_freq_limit_high_vhf;
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ul32 tx_freq_limit_low_vhf;
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ul32 tx_freq_limit_high_vhf;
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ul32 rx_freq_limit_low_220; //not supported by radio - always 0xFFFFFFFF
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ul32 rx_freq_limit_high_220; //not supported by radio - always 0xFFFFFFFF
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ul32 tx_freq_limit_low_220; //not supported by radio - always 0xFFFFFFFF
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ul32 tx_freq_limit_high_220; //not supported by radio - always 0xFFFFFFFF
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ul32 rx_freq_limit_low_uhf;
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ul32 rx_freq_limit_high_uhf;
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ul32 tx_freq_limit_low_uhf;
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ul32 tx_freq_limit_high_uhf;
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#seekto 0x1940;
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struct {
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u8 introLine1[16]; // 16 ASCII characters
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u8 introLine2[16]; // 16 ASCII characters
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} intro_lines;
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"""
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MEM_SIZE = 0x2400
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BLOCK_SIZE = 0x20
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STIMEOUT = 2
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BAUDRATE = 9600
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# Channel power: 3 levels
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POWER_LEVELS = [chirp_common.PowerLevel("High", watts=25.00),
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chirp_common.PowerLevel("Mid", watts=10.00),
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chirp_common.PowerLevel("Low", watts=5.00)]
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B_LOCK_LIST = ["OFF", "Sub", "Carrier"]
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OPTSIG_LIST = ["OFF", "DTMF", "2TONE", "5TONE"]
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PTTID_LIST = ["Off", "BOT", "EOT", "Both"]
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STEPS = [2.5, 5.0, 6.25, 7.5, 8.33, 10.0, 12.5, 15.0, 20.0, 25.0, 30.0, 50.0]
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LIST_STEPS = [str(x) for x in STEPS]
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# In the context of SQL_MODES, 'Tone' refers to 2tone, 5tone, or DTMF
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# signalling while "CT" refers to CTCSS and DTCS
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SQL_MODES = ["SQ", "CT", "Tone", "CT or Tone", "CT and Tone"]
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SPECIAL_CHANS = ("L1", "U1",
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"L2", "U2",
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"VFOA_VHF", "VFOA_UHF",
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"VFOB_VHF", "VFOB_UHF")
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def _clean_buffer(radio):
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radio.pipe.timeout = 0.005
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junk = radio.pipe.read(256)
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radio.pipe.timeout = STIMEOUT
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if junk:
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LOG.debug("Got %i bytes of junk before starting" % len(junk))
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def _rawrecv(radio, amount):
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"""Raw read from the radio device"""
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data = ""
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try:
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data = radio.pipe.read(amount)
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except Exception:
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_exit_program_mode(radio)
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msg = "Generic error reading data from radio; check your cable."
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raise errors.RadioError(msg)
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if len(data) != amount:
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_exit_program_mode(radio)
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msg = "Error reading from radio: not the amount of data we want."
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raise errors.RadioError(msg)
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return data
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def _rawsend(radio, data):
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"""Raw send to the radio device"""
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try:
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radio.pipe.write(data)
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except Exception:
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raise errors.RadioError("Error sending data to radio")
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def _make_read_frame(addr, length):
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frame = b"\xFE\xFE\xEE\xEF\xEB"
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"""Pack the info in the header format"""
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frame += bytes(f'{addr:X}'.zfill(4), 'utf-8')
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frame += bytes(f'{length:X}'.zfill(2), 'utf-8')
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frame += b"\xFD"
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# Return the data
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return frame
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def _make_write_frame(addr, length, data=""):
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frame = b"\xFE\xFE\xEE\xEF\xE4"
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"""Pack the info in the header format"""
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output = struct.pack(">HB", addr, length)
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# Add the data if set
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if len(data) != 0:
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output += data
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# Convert to ASCII
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converted_data = b''
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for b in output:
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converted_data += bytes(f'{b:X}'.zfill(2), 'utf-8')
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frame += converted_data
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"""Unlike other TYT models, the frame header is
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not included in the checksum calc"""
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cs_byte = _calculate_checksum(data)
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# convert checksum to ASCII
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converted_checksum = bytes(f'{cs_byte[0]:X}'.zfill(2), 'utf-8')
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frame += converted_checksum
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frame += b"\xFD"
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# Return the data
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return frame
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def _calculate_checksum(data):
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num = 0
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for x in range(0, len(data)):
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num = (num + data[x]) % 256
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if num == 0:
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return bytes([0])
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return bytes([256 - num])
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def _recv(radio, addr, length):
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"""Get data from the radio """
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data = _rawrecv(radio, length)
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# DEBUG
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LOG.info("Response:")
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LOG.debug(util.hexprint(data))
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return data
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def _do_ident(radio):
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"""Put the radio in PROGRAM mode & identify it"""
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radio.pipe.baudrate = BAUDRATE
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radio.pipe.parity = "N"
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radio.pipe.timeout = STIMEOUT
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# Flush input buffer
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_clean_buffer(radio)
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# Ident radio
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magic = radio._magic0
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_rawsend(radio, magic)
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ack = _rawrecv(radio, 36)
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if not ack.startswith(radio._fingerprint) or not ack.endswith(b"\xFD"):
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_exit_program_mode(radio)
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if ack:
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LOG.debug(repr(ack))
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raise errors.RadioError("Radio did not respond as expected (A)")
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return True
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def _exit_program_mode(radio):
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# This may be the last part of a read
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magic = radio._magic5
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_rawsend(radio, magic)
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_clean_buffer(radio)
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def _download(radio):
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"""Get the memory map"""
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# Put radio in program mode and identify it
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_do_ident(radio)
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# Enter read mode
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magic = radio._magic2
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_rawsend(radio, magic)
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ack = _rawrecv(radio, 7)
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if ack != b"\xFE\xFE\xEF\xEE\xE6\x00\xFD":
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_exit_program_mode(radio)
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if ack:
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LOG.debug(repr(ack))
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raise errors.RadioError("Radio did not respond to enter read mode")
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# UI progress
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status = chirp_common.Status()
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status.cur = 0
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status.max = MEM_SIZE // BLOCK_SIZE
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status.msg = "Cloning from radio..."
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radio.status_fn(status)
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data = b""
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for addr in range(0, MEM_SIZE, BLOCK_SIZE):
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frame = _make_read_frame(addr, BLOCK_SIZE)
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# DEBUG
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LOG.debug("Frame=" + util.hexprint(frame))
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# Sending the read request
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_rawsend(radio, frame)
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# Now we read data
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d = _recv(radio, addr, BLOCK_SIZE*2 + 14)
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LOG.debug("Response Data= " + util.hexprint(d))
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if not d.startswith(b"\xFE\xFE\xEF\xEE\xE4"):
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LOG.warning("Incorrect start")
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if not d.endswith(b"\xFD"):
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LOG.warning("Incorrect end")
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# validate the block data with checksum
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# HEADER IS NOT INCLUDED IN CHECKSUM CALC, UNLIKE OTHER TYT MODELS
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protected_data = d[5:-3]
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received_checksum = d[-3:-1]
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# unlike some other TYT models, the data protected by checksum
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# is sent over the wire in ASCII format. Need to convert ASCII
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# to integers to perform the checksum calculation, which uses
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# the same algorithm as other TYT models.
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converted_data = b''
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for i in range(0, len(protected_data), 2):
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int_data = int(protected_data[i:i+2].decode('utf-8'), 16)
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converted_data += int_data.to_bytes(1, 'big')
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cs_byte = _calculate_checksum(converted_data)
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# checksum is sent over the wire as ASCII characters, so convert
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# the calculated value before checking against what was received
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converted_checksum = bytes(f'{cs_byte[0]:X}'.zfill(2), 'utf-8')
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if received_checksum != converted_checksum:
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LOG.warning("Incorrect checksum received")
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# Strip out header, addr, length, checksum,
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# eof and then aggregate the remaining data
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ascii_data = d[11:-3]
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if len(ascii_data) % 2 != 0:
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LOG.error("Invalid data length")
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converted_data = b''
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for i in range(0, len(ascii_data), 2):
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# LOG.debug(ascii_data[i] + ascii_data[i+1])
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int_data = int(ascii_data[i:i+2].decode('utf-8'), 16)
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converted_data += int_data.to_bytes(1, 'big')
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data += converted_data
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# UI Update
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status.cur = addr // BLOCK_SIZE
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status.msg = "Cloning from radio..."
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radio.status_fn(status)
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_exit_program_mode(radio)
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return data
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def _upload(radio):
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"""Upload procedure"""
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# Put radio in program mode and identify it
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_do_ident(radio)
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magic = radio._magic3
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_rawsend(radio, magic)
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ack = _rawrecv(radio, 7)
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if ack != b"\xFE\xFE\xEF\xEE\xE6\x00\xFD":
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_exit_program_mode(radio)
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if ack:
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LOG.debug(repr(ack))
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raise errors.RadioError("Radio did not respond to enter write mode")
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# UI progress
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status = chirp_common.Status()
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status.cur = 0
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status.max = MEM_SIZE // BLOCK_SIZE
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status.msg = "Cloning to radio..."
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radio.status_fn(status)
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# The fun starts here
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for addr in range(0, MEM_SIZE, BLOCK_SIZE):
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# Official programmer skips writing these memory locations
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if addr >= 0x1680 and addr < 0x1940:
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continue
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# Sending the data
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data = radio.get_mmap()[addr:addr + BLOCK_SIZE]
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frame = _make_write_frame(addr, BLOCK_SIZE, data)
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LOG.warning("Frame:%s:" % util.hexprint(frame))
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_rawsend(radio, frame)
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ack = _rawrecv(radio, 7)
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LOG.debug("Response Data= " + util.hexprint(ack))
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if not ack.startswith(b"\xFE\xFE\xEF\xEE\xE6\x00\xFD"):
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LOG.warning("Unexpected response")
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_exit_program_mode(radio)
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msg = "Bad ack writing block 0x%04x" % addr
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raise errors.RadioError(msg)
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# UI Update
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status.cur = addr // BLOCK_SIZE
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status.msg = "Cloning to radio..."
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radio.status_fn(status)
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_exit_program_mode(radio)
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def _do_map(chn, sclr, mary):
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"""Set or Clear the chn (0-199) bit in mary[] word array map"""
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# chn is 1-based channel, sclr:1 = set, 0= = clear, 2= return state
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# mary[] is u8 array, but the map is by nibbles
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ndx = int(math.floor((chn) / 8))
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bv = (chn) % 8
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msk = 1 << bv
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mapbit = sclr
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if sclr == 1: # Set the bit
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mary[ndx] = mary[ndx] | msk
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elif sclr == 0: # clear
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mary[ndx] = mary[ndx] & (~ msk) # ~ is complement
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else: # return current bit state
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mapbit = 0
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if (mary[ndx] & msk) > 0:
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mapbit = 1
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return mapbit
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@directory.register
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class TH8600Radio(chirp_common.CloneModeRadio):
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"""TYT TH8600 Radio"""
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VENDOR = "TYT"
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MODEL = "TH-8600"
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NEEDS_COMPAT_SERIAL = False
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MODES = ['WFM', 'FM', 'NFM']
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sql_modeS = ("", "Tone", "TSQL", "DTCS", "Cross")
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TONES = chirp_common.TONES
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DTCS_CODES = chirp_common.DTCS_CODES
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NAME_LENGTH = 6
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DTMF_CHARS = list("0123456789ABCD*#")
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# 136-174, 400-480
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VALID_BANDS = [(136000000, 174000001), (400000000, 480000001)]
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# Valid chars on the LCD
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VALID_CHARS = chirp_common.CHARSET_ALPHANUMERIC + \
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"`!\"#$%&'()*+,-./:;<=>?@[]^_"
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_magic0 = b"\xFE\xFE\xEE\xEF\xE0\x26\x98\x00\x00\xFD"
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_magic2 = b"\xFE\xFE\xEE\xEF\xE2\x26\x98\x00\x00\xFD"
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_magic3 = b"\xFE\xFE\xEE\xEF\xE3\x26\x98\x00\x00\xFD"
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_magic5 = b"\xFE\xFE\xEE\xEF\xE5\x26\x98\x00\x00\xFD"
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_fingerprint = b"\xFE\xFE\xEF\xEE\xE1\x26\x98\x00\x00\x31\x31\x31\x31" \
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b"\x31\x31\x31\x31\x31\x31\x31\x31\x31\x31\x31\x31\x31" \
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b"\x31\x31\x31\x34\x33\x34\x45"
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@classmethod
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def match_model(cls, filedata, filename):
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# This radio has always been post-metadata, so never do
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# old-school detection
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return False
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@classmethod
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def get_prompts(cls):
|
|
rp = chirp_common.RadioPrompts()
|
|
rp.info = \
|
|
(cls.VENDOR + ' ' + cls.MODEL + '\n')
|
|
|
|
rp.pre_download = _(
|
|
"This is an early stage beta driver\n")
|
|
rp.pre_upload = _(
|
|
"This is an early stage beta driver - upload at your own risk\n")
|
|
return rp
|
|
|
|
def get_features(self):
|
|
rf = chirp_common.RadioFeatures()
|
|
rf.has_settings = True
|
|
rf.has_bank = False
|
|
rf.has_bank_index = False
|
|
rf.has_bank_names = False
|
|
rf.has_comment = False
|
|
rf.has_tuning_step = True
|
|
rf.valid_tuning_steps = STEPS
|
|
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.has_sub_devices = False
|
|
rf.has_infinite_number = False
|
|
rf.has_nostep_tuning = False
|
|
rf.has_variable_power = False
|
|
rf.valid_name_length = self.NAME_LENGTH
|
|
rf.valid_modes = self.MODES
|
|
rf.valid_characters = self.VALID_CHARS
|
|
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 = []
|
|
rf.valid_power_levels = POWER_LEVELS
|
|
rf.valid_dtcs_codes = chirp_common.DTCS_CODES
|
|
rf.valid_bands = self.VALID_BANDS
|
|
rf.valid_special_chans = SPECIAL_CHANS
|
|
rf.memory_bounds = (0, 199)
|
|
rf.valid_skips = ["", "S"]
|
|
return rf
|
|
|
|
def sync_in(self):
|
|
"""Download from radio"""
|
|
try:
|
|
data = _download(self)
|
|
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:
|
|
_upload(self)
|
|
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 process_mmap(self):
|
|
"""Process the mem map into the mem object"""
|
|
self._memobj = bitwise.parse(MEM_FORMAT, self._mmap)
|
|
'''
|
|
def process_mmap(self):
|
|
self._memobj = bitwise.parse(
|
|
TH8600_MEM_FORMAT %
|
|
(self._mmap_offset, self._scanlimits_offset, self._settings_offset,
|
|
self._chan_active_offset, self._info_offset), self._mmap)
|
|
'''
|
|
def get_raw_memory(self, number):
|
|
return repr(self._memobj.memory[number])
|
|
|
|
def set_memory(self, memory):
|
|
"""A value in a UI column for chan 'number' has been modified."""
|
|
# update all raw channel memory values (_mem) from UI (mem)
|
|
if memory.number >= 200 and memory.number < 204:
|
|
_mem = self._memobj.scanlimits[memory.number-200]
|
|
_name = None
|
|
elif memory.number >= 204:
|
|
_mem = self._memobj.vfos[memory.number-204]
|
|
_name = None
|
|
else:
|
|
_mem = self._memobj.chan_mem[memory.number]
|
|
_name = self._memobj.chan_name[memory.number]
|
|
if memory.empty:
|
|
_mem.set_raw("\x00" * 21)
|
|
_do_map(memory.number, 0, self._memobj.chan_avail.bitmap)
|
|
return
|
|
else:
|
|
_do_map(memory.number, 1, self._memobj.chan_avail.bitmap)
|
|
|
|
if memory.skip == "":
|
|
_do_map(memory.number, 1, self._memobj.chan_skip.bitmap)
|
|
else:
|
|
_do_map(memory.number, 0, self._memobj.chan_skip.bitmap)
|
|
|
|
return self._set_memory(memory, _mem, _name)
|
|
|
|
def get_memory(self, number):
|
|
|
|
mem = chirp_common.Memory()
|
|
mem.number = number
|
|
# Get a low-level memory object mapped to the image
|
|
if isinstance(number, str) or number >= 200:
|
|
# mem.number = -10 + SPECIAL_CHANS.index(number)
|
|
if number == 'L1' or number == 200:
|
|
_mem = self._memobj.scanlimits[0]
|
|
_name = None
|
|
mem.number = 200
|
|
mem.extd_number = 'L1'
|
|
elif number == 'U1' or number == 201:
|
|
_mem = self._memobj.scanlimits[1]
|
|
_name = None
|
|
mem.number = 201
|
|
mem.extd_number = 'U1'
|
|
elif number == 'L2' or number == 202:
|
|
_mem = self._memobj.scanlimits[2]
|
|
_name = None
|
|
mem.number = 202
|
|
mem.extd_number = 'L2'
|
|
elif number == 'U2' or number == 203:
|
|
_mem = self._memobj.scanlimits[3]
|
|
_name = None
|
|
mem.number = 203
|
|
mem.extd_number = 'U2'
|
|
elif number == 'VFOA_VHF' or number == 204:
|
|
_mem = self._memobj.vfos[0]
|
|
mem.number = 204
|
|
mem.extd_number = 'VFOA_VHF'
|
|
_name = None
|
|
elif number == 'VFOA_220' or number == 205:
|
|
_mem = self._memobj.vfos[1]
|
|
_name = None
|
|
mem.number = 205
|
|
elif number == 'VFOA_UHF' or number == 206:
|
|
_mem = self._memobj.vfos[2]
|
|
mem.number = 206
|
|
mem.extd_number = 'VFOA_UHF'
|
|
_name = None
|
|
elif number == 'VFOB_VHF' or number == 207:
|
|
_mem = self._memobj.vfos[3]
|
|
mem.number = 207
|
|
mem.extd_number = 'VFOB_VHF'
|
|
_name = None
|
|
mem.extd_number = 'VFOA_220'
|
|
elif number == 'VFOB_220' or number == 208:
|
|
_mem = self._memobj.vfos[4]
|
|
_name = None
|
|
mem.number = 208
|
|
mem.extd_number = 'VFOB_220'
|
|
elif number == 'VFOB_UHF' or number == 209:
|
|
_mem = self._memobj.vfos[5]
|
|
mem.number = 209
|
|
mem.extd_number = 'VFOB_UHF'
|
|
_name = None
|
|
else:
|
|
mem.number = number # Set the memory number
|
|
_mem = self._memobj.chan_mem[number]
|
|
_name = self._memobj.chan_name[number]
|
|
# Determine if channel is empty
|
|
|
|
if _do_map(mem.number, 2, self._memobj.chan_avail.bitmap) == 0:
|
|
mem.empty = True
|
|
return mem
|
|
|
|
if _do_map(mem.number, 2, self._memobj.chan_skip.bitmap) == 1:
|
|
mem.skip = ""
|
|
else:
|
|
mem.skip = "S"
|
|
|
|
return self._get_memory(mem, _mem, _name)
|
|
|
|
def _get_memory(self, mem, _mem, _name):
|
|
"""Convert raw channel memory data into UI columns"""
|
|
mem.extra = RadioSettingGroup("Extra", "extra")
|
|
|
|
mem.empty = False
|
|
# This function process both 'normal' and Freq up/down' entries
|
|
mem.freq = int(_mem.rxfreq) * 10
|
|
|
|
if _mem.txfreq == 0xFFFFFFFF:
|
|
# TX freq not set
|
|
mem.duplex = "off"
|
|
mem.offset = 0
|
|
elif abs(int(_mem.rxfreq) * 10 - int(_mem.txfreq) * 10) > 25000000:
|
|
mem.duplex = "split"
|
|
mem.offset = int(_mem.txfreq) * 10
|
|
elif int(_mem.rxfreq) == int(_mem.txfreq):
|
|
mem.duplex = ""
|
|
mem.offset = 0
|
|
else:
|
|
mem.duplex = int(_mem.rxfreq) > int(_mem.txfreq) \
|
|
and "-" or "+"
|
|
mem.offset = abs(int(_mem.rxfreq) - int(_mem.txfreq)) * 10
|
|
|
|
mem.name = ""
|
|
for i in range(6): # 0 - 6
|
|
mem.name += chr(_mem.name[i])
|
|
if _name and mem.number < 200:
|
|
for i in range(10):
|
|
mem.name += chr(_name.extra_name[i])
|
|
|
|
mem.name = mem.name.rstrip() # remove trailing spaces
|
|
|
|
mem.tuning_step = STEPS[_mem.tuning_step]
|
|
|
|
# ########## TONE ##########
|
|
dtcs_polarity = ['N', 'N']
|
|
if _mem.txtone == 0xFFF:
|
|
# All off
|
|
txmode = ""
|
|
elif _mem.txtone >= 0x8000:
|
|
# DTSC inverted when high bit is set - signed int
|
|
txmode = "DTCS"
|
|
mem.dtcs = int(format(int(_mem.txtone & 0x7FFF), 'o'))
|
|
dtcs_polarity[0] = "R"
|
|
elif _mem.txtone > 500:
|
|
txmode = "Tone"
|
|
mem.rtone = int(_mem.txtone) / 10.0
|
|
else:
|
|
# DTCS
|
|
txmode = "DTCS"
|
|
mem.dtcs = int(format(int(_mem.txtone), 'o'))
|
|
dtcs_polarity[0] = "N"
|
|
if _mem.rxtone == 0xFFF:
|
|
rxmode = ""
|
|
elif _mem.rxtone >= 0x8000:
|
|
# DTSC inverted when high bit is set
|
|
rxmode = "DTCS"
|
|
mem.rx_dtcs = int(format(int(_mem.rxtone & 0x7FFF), 'o'))
|
|
dtcs_polarity[1] = "R"
|
|
elif _mem.rxtone > 500:
|
|
rxmode = "Tone"
|
|
mem.ctone = int(_mem.rxtone) / 10.0
|
|
else:
|
|
rxmode = "DTCS"
|
|
mem.rx_dtcs = int(format(int(_mem.rxtone), 'o'))
|
|
dtcs_polarity[1] = "N"
|
|
mem.dtcs_polarity = "".join(dtcs_polarity)
|
|
|
|
mem.tmode = ""
|
|
if txmode == "Tone" and not rxmode:
|
|
mem.tmode = "Tone"
|
|
elif txmode == rxmode and txmode == "Tone" and mem.rtone == mem.ctone:
|
|
mem.tmode = "TSQL"
|
|
elif txmode == rxmode and txmode == "DTCS" and mem.dtcs == mem.rx_dtcs:
|
|
mem.tmode = "DTCS"
|
|
mem.rx_dtcs = mem.dtcs
|
|
dtcs_polarity[1] = dtcs_polarity[0]
|
|
elif rxmode or txmode:
|
|
mem.tmode = "Cross"
|
|
mem.cross_mode = "%s->%s" % (txmode, rxmode)
|
|
# ########## TONE ##########
|
|
|
|
mem.mode = self.MODES[_mem.mode]
|
|
mem.power = POWER_LEVELS[int(_mem.power)]
|
|
|
|
rs = RadioSettingValueList(B_LOCK_LIST,
|
|
B_LOCK_LIST[min(_mem.b_lock, 0x02)])
|
|
b_lock = RadioSetting("b_lock", "B_Lock", rs)
|
|
mem.extra.append(b_lock)
|
|
|
|
optsig = RadioSetting("signal", "Optional signaling",
|
|
RadioSettingValueList(
|
|
OPTSIG_LIST,
|
|
OPTSIG_LIST[_mem.signal]))
|
|
mem.extra.append(optsig)
|
|
|
|
vlist = RadioSettingValueList(PTTID_LIST, PTTID_LIST[_mem.dtmfpttid])
|
|
dtmfpttid = RadioSetting("dtmfpttid", "DTMF PTT ID", vlist)
|
|
mem.extra.append(dtmfpttid)
|
|
|
|
vlist2 = RadioSettingValueList(PTTID_LIST,
|
|
PTTID_LIST[_mem.fivetonepttid])
|
|
fivetonepttid = RadioSetting("fivetonepttid", "5 Tone PTT ID", vlist2)
|
|
mem.extra.append(fivetonepttid)
|
|
|
|
return mem
|
|
|
|
def _set_memory(self, mem, _mem, _name):
|
|
# """Convert UI column data (mem) into MEM_FORMAT memory (_mem)."""
|
|
|
|
_mem.rxfreq = mem.freq / 10
|
|
_mem.tuning_step = STEPS.index(mem.tuning_step)
|
|
if mem.duplex == "off":
|
|
_mem.txfreq = 0xFFFFFFFF
|
|
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.rxfreq
|
|
|
|
out_name = mem.name.ljust(16)
|
|
|
|
for i in range(6): # 0 - 6
|
|
_mem.name[i] = ord(out_name[i])
|
|
if mem.number < 200:
|
|
for i in range(10):
|
|
_name.extra_name[i] = ord(out_name[i+6])
|
|
|
|
# autoset display to name if filled, else show frequency
|
|
if mem.name != "":
|
|
_mem.display = True
|
|
else:
|
|
_mem.display = False
|
|
rxmode = ""
|
|
txmode = ""
|
|
sql_mode = "SQ"
|
|
if mem.tmode == "":
|
|
sql_mode = "SQ"
|
|
_mem.rxtone = 0xFFF
|
|
_mem.txtone = 0xFFF
|
|
elif mem.tmode == "Tone":
|
|
txmode = "Tone"
|
|
sql_mode = "SQ"
|
|
_mem.txtone = int(float(mem.rtone) * 10)
|
|
_mem.rxtone = 0xFFF
|
|
elif mem.tmode == "TSQL":
|
|
rxmode = "Tone"
|
|
txmode = "TSQL"
|
|
sql_mode = "CT"
|
|
_mem.rxtone = int(float(mem.ctone) * 10)
|
|
_mem.txtone = int(float(mem.ctone) * 10)
|
|
elif mem.tmode == "DTCS":
|
|
rxmode = "DTCS"
|
|
txmode = "DTCS"
|
|
sql_mode = "CT"
|
|
if mem.dtcs_polarity[0] == "N":
|
|
_mem.txtone = int(str(mem.dtcs), 8)
|
|
else:
|
|
_mem.txtone = int(str(mem.dtcs), 8) | 0x8000
|
|
if mem.dtcs_polarity[1] == "N":
|
|
_mem.rxtone = int(str(mem.dtcs), 8)
|
|
else:
|
|
_mem.rxtone = int(str(mem.dtcs), 8) | 0x8000
|
|
elif mem.tmode == "Cross":
|
|
txmode, rxmode = mem.cross_mode.split("->", 1)
|
|
if rxmode == "":
|
|
_mem.rxtone = 0xFFF
|
|
sql_mode = "SQ"
|
|
elif rxmode == "Tone":
|
|
sql_mode = "CT"
|
|
_mem.rxtone = int(float(mem.ctone) * 10)
|
|
elif rxmode == "DTCS":
|
|
sql_mode = "CT"
|
|
if mem.dtcs_polarity[0] == "N":
|
|
_mem.rxtone = int(str(mem.rx_dtcs), 8)
|
|
else:
|
|
_mem.rxtone = int(str(mem.rx_dtcs), 8) | 0x8000
|
|
if txmode == "":
|
|
_mem.txtone = 0xFFF
|
|
elif txmode == "Tone":
|
|
_mem.txtone = int(float(mem.rtone) * 10)
|
|
elif txmode == "TSQL":
|
|
_mem.txtone = int(float(mem.rtone) * 10)
|
|
elif txmode == "DTCS":
|
|
if mem.dtcs_polarity[1] == "N":
|
|
_mem.txtone = int(str(mem.dtcs), 8)
|
|
else:
|
|
_mem.txtone = int(str(mem.dtcs), 8) | 0x8000
|
|
_mem.sqlmode = SQL_MODES.index(sql_mode)
|
|
_mem.mode = self.MODES.index(mem.mode)
|
|
_mem.power = 0 if mem.power is None else POWER_LEVELS.index(mem.power)
|
|
|
|
for element in mem.extra:
|
|
setattr(_mem, element.get_name(), element.value)
|
|
|
|
return
|
|
|
|
def get_settings(self):
|
|
"""Translate the MEM_FORMAT structs into setstuf in the UI"""
|
|
_settings = self._memobj.basicsettings
|
|
# _settings2 = self._memobj.settings2
|
|
# _workmode = self._memobj.workmodesettings
|
|
|
|
basic = RadioSettingGroup("basic", "Basic Settings")
|
|
group = RadioSettings(basic)
|
|
|
|
# Display Mode
|
|
options = ['Frequency', 'Channel #', 'Name']
|
|
rx = RadioSettingValueList(options, options[_settings.disMode])
|
|
rset = RadioSetting("basicsettings.disMode", "Display Mode", rx)
|
|
basic.append(rset)
|
|
|
|
# Subscreen Mode
|
|
options = ['Off', 'Frequency', 'Voltage']
|
|
rx = RadioSettingValueList(options, options[_settings.subDisplay])
|
|
rset = RadioSetting("basicsettings.subDisplay", "Subscreen Mode", rx)
|
|
basic.append(rset)
|
|
|
|
# Squelch Level
|
|
options = ["OFF"] + ["%s" % x for x in range(1, 10)]
|
|
rx = RadioSettingValueList(options, options[_settings.sqlLevel])
|
|
rset = RadioSetting("basicsettings.sqlLevel", "Squelch Level", rx)
|
|
basic.append(rset)
|
|
|
|
# Tone Burst Frequency
|
|
options = ['1750', '2100', '1000', '1450']
|
|
rx = RadioSettingValueList(options, options[_settings.burstFreq])
|
|
rset = RadioSetting("basicsettings.burstFreq",
|
|
"Tone Burst Frequency (Hz)", rx)
|
|
basic.append(rset)
|
|
|
|
# PTT Release
|
|
options = ['Off', 'Begin', 'End', 'Both']
|
|
rx = RadioSettingValueList(options, options[_settings.pttRelease])
|
|
rset = RadioSetting("basicsettings.pttRelease", "PTT Release", rx)
|
|
basic.append(rset)
|
|
|
|
# TX Channel Select
|
|
options = ["Last Channel", "Main Channel"]
|
|
rx = RadioSettingValueList(options, options[_settings.txChSelect])
|
|
rset = RadioSetting("basicsettings.txChSelect",
|
|
"Priority Transmit", rx)
|
|
basic.append(rset)
|
|
|
|
# LED Mode
|
|
options = ["On", "5 Second", "10 Second"]
|
|
rx = RadioSettingValueList(options, options[_settings.ledMode])
|
|
rset = RadioSetting("basicsettings.ledMode", "LED Display Mode", rx)
|
|
basic.append(rset)
|
|
|
|
# Scan Type
|
|
options = ["TO", "CO", "SE"]
|
|
rx = RadioSettingValueList(options, options[_settings.scanType])
|
|
rset = RadioSetting("basicsettings.scanType", "Scan Type", rx)
|
|
basic.append(rset)
|
|
|
|
# Resume Time
|
|
options = ["2 seconds", "5 seconds", "10 seconds", "15 seconds"]
|
|
rx = RadioSettingValueList(options, options[_settings.scanResumeTime])
|
|
rset = RadioSetting("basicsettings.scanResumeTime",
|
|
"Scan Resume Time", rx)
|
|
basic.append(rset)
|
|
|
|
# Tail Elim
|
|
options = ["Off", "Frequency", "No Frequency"]
|
|
rx = RadioSettingValueList(options, options[_settings.sqlTailElim])
|
|
rset = RadioSetting("basicsettings.sqlTailElim", "Sql Tail Elim", rx)
|
|
basic.append(rset)
|
|
|
|
# Auto Power Off
|
|
options = ["Off", "30 minute", "60 minute", "120 minute"]
|
|
rx = RadioSettingValueList(options, options[_settings.autoPowOff])
|
|
rset = RadioSetting("basicsettings.autoPowOff", "Auto Power Off", rx)
|
|
basic.append(rset)
|
|
|
|
# TOT
|
|
options = ["Off"] + ["%s minutes" % x for x in range(1, 31, 1)]
|
|
rx = RadioSettingValueList(options, options[_settings.tot])
|
|
rset = RadioSetting("basicsettings.tot",
|
|
"Transmission Time-out Timer", rx)
|
|
basic.append(rset)
|
|
|
|
# Beep
|
|
rx = RadioSettingValueBoolean(_settings.beep)
|
|
rset = RadioSetting("basicsettings.beep", "Keypad Beep", rx)
|
|
basic.append(rset)
|
|
|
|
# Volume
|
|
options = ["%s" % x for x in range(0, 16)]
|
|
rx = RadioSettingValueList(options, options[_settings.volume])
|
|
rset = RadioSetting("basicsettings.volume",
|
|
"Volume", rx)
|
|
basic.append(rset)
|
|
|
|
# Require Power On Password
|
|
rx = RadioSettingValueBoolean(_settings.usePowerOnPw)
|
|
rset = RadioSetting("basicsettings.usePowerOnPw",
|
|
"Require Power On Password", rx)
|
|
basic.append(rset)
|
|
|
|
# Power On Password Value
|
|
pwdigits = ""
|
|
for i in range(6): # 0 - 6
|
|
char = chr(_settings.powerOnPw[i])
|
|
pwdigits += char
|
|
rx = RadioSettingValueString(0, 6, pwdigits)
|
|
rset = RadioSetting("basicsettings.powerOnPw", "Power On Password", rx)
|
|
basic.append(rset)
|
|
|
|
# Intro Screen
|
|
'''
|
|
#disabling since the memory map for this is still a bit ambigiuous
|
|
options = ["Off", "Image", "Character String"]
|
|
rx = RadioSettingValueList(options, options[_settings.introScreen])
|
|
rset = RadioSetting("basicsettings.introScreen", "Intro Screen", rx)
|
|
basic.append(rset)
|
|
'''
|
|
|
|
key_options = ["A/B", "Low", "Monitor", "Scan",
|
|
"Tone", "M/V", "MHz", "Mute"]
|
|
# LO key function
|
|
options = key_options
|
|
rx = RadioSettingValueList(options, options[_settings.lowKeyFunc])
|
|
rset = RadioSetting("basicsettings.lowKeyFunc", "LO Key Function", rx)
|
|
basic.append(rset)
|
|
|
|
# Mz key function
|
|
options = key_options
|
|
rx = RadioSettingValueList(options, options[_settings.mzKeyFunc])
|
|
rset = RadioSetting("basicsettings.mzKeyFunc", "Mz Key Function", rx)
|
|
basic.append(rset)
|
|
|
|
# CT key function
|
|
options = key_options
|
|
rx = RadioSettingValueList(options, options[_settings.ctKeyFunc])
|
|
rset = RadioSetting("basicsettings.ctKeyFunc", "CT Key Function", rx)
|
|
basic.append(rset)
|
|
|
|
# V/M key function
|
|
options = key_options
|
|
rx = RadioSettingValueList(options, options[_settings.vmKeyFunc])
|
|
rset = RadioSetting("basicsettings.vmKeyFunc", "V/M Key Function", rx)
|
|
basic.append(rset)
|
|
|
|
# A/B key function
|
|
options = key_options
|
|
rx = RadioSettingValueList(options, options[_settings.abKeyFunc])
|
|
rset = RadioSetting("basicsettings.abKeyFunc", "A/B Key Function", rx)
|
|
basic.append(rset)
|
|
|
|
# Menu Operation
|
|
rx = RadioSettingValueBoolean(_settings.menuOperation)
|
|
rset = RadioSetting("basicsettings.menuOperation",
|
|
"Menu Operation", rx)
|
|
basic.append(rset)
|
|
|
|
# SQ tail elim with no tone option
|
|
rx = RadioSettingValueBoolean(_settings.elimTailNoTone)
|
|
rset = RadioSetting("basicsettings.elimTailNoTone",
|
|
"Eliminate Squelch Tail When No CT/DCS Signalling",
|
|
rx)
|
|
basic.append(rset)
|
|
|
|
# Disable Reset Option
|
|
rx = RadioSettingValueBoolean(_settings.disableReset)
|
|
rset = RadioSetting("basicsettings.disableReset", "Disable Reset", rx)
|
|
basic.append(rset)
|
|
'''
|
|
advanced = RadioSettingGroup("advanced", "Advanced Settings")
|
|
group.append(advanced)
|
|
|
|
# software only
|
|
options = ['Off', 'Frequency']
|
|
rx = RadioSettingValueList(options, options[_settings.endToneElim])
|
|
rset = RadioSetting("basicsettings.endToneElim", "End Tone Elim", rx)
|
|
advanced.append(rset)
|
|
|
|
# software only
|
|
name = ""
|
|
for i in range(15): # 0 - 15
|
|
char = chr(int(self._memobj.openradioname.name1[i]))
|
|
if char == "\x00":
|
|
char = " " # Other software may have 0x00 mid-name
|
|
name += char
|
|
name = name.rstrip() # remove trailing spaces
|
|
|
|
rx = RadioSettingValueString(0, 15, name)
|
|
rset = RadioSetting("openradioname.name1", "Intro Line 1", rx)
|
|
advanced.append(rset)
|
|
|
|
# software only
|
|
name = ""
|
|
for i in range(15): # 0 - 15
|
|
char = chr(int(self._memobj.openradioname.name2[i]))
|
|
if char == "\x00":
|
|
char = " " # Other software may have 0x00 mid-name
|
|
name += char
|
|
name = name.rstrip() # remove trailing spaces
|
|
|
|
rx = RadioSettingValueString(0, 15, name)
|
|
rset = RadioSetting("openradioname.name2", "Intro Line 2", rx)
|
|
advanced.append(rset)
|
|
'''
|
|
|
|
def myset_mask(setting, obj, atrb, nx):
|
|
if bool(setting.value): # Enabled = 1
|
|
vx = 1
|
|
else:
|
|
vx = 0
|
|
_do_map(nx + 1, vx, self._memobj.fmmap.fmset)
|
|
return
|
|
|
|
def myset_freq(setting, obj, atrb, mult):
|
|
""" Callback to set frequency by applying multiplier"""
|
|
value = int(float(str(setting.value)) * mult)
|
|
setattr(obj, atrb, value)
|
|
return
|
|
|
|
return group # END get_settings()
|
|
|
|
def set_settings(self, settings):
|
|
_settings = self._memobj.basicsettings
|
|
# _mem = self._memobj
|
|
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 setting == "powerOnPw":
|
|
temp = []
|
|
for c in element.value:
|
|
temp.append(ord(c))
|
|
LOG.debug("Setting %s = %s" % (setting, element.value))
|
|
setattr(obj, setting, temp)
|
|
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
|